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Published byHelen Hunter Modified over 9 years ago
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Distributed System Administration From “The Continuing Evolution of Distributed Systems Management” by Westerinen and Bumpus (DMTF) Week-7
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History – In the Beginning… Centralised systems Isolated Data exchanged by media backup eg decks of punched cards or reels of Magnetic Tape System management was centralised and performed during off-peak times
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1970’s – Minicomputer based distributed systems Isolated systems Used by individual departments Single function systems –Inventory, word processing Point-of-Sale, etc… Supported by manufacturer specialists Vendor unique (incompatible) technology
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1980’s: PCs and local DataBases Novelties: owned by individuals/departments Initially self-contained and isolated Later, information extracted from central databases was integrated into speadsheets and local PC applications Required ad-hoc synchronisation to support mission-critical business applications
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PCs and System Management Now data centres had to manage mainframe and departmental data centres as well as large numbers of geographically dispersed desktop PCs Distributed system management was: –Software upgrades –Configuration management –Software/Hardware Inventory
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LANs: 3-tier Distributed Systems New Technology – New challenges –Shared software and hardware –Data on shared fileservers –Configuration management was easier 3-Tier Data:Procedure architecture –Mainframe FileServer PC Client-Server applications appear
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LANs: 3-tier Distributed Systems Entirely new area of Management Synchronised application upgrades Tools to monitor/locate performance and other network problems Networks became more complex –Bridges/switches/routers: Enterprise WANs
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Managing 3-tier Enterprise system Enterprise network management Became increasingly more difficult Required large engineering staff to service and operate equipment
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Network management with SNMP Appearance of standards (ASN.1, SNMP, SMI) Adopted by Network system vendors Software agents in hardware for remote access to component instrumentation Easy way for management applications to monitor and analyse network
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1990s: Desktop SysAdmin: DMI PC vendors needed instrumentation Could not be achieved using SNMP Desktop Management Interface (DMTF) a single service providing access to instrumentation in multiple components Also allowed dynamic addition, removal and query of component descriptions (unlike SNMP where this was pre- compiled)
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Distributed systems using HTML another step in evolution of distributed systems Web used for –Internet- product and sales support –Intranet- corporate information Computing model changed from Client/Server to Browser/Application
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Distributed systems using HTML New possibilities for integration and platform independence Central management of web servers Distributed Services model –Many different applications –Hosted on many servers –Running on physically different computers Created need for reliable, efficient web infrastructures & Distributed mgmt.
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Vendor Integration of System Management services Web-based systems: combinations of network and system technologies Understanding and management requires integration of information Management tools became platforms with various “snap-in” components No standard for “snap-in” Vendors began including web interfaces in networked devices
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Common Information Model Integration of management information requires definition of concepts and semantics for managed components CIM also defines interfaces for and relationships between components “End-to-End” management General and Reusable concepts
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Common Information Model Complex system represented easily Uses classes and sub-classes to model systems and component parts May also define logical entities and services provided
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Common Information Model
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CPE5013 (c) Monash University 17 CIM - Schema [Abstract, Version ("2.7.0"), Description ( "ManagedElement is an abstract class that provides a common superclass" "(or top of the inheritance tree) for the non-association classes in the CIM Schema.") ] class CIM_ManagedElement { [MaxLen (64), Description ( "The Caption property is a short textual description (one-" "line string) of the object.") ] string Caption; [Description ( "The Description property provides a textual description of " "the object.") ] string Description; [Description ( "A user-friendly name for the object. This property allows " "each instance to define a user-friendly name IN ADDITION TO its " "key properties/identity data, and description information.\n" "Note that ManagedSystemElement's Name property is also defined " "as a user-friendly name. But, it is often subclassed to be a " "Key. It is not reasonable that the same property can convey " "both identity and a user friendly name, without inconsistencies. " "Where Name exists and is not a Key (such as for instances of " "LogicalDevice), the same information MAY be present in both " "the Name and ElementName properties.") ] string ElementName; };
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Web-Based Enterprise Management “CIM over HTML” CIM defines data…. WBEM also defines common protocol (HTTP) and encoding (XML) Object manager infrastructure (from CORBA) known as “CIM Server” Many implementations available
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Directory Enabled Networks Uses CIM as the data storage model Uses LDAP for message exchange and directory repository Provides centralised repository of management, object location and configuration info for computing and networking hardware
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CIM/WBEM & DMI Management Infrastructures
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Distributed Management Trends Focus on –business solutions –transparent delivery of services Requires integrated dynamic, rather than isolated static management (eg multi-vendor, not single-vendor solution) Systems, software and networks managed together in integrated way Include business knowledge (policies) in management infrastructure
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Management: an Integrated Service Perform usual management tasks: –Acquire inventory data –Transmit notification of events –Maintain statistics and metrics –Read/Write configuration parameters But using a common mechanism ie. Management port and Business port
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Management: an Integrated Service
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Distributed Management Alliances Modern network management includes –Common semantics and models –Integrated business and management services Many standards organisations need to cooperate on distributed functions –Storage Network Industry Association –Global Grid Forum (OGSI) –Distributed Management Task Force (CIM,WBEM) –W3C (OASIS)
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Distributed Management Alliances
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Finally…. New world of management is evolving Need to reduce cost through interoperable services Being addressed by vendors and customers participating in formation of standards for business and management abstractions and services
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