1758 lines
85 KiB
HTML
Executable File
1758 lines
85 KiB
HTML
Executable File
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<TITLE>FTSC Document FSP-1011, Revision 003</TITLE>
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<PRE>
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**********************************************************************
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FTSC FIDONET TECHNICAL STANDARDS COMMITTEE
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**********************************************************************
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Publication: FSP-1011
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Revision: 3
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Title: Binkp - a protocol for transferring FidoNet mail over
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reliable connections
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Authors: Dima Maloff
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Nick Soveiko
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Maxim Masiutin
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Revision Date: 31 July 2000
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Expiry Date: 31 July 2002
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----------------------------------------------------------------------
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Abstract
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--------
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This specification defines binkp - a protocol to handle a session
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between two Fidonet Technology systems over a reliable connection.
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Assumption that the connection is reliable makes possible to
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eliminate error-checking and unnecessary synchronization steps,
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achieving both ease of implementation and major performance
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improvement over connections with large unpredictable delays (e.g.
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Internet).
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Status of this document
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-----------------------
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This document is a Fidonet Standards Proposal (FSP).
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This document specifies an optional Fidonet standard protocol for
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the Fidonet community, and requests discussion and suggestions for
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improvements.
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This document is released to the public domain, and may be used,
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copied or modified for any purpose whatever.
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Available formats
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-----------------
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Binkp Specification is also available in HTML format at
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http://www.ritlabs.com/binkp/
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Table of contents
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-----------------
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1. Background
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1. Objectives
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2. Motivation for a New Protocol
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2. Definitions
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3. Protocol Overview
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4. Frame Format
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1. Notation
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2. Examples
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5. Protocol Commands and Their Arguments
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1. Classification
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2. File Name Issues
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3. Non-ASCII Characters in Command Argument symbol string
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4. Binkp Commands
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5. Example of Frame Exchange in a Simple binkp Session
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6. Protocol States
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1. Session Setup Stage
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1. Originating Side
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2. Answering Side
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2. File Transfer Stage
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3. Session Termination
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7. Recommended Protocol Extensions
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1. Non-Reliable Mode
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2. Multiple Batch Mode
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3. Multiple Passwords Mode
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4. Keyed Hashing Challenge-Response Authentication Mechanism
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1. Overview
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2. Sequence of Steps
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3. Generating and Transmitting Challenge Data
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4. Producing and Transmitting a Digest
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5. Indicating CRAM Capabilities
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6. Example of Frame Exchange During CRAM Authentication
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7. Notes on Hash Function Algorithms
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8. License
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9. Glossary
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10. References
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11. Acknowledgements
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A. Author Contact Data
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B. History
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---------------------------------------------------------------
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1. Background
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-------------
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1.1 Objectives
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--------------
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It's been a long time since a new Fidonet protocol has been
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developed, [EMSI] definitions being published last time in 1991,
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not speaking about basic standards, [FTS-0001] and [FTS-0006].
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Fidonet is evolving everyday and new transport layers are being
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introduced into practice. This led to a situation when in certain
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Fidonet Regions a visible portion of traffic, especially long
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distance traffic generating high toll, is being carried by means of
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protocols that formally are not Fidonet standards. This creates an
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ambiguity for such systems in indicating their additional
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capabilities in Fidonet nodelist and in some instances, from being
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listed in the nodelist at all.
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This document attempts to document the current practice for
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communication between two Fidonet systems via a reliable channel,
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provide technical reference for Fidonet software developers and
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eventually improve Fidonet connectivity.
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1.2 Motivation for a new protocol
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---------------------------------
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Existing Fidonet Technical Standards and Fidonet Reference Library
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documents [FTS-0001], [FTS-0006], [EMSI] specify both session
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handshake procedures and transmission capabilities that imply:
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* non-reliable communication channel between mailers
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* low round-trip times in the communication channel between
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mailers.
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This was commonplace a few years ago, when Fidonet systems were not
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using transport other than direct dial-up on a visible basis.
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Things have changed today, when other communication media becomes
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widely available on a day-to-day basis. This communication media
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typically provides implementation of Physical, Data Link, Network
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and Transport layers of the ISO/OSI Reference Model and facilitates
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relieving Session layer of inappropriate functions, such as error
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control, flow control, call management and data transparency
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[Halsall95]. Examples of such communication media are TCP/IP socket
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connection and HDLC family protocol connection.
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New communication media can be generally characterized by the
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reliable transmission service offered by it to the Session layer
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protocol. Reliable transmission implies that:
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* Data link and/or Transport layer protocols are responsible for
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error control and delivery of frames in correct sequence
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* Session layer and higher layer protocols are operating on top
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of connection-oriented mode
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* Quality of Service provisions (if any) result in unspecified
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delays between transmitter and receiver
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* connections are rarely aborted.
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Combination of these factors imposed the following requirements for
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the new Fidonet protocol:
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* error control can be eliminated throughout the session layer
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protocol for both handshake and default file transfer method
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* session setup procedure should minimize number of
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synchronization points for fast handshake
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* protocol should be insensitive to delays and robust with
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respect to timeouts
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* application flow control should be moved to file level;
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individual data frames do not need to be error checked nor
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acknowledged
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* protocol should be independent from both higher and lower layer
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protocols
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* protocol should be reasonably easy to implement and allow
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future extensions.
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2. Definitions
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--------------
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The key words "MUST", "MUST NOT", "SHOULD", "SHOULD NOT" and "MAY"
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in this document are to be interpreted as specified in [FTA-0006].
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However, for readability, these words may sometimes not appear in
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all uppercase letters in this specification. Although it should not
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impact minimal realization of binkp protocol, it must be noted that
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Protocol Extensions may override, update or obsolete requirement
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levels indicated by the above keywords in chapters from 3 to 6
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inclusive.
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Calling party in this document is referred to as the Originating
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side and called party is referred to as the Answering side.
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Originating side here is the party that initiates the connection
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between two systems.
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Mailer in this document is a software that implements the protocol.
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Words "frame", "packet", and "block" when used in this document
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refer to binkp's Frames, unless explicitly stated otherwise.
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Other definitions that are not local to this document can be found
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in the Glossary.
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This document is organized as following:
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Frames section defines binkp's frames. Binkp/1.0 commands and their
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arguments section provides detailed description of all defined
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protocol commands together with recommendations for their usage.
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Actual binkp implementation may match it's own diagrams provided
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that such implementation remains fully compatible with current
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specification. Protocol states section gives rigorous state
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diagrams for the minimum realization of binkp. All mailers MUST
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support this minimum realization. Recommended Protocol Extensions
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section documents most important extensions to the basic protocol
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that are in use as of the time of this writing. The License,
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Glossary and References sections can be found at the end of this
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document.
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3. Protocol Overview
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--------------------
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Binkp is a Fidonet session layer protocol intended for use over
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data transparent bi-directional channels with reliable
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transmission. There are no other requirements for the service
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provided by the underlying protocol suite. Presentation and
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application layer protocols are not discussed here. Whenever TCP/IP
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socket is used, IANA registered port number for binkp 24554 SHOULD
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be used (as registered with the Internet Assigned Numbers
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Authority).
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Functionality of the minimum protocol realization makes provision
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for:
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* password protected sessions
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* 4D/5D addressing for Fidonet and technology compatible networks
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* exchange of Type 2 [FTS-0001], Type 2.2 [FSC-0045], Type 2+
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[FSC-0039] and [FSC-0048], Type 3 [FSC-0081] packets and
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[FTS-0006] arcmail in both directions, including poll and mail
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pickup, as well as transfer of any binary or ASCII files
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* handling WaZOO [FTS-0006] file requests
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* ensuring integrity of transmitted mail and files
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* simultaneous bi-directional transmission
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* maximizing performance over packet switched data networks
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Binkp uses only one synchronization point during session startup,
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that is password exchange. This feature facilitates fast session
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startup for high latency links. Sliding window flow control is
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incorporated on the file level. This ensures that a batch of small
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files is transmitted with the same efficiency as a one large file.
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4. Frame Format
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---------------
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Binkp is defined in terms of sending and receiving specifically
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formatted data blocks. We call them frames.
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Command frames carry protocol commands and may change protocol
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state. Data frames are usually appended to files being received by
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mailers or may be discarded, depending on the protocol state.
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The particular way of mapping an octet stream or a datagram stream
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of the transport layer into binkp frames may depend on the
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underlying protocol suite. At this time, we define such mapping for
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TCP/IP socket connection which can also be used for similar
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transports as well.
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The socket stream is being split into binkp frames in the following
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manner:
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7 6543210 76543210
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+-+-------+--------+--- ................ ---+
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|T| SIZE | DATA |
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+-+-------+--------+--- ................ ---+
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|<- 2 octets ->|<- up to 32767 octets ->|
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(frame header) (frame data)
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If T bit is 0, this is a data frame.
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If T bit is 1, this is a command frame.
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15 bits marked SIZE carry the size of the DATA part of the frame in
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octets (with the bit marked 0 being the least significant). That
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is, the actual length of a binkp frame is SIZE+2.
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The size of the DATA part may vary between 1 and 32767 octets. A
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correct realization should never set SIZE to 0. Upon receiving of a
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packet header with the SIZE field set to 0, the total length of the
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incoming packet must be treated as 2, this packet must be dropped,
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and the event should be logged.
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The first octet of a command frame data is the command ID. The ID
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must be between 0 and 127 inclusive.
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Other octets carry command arguments. Command arguments are an
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arbitrary symbol string that may be null-terminated. Treating of a
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null character in the middle of a command depends on realization
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(with the options being "treat as whitespace" or "treat as
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end-of-line"). The terminating null character (if any) is either
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stripped or used by mailers internally as an end-of-line marker.
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4.1 Notation
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------------
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As stated before, command ID is a small number between 0 and 127.
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Every binkp command defined in this document has a symbolic name in
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the form M_XXX. Symbolic names are defined in binkp commands
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section. We will use symbolic names and not numeric command IDs to
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refer to commands everywhere in this document.
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The following notation is used to describe binkp's command frames:
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M_XXX "Data string"
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The actual numeric command ID for the command with the symbolic
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name of M_XXX should be written into the first octet of the DATA
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area of a binkp frame. "Data string" is a string to be copied into
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DATA area starting at second octet. SIZE should be set to the total
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length of "Data string" plus one for the octet to store the command
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number. T bit should be set to 1.
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4.2 Examples
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------------
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M_OK "":
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7 6543210 76543210 76543210
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+-+-------+--------+--------+
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|1| 0 1| 4|
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+-+-------+--------+--------+
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| | +----- command ID (no arguments)
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| +-------- frame length
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+- command frame flag
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M_NUL "TEST":
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+-+-------+--------+--------+-------+--------+--------+--------+
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|1| 0 5| 0| T E S T |
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+-+-------+--------+--------+-------+--------+--------+--------+
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5. Protocol Commands and Their Arguments
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----------------------------------------
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5.1 Classification
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------------------
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Protocol commands may be classified the following way:
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* By argument type:
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M_SKIP. Mailer MUST parse these commands and it is not
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recommended to log arguments of these commands as they
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are. Mailer-parseable commands can be further subdivided
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by containment of a file name in the argument.
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commands contain a file name in their arguments.
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MAY ignore and/or log arguments of these commands.
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* By protocol stage:
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M_PWD (must not be sent by the Answering side), M_OK (must
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not be sent by the Originating side). These commands MUST
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never be sent during the file transfer stage.
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These commands MUST NOT be sent session setup stage.
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any time during the session.
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5.2 File Name Issues
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--------------------
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In Mailer-parseable commands that contain a file name, the file
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name MUST NOT include a whitespace (ASCII value 20 hex). The file
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name SHOULD NOT include symbols other than alphanumeric
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(A-Z,a-z,0-9) and safe characters as defined below in BNF. All
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other symbols are to be considered unsafe and SHOULD be escaped in
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the form of two hexadecimal digits preceded by a backslash (e.g. a
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whitespace must be transmitted as "\20").
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filename = *pchar
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pchar = unreserved | escape
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unreserved = ALPHA | DIGIT | safe
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safe = "@" | "&" | "=" | "+" | "%" | "$" | "-" | "_" |
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"." | "!" | "(" | ")" | "#" | "|"
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escape = "\" HEX HEX
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National characters should not be escaped, but rather transmitted
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using [UTF8] encoding (see section discussing non-ASCII characters
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below).
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The best current practice is that Mailer does not alter a file name
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without sysop's intention. If the mailer does provide such a
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mechanism, it MUST BE optional and it SHOULD BE off by default.
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The protocol does not impose limitations on the file name length
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other than those arising from the finite length of the binkp frame
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itself.
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5.3 Non-ASCII Characters in Command Argument Symbol String
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----------------------------------------------------------
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Generally, mailer SHOULD use only characters from the ASCII range
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[32...126] in the symbol strings for command arguments. In case
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when there is a necessity to use non-ASCII characters, mailer
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SHOULD use the [UTF8] format of the multioctet Universal Character
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Set [ISO10646]. Mailer SHOULD use non-ASCII characters only if the
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other side have indicated it's support by transmitting M_NUL "OPT
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UTF8" frame during the session setup stage. Otherwise, mailer
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SHOULD assume that the remote does not support non-ASCII characters
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and SHOULD NOT use them in command arguments.
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5.4 Binkp Commands
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------------------
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Format: symbolic_command_name command_ID
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M_NUL 0
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Command arguments contain human-readable information, such
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as nodelist info, sysop name, etc. This frame can also be
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used by some Mailers to exchange protocol options. Mailer
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MAY ignore and/or log arguments of M_NUL.
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e.g. "ZYZ Dima Maloff"
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The following format of M_NUL argument is recommended for
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compatibility purposes:
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* M_NUL "SYS system_name"
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* M_NUL "ZYZ sysop's_name"
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* M_NUL "LOC system_location"
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* M_NUL "NDL system_capabilities"
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* M_NUL "TIME remote_date_time"
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remote_date_time format is described in [RFC822].
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Example of valid remote_date_time is
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Sun, 06 Nov 1994 08:49:37 GMT
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* M_NUL "VER mailer_version protocol_version"
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note: binkp/1.0 mailers should send "binkp/1.0" string
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for protocol_version.
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* M_NUL "TRF netmail_bytes arcmail_bytes"
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traffic prognosis (in bytes) for the netmail
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(netmail_bytes) and arcmail and files (arcmail_bytes),
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both are decimal ASCII strings
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* M_NUL "OPT protocol options"
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here protocol options is a space separated list of
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binkp options and extensions supported by the mailer.
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* M_NUL "PHN string"
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phone number, ip address or other network layer
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addressing ID
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* M_NUL "OPM string"
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string is a message for the system operator that may
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require manual attention
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M_ADR 1
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List of 4D/5D addresses (space separated).
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e.g. "2:5047/13@fidonet 2:5047/0@fidonet"
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M_PWD 2
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Session password, case sensitive. After successful password
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authentication of the remote, originating side proceeds to
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the file transfer stage. This command MUST never be sent by
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the Answering side.
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e.g. "pAsSwOrD"
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M_OK 4
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Acknowledgement for a correct password. Upon receiving of
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this command, originating side goes to file transfer stage.
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This command MUST never be sent by the Originating side.
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Arguments may be ignored.
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e.g. ""
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M_FILE 3
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Space separated list of parameters for the next file to be
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transmitted: filename; size in bytes; unixtime; file
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transmission offset.
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In protocol extensions, negative values for the offset may
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have special meaning (see non-reliable mode for an example
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of such usage), basic implementation may treat negative
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values as an error.
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Size, time and offset parameters are decimal. Until the
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next M_FILE command is received, all data frames must carry
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data from this file in consecutive manner. There is no end
|
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of file identifier as the file size is known beforehand. If
|
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there are "extra" data frames, Mailer may append this data
|
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to the file. By default, transmission of each file should
|
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be started from offset 0. M_GET command sent by the remote
|
|
MUST force the mailer to start transmission from the
|
|
specified offset.
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e.g. "config.sys 125 2476327846 0"
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or, answering to M_GET with offset 100:
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"config.sys 125 2476327846 100"
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M_EOB 5
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|
End-of-Batch. M_EOB command must be transmitted after all
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the files have been sent.
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Arguments of the command may be ignored.
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e.g. ""
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M_GOT 6
|
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File acknowledgement, that must be transmitted upon
|
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receiving of the last data frame for current file.
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Arguments for this command shall be the same as for the
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M_FILE sent by remote, excluding the last argument, file
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offset, which is not transmitted back to the system which
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have sent M_FILE. M_GOT can also be transmitted while
|
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receiving a file, in which case transmitting party may
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interpret it as a destructive skip.
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e.g. "config.sys 125 2476327846"
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M_ERR 7
|
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|
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This command indicates a fatal error. A party sending M_ERR
|
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should abort the session. Argument should contain an error
|
|
explanation and may be logged. Mailer sends M_ERR in
|
|
response for an incorrect password. Mailer NUST NOT abort a
|
|
session without sending a M_ERR or a M_BSY frame (though
|
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state machine tables, for simplicity, may not include
|
|
"transmit M_ERR" instructions).
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e.g. "Incorrect password"
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M_BSY 8
|
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|
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M_BSY command is transmitted when the system encounters a
|
|
non-fatal error typically due to temporary lack of
|
|
resources to proceed with the session. The argument should
|
|
contain an explanation of the situation and may be logged
|
|
by remote. M_BSY may be sent at any time during the session
|
|
(including session setup stage), not only the stages
|
|
explicitly indicated in the finite state machine. The side,
|
|
which have sent M_BSY, is in legal position to abort the
|
|
session. Mailer MUST be able to accept M_BSY at any time.
|
|
Though state machine tables, for simplicity, may not
|
|
include handling of M_BSY command, Mailer MUST NOT be
|
|
confused by reception of M_BSY command.
|
|
|
|
e.g. "Too many servers are running already"
|
|
|
|
If a mailer wishes to suggest the remote a time interval
|
|
before the next session attempt, it may choose to transmit
|
|
it in the following format:
|
|
|
|
M_BSY "RETRY NNNN: explanation"
|
|
|
|
where NNNN is interval in seconds (decimal string) and
|
|
explanation is an arbitrary string containing explanation
|
|
of the matter (optional).
|
|
|
|
M_GET 9
|
|
|
|
M_GET command is a request to (re)send files. Arguments of
|
|
the command are the same as for the M_FILE command and
|
|
refer to a file which we'd like to receive from the remote.
|
|
|
|
Mailer may send M_GET when it doesn't like transmission
|
|
file offset (e.g. file was partially received during one of
|
|
the previous sessions).
|
|
|
|
e.g. "config.sys 125 2476327846 100"
|
|
|
|
Mailer reacts to this command as follows: according to the
|
|
first three arguments (filename/size/unixtime), it
|
|
determines whether the M_GET argument is the current file
|
|
being transmitted to the remote (or a file that have been
|
|
transmitted, but we are still waiting an M_GOT ack for it).
|
|
If this is the case, it should
|
|
|
|
* discard transmission in progress as soon as possible
|
|
* perform seek() to the specified offset
|
|
* proceed with transmission of the file requested
|
|
starting with an appropriate M_FILE.
|
|
|
|
For the example above, corresponding M_FILE will have the
|
|
following arguments: "config.sys 125 2476327846 100"
|
|
|
|
When the mailer is finished with transmitting data of the
|
|
requested file it may proceed with transmission of other
|
|
files it has for the remote.
|
|
|
|
M_SKIP 10
|
|
|
|
Non destructive skip. Parameter is a space separated list
|
|
of filename, size and unixtime. This command indicates that
|
|
the remote should postpone sending the file until next
|
|
session.
|
|
|
|
e.g. "config.sys 125 2476327846"
|
|
|
|
5.5 Example of Frame Exchange in a Simple Binkp Session
|
|
-------------------------------------------------------
|
|
|
|
+-----------------------------------------------------------------+
|
|
| Originating side | Answering side |
|
|
|---------------------------------+-------------------------------|
|
|
| M_NUL "SYS ..." | M_NUL "SYS ..." |
|
|
| M_NUL "ZYZ ..." | M_NUL "ZYZ ..." |
|
|
| M_NUL "LOC ..." | M_NUL "LOC ..." |
|
|
| M_NUL "VER ..." | M_NUL "VER ..." |
|
|
| M_ADR "2:2/2.2@fidonet" | M_ADR "3:3/3.3@fidonet" |
|
|
| M_PWD "password" | (waiting for a password from |
|
|
| | remote) |
|
|
|---------------------------------+-------------------------------|
|
|
| (waiting for password | M_OK "" (or M_ERR "Bad |
|
|
| acknowledgement) | password") |
|
|
|---------------------------------+-------------------------------|
|
|
| (got M_OK) | M_FILE "file2 200 42342434 0" |
|
|
|---------------------------------+-------------------------------|
|
|
| M_FILE "file1 100 423424244 0" | data |
|
|
|---------------------------------+-------------------------------|
|
|
| data | data |
|
|
|---------------------------------+-------------------------------|
|
|
| data | data |
|
|
|---------------------------------+-------------------------------|
|
|
| M_EOB | (got file1, acknowledging it) |
|
|
|---------------------------------+-------------------------------|
|
|
| (got file2, acknowledging it) | M_GOT "file1 100 423424244" |
|
|
|---------------------------------+-------------------------------|
|
|
| M_GOT "file2 200 42342434" | data |
|
|
|---------------------------------+-------------------------------|
|
|
| | M_EOB |
|
|
+-----------------------------------------------------------------+
|
|
|
|
6. Protocol States
|
|
------------------
|
|
|
|
The protocol has two major stages: session setup (different for
|
|
originating side and answering side) and file transfer (where state
|
|
machined for both sides are the same). Methods for initiating
|
|
connection as well as numerical values for particular timeouts are
|
|
dependent on the underlying layer's protocol suite and are not
|
|
considered here. Mailer MAY allow configuration of timeouts in
|
|
reasonably wide range to cover all supported transport protocols.
|
|
|
|
The Finite State Machine notation is used throughout this section
|
|
as defined by [FTS-0001].
|
|
|
|
6.1 Session Setup Stage
|
|
-----------------------
|
|
|
|
Originating side should initiate a binkp session according to Table
|
|
1. Answering side should be able to act according to Table 2. Any
|
|
optional extensions of the handshake procedure MUST NOT confuse the
|
|
other side, which may choose at it's discretion to follow this
|
|
minimal implementation. Upon successful handshake, both sides
|
|
follow Table 3 (file transfer stage). That's why terms Answering
|
|
side and Originating side were chosen for this specification
|
|
instead of Client and Server - both sides play the same roles, and
|
|
their state machines differ in session setup stage only.
|
|
|
|
Session setup stage has the following roles
|
|
|
|
* Authentication (REQUIRED). Answering side, upon reception of a
|
|
password (common secret word) from Originating side, decides
|
|
whether the password really matches the list of presented
|
|
addresses, and either acknowledges it by sending M_OK frame or
|
|
rejects by sending M_ERR frame. This mechanism is called Basic
|
|
Authentication Scheme and MUST be supported by all Mailers.
|
|
Basic Authentication Scheme has the following limitations:
|
|
* If Originating side presented multiple addresses, the
|
|
password for all of the addresses must be the same (may be
|
|
solved by Multiple passwords extension).
|
|
* Cleartext reusable passwords are passed over a network
|
|
(may be solved by CRAM extension).
|
|
* Verification is made on Answering side only, thus
|
|
Originating side has no way to verify Answering side (may
|
|
be solved by dual CRAM or public-key cryptography, not
|
|
discussed in this document).
|
|
* Indicating protocol options (OPTIONAL). Sides may exchange
|
|
specially formatted M_NUL messages to indicate supported
|
|
extensions. Sides MAY use another technique to indicate
|
|
extensions.
|
|
|
|
6.1.1 Originating Side
|
|
----------------------
|
|
|
|
Originating side sends M_ADR and M_PWD frames, waits for successful
|
|
authentication acknowledgement from the Answering side (M_OK frame)
|
|
and goes to file transfer stage. Originating side MUST NOT wait
|
|
before sending M_ADR frame, i.e. this frame should be send just
|
|
after setting up a connection on underlying layer. Originating side
|
|
MUST NOT wait before sending M_PWD except after reception of M_ADR
|
|
frame. The term wait in this paragraph means do not send anything
|
|
while expecting data from remote.
|
|
|
|
Table 1: Session setup, originating side
|
|
+-----------------------------------------------------------------+
|
|
| # | Name | Predicate(s) | Action(s) | Next |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S0 | ConnInit | | Attempt to | S1 |
|
|
| | | | establish | |
|
|
| | | | connection | |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S1 | WaitConn | Connection | Send M_NUL frames | S2 |
|
|
| | | established | with system info | |
|
|
| | | | (at least one M_NUL | |
|
|
| | | | "SYS ..." frame | |
|
|
| | | | should be sent | |
|
|
| | | | before M_ADR) | |
|
|
| | | | Send M_ADR frame | |
|
|
| | | | with system | |
|
|
| | | | addresses | |
|
|
| | | | Set Timer | |
|
|
| | | | See if we have | |
|
|
| | | | password for the | |
|
|
| | | | remote | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Connection | Report no | exit |
|
|
| | | refused | connection | |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S2 | SendPasswd | Yes, we have a | Send M_PWD | S3 |
|
|
| | | password | "password" frame | |
|
|
| | | | Reset Timer | |
|
|
| | |------------------+---------------------+------|
|
|
| | | No, there's no | Send M_PWD "-" | S3 |
|
|
| | | password | frame | |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S3 | WaitAddr | M_ADR frame | See if answering | S4 |
|
|
| | | received | side presented the | |
|
|
| | | | address we've | |
|
|
| | | | called | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_BSY frame | Report remote is | exit |
|
|
| | | received | busy | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_ERR frame | Report error | exit |
|
|
| | | received | | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_NUL frame | Ignore (optionally, | S3 |
|
|
| | | received | log frame argument) | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Other known | Report unexpected | exit |
|
|
| | | frame received | frame | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Unknown frame | Ignore | S3 |
|
|
| | | received | | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Nothing happens | Wait | S3 |
|
|
| | |------------------+---------------------+------|
|
|
| | | Timer Expired | Report timeout | exit |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S4 | AuthRemote | Yes, the address | See if we've sent a | S5 |
|
|
| | | was presented | password for this | |
|
|
| | | | address | |
|
|
| | |------------------+---------------------+------|
|
|
| | | No, the address | Report we called | exit |
|
|
| | | was not | the wrong system | |
|
|
| | | presented | | |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S5 | IfSecure | Yes, we've sent | Wait for M_OK frame | S6 |
|
|
| | | a password | | |
|
|
| | |------------------+---------------------+------|
|
|
| | | No, there was no | Report non-secure | T0 |
|
|
| | | password | session | |
|
|
|----+------------+------------------+---------------------+------|
|
|
| S6 | WaitOk | M_OK frame | report secure | T0 |
|
|
| | | received | session | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_BSY frame | Report remote is | exit |
|
|
| | | received | busy (Answering | |
|
|
| | | | size MAY report | |
|
|
| | | | busy after | |
|
|
| | | | reception of | |
|
|
| | | | caller's address) | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_ERR frame | Report error | exit |
|
|
| | | received | | |
|
|
| | |------------------+---------------------+------|
|
|
| | | M_NUL frame | Ignore (optionally, | S6 |
|
|
| | | received | log arguments) | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Other known | Report unexpected | exit |
|
|
| | | frame received | frame | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Unknown frame | Ignore | S6 |
|
|
| | | received | | |
|
|
| | |------------------+---------------------+------|
|
|
| | | Nothing happens | Wait | S6 |
|
|
| | |------------------+---------------------+------|
|
|
| | | Timer Expired | Report timeout | exit |
|
|
+-----------------------------------------------------------------+
|
|
|
|
6.1.2 Answering Side
|
|
--------------------
|
|
|
|
Originating side sends M_ADR and waits for M_ADR and M_PWD frames
|
|
from remote. Upon receptions of these frames, it decides whether
|
|
the password really matches the list of presented addresses, and
|
|
either acknowledges it by sending M_OK frame (and goes to file
|
|
transfer stage) or rejects by sending M_ERR frame (and
|
|
disconnects). The term wait in this paragraph means do not send
|
|
anything while expecting data from remote.
|
|
|
|
Table 2: Session setup, answering side
|
|
+-----------------------------------------------------------------+
|
|
| # | Name | Predicate(s) | Action(s) | Next |
|
|
|----+----------+---------------------+--------------------+------|
|
|
| R0 | WaitConn | Incoming connection | Send M_NUL frames | R1 |
|
|
| | | established | with system info | |
|
|
| | | | (at least one | |
|
|
| | | | M_NUL "SYS ..." | |
|
|
| | | | frame should be | |
|
|
| | | | sent before M_ADR) | |
|
|
| | | | Send M_ADR frame | |
|
|
| | | | with system | |
|
|
| | | | addresses | |
|
|
| | | | Set Timer | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Nothing happens | Wait | R0 |
|
|
|----+----------+---------------------+--------------------+------|
|
|
| R1 | WaitAddr | M_ADR frame | See if we have a | R2 |
|
|
| | | received | password for any | |
|
|
| | | | of the remote | |
|
|
| | | | addresses | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | M_ERR frame | Report error | exit |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | M_NUL frame | Log | R1 |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Other known frame | Report unexpected | exit |
|
|
| | | received | frame | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Unknown frame | Ignore | R1 |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Nothing happens | Wait | R1 |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Timer expired | Report timeout | exit |
|
|
|----+----------+---------------------+--------------------+------|
|
|
| R2 | IsPasswd | Yes, we have a | Set Timer | R3 |
|
|
| | | password | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Yes, but we have | Send M_ERR frame | exit |
|
|
| | | several different | Report | |
|
|
| | | passwords for | inconsistent | |
|
|
| | | different addresses | password settings | |
|
|
| | | of the remote | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | No, there's no | Report non-secure | T0 |
|
|
| | | password | session | |
|
|
|----+----------+---------------------+--------------------+------|
|
|
| R3 | WaitPwd | M_PWD frame | See if the | R4 |
|
|
| | | received | password matches | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | M_ERR frame | Report error | exit |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | M_NUL frame | Log | R4 |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Other known frame | Report unexpected | exit |
|
|
| | | received | frame | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Unknown frame | Ignore | R4 |
|
|
| | | received | | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Nothing happens | Wait | R3 |
|
|
| | |---------------------+--------------------+------|
|
|
| | | Timer Expired | Report timeout | exit |
|
|
|----+----------+---------------------+--------------------+------|
|
|
| R4 | PwdAck | Yes, the password | Send M_OK frame | T0 |
|
|
| | | matches | Report secure | |
|
|
| | | | session | |
|
|
| | |---------------------+--------------------+------|
|
|
| | | No, password does | Report password | exit |
|
|
| | | not match | error | |
|
|
+-----------------------------------------------------------------+
|
|
|
|
6.2 File Transfer Stage
|
|
-----------------------
|
|
|
|
File transfer stage is based on two major routines. We call them
|
|
Receive Routine and Transmit Routine. These routines perform some
|
|
actions depending on their state variables. State variables are
|
|
RxState for Receive Routine and TxState for Transmit Routine.
|
|
|
|
RxState := { RxWaitF | RxAccF | RxReceD | RxWriteD | RxEOB | RxDone
|
|
}
|
|
|
|
TxState := { TxGNF | TxTryR | TxReadS | TxWLA | TxDone }
|
|
|
|
Table 3: File Transfer
|
|
+-----------------------------------------------------------------+
|
|
| # | Name | Predicate(s) | Action(s) | Next |
|
|
|----+--------------+---------------------+----------------+------|
|
|
| T0 | InitTransfer | none | Set Timer | T1 |
|
|
| | | | Set RxState to | |
|
|
| | | | RxWaitF | |
|
|
| | | | Set TxState to | |
|
|
| | | | TxGNF | |
|
|
|----+--------------+---------------------+----------------+------|
|
|
| T1 | Switch | RxState is RxDone | Report session | exit |
|
|
| | | and TxState is | complete | |
|
|
| | | TxDone | | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Data Available in | call Receive | T2 |
|
|
| | | Input Buffer | routine | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Free space exists | call Transmit | T3 |
|
|
| | | in output buffer | routine | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Nothing happens | Wait | T1 |
|
|
| | |---------------------+----------------+------|
|
|
| | | Timer Expired | Report Timeout | exit |
|
|
|----+--------------+---------------------+----------------+------|
|
|
| T2 | Receive | Receive routine | Set Timer | T1 |
|
|
| | | returned OK | | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Receive routine | Close all | exit |
|
|
| | | returned Failure | opened files | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Receive routine | Call Receive | T2 |
|
|
| | | returned Continue | routine again | |
|
|
|----+--------------+---------------------+----------------+------|
|
|
| T3 | Transmit | Transmit routine | Set Timer | T1 |
|
|
| | | returned OK | | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Transmit routine | Close all | exit |
|
|
| | | returned Failure | opened files | |
|
|
| | |---------------------+----------------+------|
|
|
| | | Transmit routine | Call Transmit | T3 |
|
|
| | | returned Continue | routine again | |
|
|
+-----------------------------------------------------------------+
|
|
|
|
Tables 4-6 are not actually state machines, but routines called
|
|
during file transfer stage
|
|
|
|
We define here a FIFO queue called "TheQueue", which is used to
|
|
pass incoming M_GET / M_GOT / M_SKIP frames from Receive Routine to
|
|
Transmit Routine. Receive routine itself does not react to these
|
|
frames.
|
|
|
|
Table 4: Receive Routine
|
|
+-----------------------------------------------------------------+
|
|
|RxState |Predicate(s) |Condition(s) |Actions(s)|Next |Return |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxWaitF |Get a frame |Haven't got a|none |RxWaitF |OK |
|
|
| |from Input |complete | | | |
|
|
| |Buffer |frame yet | | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got Data |ignore |RxWaitF |OK |
|
|
| | |frame | | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_ERR |Report |RxDone |Failure |
|
|
| | | |Error | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_GET / |Add frame |RxWaitF |OK |
|
|
| | |M_GOT / |to The | | |
|
|
| | |M_SKIP |Queue | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_NUL |Log |RxWaitF |OK |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_EOB |Report End|RxEOB |OK |
|
|
| | | |of Batch | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_FILE |none |RxAccF |continue|
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got other |Report |RxDone |Failure |
|
|
| | |known frame |unexpected| | |
|
|
| | | |frame | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got unknown |ignore |RxWaitF |OK |
|
|
| | |frame | | | |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxAccF |Decide how to|Accept from |Report |RxReceD |OK |
|
|
| |accept |beginning |receiving | | |
|
|
| |Incoming File| |file | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Accept from |Send M_GET|RxReceD |OK |
|
|
| | |offset (we do|Report | | |
|
|
| | |already have |receiving | | |
|
|
| | |a part of |file, | | |
|
|
| | |file) |requested | | |
|
|
| | | |offest | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Accept later |Send |RxWaitF |OK |
|
|
| | |(or failed to|M_SKIP | | |
|
|
| | |create file) |Report we | | |
|
|
| | | |will | | |
|
|
| | | |accept | | |
|
|
| | | |file | | |
|
|
| | | |later, not| | |
|
|
| | | |in current| | |
|
|
| | | |session | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Refuse |Send M_GOT|RxWaitF |OK |
|
|
| | |(delete on |Report we | | |
|
|
| | |remote) |do not | | |
|
|
| | | |accept | | |
|
|
| | | |file | | |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxReceD |Get a frame |Didn't got a |none |RxReceD |OK |
|
|
| |from Input |complete | | | |
|
|
| |Buffer |frame yet | | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got Data |none |RxWriteD|continue|
|
|
| | |frame | | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_ERR |Report |RxDone |Failure |
|
|
| | | |Error | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_GET / |Add frame |RxReceD |OK |
|
|
| | |M_GOT / |to The | | |
|
|
| | |M_SKIP |Queue | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_NUL |Log |RxReceD |OK |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_FILE |Report |RxAccF |Continue|
|
|
| | | |partially | | |
|
|
| | | |received | | |
|
|
| | | |file | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got other |Report |RxDone |Failure |
|
|
| | |known frame |unexpected| | |
|
|
| | | |frame | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got unknown |ignore |RxReceD |OK |
|
|
| | |frame | | | |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxWriteD|Write data to|Write Failed |Report |RxDone |Failure |
|
|
| |file | |error | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |File Pos > |Report |RxDone |Failure |
|
|
| | |Reported |write | | |
|
|
| | | |beyond EOF| | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |File Pos = |Close File|RxWaitF |OK |
|
|
| | |Reported |Send M_GOT| | |
|
|
| | | |Report | | |
|
|
| | | |File | | |
|
|
| | | |Received | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |File Pos < |none |RxReceD |OK |
|
|
| | |Reported | | | |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxEOB |Get a frame |Didn't get a |none |RxEOB |OK |
|
|
| |from Input |complete | | | |
|
|
| |Buffer |frame yet or | | | |
|
|
| | |TxState is | | | |
|
|
| | |not TxDone | | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_ERR |Report |RxDone |Failure |
|
|
| | | |Error | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_GET / |Add frame |RxEOB |OK |
|
|
| | |M_GOT / |to The | | |
|
|
| | |M_SKIP |Queue | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got M_NUL |Log |RxEOB |OK |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got other |Report |RxDone |Failure |
|
|
| | |known frame |unexpected| | |
|
|
| | |or data frame|frame | | |
|
|
| | |-------------+----------+--------+--------|
|
|
| | |Got unknown |ignore |RxEOB |OK |
|
|
| | |frame | | | |
|
|
|--------+-------------+-------------+----------+--------+--------|
|
|
|RxDone |none |none |none |RxDone |OK |
|
|
+-----------------------------------------------------------------+
|
|
|
|
We define the list called "PendingFiles". After we put the last
|
|
byte of file into output buffer, we cannot yet consider the file as
|
|
being successfully transmitted, thus we have to add the file to
|
|
this list and then look for corresponding incoming M_GET / M_GOT /
|
|
M_SKIP frames to remove the file from the list and decide whether
|
|
the file was indeed received by remote or remote will accept this
|
|
file later, or something else. After we have sent M_EOB frame, we
|
|
must wait until PendingFiles list gets empty before disconnecting.
|
|
|
|
If the connection accidentally breaks, all the files left in
|
|
PendingFiles are considered unsent and will be re-transmitted in
|
|
the next session. If the connection breaks when the remote did
|
|
actually receive the file (but the corresponded confirmation frame
|
|
(M_GOT) didn't came back to us) and we are resending this file
|
|
again in the next session, remote may get two copies of the same
|
|
file (file dupe). Binkp allows to reduce or totally suppress such
|
|
dupes (at a cost of performance, of course), see Non-Reliable mode
|
|
and "No Dupes" protocol extension (to be found in a separate
|
|
document at a later date).
|
|
|
|
Table 5: Transmit Routine
|
|
+-----------------------------------------------------------------+
|
|
|TxState|Predicate(s)|Condition(s) |Actions(s) |Next |Return |
|
|
|-------+------------+--------------+------------+-------+--------|
|
|
|TxGNF |Open next |File opened OK|Send M_FILE |TxTryR |continue|
|
|
| |file from | |Report | | |
|
|
| |outgoing | |sending file| | |
|
|
| |queue |--------------+------------+-------+--------|
|
|
| | |Failed to open|Report |TxDone |Failure |
|
|
| | |file |failure | | |
|
|
| | |--------------+------------+-------+--------|
|
|
| | |No more files |Send M_EOB |TxWLA |continue|
|
|
| | | |Report end | | |
|
|
| | | |of batch | | |
|
|
|-------+------------+--------------+------------+-------+--------|
|
|
|TxTryR |Check |TheQueue is |none |TxReadS|continue|
|
|
| |TheQueue |empty | | | |
|
|
| | |--------------+--------------------+--------|
|
|
| | |TheQueue is |call ProcessTheQueue|continue|
|
|
| | |not empty | | |
|
|
|-------+------------+--------------+--------------------+--------|
|
|
|TxReadS|Read data |Read failed |Report Error|TxDone |Failure |
|
|
| |block from |--------------+------------+-------+--------|
|
|
| |file |Read OK, |Send data |TxGNF |OK |
|
|
| | |Reached EOF |block frame | | |
|
|
| | | |Close | | |
|
|
| | | |current file| | |
|
|
| | | |Add current | | |
|
|
| | | |file to | | |
|
|
| | | |PendingFiles| | |
|
|
| | |--------------+------------+-------+--------|
|
|
| | |Read OK, not |Send data |TxTryR |OK |
|
|
| | |reached EOF |block frame | | |
|
|
|-------+------------+--------------+------------+-------+--------|
|
|
|TxWLA |Check |TheQueue is |none |TxDone |OK |
|
|
| |TheQueue |empty and | | | |
|
|
| | |RxState >= | | | |
|
|
| | |RxEOB | | | |
|
|
| | |--------------+------------+-------+--------|
|
|
| | |TheQueue is |none |TxWLA |OK |
|
|
| | |empty and | | | |
|
|
| | |RxState < | | | |
|
|
| | |RxEOB | | | |
|
|
| | |--------------+--------------------+--------|
|
|
| | |TheQueue is |call ProcessTheQueue|continue|
|
|
| | |not empty | | |
|
|
|-------+------------+--------------+--------------------+--------|
|
|
|TxDone |none |none |none |TxDone |OK |
|
|
+-----------------------------------------------------------------+
|
|
|
|
We define a list called KnownFiles. This list contains files that
|
|
can be requested by the remote using M_GET command. This list shall
|
|
at least contain all the files that are part of the PendingFiles
|
|
list.
|
|
|
|
Table 6: ProcessTheQueue routine
|
|
+-----------------------------------------------------------------+
|
|
| Predicate(s) | Condition(s) | Actions(s) |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_GET received | requested file is | Report unknown file |
|
|
| | not in the | |
|
|
| | KnownFiles list | |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_GET received for | Requested pos is | Close and finalize |
|
|
| a known file | FileSize | file. |
|
|
| | | Report that remote |
|
|
| | | refused file being |
|
|
| | | transmitted. |
|
|
| | | Set TxState to |
|
|
| | | TxGetNextFile. |
|
|
| |--------------------+-----------------------|
|
|
| | Requested pos is | Set file pointer to |
|
|
| | less than FileSize | requested pos. |
|
|
| | | Report that remote |
|
|
| | | requested offset. |
|
|
| | | Set TxState to |
|
|
| | | TxReadSend. |
|
|
| |--------------------+-----------------------|
|
|
| | Requested pos is | Ignore frame |
|
|
| | greater than | |
|
|
| | FileSize | |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_GOT file that is | none | Close and finalize |
|
|
| currently | | file |
|
|
| transmitting | | Report Remote refused |
|
|
| | | file being |
|
|
| | | transmitted |
|
|
| | | Set TxState to TxGNF |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_GOT file that is | File is in | Finalize file |
|
|
| not currently | PendingFiles list | Report file has been |
|
|
| transmitting | | sent |
|
|
| | | Remove file from the |
|
|
| | | PendingFiles list |
|
|
| |--------------------+-----------------------|
|
|
| | File is not in | Ignore frame |
|
|
| | PendingFiles | |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_SKIP file that | none | Close file (do not |
|
|
| is currently | | finalize, we will |
|
|
| transmitting | | send it later, not in |
|
|
| | | current session) |
|
|
| | | Report remote will |
|
|
| | | accept this file |
|
|
| | | later |
|
|
| | | Set TxState to TxGNF |
|
|
|--------------------+--------------------+-----------------------|
|
|
| M_SKIP file that | none | Report remote will |
|
|
| is not currently | | accept this file |
|
|
| transmitting | | later |
|
|
| | | Remove file from |
|
|
| | | PendingPiles, if |
|
|
| | | exists there |
|
|
+-----------------------------------------------------------------+
|
|
|
|
6.3 Session Termination
|
|
-----------------------
|
|
|
|
A session may be terminated in any of the following cases:
|
|
|
|
should be deemed aborted due to a fatal error.
|
|
should be deemed aborted due to non-fatal error typically
|
|
because of temporary lack of resources to proceed with the
|
|
session.
|
|
* all the files have been sent
|
|
* we have received M_EOB from the remote side (there are no
|
|
more files for us),
|
|
* we have received acknowledgements for all the files sent,
|
|
* we have received all the files re-requested by M_GET,
|
|
In this case, the session should be deemed successfully
|
|
completed.
|
|
|
|
A session termination itself is not a protocol stage. Mailer may
|
|
terminate a session at any time simply by issuing disconnect
|
|
(shutdown) command to the underlying transport layer, provided any
|
|
of the three conditions above are met. Mailer MUST take all proper
|
|
steps to provide a graceful shutdown of the transport layer, as it
|
|
is the transport layer that is responsible for all the data
|
|
transmitted by one side to be received by another before
|
|
disconnection, provided that shutdown of the transport layer
|
|
protocol was successful.
|
|
|
|
7. Recommended Protocol Extensions
|
|
----------------------------------
|
|
|
|
This section documents already implemented and proposed extensions
|
|
for the binkp/1.0. These extensions are purely optional and are
|
|
included here for the sake of compatibility with future
|
|
implementations.
|
|
|
|
Sides indicate supported protocol extensions by sending M_NUL
|
|
frame(s) with "OPT list_of_extensions" string, where
|
|
list_of_extensions is a space separated list of supported protocol
|
|
extensions. Whenever multiple M_NUL "OPT ..." frames are received
|
|
during the session, they SHOULD augment the current list of
|
|
extensions rather than replace it, unless specifically stated
|
|
otherwise for a particular option.
|
|
|
|
Mailer SHOULD NOT use any extension unless exactly sure that this
|
|
extension is supported by the remote. Mailer SHOULD use M_NUL "OPT
|
|
..." to indicate supported options. Other methods for indicating
|
|
supported extensions are allowed as long as the provide full
|
|
backwards compatibility.
|
|
|
|
7.1 Non-reliable Mode
|
|
---------------------
|
|
|
|
Non-reliable mode solves the problem with frequently aborted
|
|
connections when the sides can not successfully complete file
|
|
transfer before connection is broken. In this case, if the
|
|
transmitting side starts retransmission from offset 0, performance
|
|
degrades as by the time it receives M_GET from the remote, network
|
|
buffers are already full and by the time they are freed for
|
|
retransmission from requested offset, the connection might go down
|
|
again.
|
|
|
|
In order to circumvent this problem, a mailer can request the
|
|
remote to enter non-reliable mode by sending a M_NUL "OPT NR" frame
|
|
at any time during the session. After the remote acknowledges it by
|
|
sending an M_NUL "OPT NR" frame indicating that the option is
|
|
supported, both sides can assume that they are in non-reliable
|
|
mode.
|
|
|
|
When session is in non-reliable mode, the transmitting side may
|
|
send -1 for the offset value in M_FILE command. If it does so, it
|
|
should wait for the M_GET frame from the receiving side that
|
|
explicitly specifies file offset and start transmitting file data
|
|
from this offset. If the receiving side has indicated that it
|
|
supports non-reliable mode by sending M_NUL "OPT NR" frame, it must
|
|
recognize -1 as the file offset in M_FILE command as an explicit
|
|
request for the file offset and transmit an appropriate M_GET frame
|
|
as soon as possible.
|
|
|
|
It should be understood that this option degrades performance over
|
|
regular quality connections and it should be used only if
|
|
absolutely necessary.
|
|
|
|
7.2 Multiple Batch Mode
|
|
-----------------------
|
|
|
|
The session is in MB mode if both sides set "MB" flag in any of
|
|
M_NUL "OPT" packets exchanged before sending of M_OK/M_PWD packets.
|
|
|
|
In MB mode both sides restart session from RxDone into InitTransfer
|
|
state if there were any command packets sent or received by any
|
|
side between starting at InitTransfer and exchanging of M_EOB by
|
|
the sides (RxDone state). Otherwise, the session terminates as
|
|
usual.
|
|
|
|
Multiple batches mode is intended to handle WaZOO [FTS-0006] file
|
|
requests. If there were any WaZOO request files transferred in a
|
|
batch, sides MAY process them and send resulting files in the next
|
|
batch. Mailers MAY also generate list of files to send in
|
|
additional batches by other techniques -- including rescanning of
|
|
their spools or processing of other magic files transferred before
|
|
in the same session.
|
|
|
|
7.3 Multiple Passwords Mode
|
|
---------------------------
|
|
|
|
Multiple password mode allows to specify different passwords for
|
|
the different addresses of the remote.
|
|
|
|
Originating side identifies it's multipassword capabilities by
|
|
sending M_NUL "OPT MPWD" during session setup stage before sending
|
|
any M_ADR commands and waits for response from the answering side.
|
|
|
|
If answering side responds with the M_NUL "OPT MPWD", then it
|
|
supports multiply passwords too. Answering side also always
|
|
responds with it's own address list: M_ADR "adr1 adr2 adr3 ...". If
|
|
M_NUL "OPT MPWD" was not received prior to the first M_ADR command,
|
|
originating side should assume that the remote does not support
|
|
multiple password mode and send a single password (if any) for one
|
|
of the addresses of the remote.
|
|
|
|
If the MPWD option was indicated by the answering side, originating
|
|
side now may send M_PWD "pwd1 pwd2 pwd3 ..." with the number of
|
|
entries in space separated password list equivalent to the number
|
|
of addresses presented by the answering side. If there is no
|
|
password for a particular address, it must send '-' character as a
|
|
placeholder.
|
|
|
|
If the passwords presented are consistent, answering side must
|
|
acknowledge successful authentication by sending M_OK command.
|
|
|
|
7.4 Keyed Hashing Challenge-Response Authentication Mechanism
|
|
-------------------------------------------------------------
|
|
|
|
7.4.1 Overview
|
|
--------------
|
|
|
|
Challenge-Response Authentication Mechanism (CRAM) allows to avoid
|
|
passing cleartext, reusable passwords across the network. Since it
|
|
utilizes Keyed-Hashing digests [Keyed], it does not require
|
|
password to be stored in the clear on the Mailer's media, allowing
|
|
storage of the intermediate results which are known as "contexts".
|
|
|
|
Providing binkp-mailer is capable of [Keyed] digest calculation and
|
|
conversion of a byte array to a hexadecimal string and back,
|
|
implementation of CRAM is easily achieved by slightly modifying the
|
|
state machine.
|
|
|
|
7.4.2 Sequence of Steps
|
|
-----------------------
|
|
|
|
CRAM adds an additional synchronization step to binkp protocol. The
|
|
description of this step follows:
|
|
|
|
the Originating side, encoded to a hexadecimal string.
|
|
hexadecimal string, and a password to produce a digest by
|
|
applying the keyed Hashing algorithm from [Keyed] where the key
|
|
is the password and the digested text is the challenge data.
|
|
digest provided. If the digest is correct, the answering side
|
|
should consider the Originating side authenticated and responds
|
|
appropriately.
|
|
|
|
Similar technique is used in [IMAP-AUTH].
|
|
|
|
7.4.3 Generating and Transmitting Challenge Data
|
|
------------------------------------------------
|
|
|
|
Size and contents of challenge data are implementation-dependent,
|
|
but it SHOULD be no smaller than 8 bytes and no bigger than 64
|
|
bytes. Answering side SHOULD never generate the same challenge
|
|
data.
|
|
|
|
Instead of generating a long challenge data, answering side MAY use
|
|
a hash function to shorten it. In calculation of a challenge data
|
|
answering side MAY also use connection/line number, caller's IP
|
|
address, current time, etc.
|
|
|
|
Answering side transmits challenge data in the very first M_NUL
|
|
message, in the following way:
|
|
|
|
M_NUL "OPT [othropt] CRAM-lsthf-cde [othropt]"
|
|
|
|
lsthf is a list of aliases of supported hash functions, delimited
|
|
by slash characters. The list begins with alias of the most
|
|
preferred and ends with alias of the least preferred hash function.
|
|
|
|
Currently defined aliases are: MD5 for [MD5] and SHA1 for [SHA-1].
|
|
|
|
cde is the challenge data encoded to hexadecimal string, Lower-case
|
|
ASCII characters MUST be used for encoding, but Mailer SHOULD also
|
|
accept upper-case characters. The length of the string MUST be
|
|
even, and the leading zeros MUST NOT be trimmed.
|
|
|
|
7.4.4 Producing and Transmitting a Digest
|
|
-----------------------------------------
|
|
|
|
Originating side responds with:
|
|
|
|
M_PWD "CRAM-chosenhf-khde [othropt]"
|
|
|
|
where chosenhf is the alias of the chosen hash function and khde is
|
|
the keyed hashed digest, encoded to a hexadecimal string.
|
|
|
|
According to [IMAP-AUTH], keyed hashed digest is produced by
|
|
calculating
|
|
|
|
HASH((secret XOR opad), HASH((secret XOR ipad), challengedata))
|
|
|
|
where HASH is chosen hash function, ipad and opad are 36 hex and 5C
|
|
hex (as defined in [Keyed]) and secret is a password null-padded to
|
|
a length of 64 bytes. If the password is longer than 64 bytes, the
|
|
hash-function digest of the password is used as an input (16-byte
|
|
for [MD5] and 20-byte for [SHA-1]) to the keyed hashed calculation.
|
|
|
|
7.4.6 Indicating CRAM Capabilities
|
|
----------------------------------
|
|
|
|
Answering side MUST send
|
|
|
|
M_NUL "OPT [othropt] CRAM-lsthf-cde [othropt]"
|
|
|
|
as a very first M_NUL message if it supports CRAM.
|
|
|
|
It MAY send other non-M_NUL messages before though. Current
|
|
specification doesn't define any such non-M_NUL message, they are
|
|
reserved for protocol extension.
|
|
|
|
Originating side MUST be ready to receive non-M_NUL before M_NUL in
|
|
a CRAM session. Binkp state machine MUST ignore any received
|
|
message of unknown type in order to be compatible with future
|
|
extensions.
|
|
|
|
If an originating side receives a first message that is a M_ADR or
|
|
a M_NUL message that is not
|
|
|
|
M_NUL "OPT [othropt] CRAM-lsthf-cde [othropt]"
|
|
|
|
it MUST decide that the answering side doesn't support CRAM and MAY
|
|
either disconnect or use old password exchange. If the sides have
|
|
no any compatible hash function, originator may also either
|
|
disconnect or use old password exchange. If an originating side
|
|
decides to disconnect, it SHOULD send M_ERR frame with a proper
|
|
explanation before disconnecting.
|
|
|
|
When parsing M_NUL "OPT ..." string (coming from the answering
|
|
side), originating side first splits it by using space delimiter to
|
|
get a list of options, and then if an option begins with
|
|
"CRAM-lsthf-", takes the remaining substring as a
|
|
hexadecimal-encoded challenge data.
|
|
|
|
7.4.7 Example of Frame Exchange During CRAM Authentication
|
|
----------------------------------------------------------
|
|
|
|
(Password here is tanstaaftanstaaf)
|
|
|
|
Originating :
|
|
send M_NUL messages
|
|
and M_ADR
|
|
wait for first M_NUL message
|
|
|
|
Answering :
|
|
send M_NUL "OPT ND CRAM-SHA1/MD5-f0315b074d728d483d6887d0182fc328"
|
|
and other messages
|
|
wait for M_PWD
|
|
|
|
Originating :
|
|
M_PWD "CRAM-MD5-56be002162a4a15ba7a9064f0c93fd00"
|
|
|
|
Answering :
|
|
M_OK and continue session
|
|
|
|
7.4.8 Notes on Hash Function Algorithms
|
|
---------------------------------------
|
|
|
|
[MD5] and [SHA-1] are the most widely used cryptographic hash
|
|
functions. [MD5] has been shown to be vulnerable to collision
|
|
search attacks [Dobb]. This attack and other currently known
|
|
weaknesses of [MD5] do not compromise the use of [MD5] within CRAM
|
|
as specified in this document (see [Dobb]); however, [SHA-1]
|
|
appears to be a cryptographically stronger function. To this date,
|
|
[MD5] can be considered for use in CRAM for applications where the
|
|
superior performance of [MD5] is critical. In any case,
|
|
implementors and users need to be aware of possible cryptanalytic
|
|
developments regarding any of these cryptographic hash functions,
|
|
and the eventual need to replace the underlying hash function.
|
|
|
|
8. License
|
|
----------
|
|
|
|
You can implement binkp protocol in your software as long as you
|
|
agree to the following conditions:
|
|
|
|
other way. You shall include the author(s) of the protocol in
|
|
your copyright statement for the software.
|
|
versions. Binkp allows development of the new capabilities
|
|
without compromising interoperability with previous versions.
|
|
Therefore, it is important that future developments of the
|
|
protocol are not pursued in different directions by different
|
|
people. If you have any suggestions regarding future
|
|
developments of the protocol, make a reasonable effort to
|
|
contact the author(s), so that the development efforts can
|
|
coordinated in a way advantageous for everybody.
|
|
future binkp specifications, you shall reference to it as a
|
|
"binkp variation" or "binkp derived".
|
|
|
|
Remember that you may use, implement or utilize binkp, it's
|
|
description or any other associated texts or documentations at your
|
|
own risk, without any warranty, without even the implied warranty
|
|
of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE
|
|
|
|
Binkp author: Dima Maloff.
|
|
|
|
9. Glossary
|
|
-----------
|
|
|
|
Many entries in this glossary are provided courtesy of Butterfly
|
|
Glossary of Internet and Data Communication terms and RFC-1983.
|
|
|
|
connection-oriented
|
|
Data communication method in which communication proceeds
|
|
through three well-defined phases: connection
|
|
establishment, data transfer, connection release. TCP is a
|
|
connection-oriented protocol.
|
|
|
|
data link layer
|
|
The OSI layer that is responsible for data transfer across
|
|
a single physical connection, or series of bridged
|
|
connections, between two Network entities.
|
|
|
|
flow control
|
|
A technique for ensuring that a transmitting entity does
|
|
not overwhelm a receiving entity.
|
|
|
|
HDLC
|
|
(High level Data Link Control). Popular ISO standard
|
|
bit-oriented, data link layer protocol derived from SDLC.
|
|
HDLC specifies an encapsulated method of data on
|
|
synchronous serial data links.
|
|
|
|
IP
|
|
(Internet Protocol). The Internet Protocol, defined in STD
|
|
5, RFC 791, is the network layer for the TCP/IP Protocol
|
|
Suite. It is a connectionless, best-effort packet switching
|
|
protocol.
|
|
|
|
network layer
|
|
Layer 3 of the OSI reference model. Layer 3 is the layer at
|
|
which routing, addressing and connection management take
|
|
place.
|
|
|
|
OSI (Open Systems Interconnection) Reference Model
|
|
A seven-layer structure designed to describe computer
|
|
network architectures and the way that data passes through
|
|
them. This model was developed by the ISO (International
|
|
Organization for Standardization) in 1978 to clearly define
|
|
the interfaces in multivendor networks, and to provide
|
|
users of those networks with conceptual guidelines in the
|
|
construction of such networks.
|
|
|
|
port
|
|
A port is a transport layer demultiplexing value. Each
|
|
application has a unique port identifier associated with
|
|
it.
|
|
|
|
physical layer
|
|
The OSI layer that provides the means to activate and use
|
|
physical connections for bit transmission. In plain terms,
|
|
the Physical Layer provides the procedures for transferring
|
|
a single bit across a Physical Media.
|
|
|
|
Quality of Service
|
|
(Also QoS). A measure of performance for a transmission
|
|
system that reflects its transmission quality and
|
|
availability of service.
|
|
|
|
reliable transmission
|
|
a type of transport service that:
|
|
* recovers from errors by retransmitting errored frames
|
|
* delivers frames in correct sequence (also known as
|
|
stream-oriented)
|
|
* usually is used in connection-oriented mode
|
|
|
|
session layer
|
|
Layer 5 of the OSI reference model. Coordinates session
|
|
activity between applications, including application-layer
|
|
error control, dialog control, and remote procedure calls.
|
|
|
|
sliding window flow control
|
|
Method of flow control in which a receiver gives
|
|
transmitter permission to transmit data until a window is
|
|
full. When the window is full, the transmitter must stop
|
|
transmitting until the receiver advertises a larger window.
|
|
|
|
socket
|
|
Software structure operating as a communications and point
|
|
within a network device.
|
|
|
|
TCP
|
|
Transmission Control Protocol. An Internet Standard
|
|
transport layer reliable protocol defined in STD 7, RFC
|
|
793. It is connection-oriented and stream-oriented.
|
|
|
|
TCP/IP protocol suite
|
|
Transmission Control Protocol over Internet Protocol. This
|
|
is a common shorthand which refers to the suite of
|
|
transport and application protocols which runs over IP.
|
|
|
|
transport layer
|
|
Layer 4 of the OSI reference model. The transport layer is
|
|
responsible for reliable network communication between end
|
|
nodes. It implements flow and error control and often uses
|
|
virtual circuits to ensure reliable data delivery.
|
|
|
|
unixtime
|
|
number of seconds elapsed since 00:00:00 UTC, Jan. 1, 1970.
|
|
|
|
10. References
|
|
--------------
|
|
|
|
[FTS-0001]
|
|
A Basic FidoNet(r) Technical Standard, Revision 16. Randy
|
|
Bush, Pacific Systems Group, September 30, 1995. FTS-0001.
|
|
|
|
[FTS-0006]
|
|
YOOHOO and YOOHOO/2U2. The netmail handshake used by
|
|
Opus-CBCS and other intelligent Fidonet mail handling
|
|
packages. Version 002, Vince Perriello. 30-Nov-1991.
|
|
FTS-0006.
|
|
|
|
[FSC-0039]
|
|
M.Howard, A type-2 packet extension proposal, FSC-0039
|
|
Version 4, 29-Sep-1990. FSC-0039.
|
|
|
|
[FSC-0045]
|
|
T.Henderson, Proposed new packet header, Version 1,
|
|
17-Apr-1990. FSC-0045.
|
|
|
|
[FSC-0048]
|
|
J.Vroonhof, Proposed type-2 packet extension, Version 2,
|
|
21-Oct-1990. FSC-0048.
|
|
|
|
[FSC-0081]
|
|
M.Staldal, A type-3 packet proposal, Version 1,
|
|
01-Mar-1995. FSC-0081.
|
|
|
|
[EMSI]
|
|
Joaquim H. Homrighausen, EMSI/IEMSI protocol definition.
|
|
May 3, 1991. FSC-0056.
|
|
|
|
[FTA-1006]
|
|
Key words to indicate requirement levels, Fidonet Technical
|
|
Standards Committee administrative. FTA-1006.
|
|
|
|
[Halsall95]
|
|
Data Communications, Computer Networks and Open Systems, F.
|
|
Halsall, 4th ed., Addison-Wesley, 1995, ISBN 0-201-42293-X.
|
|
|
|
[Dobb]
|
|
H. Dobbertin, "The Status of MD5 After a Recent Attack",
|
|
RSA Labs' CryptoBytes, Vol. 2 No. 2, Summer 1996.
|
|
|
|
[MD5]
|
|
Rivest, R., "The MD5 Message-Digest Algorithm", RFC 1321,
|
|
April 1992.
|
|
|
|
[SHA-1]
|
|
NIST, FIPS PUB 180-1: Secure Hash Standard, April 1995.
|
|
|
|
[Keyed]
|
|
Krawczyk, Bellare, Canetti, "HMAC: Keyed-Hashing for
|
|
Message Authentication", RFC 2104, February 1997.
|
|
|
|
[IMAP-AUTH]
|
|
Klensin, "IMAP/POP AUTHorize Extension for Simple
|
|
Challenge/Response", RFC 2195, September, 1997
|
|
|
|
[RFC822]
|
|
Standard for the format of ARPA Internet text messages. D.
|
|
Crocker. Aug-13-1982. RFC 822, STD0011.
|
|
|
|
[UTF8]
|
|
UTF-8, a transformation format of ISO 10646. F. Yergeau.
|
|
January 1998, RFC 2279.
|
|
|
|
[ISO10646]
|
|
ISO/IEC 10646-1:1993. International Standard -- Information
|
|
technology -- Universal Multiple-Octet Coded Character Set
|
|
(UCS) -- Part 1: Architecture and Basic Multilingual Plane.
|
|
Five amendments and a technical corrigendum have been
|
|
published up to now. UTF-8 is described in Annex R,
|
|
published as Amendment 2.
|
|
|
|
11. Acknowledgements
|
|
--------------------
|
|
|
|
This document is partially based on extracts from RFCs and FTSC
|
|
publications too numerous to be acknowledged individually.
|
|
|
|
The authors would like to thank Joaquim Homrighausen, Kim 'B'
|
|
Heino, Rune Johansen and many others for fruitful discussions and
|
|
suggestions regarding protocol design and specifications.
|
|
|
|
A. Author Contact Data
|
|
-----------------------
|
|
|
|
Dima Maloff
|
|
Fidonet: 2:5020/128
|
|
E-mail: maloff@corbina.net
|
|
WWW: http://www.corbina.net/~maloff/
|
|
|
|
Maxim Masiutin
|
|
Fidonet: 2:469/84
|
|
E-mail: max@ritlabs.com
|
|
WWW: http://www.ritlabs.com/
|
|
|
|
Nick Soveiko
|
|
Fidonet: 2:5030/23.101
|
|
E-mail: nsoveiko@doe.carleton.ca
|
|
WWW: http://www.doe.carleton.ca/~nsoveiko/
|
|
|
|
B. History
|
|
----------
|
|
|
|
Rev.1, 19990611:
|
|
First release
|
|
|
|
Rev.2, 19991008:
|
|
* Added new topic: "Definitions";
|
|
* clarified the following topics: "Frame Format",
|
|
"Protocol Commands and Their Arguments", "Keyed
|
|
Hashing Challenge-Response Authentication Mechanism";
|
|
* added "unixtime" item to Glossary topic;
|
|
* corrected links in References topic.
|
|
|
|
Rev.3, 20000731:
|
|
* Table 6 in section 6.2, File transfer stage has been
|
|
rewritten: TheListOfSendFiles replaced by PendingFiles
|
|
which was defined earlier. introduced definition of
|
|
KnownFiles list. new ProcessTheQueue routine w/respect
|
|
to handling M_GET command
|
|
* Section 5.2, File Name Issues was rewritten to clearly
|
|
define safe and unsafe characters in filenames.
|
|
* Section 5.3, Non-ASCII Characters was rewritten to
|
|
clarify Unicode usage.
|
|
* Expanded descriptions for M_NUL "TIME ...", M_NUL "TRF
|
|
...", added description of M_NUL "PHN ..." and M_NUL
|
|
"OPM ..." frames in section 5.4 Binkp Commands.
|
|
* IANA port number added to section 3, Protocol
|
|
Overview.
|
|
* M_GET description in section 5.4, Binkp Commands was
|
|
rewritten for clarity.
|
|
* M_BSY "RETRY ..." option documented.
|
|
* Minor edits throughout the document to improve
|
|
readability.
|
|
</PRE>
|
|
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