ДСТУ ISO/IEC 15802-3:2016 Інформаційні технології. Телекомунікації та обмін інформацією між системами. Локальні та міські мережі. Загальні специфікації. Частина 3. Мости керування доступом до середовища (ISO/...
ДСТУ ISO/IEC 15802-3:2016
(ISO/IEC 15802-3:1998, IDT)
Інформаційні технології. Телекомунікації та обмін інформацією між системами.
Локальні та міські мережі. Загальні специфікації.
Частина 3. Мости керування доступом до середовища
Не є офіційним виданням.
Офіційне видання розповсюджує національний орган стандартизації
(ДП «УкрНДНЦ» http://uas.gov.ua)
Contents
1. Overview
1.1 Introduction
1.2 Scope
2. References
3. Definitions
3.1 Bridged Local Area Network
3.2 Expedited traffic
3.3 Group
3.4 IEEE 802 Local Area Network (LAN)
4. Abbreviations
5. Conformance
5.1 Static conformance requirements
5.2 Options
5.3 Protocol Implementation Conformance Statement (PICS) proforma
5.4 Recommendations
5.5 MAC-specific bridging methods
6. Support of the MAC Service
6.1 Support of the MAC Service
6.2 Preservation of the MAC Service
6.3 Quality of service maintenance
6.4 Internal Sublayer Service provided within the MAC Bridge
6.5 Support of the Internal Sublayer Service by specific MAC procedures
6.6 Filtering services in Bridged LANs
7. Principles of operation
7.1 Bridge operation
7.2 Bridge architecture
7.3 Model of operation
7.4 Port States, Active Ports, and the active topology
7.5 Frame reception
7.6 Frame transmission
7.7 The Forwarding Process
7.8 The Learning Process
7.9 The Filtering Database
7.10 Bridge Protocol Entity and GARP Protocol Entities
7.11 Bridge Management
7.12 Addressing
8. The Spanning Tree Algorithm and Protocol
8.1 Requirements to be met by the algorithm
8.2 Requirements of the MAC Bridges
8.3 Overview
8.4 Port States
8.5 Protocol parameters and timers
8.6 Elements of procedure
8.7 Operation of the protocol
8.8 Management of the bridge protocol entity
8.9 Procedural model
8.10 Performance
9. Encoding of Bridge Protocol Data Units (BPDUs)
9.1 Structure
9.2 Encoding of parameter types
9.3 BPDU formats and parameters
10. GARP Multicast Registration Protocol (GMRP)
10.1 Purpose
10.2 Model of operation
10.3 Definition of the GMRP Application
10.4 Conformance to GMRP
11. Example “C” code implementation of GMRP
11.1 Purpose
11.2 GMRP application-specific header files
11.3 GMRP application code
12. Generic Attribute Registration Protocol (GARP)
12.1 Purpose
12.2 Overview of GARP operation
12.3 GARP architecture
12.4 Requirements to be met by GARP
12.5 Requirements for interoperability between GARP Participants
12.6 Conformance to GARP Applications
12.7 Overview of GARP protocol operation
12.8 State machine descriptions
12.9 Administrative controls
12.10 Procedures
12.11 Structure and encoding of GARP Protocol Data Units
12.12 Timer values, granularity and relationships
12.13 Procedural model
12.14 Interoperability considerations
13. Example “C” code implementation of GARP
13.1 Purpose
13.2 GARP application independent header files
13.3 GARP application independent code
14. Bridge Management
14.1 Management functions
14.2 Managed objects
14.3 Data types
14.4 Bridge Management Entity
14.5 MAC Entities
14.6 Forwarding Process
14.7 Filtering Database
14.8 Bridge Protocol Entity
14.9 GARP Entities
15. Management protocol
15.1 Mapping of operations onto LMMS Services
15.2 Managed object containment structure
15.3 MAC Bridge DLE Managed Object Class definition
15.4 Port Managed Object Class definition
15.5 Selective Translation Table Entry Managed Object Class definition
15.6 Permanent Database Managed Object Class definition
15.7 Filtering Database Managed Object Class definition
15.8 Database Entry Managed Object Class definition
15.9 GARP Application Managed Object Class definition
15.10 GARP Attribute Type Managed Object Class definition
15.11 GARP Attribute Managed Object Class definition
15.12 GARP Timers Managed Object Class definition
15.13 ASN.1 definitions
16. Bridge performance
16.1 Guaranteed Port Filtering Rate
16.2 Guaranteed Bridge Relaying Rate
Annex A (normative) PICS proforma
Annex B (informative) Calculating Spanning Tree parameters
Annex C (normative) Source-Routing Transparent Bridge operation
Annex D (normative) PICS proforma for Source-Routing Transparent Bridge operation
Annex E (normative) Allocation of Object Identifier values
Annex F (informative) Target topology, migration, and interoperability
Annex G (informative) Preserving the integrity of FCS fields in MAC Bridges
Annex H (informative) Design considerations for Traffic Class Expediting and Dynamic Multicast Filtering
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