Reference number
ISO/IEC 13239:2002
International Standard
ISO/IEC 13239:2002
Information technology — Telecommunications and information exchange between systems — High-level data link control (HDLC) procedures
Edition 3
2002-07
Preview
ISO/IEC 13239:2002
37010
недоступно на русском языке
Опубликовано (Версия 3, 2002)
Последний раз этот публикация был пересмотрен в  2007. Поэтому данная версия остается актуальной.

ISO/IEC 13239:2002

ISO/IEC 13239:2002
37010
Язык
Формат
CHF 216
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Тезис

This International Standard specifies the frame structures, the elements of procedures, the classes of procedures, the content

and format of the general purpose Exchange Identification (XID) frame, and a means for resolution/negotiation of a data link

layer address in switched environments for data communication systems using bit-oriented high-level data link control

(HDLC) procedures.

NOTE The use of the phrase "bit-oriented", referring to the HDLC control procedures, pertains to the allocation of a non-integral number

of bits to various subfields used for HDLC control purposes. However, the frame as an entirety may be constructed from octet-oriented units

(e.g., start-stop mode) for transmission purposes.

The frame structure portion defines the relative positions of the various components of the basic frame format and the nonbasic

frame format. The mechanisms used to achieve bit pattern independence (transparency), where and when required, within

the frame are also defined. In addition, three frame checking sequences (FCS) are specified; the rules for address field

extension are defined; and the addressing conventions available are described.

The elements of procedures portion specifies elements of data link control procedures for synchronous or start/stop, codetransparent

data transmission using independent frame numbering in both directions.

These HDLC elements of procedures are defined specifically in terms of the actions that occur on receipt of commands at a

secondary station, a tributary station, a peer station, or a combined station.

This International Standard is intended to cover a wide range of applications; for example one-way, two-way alternate or twoway

simultaneous data communication between data stations which are usually buffered, including operations on different

types of data circuits; for example multipoint/point-to-point, duplex/half-duplex, switched/non-switched, synchronous/startstop,

etc.

The defined elements of procedures are to be considered as a common basis for establishing different types of data link control

procedures. This International Standard does not define any single system and should not be regarded as a specification for a

data communication system. Not all of the commands or responses are required for any particular system implementation.

The classes of procedures portion describes the HDLC unbalanced classes of procedures, the HDLC balanced class of

procedures, and the HDLC connectionless classes of procedures for synchronous or start/stop data transmission.

For the unbalanced classes, the data link consists of a primary station plus one or more secondary stations and operates in

either the normal response mode or the asynchronous response mode in a point-to-point or multipoint configuration. For the

balanced class, the data link consists of two combined stations and operates in the asynchronous balanced mode in a point-topoint

configuration. For the unbalanced connectionless class, the data link consists of a control station plus one or more

tributary stations and operates in the unbalanced connectionless-mode in a point-to-point or multipoint configuration. For the

balanced connectionless class, the data link consists of two peer stations and operates in the balanced connectionless-mode in a

point-to-point configuration. In each class, a basic repertoire of commands and responses is defined, but the capability of the

data link may be modified by the use of optional functions.

Balanced operation is intended for use in circumstances which require equal control at either end of the data link. Operational

requirements are covered in accordance with the overall HDLC architecture.

The content and format of the Exchange Identification (XID) frame portion builds on the fact that the principal use of the XID

frame is to exchange data link information between two or more HDLC stations. For the purpose of this International Standard,

ISO/IEC 13239:2002(E)

2 © ISO/IEC 2002 ? All rights reserved

data link information shall include any and all essential operational characteristics such as identification, authentication and/or

selection of optional functions and facilities concerning each station. This International Standard defines a single-exchange

negotiation procedure for establishing operational characteristics when either one or more stations are capable of providing

multiple selections.

This International Standard provides a means for exchanging the necessary information to establish, at a minimum, a data link

connection between two correspondents wishing to communicate. It describes a general purpose XID frame information field

content and format for that purpose.

It defines encoding for information related to the basic HDLC standards only. Mechanisms are provided to permit the general

purpose XID frame information field to be used to negotiate private parameters in a single XID exchange simultaneously with

negotiation of the defined basic parameters.

This International Standard does not limit or restrict the use of the XID frame information field from defining other standard

formats for use in specific applications.

The following are examples of potential uses of the XID command/response frame interchange:

a) Identification of the calling and called stations when using circuit switched networks (including switched network backup

applications).

b) Identification of stations operating on non-switched networks requiring identification at start-up.

c) The XID command frame with an individual, group or all-station address may be used to solicit XID response frame(s)

from other station(s) on the data link, prior to or following data link establishment.

d) Negotiation of the Frame Check Sequence (FCS) to be used for subsequent information interchange, by stations that

support both 16-bit FCS and 32-bit FCS capabilities.

e) Convey higher layer information that may be required prior to data link establishment.

f) Transmission of an XID response frame at any respond opportunity to request an XID exchange to modify some of the

operational parameters (for example, window size) following data link establishment.

g) Negotiation of the number of protected bits in the frame when an Unnumbered Information with Header check (UIH)

frame is used.

The means for resolution/negotiation of a data link layer address in switched environments portion is applicable to data stations

employing HDLC balanced classes of procedures which provide the XID command/response capability with the two specific

parameter fields, identified below. It is used to select a pair of operational link addresses when preassigned, system designated

addresses are not known on an a priori basis; e.g., switched circuited data links. Additional XID frame functions (including the

exchange of operational parameters, command/response support, higher layer information, etc.) may be accomplished in

conjunction with data link layer address determination or following address determination, with additional XID frame

exchanges.

NOTE Address resolution procedures for situations where the remote DTE does not support XID frames, the "all-station"

address, or complete address support capabilities as defined in clause 8 below are not within the scope of this International

Standard.

Общая информация

  •  : Опубликовано
     : 2002-07
    : Подтверждение действия международного стандарта [90.93]
  •  : 3
  • ISO/IEC JTC 1/SC 6
    35.100.20 
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