1262 lines
63 KiB
HTML
Executable File
1262 lines
63 KiB
HTML
Executable File
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<TITLE>A Basic FidoNet(r) Technical Standard.</TITLE>
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<PRE>
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Document: FTS-0001
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Version: 016
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Date: 30-Sep-95
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A Basic FidoNet(r) Technical Standard
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| Revision 16
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Formerly known as FSC001, FSC-0001
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| Randy Bush, Pacific Systems Group
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| September 30, 1995
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Status of this document:
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This FTS (FidoNet(r) Technical Standard) specifies a standard for
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the FidoNet community. FidoNet nodes are expected to adopt and implement
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this standard. Distribution is subject to the restrictions stated in the
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copyright paragraph below.
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Fido and FidoNet are registered marks of Tom Jennings and Fido Software.
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Copyright 1986-95, Randy Bush. All rights reserved. A right to
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distribute only without modification and only at no charge is granted.
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Under no circumstances is this document to be reproduced or distributed
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as part of or packaged with any product or other sales transaction for
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which any fee is charged. Any and all other reproduction or excerpting
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requires the explicit written consent of the author.
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A. Introduction
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FidoNet has grown beyond most peoples' fantasies, and new FidoNet
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implementations are appearing regularly. Unfortunately, the scattered
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nature of the documentation and absence of clear testing procedures have
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made implementation difficult. FidoNet, in its desire to promote and
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encourage FidoNet implementations, suggested a project to create a
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technical standard for FidoNet. The author did not design or specify
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the data formats or protocols, only attempted to document them.
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This document defines the data structures and communication protocols
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which a FidoNet implementation must provide. The implementor of FidoNet
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compatible systems is the intended audience of this document.
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The layered metaphor of the ISO Open Systems Interface reference model
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has been used to view FidoNet from a standard perspective. As with most
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prospective ISO/OSI descriptions, FidoNet does not always make this
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easy.
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The content of this document was gleaned from the references given at
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the end.
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Please direct technical comments and errata to
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| Randy Bush randy@psg.com
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| Pacific Systems Group
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9501 S.W. Westhaven Drive
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Portland, Oregon US-97225
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1. Basic Requirements for a FidoNet Implementation
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Compatibility is a set of abilities which, when taken as a whole, make
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it safe to list a net or node in the FidoNet nodelist. In other words,
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if another node should attempt contact, does it have a reasonable
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chance of successful communication? This is a social obligation, as
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the calling system pays money for the attempt. Conversely, an
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implementation should be able to successfully contact other systems,
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as life is not a one-way street.
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A FidoNet implementation must be able to call other nodes and transfer
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messages and files in both directions. This includes pickup and poll.
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A FidoNet implementation must be able to accept calls from other nodes
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and transfer messages and files in both directions. This includes
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pickup.
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FidoNet implementations must be able to receive and process the FidoNet
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format nodelist, and transfer nodelists to other nodes. A companion
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document, FTS-0005, defines the FidoNet format nodelist and how to
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interpret and process it.
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A FidoNet implementation must route messages which do not have files
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attached through net hosts as shown in a FidoNet format nodelist.
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2. Levels of Compliance
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This documents represents the most basic FidoNet implementation. A
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future document will define well tested extensions which are optional
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but provide sufficient additional function that implementors should
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seriously consider them. SEAdog(tm), from System Enhancement
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Associates, is an excellent example of such an extended FidoNet
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implementation.
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3. The ISO/OSI Reference Model (cribbed from "Protocol Verification via
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Executable Logic Specifications", D. P. Sidhu, in Rudin & West)
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In the ISO/OSI model, a distributed system consists of entities that
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communicate with each other according to a set of rules called a
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protocol. The model is layered, and there are entities associated
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with each layer of the model which provide services to higher layers
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by exchanging information with their peer entities using the services
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of lower layers. The only actual physical communication between two
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systems is at the lowest level.
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Several techniques have been used in the specification of such
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protocols. A common ingredient in all techniques is the notion of the
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extended finite state automata or machine. Extensions include the
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addition of state variables for the storing of state information about
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the protocol. The state of an automation can change as a result of
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one of the following events:
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o Request from an upper network layer for service
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o Response to the upper layer
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o Request to the lower network layer to perform a service
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o Response from the lower layer
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o Interaction with the system and environment in which the protocol is
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implemented (e.g. timeouts, host operating system aborts, ...)
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A protocol specification, in a large part, consists of specifying
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state changes in automata which model protocol entities and in
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describing the data which they exchange.
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For historical reasons, the term packet is used in FidoNet to
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represent a bundle of messages, as opposed to the more common use as a
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unit of communication, which is known as a block in FidoNet.
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4. Data Description
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A language specific notation was avoided. Please help stamp out
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environmental dependencies. Only you can prevent PClone market
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dominance. Don't panic, there are rectangular record layouts too.
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(* non-terminals *)
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UpperCaseName - to be defined further on
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(* literals *)
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"ABC" - ASCII character string, no termination implied
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nnH - byte in hexadecimal
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(* terminals *)
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someName - 16-bit integer, low order byte first (8080 style)
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someName[n] - field of n bytes
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someName[.n] - field of n bits
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someName(n) - Null terminated string allocated n chars (incl Null)
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someName{max} - Null terminated string of up to max chars (incl Null)
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(* punctuation *)
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a b - one 'a' followed by one 'b'
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( a | b ) - either 'a' or 'b', but not both
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{ a } - zero or more 'a's
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[ b ] - zero or one 'b'
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(* comment *) - ignored
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(* predeclared constant *)
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Null = 00H
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5. Finite State Machine Notation
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.-----+----------+-------------------------+-------------------------+-----.
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|State| State | Predicate(s) | Action(s) | Next|
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| # | Name | | | St |
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|-----+----------+-------------------------+-------------------------+-----|
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| fnn*| | | | |
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`-----+----------+-------------------------+-------------------------+-----'
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State # - Number of this state (e.g. R13).
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f - FSM initial (Window, Sender, Receiver, ...)
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nn - state number
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* - state which represents a lower level protocol which
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is represented by yet another automation.
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State Name - Descriptive name of this state.
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Predicate(s) - Conditions which terminate the state. If predicates are
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non-exclusive, consider them ordered.
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Action(s) - Action(s) corresponding to predicate(s)
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Next State - Subsequent state corresponding to predicate(s)
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Ideally, there should be a supporting section for each state which
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should give a prose description of the state, its predicates, actions,
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etc. So much for ideals.
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B. Application Layer : the System from the User's View
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The application layer is outside the domain of a FidoNet standard, as it
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is the layer that the user's application sees as opposed to what FidoNet
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sees. In recent months, there has been sufficient confusion and
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discussion about the format of data at this level to warrant the
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description of the data structure, the message as it is stored by Fido,
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SEAdog, and Rover.
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Perfectly valid FidoNet systems may be implemented whose stored messages
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differ greatly from this format.
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1. Application Layer Data Definition : a Stored Message
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Stored Message
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Offset
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dec hex
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.-----------------------------------------------.
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0 0 | |
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~ fromUserName ~
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| 36 bytes |
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+-----------------------+-----------------------+
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36 24 | |
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~ toUserName ~
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| 36 bytes |
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+-----------------------+-----------------------+
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72 48 | |
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~ subject ~
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| 72 bytes |
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+-----------------------+-----------------------+
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144 90 | |
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~ DateTime ~
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| 20 bytes |
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+-----------------------+-----------------------+
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164 A4 | timesRead (low order) | timesRead (high order)|
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+-----------------------+-----------------------+
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166 A6 | destNode (low order) | destNode (high order) |
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+-----------------------+-----------------------+
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168 A8 | origNode (low order) | origNode (high order) |
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+-----------------------+-----------------------+
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170 AA | cost (low order) | cost (high order) |
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+-----------------------+-----------------------+
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172 AC | origNet (low order) | origNet (high order) |
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+-----------------------+-----------------------+
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174 AE | destNet (low order) | destNet (high order) |
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+-----------------------+-----------------------+
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176 B0 | destZone (optional) | destZone (optional) |
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+-----------------------+-----------------------+
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178 B2 | origZone (optional) | origZone (optional) |
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+-----------------------+-----------------------+
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180 B4 | destPoint(optional) | destPoint(optional) |
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+-----------------------+-----------------------+
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182 B6 | origPoint(optional) | origPoint(optional) |
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+-----------------------+-----------------------+
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184 B8 | replyTo (low order) | replyTo (high order) |
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+-----------------------+-----------------------+
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186 BA | Attribute (low order) | Attribute (high order)|
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+-----------------------+-----------------------+
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188 BC | nextReply (low order) | nextReply (high order)|
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+-----------------------+-----------------------+
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190 BE | text |
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~ unbounded ~
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| null terminated |
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`-----------------------------------------------'
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Message = fromUserName(36) (* Null terminated *)
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toUserName(36) (* Null terminated *)
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subject(72) (* see FileList below *)
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DateTime (* message body was last edited *)
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timesRead (* number of times msg has been read *)
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destNode (* of message *)
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origNode (* of message *)
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cost (* in lowest unit of originator's
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currency *)
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origNet (* of message *)
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destNet (* of message *)
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destZone (* of message *)
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origZone (* of message *)
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destPoint (* of message *)
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origPoint (* of message *)
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replyTo (* msg to which this replies *)
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AttributeWord
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nextReply (* msg which replies to this *)
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text(unbounded) (* Null terminated *)
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DateTime = (* a character string 20 characters long *)
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(* 01 Jan 86 02:34:56 *)
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DayOfMonth " " Month " " Year " "
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" " HH ":" MM ":" SS
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Null
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DayOfMonth = "01" | "02" | "03" | ... | "31" (* Fido 0 fills *)
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Month = "Jan" | "Feb" | "Mar" | "Apr" | "May" | "Jun" |
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"Jul" | "Aug" | "Sep" | "Oct" | "Nov" | "Dec"
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Year = "01" | "02" | .. | "85" | "86" | ... | "99" | "00"
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HH = "00" | .. | "23"
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MM = "00" | .. | "59"
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SS = "00" | .. | "59"
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AttributeWord bit meaning
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--- --------------------
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0 + Private
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1 + s Crash
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2 Recd
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3 Sent
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4 + FileAttached
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5 InTransit
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6 Orphan
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7 KillSent
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8 Local
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9 s HoldForPickup
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10 + unused
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11 s FileRequest
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12 + s ReturnReceiptRequest
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13 + s IsReturnReceipt
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14 + s AuditRequest
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15 s FileUpdateReq
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s - need not be recognized, but it's ok
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+ - not zeroed before packeting
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Bits numbers ascend with arithmetic significance of bit position.
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Message Text
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Message text is unbounded and null terminated (note exception below).
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A 'hard' carriage return, 0DH, marks the end of a paragraph, and must
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be preserved.
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So called 'soft' carriage returns, 8DH, may mark a previous
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processor's automatic line wrap, and should be ignored. Beware that
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they may be followed by linefeeds, or may not.
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All linefeeds, 0AH, should be ignored. Systems which display message
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text should wrap long lines to suit their application.
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If the first character of a physical line (e.g. the first character of
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the message text, or the character immediately after a hard carriage
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return (ignoring any linefeeds)) is a ^A (<control-A>, 01H), then that
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line is not displayed as it contains control information. The
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convention for such control lines is:
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o They begin with ^A
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o They end at the end of the physical line (i.e. ignore soft <cr>s).
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o They begin with a keyword followed by a colon.
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o The keywords are uniquely assigned to applications.
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o They keyword/colon pair is followed by application specific data.
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Current ^A keyword assignments are:
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| o TOPT <pt no> - destination point address
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o FMPT <pt no> - origin point address
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o INTL <dest z:n/n> <orig z:n/n> - used for inter-zone address
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File Specifications
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If one or more of FileAttached, FileRequest, or FileUpdateReq are
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asserted in an AttributeWord, the subject{72} field is interpreted as
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a list of file specifications which may include wildcards and other
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system-dependent data. This list is of the form
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FileList = [ FileSpec { Sep FileSpec } ] Null
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FileSpec = (* implementation dependent file specification. may
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not contain Null or any of the characters in Sep. *)
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Sep = ( " " | "," ) { " " }
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There are deviations from and additions to these specifications
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1 - Fido does not necessarily terminate the message text with a Null,
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but uses an empty line (0DH 0AH 0DH 0AH). Some Fido utilities
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use an EOF (1AH).
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2 - SEAdog zeros the message cost field when building a message.
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4 - SEAdog uses a different format for dates, e.g.
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DateTime = (* a character string 20 characters long *)
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(* SEAdog format Mon 1 Jan 86 02:34 *)
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DayOfWk " " DayOfMo " " Month " " Year " " HH ":" MM Null
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DayOfWk = "Mon" | "Tue" | "Wed" | "Thu" | "Fri" | "Sat" | "Sun"
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DayOfMo = " 1" | " 2" | " 3" | ... | "31" (* blank fill *)
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2. Application Layer Protocol : Schedules and Events
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At the application level, FidoNet imposes few protocol requirements.
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An implementation must automatically originate and receive
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node-to-node FidoNet connections. Some implementations do this in
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'windows' or time slots. Routing of messages will usually be
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different and customizable for each scheduled window.
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The ability to send to and receive from any FidoNet listed node during
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the Zone Mail Hour (eg. 9:00-10:00 UCT in Z1) is considered mandatory.
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Current implementations assemble all data for outbound connections at
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the start of a window, and disassemble inbound data at the end of a
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window. Due to performance considerations on small machines, this is
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considered a valid optimization. Observe that it somewhat inhibits
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dynamic routing.
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C. Presentation Layer : the User from the System's View
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1. Presentation Layer Data Definition : the Packed Message
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To conserve space and eliminate fields which would be meaningless if
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sent (e.g. timesRead), messages are packed for transmission. As this
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is a data structure which is actually transferred, its definition is
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critical to FidoNet. A packed message has a number of fixed length
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fields followed by four null terminated strings.
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While most of the string fields in a stored message are fixed length,
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to conserve space strings are variable length when in a packet. All
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variable length strings are all Null terminated, including especially
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the message text.
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Packed Message
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Offset
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dec hex
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.-----------------------------------------------.
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0 0 | 0 | 2 | 0 | 0 |
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+-----------------------+-----------------------+
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2 2 | origNode (low order) | origNode (high order) |
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+-----------------------+-----------------------+
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4 4 | destNode (low order) | destNode (high order) |
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+-----------------------+-----------------------+
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6 6 | origNet (low order) | origNet (high order) |
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+-----------------------+-----------------------+
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8 8 | destNet (low order) | destNet (high order) |
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+-----------------------+-----------------------+
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10 A | Attribute (low order) | Attribute (high order)|
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+-----------------------+-----------------------+
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12 C | cost (low order) | cost (high order) |
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+-----------------------+-----------------------+
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14 E | |
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~ DateTime ~
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| 20 bytes |
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+-----------------------+-----------------------+
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34 22 | toUserName |
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~ max 36 bytes ~
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| null terminated |
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+-----------------------+-----------------------+
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| fromUserName |
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~ max 36 bytes ~
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| null terminated |
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+-----------------------+-----------------------+
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| subject |
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~ max 72 bytes ~
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| null terminated |
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+-----------------------+-----------------------+
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| text |
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~ unbounded ~
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| null terminated |
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`-----------------------------------------------'
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Due to routing, the origin and destination net and node of a packet
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are often quite different from those of the messages within it, nor
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need the origin and destination nets and nodes of the messages within
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a packet be homogenous.
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PakdMessage = 02H 00H (* message type, old type-1 obsolete *)
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origNode (* of message *)
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destNode (* of message *)
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origNet (* of message *)
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destNet (* of message *)
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AttributeWord
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cost (* in lowest unit of originator's
|
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currency *)
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DateTime (* message body was last edited *)
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toUserName{36} (* Null terminated *)
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fromUserName{36} (* Null terminated *)
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subject{72} (* Null terminated *)
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text{unbounded} (* Null terminated *)
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2. Presentation Layer Protocol : a Mail Window
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|
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.-----+----------+-------------------------+-------------------------+-----.
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|State| State | Predicate(s) | Action(s) | Next|
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| # | Name | | | St |
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|-----+----------+-------------------------+-------------------------+-----|
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| W0 | WindTop | 1 end of window reached | reset modem to not answr| exit|
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| | | 2 time remains in window| ensure modem can answer | W1 |
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|-----+----------+-------------------------+-------------------------+-----|
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| W1 | WindIdle | 1 incoming call | | W2 |
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| | | 2 receive-only mode | | W0 |
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| | | 3 send-only mode | | W3 |
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| | | 4 60-180 secs & no call | | W3 |
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|-----+----------+-------------------------+-------------------------+-----|
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| W2* | WindRecv | | (receive call R0) | W3 |
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|-----+----------+-------------------------+-------------------------+-----|
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| W3 | WindCall | 1 select outgoing call | increment try count | W4 |
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| | | 2 no outgoing calls | | W0 |
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|-----+----------+-------------------------+-------------------------+-----|
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| W4* | WindSend | | (make call S0) | W5 |
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|-----+----------+-------------------------+-------------------------+-----|
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| W5 | WindMark | 1 call successful | remove node fr call list| W0 |
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| | | 2 no connect | remove if try cnt > lim | W0 |
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| | | 3 call failed | incr conn cnt, remove | W0 |
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| | | | if con cnt > lim | |
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`-----+----------+-------------------------+-------------------------+-----'
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|
|
The length of the inter-call delay time at W1.4 is not critical. It is
|
|
important that this not be a constant, so two systems calling each other
|
|
do not incur infinite busy signals. Sophisticated implementations may
|
|
vary the inter-call delay depending on number of calls to be made,
|
|
window width, user specification, etc.
|
|
|
|
|
|
D. Session Layer Protocol : Connecting to Another FidoNet Machine
|
|
|
|
A session is a connection between two FidoNet machines. It is currently
|
|
assumed to be over the DDD telephone network via modems. The calling
|
|
machine starts out as the sender and the called machine as the receiver.
|
|
The pickup feature is described by the sender and receiver changing
|
|
roles midway through the session, after the sender has transferred the
|
|
message packet and any attached files. Due to the lack of security in
|
|
the pickup protocol (danger of pickup by a fake node), a change in the
|
|
protocol may be expected in the near future.
|
|
|
|
Once a connection has been established, each system should ensure that
|
|
the physical connection remains throughout the session. For physical
|
|
layers implemented through modems, this means monitoring the carrier
|
|
detect signal, and terminating the session if it is lost.
|
|
|
|
Error detection at the physical layer should be monitored for both sent
|
|
and received characters. Parity, framing, and other physical errors
|
|
should be detected.
|
|
|
|
Sender
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S0 | SendInit | | dial modem | S1 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S1 | WaitCxD | 1 carrier detected | delay 1-5 seconds | S2 |
|
|
| | | 2 busy, etc. | report no connection | exit|
|
|
| | | 3 voice | report no carrier | exit|
|
|
| | | 4 carrier not detected | report no connection | exit|
|
|
| | | within 60 seconds | | |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S2 | WhackCRs | 1 over 30 seconds | report no response <cr> | exit|
|
|
| | | 2 ?? <cr>s received | delay 1 sec | S3 |
|
|
| | | 3 <cr>s not received | send <cr> <sp> <cr> <sp>| S2 |
|
|
| | | | delay ??? secs | |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S3 | WaitClear| 1 no input for 0.5 secs | send TSYNCH = AEH | S4 |
|
|
| | | 2 over 60 seconds | hang up, report garbage | exit|
|
|
| | | and line not clear | | |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S4* | TSyncChk | 1 'C' or NAK (peeked at)| (XMODEM send packet XS1)| S5 |
|
|
| | | 2 over 2 seconds | eat noise, resend TSYNCH| S4 |
|
|
| | | 3 over 30 seconds | hang up report not Fido | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S5 | CheckMail| 1 XMODEM successful | (Fido registers success)| S6 |
|
|
| | | 2 XMODEM fail or timeout| hang up, report mail bad| exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S6* | SendFiles| | (BATCH send files BS0) | S7 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S7 | CheckFile| 1 BATCH send successful | | S8 |
|
|
| | | 2 BATCH send failed | hang up, rept files fail| exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| S8 | TryPickup| 1 wish to pickup | note send ok | R2* |
|
|
| | | 2 no desire to pickup | delay 5 secs | exit|
|
|
| | | | hang up, rept send ok | |
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
Although the above shows the sender emitting only one TSYNCH, it is
|
|
recommended that a timeout of 5-20 seconds should initiate another TSYNCH.
|
|
The receiver should tolerate multiple TSYNCHs.
|
|
|
|
In state S4, the phrase "peeked at" means that the character is not removed
|
|
from the buffer. Therefore when XS1 is started the proper character for
|
|
beginning the Xmodem transfer will be detected.
|
|
|
|
Receiver
|
|
|
|
The receiving FSM is given an external timer, the expiration of which
|
|
will cause termination with a result of 'no calls' (R0.2).
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R0 | WaitCxD | 1 carrier detected | | R1 |
|
|
| | | 2 external timer expires| report no calls | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R1 | WaitBaud | 1 baud rate detected | send signon with <cr>s | R2 |
|
|
| | | 2 no detect in ?? secs | hang up, report no baud | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R2 | WaitTsync| 1 TSYNCH received | ignore input not TSYNCH | R3 |
|
|
| | | 2 60 seconds timeout | hang up, report not Fido| exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R3* | RecMail | | (XMODEM rec packet XR0) | R4 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R4 | XRecEnd | 1 XMODEM successful | delay 1 second | R5 |
|
|
| | | | flush input | |
|
|
| | | 2 XMODEM failed | hang up, rept mail fail | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R5* | RecFiles | | (BATCH rec files BR0) | R6 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R6 | ChkFiles | 1 BATCH recv successful | delay 2 secs | R7 |
|
|
| | | 2 BATCH recv failed | hang up, report bad file| exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| R7 | AllowPkup| 1 have pickup for sender| receiver becomes sender | S3* |
|
|
| | | 2 nothing to pickup | hang up, rept recv ok | exit|
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
|
|
E. Transport Layer : ?????
|
|
|
|
1. Data Definitions
|
|
|
|
2. Transport Layer Protocol : Routing
|
|
|
|
FidoNet does not necessarily send a message directly to its
|
|
destination. To reduce the number of network connections, mail to a
|
|
subset of the nodelist may be routed to one node for further
|
|
distribution within that subset. In addition, custom routing is
|
|
possible. Routing of a message is determined in one of three ways.
|
|
|
|
o If there are files attached, then a message must be sent directly to
|
|
its destination.
|
|
|
|
o Messages without attached files should be routed through the inbound
|
|
host of the destination node's subnet as specified by a FidoNet
|
|
format nodelist.
|
|
|
|
o To prevent overloading of inbound hosts, a system should provide for
|
|
host routing to be disabled for a target node, or nodes.
|
|
|
|
|
|
F. Network Layer : the Network's View of the System, Routing and Packets
|
|
|
|
|
|
1. Network Layer Data Definition : the Packet Header
|
|
|
|
The packet contains messages in packed format to be transferred over
|
|
the net during a connection. As this data structure is transferred,
|
|
its definition is critical to FidoNet.
|
|
|
|
A packet may contain zero or more packed messages. A packet without
|
|
messages is often generated as a poll packet.
|
|
|
|
Every packet begins with a packet header. The fields of the packet
|
|
header are of fixed length.
|
|
|
|
|
|
Packet Header
|
|
Offset
|
|
dec hex
|
|
.-----------------------------------------------.
|
|
0 0 | origNode (low order) | origNode (high order) |
|
|
+-----------------------+-----------------------+
|
|
2 2 | destNode (low order) | destNode (high order) |
|
|
+-----------------------+-----------------------+
|
|
4 4 | year (low order) | year (high order) |
|
|
+-----------------------+-----------------------+
|
|
6 6 | month (low order) | month (high order) |
|
|
+-----------------------+-----------------------+
|
|
8 8 | day (low order) | day (high order) |
|
|
+-----------------------+-----------------------+
|
|
10 A | hour (low order) | hour (high order) |
|
|
+-----------------------+-----------------------+
|
|
12 C | minute (low order) | minute (high order) |
|
|
+-----------------------+-----------------------+
|
|
14 E | second (low order) | second (high order) |
|
|
+-----------------------+-----------------------+
|
|
16 10 | baud (low order) | baud (high order) |
|
|
+-----------------------+-----------------------+
|
|
18 12 | 0 | 2 | 0 | 0 |
|
|
+-----------------------+-----------------------+
|
|
20 14 | origNet (low order) | origNet (high order) |
|
|
+-----------------------+-----------------------+
|
|
22 16 | destNet (low order) | destNet (high order) |
|
|
+-----------------------+-----------------------+
|
|
24 18 | prodCode | serialNo |
|
|
+-----------------------+-----------------------+
|
|
26 1A | |
|
|
| password (some impls) |
|
|
| eight bytes |
|
|
| null padded |
|
|
| |
|
|
+-----------------------+-----------------------+
|
|
34 22 | origZone (low) (opt) | origZone (high) (opt) |
|
|
+-----------------------+-----------------------+
|
|
36 24 | destZone (low) (opt) | destZone (high) (opt) |
|
|
+-----------------------+-----------------------+
|
|
38 26 | fill |
|
|
~ 20 bytes ~
|
|
| |
|
|
+-----------------------+-----------------------+
|
|
58 3A | zero or more |
|
|
~ packed ~
|
|
| messages |
|
|
+-----------------------+-----------------------+
|
|
| 0 | 0 | 0 | 0 |
|
|
`-----------------------+-----------------------'
|
|
|
|
|
|
Packet = PacketHeader { PakdMessage } 00H 00H
|
|
|
|
PacketHeader = origNode (* of packet, not of messages in packet *)
|
|
destNode (* of packet, not of messages in packet *)
|
|
year (* of packet creation, e.g. 1986 *)
|
|
month (* of packet creation, 0-11 for Jan-Dec *)
|
|
day (* of packet creation, 1-31 *)
|
|
hour (* of packet creation, 0-23 *)
|
|
minute (* of packet creation, 0-59 *)
|
|
second (* of packet creation, 0-59 *)
|
|
baud (* max baud rate of orig and dest, 0=SEA *)
|
|
PacketType (* old type-1 packets now obsolete *)
|
|
origNet (* of packet, not of messages in packet *)
|
|
destNet (* of packet, not of messages in packet *)
|
|
prodCode (* 0 for Fido, write to FTSC for others *)
|
|
serialNo (* binary serial number (otherwise null)*)
|
|
password (* session password (otherwise null) *)
|
|
origZone (* zone of pkt sender (otherwise null) *)
|
|
destZone (* zone of pkt receiver (otherwise null)*)
|
|
fill[20]
|
|
|
|
PacketType = 02H 00H (* 01H 00H was used by Fido versions before 10
|
|
which did not support local nets. The packed
|
|
message header was also different for those
|
|
versions *)
|
|
|
|
prodCode = ( 00H (* Fido *)
|
|
| ...
|
|
| ??H (* Please apply for new codes *)
|
|
)
|
|
|
|
|
|
The remainder of the packet consists of packed messages. Each packed
|
|
message begins with a message type word 0200H. A pseudo-message
|
|
beginning with the word 0000H signifies the end of the packet.
|
|
|
|
|
|
2. Network Layer Data Description : a File with Attributes
|
|
|
|
The BATCH protocol uses the MODEM7 filename and TeLink/XMODEM file
|
|
transfer protocols to transfer the file with attributes.
|
|
|
|
When a file is transferred via FidoNet, an attempt is made to also
|
|
pass the operating system's attributes for the file such as length,
|
|
modification date, etc. FidoNet does this via a special prefix block
|
|
to the XMODEM file transfer using a protocol known as TeLink. As the
|
|
TeLink protocol relies on a modification to the XMODEM file transfer
|
|
protocol, it is documented at the data link layer level.
|
|
|
|
The MODEM7 file name is redundant if there is also a TeLink block, in
|
|
which case the name may be taken from either or both.
|
|
|
|
FileName as Sent
|
|
Offset
|
|
dec hex
|
|
.-----------------------------------------------.
|
|
0 0 | fileName |
|
|
~ 8 bytes ~
|
|
| left adjusted blank filled |
|
|
+-----------------------+-----------------------+
|
|
8 8 | fileExt |
|
|
~ 3 bytes ~
|
|
| left adjusted blank filled |
|
|
`-----------------------------------------------'
|
|
|
|
|
|
3. Network Layer Protocol : BATCH File Finite State Machines
|
|
|
|
|
|
BATCH File Sender
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BS0*| MoreFiles| 1 more files to send | (MODEM7 FName send MS0) | BS1 |
|
|
| | | 2 no more files to send | | BS3 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BS1 | CheckFNm | 1 MODEM7 Filename ok | (TeLink send file XS0) | BS2 |
|
|
| | | 2 MODEM7 Filename bad | report name send bad | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BS2 | CheckFile| 1 TeLink send ok | | BS0 |
|
|
| | | 2 TeLink send bad | report file send bad | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BS3 | EndSend | 1 rec NAK for next file | send EOT, report send ok| exit|
|
|
| | | 2 10 seconds no NAK | send EOT, report no NAK | exit|
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
When no files remain, the sender responds to the receiver's NAK with an
|
|
EOT. The EOT is not ACK/NAKed by the receiver.
|
|
|
|
Filenames must be upper case ASCII. The data link layer uses "u" as a
|
|
control character.
|
|
|
|
|
|
BATCH File Receiver
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BR0*| RecvName | | (MODEM7 FName recv MR0) | BR1 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BR1 | CheckFNm | 1 MODEM7 no more files | report files recd ok | exit|
|
|
| | | 2 MODEM7 Filename ok | (TeLink recv file XR0) | BR2 |
|
|
| | | 2 MODEM7 Filename bad | report name recv bad | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| BR2 | CheckFile| 1 TeLink recv ok | | BR0 |
|
|
| | | 2 TeLink recv bad | report file recv bad | exit|
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
|
|
G. Data Link Layer : Error-Free Data Transfer
|
|
|
|
1. Data Link Layer Data Definition : XMODEM/TeLink Blocks
|
|
|
|
XMODEM transfers are in blocks of 128 uninterpreted data bytes
|
|
preceded by a three byte header and followed by either a one byte
|
|
checksum or a two byte crc remainder. XMODEM makes no provision for
|
|
data streams which are not an integral number of blocks long.
|
|
Therefore, the sender pads streams whose length is not a multiple of
|
|
128 bytes with the end-of-file character (^Z for MS-DOS), and use some
|
|
other means to convey the true data length to the receiver (e.g.
|
|
TeLink file info block).
|
|
|
|
Data blocks contain sequence numbers so the receiver can ensure it has
|
|
the correct block. Block numbers are sequential unsigned eight bit
|
|
integers beginning with 01H and wrapping to 00H, except that a TeLink
|
|
block is given sequence number 00H.
|
|
|
|
For files which are attached to the mail packet, not the mail packet
|
|
itself, if the sending system is aware of the file attributes as they
|
|
are known to the operating system, then the first block of the XMODEM
|
|
transfer may be a special TeLink block to transfer that information.
|
|
This block differs in that the first byte is a SYN character as
|
|
opposed to an SOH, and it is always sent checksum as opposed to CRC.
|
|
Should the receiver be unwilling to handle such information, after two
|
|
NAKs (or "C"s), the sender skips this special block and goes on to the
|
|
data itself.
|
|
|
|
|
|
|
|
XMODEM Data Block (CRC mode)
|
|
Offset
|
|
dec hex
|
|
.-----------------------------------------------.
|
|
0 0 | SOH - Start Of Header - 01H |
|
|
+-----------------------------------------------+
|
|
1 1 | BlockNumber |
|
|
+-----------------------------------------------+
|
|
2 2 | BlockComplement |
|
|
+-----------------------------------------------+
|
|
3 3 | 128 bytes of |
|
|
~ uninterpreted ~
|
|
| data |
|
|
+-----------------------------------------------+
|
|
131 83 | CRC high order byte |
|
|
+-----------------------------------------------+
|
|
132 84 | CRC low order byte |
|
|
`-----------------------------------------------'
|
|
|
|
|
|
|
|
XMODEM Data Block (Checksum mode)
|
|
Offset
|
|
dec hex
|
|
.-----------------------------------------------.
|
|
0 0 | SOH - Start Of Header - 01H |
|
|
+-----------------------------------------------+
|
|
1 1 | BlockNumber |
|
|
+-----------------------------------------------+
|
|
2 2 | BlockComplement |
|
|
+-----------------------------------------------+
|
|
3 3 | 128 bytes of |
|
|
~ uninterpreted ~
|
|
| data |
|
|
+-----------------------------------------------+
|
|
131 83 | Checksum byte |
|
|
`-----------------------------------------------'
|
|
|
|
|
|
TeLink File Descriptor Block
|
|
Offset
|
|
dec hex
|
|
.-----------------------------------------------.
|
|
0 0 | SYN - File Info Header - 16H |
|
|
+-----------------------------------------------+
|
|
1 1 | 00H |
|
|
+-----------------------------------------------+ data offset
|
|
2 2 | FFH | dec hex
|
|
+-----------------------------------------------+
|
|
3 3 | File Length, least significant byte | 0 0
|
|
+-----------------------------------------------+
|
|
4 4 | File Length, second to least significant byte | 1 1
|
|
+-----------------------------------------------+
|
|
5 5 | File Length, second to most significant byte | 2 2
|
|
+-----------------------------------------------+
|
|
6 6 | File Length, most significant byte | 3 3
|
|
+-----------------------------------------------+
|
|
7 7 | Creation Time of File | 4 4
|
|
| "DOS Format" |
|
|
+-----------------------------------------------+
|
|
9 9 | Creation Date of File | 6 6
|
|
| "DOS Format" |
|
|
+-----------------------------------------------+
|
|
11 B | File Name | 8 8
|
|
~ 16 chars ~
|
|
| left justified blank filled |
|
|
+-----------------------------------------------+
|
|
27 1B | 00H | 24 18
|
|
+-----------------------------------------------+
|
|
28 1C | Sending Program Name | 25 19
|
|
~ 16 chars ~
|
|
| left justified Null filled |
|
|
+-----------------------------------------------+
|
|
44 2C | 01H (for CRC) or 00H | 41 29
|
|
+-----------------------------------------------+
|
|
45 2D | fill | 42 2A
|
|
~ 86 bytes ~
|
|
| all zero |
|
|
+-----------------------------------------------+
|
|
132 84 | Checksum byte |
|
|
`-----------------------------------------------'
|
|
|
|
|
|
|
|
XMODEMData = XMODEMBlock (* block of data with header and
|
|
trailer *)
|
|
| TeLinkBlock (* TeLink File Descriptor Block *)
|
|
| ACK (* acknowledge data received ok *)
|
|
| NAK (* negative ACK & poll 1st block *)
|
|
| EOT (* end of xfer, after last block *)
|
|
| "C" (* 43H *)
|
|
|
|
XMODEMBlock = SOH (* Start of Header, XMODEM Block *)
|
|
blockNumber[1] (* sequence, i'=mod( i+1, 256 ) *)
|
|
blockCompl[1] (* one's compl of BlockNumber *)
|
|
data[128] (* uninterpreted user data block *)
|
|
(CRC | Checksum) (* error detect/correction code *)
|
|
|
|
TeLinkBlock = SYN (* File Info Header *)
|
|
00H (* block no, must be first block *)
|
|
FFH (* one's complement of block no *)
|
|
fileLength[4] (* length of data in bytes *)
|
|
CreationTime[2] (* time file last modified or zero *)
|
|
CreationDate[2] (* date file last modified or zero *)
|
|
fileName(16) (* name of file, not vol or dir *)
|
|
00H (* header version number *)
|
|
sendingProg(16) (* name of program on send side *)
|
|
crcMode[1] (* 01H for CRC 00H for Checksum *)
|
|
fill[87] (* zeroed *)
|
|
Checksum (* error detect/correction code *)
|
|
|
|
ACK = 06H (* acknowledge data received ok *)
|
|
NAK = 15H (* negative ACK & poll 1st block *)
|
|
SOH = 01H (* start of header, begins block *)
|
|
SYN = 16H (* start of TeLink file info blk *)
|
|
EOT = 04H (* end of xfer, after last block *)
|
|
|
|
CRC = crc[2] (* CCITT Cyclic Redundancy Check *)
|
|
|
|
Checksum = checksum[1] (* low 8 bits of sum of data bytes
|
|
using unsigned 8 bit arithmetic *)
|
|
|
|
CreationDate = year[.7] (* 7 bits, years since 1980, 0-127 *)
|
|
month[.4] (* 4 bits, month of year, 1-12 *)
|
|
day[.5] (* 5 bits, day of month, 1-31 *)
|
|
|
|
CreationTime = hour[.5] (* 5 bits, hour of day, 0-23 *)
|
|
minute[.6] (* 6 bits, minute of hour, 0-60 *)
|
|
biSeconds[.2] (* 6 bits, seconds/2, 0-29 *)
|
|
|
|
|
|
Note that the crcMode is always set to 01H in current implementations
|
|
as all TeLink/XMODEM implementations use the CRC method. Therefore,
|
|
it is always set to 01H by the sender, and is ignored by the receiver.
|
|
|
|
|
|
2. Data Link Layer Protocol : XMODEM/TeLink Finite State Machines
|
|
|
|
The protocol is receiver driven, the receiver polling the sender for
|
|
each block. If the receiver polls for the first block using a "C"
|
|
(43H) as the poll character, it would prefer to have the CRC-CCITT
|
|
polynomial remainder error detection code at the end of each block as
|
|
opposed to a one byte unsigned checksum. The sender will respond to
|
|
the "C" poll iff it can comply. If the sender chooses checksum as
|
|
opposed to CRC, it waits for the receiver to poll with NAK (15H).
|
|
Should the checksum method be preferable to the receiver, it polls
|
|
with NAK rather than "C".
|
|
|
|
The sender returns an EOT instead of a data block when no data remain.
|
|
|
|
Neither the sender nor the receiver should send the block or ACK/NAK
|
|
response while there is data being received. They should wait for the
|
|
line to settle, and possibly time out.
|
|
|
|
It is suggested that one's input buffer be cleared immediately after
|
|
sending block or ACK/NAK response, before waiting for the response from
|
|
the other end. This clears any line garbage which occurred during
|
|
transmit.
|
|
|
|
|
|
XMODEM/TeLink Sender
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XS0 | WaitTeLnk| 1 over 40-60 seconds | report sender timeout | exit|
|
|
| | | 2 over 2 tries | note TeLink block failed| XS1 |
|
|
| | | 3 NAK or "C" received | send TeLink, incr tries | XS0 |
|
|
| | | 4 ACK received | TeLink ok, set crc/cksm | XS2 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XS1 | WaitStart| 1 over 40-60 seconds | report sender timeout | exit|
|
|
| | | 2 over 20 tries | report send failed | exit|
|
|
| | | 3 NAK received | set checksum mode | XS2 |
|
|
| | | 4 "C" recd, I can crc | set crc mode | XS2 |
|
|
| | | 5 "C" recd, I can't crc | | XS1 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XS2 | SendBlock| 1 more data available | send next data block | XS3 |
|
|
| | | | as checksum or crc | |
|
|
| | | 2 last block has gone | send EOT | XS4 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XS3 | WaitACK | 1 10 retries or 1 minute| report send failed | exit|
|
|
| | | 2 ACK received | | XS2 |
|
|
| | | 3 NAK (or C if 1st blk) | resend last block | XS3 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XS4 | WaitEnd | 1 10 retries or 1 minute| report send failed | exit|
|
|
| | | 2 ACK received | report send successful | exit|
|
|
| | | 3 NAK received | resend EOT | XS4 |
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
|
|
XMODEM/TeLink Receiver
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XR0 | RecStart | 1 prefer crc mode | Send "C" | XR1 |
|
|
| | | 2 want checksum mode | send NAK | XR1 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XR1 | WaitFirst| 1 10 retries or 1 minute| report receive failure | exit|
|
|
| | | 2 > 3 retries or 30 secs| set want checksum mode | XR0 |
|
|
| | | 3 EOT received | delay < sec, purge input| exit|
|
|
| | | | send ACK, report no file| |
|
|
| | | 4 TeLink block recd | send ACK, set crc/cksm | XR2 |
|
|
| | | 5 data block recd | send ACK, set crc/cksm | XR2 |
|
|
| | | 6 bad block or 2-10 secs| incr retry count | XR0 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| XR2 | WaitBlock| 1 10 retries or 1 minute| report receive failure | exit|
|
|
| | | 2 EOT received | send ACK, report recd ok| exit|
|
|
| | | | send ACK, report recd ok| |
|
|
| | | 3 data block received | send ACK | XR2 |
|
|
| | | 4 bad block or 2-10 secs| send NAK, incr retry cnt| XR2 |
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
|
|
A number of checks should be made to ensure a valid data block has been
|
|
received.
|
|
|
|
o The physical layer should have encountered no errors, e.g. parity,
|
|
framing, etc.
|
|
|
|
o The length of the block should not be less than expected.
|
|
|
|
o If the blocks sequence number does not match the complement, then
|
|
respond with a NAK and attempt to read the block again.
|
|
|
|
o If the block's sequence number is one previous (remember wrap around)
|
|
to that of the expected block, respond with an ACK and read again.
|
|
|
|
o If the sequence number fits neither of the above criteria, and is yet
|
|
not the expected sequence number, abort the receive.
|
|
|
|
o The checksum or CRC should be correct.
|
|
|
|
|
|
|
|
3. Data Link Layer Protocol : MODEM7 Filename Finite State Machines
|
|
|
|
|
|
MODEM7 Filename Sender
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MS0 | WaitNak | 1 20 retries or 1 minute| filename send failed | exit|
|
|
| | | 2 NAK received | send ACK & 1st ch of fn | MS1 |
|
|
| | (note 1) | 3 C received | return fn skipped | exit|
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MS1 | WaitChAck| 1 ACK rcd, fname done | send SUB = 1AH | MS2 |
|
|
| | | 2 ACK rcd, fname ~done | send next ch of fname | MS1 |
|
|
| | | 3 other char or 1 sec | send "u", incr retry cnt| MS0 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MS2 | WaitCksm | 1 cksum recd and ok | send ACK, report fn ok | exit|
|
|
| | | 2 cksum recd but bad | send "u", incr retry cnt| MS0 |
|
|
| | | 3 no cksum in 1 sec | send "u", incr retry cnt| MS0 |
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
|
|
MODEM7 Filename Receiver
|
|
|
|
.-----+----------+-------------------------+-------------------------+-----.
|
|
|State| State | Predicate(s) | Action(s) | Next|
|
|
| # | Name | | | St |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MR0 | SendNak | 1 20 tries or 1 minute | report filename failure | exit|
|
|
| | | 2 | send NAK, incr try cnt | MR1 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MR1 | WaitAck | 1 rcd ACK | | MR2 |
|
|
| | | 2 rcd EOT | report no files remain | exit|
|
|
| | | 3 5 secs & no ACK/EOT | | MR0 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MR2 | WaitChar | 1 recd EOT (can happen?)| report no files remain | exit|
|
|
| | | 2 recd SUB | send checksum byte | MR3 |
|
|
| | | 3 recd "u" | | MR0 |
|
|
| | | 4 recd char of name | send ACK | MR2 |
|
|
| | | 5 no char in 1 second | | MR0 |
|
|
|-----+----------+-------------------------+-------------------------+-----|
|
|
| MR3 | WaitOkCk | 1 recd ACK within 1 sec | report recd filename ok | exit|
|
|
| | | 2 recd "u" or other char| | MR0 |
|
|
`-----+----------+-------------------------+-------------------------+-----'
|
|
|
|
SUB is the ASCII character ^Z or 1AH. The checksum is the unsigned low
|
|
order eight bits of the sum of the characters in the transferred filename
|
|
including the SUB.
|
|
|
|
Although one second timeouts are used successfully by Fido and SEAdog,
|
|
some fear that this is too small a timeout for some satellite and packet
|
|
network links.
|
|
|
|
Note 1 - MS0.3 is a common addition to accommodate a common noncompliance.
|
|
Support of MS0.3 is optional for a compliant mailer. This hack
|
|
also requires modification of a number of state tables, see
|
|
FSC-0011.
|
|
|
|
|
|
H. Physical Layer : the Actual Connection of Two FidoNet Systems
|
|
|
|
Will one of the more hardware-oriented comm types give me some idea of
|
|
what's needed here? Can we leave it open enough to allow implementation
|
|
over a non-dial net? Thanks.
|
|
|
|
|
|
I. Revisions since FTS-0001
|
|
|
|
89 Oct 25 (rev 13)
|
|
o packet header: optional serialNo, password, and orig/dest zone
|
|
o stored message to/from zone/point info added as option per
|
|
Fido-12 and Dutchie
|
|
o XR1 and XR2 changes per FSC-0011
|
|
o reference to FSC-0011 for the MODEM7-avoidance hack, MS0.3
|
|
o dropped enumeration of product codes
|
|
o S4 modification from FSC-0011
|
|
o Nodelist and EID reference appropriate documents
|
|
o various cosmetics
|
|
90 July 1-5 (rev 14)
|
|
o spelling errors caught by Ray Gardner
|
|
o references to the now dead IFNA elided
|
|
o offset at end of Packed Message was 10 as opposed to 20 bytes
|
|
o Packed Message and Packet Header corrections by Roland Gautschi
|
|
o Offsets in TeLink header caught by Rick Moore
|
|
90 August 30 (rev 15)
|
|
o corrected offsets in packet header
|
|
95 September 30 (rev 16)
|
|
o TOPT corrected
|
|
o contact info changed
|
|
|
|
|
|
J. Acknowledgements
|
|
|
|
Ben Baker, Thom Henderson, Tom Jennings, Ken Kaplan, and Gee Wong
|
|
suggested, informed, reviewed, and encouraged. Tom and Thom gave me
|
|
all the basics, and even allowed me to look at actual code. Bob Hartman
|
|
was foolish enough to implement the specification, and was generous
|
|
with useful feedback. Ray Gardner caught my spelling errors <blush>,
|
|
and Roland Gautschi and Rick Moore found offset and length errors.
|
|
|
|
My employer, Pacific Systems Group was kind enough to donate my time to
|
|
research and to write this document.
|
|
|
|
Fido and FidoNet are registered trademarks of Tom Jennings.
|
|
|
|
SEAdog is a trademark of System Enhancement Associates.
|
|
|
|
|
|
K. Bibliography
|
|
|
|
Documentation for the protocols and data formats are scattered. Some
|
|
are unattributed, some even untitled.
|
|
|
|
Anonymous, changes to MODEM to implement CRC option XMDM-CRC.TXT
|
|
|
|
Baker, Ken and Moore, Rick, Nodelist Definition, currently FTS-0005
|
|
|
|
Christensen, Ward, "MODEM Protocol Overview" of 1 January 82 XMODEM.TXT
|
|
|
|
Hartman, Bob, "Some thoughts that I had on FSC001", FSC-0011
|
|
|
|
Henderson, Thom, "SEAdog Electronic Mail System Version 3" of April 86
|
|
|
|
International Standards Organization, "Data Processing - Open Systems
|
|
Interconnection - Basic Reference Model" ISO/DIS 7498 April 82
|
|
|
|
Jennings, Tom, "FidoNet Electronic Mail Protocol" 8 February 85
|
|
FIDOMAIL.DOC
|
|
|
|
Jennings, Tom, "Fido's Internal Structures" of 13 September 85
|
|
STRUCT.TXT aka STRUCT.APX
|
|
|
|
Jennings, Tom, "Extending XMODEM/MODEM File Transfer Protocol to support
|
|
DOS" 20 September 83 FILEXFER.DOC
|
|
|
|
Jordan, Larry, "XMODEM File Transfer Protocol" XMDM-LJ.TXT
|
|
|
|
Rudin, H and West, C, "Protocol Specification, Testing, and
|
|
Verification, III" Proceedings of the IFIP WG 6.1 Third International
|
|
Workshop on Protocol Specification, Testing, and Verification,
|
|
Rueschlikon Switzerland 31 May - 2 June 1983.
|
|
|
|
Tanenbaum, Andrew, "Computer Networks" Prentice Hall 1981
|
|
|
|
Messages generated by Fido 11w, SEAdog 3.8, and QMail 1.01
|
|
</PRE>
|
|
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