Distributed Systems Principles and Paradigms. Distributed Object-Based Systems. Remote distributed objects. Remote distributed objects
|
|
- Claud Riley
- 5 years ago
- Views:
Transcription
1 Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science Chapter 10: Version: December 10, / Architecture 10.1 Architecture Remote distributed objects Data and operations encapsulated in an object Operations implemented as methods grouped into interfaces Object offers only its interface to clients Object server is responsible for a collection of objects stub (proxy) implements interface Server skeleton handles (un)marshaling and object invocation machine Server machine invokes a method Proxy OS Same interface as object Skeleton invokes same method at object Server Skeleton Server OS Object State Method Interface Network Marshalled invocation is passed across network 2 / 22 2 / Architecture 10.1 Architecture Remote distributed objects Types of objects I Compile-time objects: Language-level objects, from which proxy and skeletons are automatically generated. Runtime objects: Can be implemented in any language, but require use of an object adapter that makes the implementation appear as an object. Types of objects II Transient objects: live only by virtue of a server: if the server exits, so will the object. Persistent objects: live independently from a server: if a server exits, the object s state and code remain (passively) on disk. 3 / 22 3 / 22
2 Processes: Object servers Servant The actual implementation of an object, sometimes containing only method implementations: Collection of C or COBOL functions, that act on structs, records, database tables, etc. Java or C++ classes Skeleton Server-side stub for handling network I/O: Unmarshalls incoming requests, and calls the appropriate servant code Marshalls results and sends reply message Generated from interface specifications 4 / 22 4 / 22 Processes: Object servers Object adapter The manager of a set of objects: Inspects (as first) incoming requests Ensures referenced object is activated (requires identification of servant) Passes request to appropriate skeleton, following specific activation policy Responsible for generating object references 5 / 22 5 / 22 Processes: Object servers Server with three objects Server machine Object's stub (skeleton) Object adapter Object adapter Object servers determine how their objects are constructed Request demultiplexer Local OS 6 / 22 6 / 22
3 Example: Ice main(int argc, char* argv[]) { Ice::Communicator ic; Ice::ObjectAdapter adapter; Ice::Object object; ic = Ice::initialize(argc, argv); } adapter = ic->createobjectadapterwithendpoints ( "MyAdapter","tcp -p 10000"); object = new MyObject; adapter->add(object, objectid); adapter->activate(); ic->waitforshutdown(); Note Activation policies can be changed by modifying the properties attribute of an adapter. Ice aims at simplicity, and achieves this partly by putting policies into the middleware. 7 / 22 7 / 22 Remote Method Invocation (RMI) Basics (Assume client stub and server skeleton are in place) invokes method at stub Stub marshals request and sends it to server Server ensures referenced object is active: Create separate process to hold object Load the object into server process... Request is unmarshaled by object s skeleton, and referenced method is invoked If request contained an object reference, invocation is applied recursively (i.e., server acts as client) Result is marshaled and passed back to client stub unmarshals reply and passes result to client application 8 / 22 8 / 22 RMI: Parameter passing Object reference Much easier than in the case of RPC: Server can simply bind to referenced object, and invoke methods Unbind when referenced object is no longer needed 9 / 22 9 / 22
4 RMI: Parameter passing Object-by-value A client may also pass a complete object as parameter value: An object has to be marshaled: Marshall its state Marshall its methods, or give a reference to where an implementation can be found Server unmarshals object. Note that we have now created a copy of the original object. Object-by-value passing tends to introduce nasty problems 10 / / 22 RMI: Parameter passing Machine A Machine B Local reference L1 Local object O1 Remote reference R1 Remote object O2 code with RMI to server at C (proxy) New local reference Copy of O1 Remote invocation with L1 and R1 as parameters Machine C Copy of R1 to O2 Server code (method implementation) Note Systemwide object reference generally contains server address, port to which adapter listens, and local object ID. Extra: Information on protocol between client and server (TCP, UDP, SOAP, etc.) 11 / / 22 RMI: Parameter passing Machine A Machine B Local reference L1 Local object O1 Remote reference R1 Remote object O2 code with RMI to server at C (proxy) New local reference Copy of O1 Remote invocation with L1 and R1 as parameters Machine C Copy of R1 to O2 Server code (method implementation) Question What s an alternative implementation for a remote-object reference? 12 / / 22
5 Object-based messaging 1. Call by the application proxy RTS application Callback interface 4. Call by the RTS 3. Response from server 2. Request to server 1. Call by the application proxy RTS application Polling interface 4. Call by the application 3. Response from server 2. Request to server 13 / / 22 Object references In order to invoke remote objects, we need a means to uniquely refer to them. Example: CORBA object references. Tagged Profile Interoperable Object Reference (IOR) Repository identifier Profile ID Profile IIOP version Host Port Object key Components Adapter identifier Object identifier Other serverspecific information 14 / / 22 Object references It is not important how object references are implemented per object-based system, as long as there is a standard to exchange them between systems. Object server Interoperable references (Half) gateway Object system A Object system B Solution Object references passed from one RTS to another are transformed by the bridge through which they pass (different transformation schemes can be implemented) 15 / / 22
6 Object references Object server Interoperable references (Half) gateway Object system A Object system B Passing an object reference refa from RTS A to RTS B circumventing the A-to-B bridge may be useless if RTS B doesn t understand refa 16 / / 22 Globe object references: location independent Stacked address Stack of addresses representing the protocol to speak: Field Protocol ID Protocol addr. Impl. handle Description Constant representing a (known) protocol Protocol-specific address Reference to a file in a repository Instance address Contains all that is needed to talk in a propritary way to an object: Field Impl. handle Initialization string Description Reference to a file in a repository Used to initialize an implementation 17 / / 22 Consistency and replication Objects form a natural means for realizing entry consistency: Data are grouped into units, and protected by a synchronization variable (i.e., lock) Synchronization variables adhere to sequential consistency (i.e., values are set atomically) Operations of grouped data can be nicely grouped: object Problem What happens when objects are replicated? One way or the other we need to ensure that operations on replicated objects are properly ordered. 18 / / 22
7 Replicated objects Problem We need to make sure that requests are ordered correctly at the servers and that threads are deterministically sheduled Computer 1 Computer 2 Object Thread scheduler T 1 Deterministic 1 T 1 2 T 2 1 T 2 2 Threads thread scheduling Threads Middleware Totally ordered requests Middleware Local OS Local OS Unordered requests Unordered requests 19 / / 22 Replicated objects We are dealing with nasty issues here. Simplicity may dictate completely serialized (i.e., single-threaded) executions at the server. 20 / / 22 Replicated invocations Active replication Updates are forwarded to multiple replicas, where they are carried out. There are some problems to deal with in the face of replicated invocations replicates invocation request B1 Object receives the same invocation three times A B2 C All replicas see the same invocation B3 Replicated object 21 / / 22
8 Replicated invocations Solution Assign a coordinator on each side (client and server), which ensures that only one invocation, and one reply is sent Coordinator of object B Coordinator of object C replicates invocation request B1 Result B1 C1 C1 A B2 A B2 C2 C2 B3 B3 Result (a) (b) 22 / / 22
Chapter 10 DISTRIBUTED OBJECT-BASED SYSTEMS
DISTRIBUTED SYSTEMS Principles and Paradigms Second Edition ANDREW S. TANENBAUM MAARTEN VAN STEEN Chapter 10 DISTRIBUTED OBJECT-BASED SYSTEMS Distributed Objects Figure 10-1. Common organization of a remote
More information6 Distributed Object-Based Systems
CA464: DISTRIBUTED PROGRAMMING 1 6 Distributed Object-Based Systems 6.1 Architecture Remote distributed objects Data and operations encapsulated in an object Operations implemented as methods grouped into
More informationDistributed Systems Principles and Paradigms
Distributed Systems Principles and Paradigms Chapter 09 (version 27th November 2001) Maarten van Steen Vrije Universiteit Amsterdam, Faculty of Science Dept. Mathematics and Computer Science Room R4.20.
More informationAdvanced Topics in Operating Systems
Advanced Topics in Operating Systems MSc in Computer Science UNYT-UoG Dr. Marenglen Biba 8-9-10 January 2010 Lesson 10 01: Introduction 02: Architectures 03: Processes 04: Communication 05: Naming 06:
More informationLecture 5: Object Interaction: RMI and RPC
06-06798 Distributed Systems Lecture 5: Object Interaction: RMI and RPC Distributed Systems 1 Recap Message passing: send, receive synchronous versus asynchronous No global Time types of failure socket
More informationToday: Distributed Objects. Distributed Objects
Today: Distributed Objects Case study: EJBs (Enterprise Java Beans) Case study: CORBA Lecture 23, page 1 Distributed Objects Figure 10-1. Common organization of a remote object with client-side proxy.
More informationDistributed Object-Based Systems The WWW Architecture Web Services Handout 11 Part(a) EECS 591 Farnam Jahanian University of Michigan.
Distributed Object-Based Systems The WWW Architecture Web Services Handout 11 Part(a) EECS 591 Farnam Jahanian University of Michigan Reading List Remote Object Invocation -- Tanenbaum Chapter 2.3 CORBA
More informationDistributed Systems. Chapter 02
Distributed Systems Principles and Paradigms Chapter 02 (version 31st August 2001) Maarten van Steen Vrije Universiteit Amsterdam, Faculty of Science Dept. Mathematics and Computer Science Room R4.20.
More informationCommunication. Distributed Systems Santa Clara University 2016
Communication Distributed Systems Santa Clara University 2016 Protocol Stack Each layer has its own protocol Can make changes at one layer without changing layers above or below Use well defined interfaces
More informationRMI: Design & Implementation
RMI: Design & Implementation Operating Systems RMI 1 Middleware layers Applications, services RMI and RPC request-reply protocol marshalling and external data representation Middleware layers UDP and TCP
More informationDistributed Information Processing
Distributed Information Processing 5 th Lecture Eom, Hyeonsang ( 엄현상 ) Department of Computer Science & Engineering Seoul National University Copyrights 2017 Eom, Hyeonsang All Rights Reserved Outline
More informationCOMMUNICATION PROTOCOLS: REMOTE PROCEDURE CALL (RPC)
COMMUNICATION PROTOCOLS: REMOTE PROCEDURE CALL (RPC) 1 2 CONVENTIONAL PROCEDURE CALL (a) (b) Parameter passing in a local procedure call: the stack before the call to read. The stack while the called procedure
More informationJava RMI Middleware Project
Java RMI Middleware Project Nathan Balon CIS 578 Advanced Operating Systems December 7, 2004 Introduction The semester project was to implement a middleware similar to Java RMI or CORBA. The purpose of
More informationMODELS OF DISTRIBUTED SYSTEMS
Distributed Systems Fö 2/3-1 Distributed Systems Fö 2/3-2 MODELS OF DISTRIBUTED SYSTEMS Basic Elements 1. Architectural Models 2. Interaction Models Resources in a distributed system are shared between
More informationDistributed Objects. Object-Oriented Application Development
Distributed s -Oriented Application Development Procedural (non-object oriented) development Data: variables Behavior: procedures, subroutines, functions Languages: C, COBOL, Pascal Structured Programming
More informationToday: Distributed Middleware. Middleware
Today: Distributed Middleware Middleware concepts Case study: CORBA Lecture 24, page 1 Middleware Software layer between application and the OS Provides useful services to the application Abstracts out
More informationLecture 06: Distributed Object
Lecture 06: Distributed Object Distributed Systems Behzad Bordbar School of Computer Science, University of Birmingham, UK Lecture 0? 1 Recap Interprocess communication Synchronous and Asynchronous communication
More informationMODELS OF DISTRIBUTED SYSTEMS
Distributed Systems Fö 2/3-1 Distributed Systems Fö 2/3-2 MODELS OF DISTRIBUTED SYSTEMS Basic Elements 1. Architectural Models 2. Interaction Models Resources in a distributed system are shared between
More informationChapter 5: Distributed objects and remote invocation
Chapter 5: Distributed objects and remote invocation From Coulouris, Dollimore and Kindberg Distributed Systems: Concepts and Design Edition 4, Addison-Wesley 2005 Figure 5.1 Middleware layers Applications
More informationAgent and Object Technology Lab Dipartimento di Ingegneria dell Informazione Università degli Studi di Parma. Distributed and Agent Systems
Agent and Object Technology Lab Dipartimento di Ingegneria dell Informazione Università degli Studi di Parma Distributed and Agent Systems Prof. Agostino Poggi What is CORBA? CORBA (Common Object Request
More informationObject-based distributed systems. INF 5040/9040 autumn Lecturer: Frank Eliassen
Object-based distributed systems INF 5040/9040 autumn 2010 Lecturer: Frank Eliassen Frank Eliassen, SRL & Ifi/UiO 1 Plan Request-response protocols Characteristics of distributed objects Communication
More informationDistributed Objects and Remote Invocation. Programming Models for Distributed Applications
Distributed Objects and Remote Invocation Programming Models for Distributed Applications Extending Conventional Techniques The remote procedure call model is an extension of the conventional procedure
More informationDS 2009: middleware. David Evans
DS 2009: middleware David Evans de239@cl.cam.ac.uk What is middleware? distributed applications middleware remote calls, method invocations, messages,... OS comms. interface sockets, IP,... layer between
More informationCORBA (Common Object Request Broker Architecture)
CORBA (Common Object Request Broker Architecture) René de Vries (rgv@cs.ru.nl) Based on slides by M.L. Liu 1 Overview Introduction / context Genealogical of CORBA CORBA architecture Implementations Corba
More informationContents. Java RMI. Java RMI. Java RMI system elements. Example application processes/machines Client machine Process/Application A
Contents Java RMI G53ACC Chris Greenhalgh Java RMI overview A Java RMI example Overview Walk-through Implementation notes Argument passing File requirements RPC issues and RMI Other problems with RMI 1
More informationMessage Passing vs. Distributed Objects. 5/15/2009 Distributed Computing, M. L. Liu 1
Message Passing vs. Distributed Objects 5/15/2009 Distributed Computing, M. L. Liu 1 Distributed Objects M. L. Liu 5/15/2009 Distributed Computing, M. L. Liu 2 Message Passing versus Distributed Objects
More informationDistributed Systems Lecture 2 1. External Data Representation and Marshalling (Sec. 4.3) Request reply protocol (failure modes) (Sec. 4.
Distributed Systems Lecture 2 1 Today s Topics External Data Representation and Marshalling (Sec. 4.3) Request reply protocol (failure modes) (Sec. 4.4) Distributed Objects and Remote Invocations (5.1)
More informationJAVA RMI. Remote Method Invocation
1 JAVA RMI Remote Method Invocation 2 Overview Java RMI is a mechanism that allows one to invoke a method on an object that exists in another address space. The other address space could be: On the same
More informationRPC flow. 4.3 Remote procedure calls IDL. RPC components. Procedure. Program. sum (j,k) int j,k; {return j+k;} i = sum (3,7); Local procedure call
4.3 Remote procedure calls RPC flow Client process Server process Program i = sum (3,7); Procedure sum (j,k) int j,k; {return j+k; Client stub Program Return Call Unpack Pack result para s Invisible to
More informationAdvanced Topics in Distributed Systems. Dr. Ayman A. Abdel-Hamid. Computer Science Department Virginia Tech
Advanced Topics in Distributed Systems Dr. Ayman A. Abdel-Hamid Computer Science Department Virginia Tech Communication (Based on Ch2 in Distributed Systems: Principles and Paradigms, 1/E or Ch4 in 2/E)
More informationLecture 5: RMI etc. Servant. Java Remote Method Invocation Invocation Semantics Distributed Events CDK: Chapter 5 TVS: Section 8.3
Lecture 5: RMI etc. Java Remote Method Invocation Invocation Semantics Distributed Events CDK: Chapter 5 TVS: Section 8.3 CDK Figure 5.7 The role of proxy and skeleton in remote method invocation client
More informationA Report on RMI and RPC Submitted by Sudharshan Reddy B
A Report on RMI and RPC Submitted by Sudharshan Reddy B Abstract: This report mainly explains the RMI and RPC technologies. In the first part of the paper the RMI technology is briefly explained and in
More informationDistributed Object-based Systems CORBA
CprE 450/550x Distributed Systems and Middleware Distributed Object-based Systems CORBA Yong Guan 3216 Coover Tel: (515) 294-8378 Email: guan@ee.iastate.edu March 30, 2004 2 Readings for Today s Lecture!
More informationCAS 703 Software Design
Dr. Ridha Khedri Department of Computing and Software, McMaster University Canada L8S 4L7, Hamilton, Ontario Acknowledgments: Material based on Software by Tao et al. (Chapters 9 and 10) (SOA) 1 Interaction
More informationDistributed Middleware. Distributed Objects
Distributed Middleware Distributed objects DCOM CORBA EJBs Jini Lecture 25, page 1 Distributed Objects Figure 10-1. Common organization of a remote object with client-side proxy. Lecture 25, page 2 Distributed
More informationCS555: Distributed Systems [Fall 2017] Dept. Of Computer Science, Colorado State University
CS 555: DISTRIBUTED SYSTEMS [RPC & DISTRIBUTED OBJECTS] Shrideep Pallickara Computer Science Colorado State University Frequently asked questions from the previous class survey XDR Standard serialization
More informationChapter 15: Distributed Communication. Sockets Remote Procedure Calls (RPCs) Remote Method Invocation (RMI) CORBA Object Registration
Chapter 15: Distributed Communication Sockets Remote Procedure Calls (RPCs) Remote Method Invocation (RMI) CORBA Object Registration Sockets Defined as an endpoint for communcation Concatenation of IP
More informationLecture 15: Network File Systems
Lab 3 due 12/1 Lecture 15: Network File Systems CSE 120: Principles of Operating Systems Alex C. Snoeren Network File System Simple idea: access disks attached to other computers Share the disk with many
More informationRPC and RMI. 2501ICT Nathan
RPC and RMI 2501ICT Nathan Contents Client/Server revisited RPC Architecture XDR RMI Principles and Operation Case Studies Copyright 2002- René Hexel. 2 Client/Server Revisited Server Accepts commands
More informationCHAPTER - 4 REMOTE COMMUNICATION
CHAPTER - 4 REMOTE COMMUNICATION Topics Introduction to Remote Communication Remote Procedural Call Basics RPC Implementation RPC Communication Other RPC Issues Case Study: Sun RPC Remote invocation Basics
More informationOverview. Communication types and role of Middleware Remote Procedure Call (RPC) Message Oriented Communication Multicasting 2/36
Communication address calls class client communication declarations implementations interface java language littleendian machine message method multicast network object operations parameters passing procedure
More informationDISTRIBUTED SYSTEMS [COMP9243] Distributed Object based: Lecture 7: Middleware. Slide 1. Slide 3. Message-oriented: MIDDLEWARE
DISTRIBUTED SYSTEMS [COMP9243] Distributed Object based: KINDS OF MIDDLEWARE Lecture 7: Middleware Objects invoke each other s methods Slide 1 ➀ Introduction ➁ Publish/Subscribe Middleware ➂ Map-Reduce
More informationCOMMUNICATION IN DISTRIBUTED SYSTEMS
Distributed Systems Fö 3-1 Distributed Systems Fö 3-2 COMMUNICATION IN DISTRIBUTED SYSTEMS Communication Models and their Layered Implementation 1. Communication System: Layered Implementation 2. Network
More informationObject Interaction. Object Interaction. Introduction. Object Interaction vs. RPCs (2)
Introduction Objective To support interoperability and portability of distributed OO applications by provision of enabling technology Object interaction vs RPC Java Remote Method Invocation (RMI) RMI Registry
More informationDistributed Object-Based. Systems. Chapter 9
Distributed Object-Based Systems Chapter 9 Overview of CORBA The global architecture of CORBA. Object Model The general organization of a CORBA system. Service Collection Query Concurrency Transaction
More informationDISTRIBUTED SYSTEMS. Second Edition. Andrew S. Tanenbaum Maarten Van Steen. Vrije Universiteit Amsterdam, 7'he Netherlands PEARSON.
DISTRIBUTED SYSTEMS 121r itac itple TAYAdiets Second Edition Andrew S. Tanenbaum Maarten Van Steen Vrije Universiteit Amsterdam, 7'he Netherlands PEARSON Prentice Hall Upper Saddle River, NJ 07458 CONTENTS
More informationDistributed Systems Principles and Paradigms. Chapter 04: Communication
Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science Room R4.20, steen@cs.vu.nl Chapter 04: Communication Version: November 8, 2010 2 / 55 Contents Chapter
More informationVerteilte Systeme (Distributed Systems)
Verteilte Systeme (Distributed Systems) Karl M. Göschka Karl.Goeschka@tuwien.ac.at http://www.infosys.tuwien.ac.at/teaching/courses/ VerteilteSysteme/ Lecture 3: Communication (Part 2) Remote Procedure
More informationDistributed Objects. Chapter Distributing Objects Overview
Middleware Architecture with Patterns and Frameworks c 2003-2009, Sacha Krakowiak (version of February 27, 2009-12:58) Creative Commons license (http://creativecommons.org/licenses/by-nc-nd/3.0/) Chapter
More informationDistributed Systems Principles and Paradigms. Chapter 01: Introduction. Contents. Distributed System: Definition.
Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science Room R4.20, steen@cs.vu.nl Chapter 01: Version: February 21, 2011 1 / 26 Contents Chapter 01: 02: Architectures
More informationMiddleware. Adapted from Alonso, Casati, Kuno, Machiraju Web Services Springer 2004
Middleware Adapted from Alonso, Casati, Kuno, Machiraju Web Services Springer 2004 Outline Web Services Goals Where do they come from? Understanding middleware Middleware as infrastructure Communication
More informationChapter 5 Distributed Objects and Remote Invocation
CSD511 Distributed Systems 分散式系統 Chapter 5 Distributed Objects and Remote Invocation 吳俊興 國立高雄大學資訊工程學系 Chapter 5 Distributed Objects and Remote Invocation 5.1 Introduction 5.2 Communication between distributed
More informationDistributed Systems Principles and Paradigms. Chapter 04: Communication
Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science Room R4.20, steen@cs.vu.nl Chapter 04: Communication Version: November 5, 2009 2 / 52 Contents Chapter
More informationDistributed Systems Recitation 3. Tamim Jabban
15-440 Distributed Systems Recitation 3 Tamim Jabban Project 1 Involves creating a Distributed File System (DFS): FileStack Stores data that does not fit on a single machine Enables clients to perform
More informationKINGS COLLEGE OF ENGINEERING DEPARTMENT OF COMPUTER SCIENCE & ENGINEERING ACADEMIC YEAR (ODD SEMESTER) QUESTION BANK
KINGS COLLEGE OF ENGINEERING DEPARTMENT OF COMPUTER SCIENCE & ENGINEERING ACADEMIC YEAR 2011 2012(ODD SEMESTER) QUESTION BANK SUBJECT CODE / NAME: IT1402-MIDDLEWARE TECHNOLOGIES YEAR/SEM : IV / VII UNIT
More informationRemote Objects and RMI
Outline Remote Objects and RMI Instructor: Dr. Tongping Liu Distributed/Remote Objects Remote object reference (ROR) Remote Method Invocation (RMI) Case study and example: Java RMI Other issues for objects
More informationVerteilte Systeme (Distributed Systems)
Verteilte Systeme (Distributed Systems) Karl M. Göschka Karl.Goeschka@tuwien.ac.at http://www.infosys.tuwien.ac.at/teaching/courses/ VerteilteSysteme/ Lecture 4: Operating System Support Processes and
More informationC 1. Recap: Finger Table. CSE 486/586 Distributed Systems Remote Procedure Call. Chord: Node Joins and Leaves. Recall? Socket API
Recap: Finger Table Finding a using fingers CSE 486/586 Distributed Systems Remote Procedure Call Steve Ko Computer Sciences and Engineering University at Buffalo N102" 86 + 2 4! N86" 20 +
More informationDistributed Systems Principles and Paradigms. Chapter 01: Introduction
Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science Room R4.20, steen@cs.vu.nl Chapter 01: Introduction Version: October 25, 2009 2 / 26 Contents Chapter
More informationCS 403/534 Distributed Systems Midterm April 29, 2004
CS 403/534 Distributed Systems Midterm April 9, 004 3 4 5 Total Name: ID: Notes: ) Please answer the questions in the provided space after each question. ) Duration is 0 minutes 3) Closed books and closed
More informationDistributed Information Systems
Distributed Objects and Remote Invocation Programming Models For Distributed Applications Objectives RPC and RMI. Remote invocation semantics. Implementation of RMI. References DSCD: Chapter 5 Conventional
More informationDistributed Environments. CORBA, JavaRMI and DCOM
Distributed Environments CORBA, JavaRMI and DCOM Introduction to CORBA Distributed objects A mechanism allowing programs to invoke methods on remote objects Common Object Request Broker middleware - works
More informationChapter 4 Communication
DISTRIBUTED SYSTEMS Principles and Paradigms Second Edition ANDREW S. TANENBAUM MAARTEN VAN STEEN Chapter 4 Communication Layered Protocols (1) Figure 4-1. Layers, interfaces, and protocols in the OSI
More informationInterprocess Communication
Interprocess Communication Tanenbaum & Van Steen, Distributed Systems: Principles and Paradigms, 2e, (c) 2007 Prentice-Hall, Inc. All rights reserved. 0-13-239227-5 Introduction Applications, services
More informationLast Class: RPCs. Today:
Last Class: RPCs RPCs make distributed computations look like local computations Issues: Parameter passing Binding Failure handling Lecture 4, page 1 Today: Case Study: Sun RPC Lightweight RPCs Remote
More informationLast Class: RPCs. Today:
Last Class: RPCs RPCs make distributed computations look like local computations Issues: Parameter passing Binding Failure handling Lecture 8, page 1 Today: Lightweight RPCs Remote Method Invocation (RMI)
More informationNetworks and Operating Systems Chapter 3: Remote Procedure Call (RPC)
Systems Group Department of Computer Science ETH Zürich Networks and Operating Systems Chapter 3: Remote Procedure Call (RPC) Donald Kossmann & Torsten Höfler Frühjahrssemester 2013 DINFK, ETH Zürich.
More informationCSci Introduction to Distributed Systems. Communication: RPC
CSci 5105 Introduction to Distributed Systems Communication: RPC Today Remote Procedure Call Chapter 4 TVS Last Time Architectural styles RPC generally mandates client-server but not always Interprocess
More informationOutline. EEC-681/781 Distributed Computing Systems. The OSI Network Architecture. Inter-Process Communications (IPC) Lecture 4
EEC-681/781 Distributed Computing Systems Lecture 4 Department of Electrical and Computer Engineering Cleveland State University wenbing@ieee.org Outline Inter-process communications Computer networks
More informationDistributed Systems. The main method of distributed object communication is with remote method invocation
Distributed Systems Unit III Syllabus:Distributed Objects and Remote Invocation: Introduction, Communication between Distributed Objects- Object Model, Distributed Object Modal, Design Issues for RMI,
More informationCS 5523 Operating Systems: Remote Objects and RMI
CS 5523 Operating Systems: Remote Objects and RMI Instructor: Dr. Tongping Liu Thank Dr. Dakai Zhu and Dr. Palden Lama for providing their slides. Outline Distributed/Remote Objects Remote object reference
More informationCommunication. Outline
COP 6611 Advanced Operating System Communication Chi Zhang czhang@cs.fiu.edu Outline Layered Protocols Remote Procedure Call (RPC) Remote Object Invocation Message-Oriented Communication 2 1 Layered Protocols
More informationDistributed Systems Principles and Paradigms
Distributed Systems Principles and Paradigms Chapter 03 (version February 11, 2008) Maarten van Steen Vrije Universiteit Amsterdam, Faculty of Science Dept. Mathematics and Computer Science Room R4.20.
More informationDistributed Systems. 5. Remote Method Invocation
Distributed Systems 5. Remote Method Invocation Werner Nutt 1 Remote Method Invocation 5.1 Communication between Distributed Objects 1. Communication between Distributed Objects 2. RMI 2 Middleware Middleware
More informationDistributed Systems. Lehrstuhl für Informatik 4. RWTH Aachen. Organization. Literature. Classification of the lecture
Organization Distributed Systems RWTH Aachen Dr. Dirk Thißen Prof. Dr. Otto Spaniol 1 Exercises about all 14 days Room AH 5, RWTH Aachen Teacher-centered exercises Contact Dirk Thißen, Room 4226 (Building
More informationMTAT Enterprise System Integration. Lecture 2: Middleware & Web Services
MTAT.03.229 Enterprise System Integration Lecture 2: Middleware & Web Services Luciano García-Bañuelos Slides by Prof. M. Dumas Overall view 2 Enterprise Java 2 Entity classes (Data layer) 3 Enterprise
More informationElectronic Payment Systems (1) E-cash
Electronic Payment Systems (1) Payment systems based on direct payment between customer and merchant. a) Paying in cash. b) Using a check. c) Using a credit card. Lecture 24, page 1 E-cash The principle
More informationDesarrollo de Aplicaciones en Red. El modelo de comunicación. General concepts. Models of communication. Message Passing
Desarrollo de Aplicaciones en Red El modelo de comunicación José Rafael Rojano Cáceres http://www.uv.mx/rrojano 1 2 General concepts As we saw in a Distributed System the logical and physical component
More informationCOMP 6231: Distributed System Design
COMP 6231: Distributed System Design Remote Invocation and RMI Based on Chapters 5, 7 of the text book and the slides from Prof. M.L. Liu, California Polytechnic State University COMP 6231, Fall 2013 Remote
More informationSAI/ST course Distributed Systems
SAI/ST course Distributed Systems 2013, Sep. 26 Oct 01 Lecture 3: Communication Agenda Overview Concepts Organization in layers IPC primitives Direct communication Indirect communication R.H. Mak 27-9-2013
More informationCommunication. Overview
Communication Chapter 2 1 Overview Layered protocols Remote procedure call Remote object invocation Message-oriented communication Stream-oriented communication 2 Layered protocols Low-level layers Transport
More informationAdvanced Distributed Systems
Course Plan and Department of Computer Science Indian Institute of Technology New Delhi, India Outline Plan 1 Plan 2 3 Message-Oriented Lectures - I Plan Lecture Topic 1 and Structure 2 Client Server,
More informationDISTRIBUTED SYSTEMS [COMP9243] Lecture 7: Middleware MIDDLEWARE. Distributed Object based: Slide 1. Slide 3. Message-oriented: Slide 4
KINDS OF MIDDLEWARE DISTRIBUTED SYSTEMS [COMP9243] Lecture 7: Middleware Distributed Object based: Objects invoke each other s methods Server Slide 1 ➀ Introduction ➁ Distributed Object Middleware Remote
More informationIIOP: Internet Inter-ORB Protocol Make your code accessible even in future, with the next universal protocol
IIOP: Internet Inter-ORB Protocol Make your code accessible even in future, with the next universal protocol My Articles: Home Networking Wearable Computing IIOP Meet My Friend Intelligent Agents We are
More informationIntroduction & RMI Basics. CS3524 Distributed Systems Lecture 01
Introduction & RMI Basics CS3524 Distributed Systems Lecture 01 Distributed Information Systems Distributed System: A collection of autonomous computers linked by a network, with software to produce an
More informationDistributed Technologies - overview & GIPSY Communication Procedure
DEPARTMENT OF COMPUTER SCIENCE CONCORDIA UNIVERSITY Distributed Technologies - overview & GIPSY Communication Procedure by Emil Vassev June 09, 2003 Index 1. Distributed Applications 2. Distributed Component
More informationDistributed Systems Principles and Paradigms. Chapter 12: Distributed Web-Based Systems
Distributed Systems Principles and Paradigms Maarten van Steen VU Amsterdam, Dept. Computer Science steen@cs.vu.nl Chapter 12: Distributed -Based Systems Version: December 10, 2012 Distributed -Based Systems
More informationMay Gerd Liefländer System Architecture Group Universität Karlsruhe (TH), System Architecture Group
Distributed Systems 6 RMI/MP IPC May-18-2009 Gerd Liefländer System Architecture Group 1 Intended Schedule of Today RMI (only rough overview) Message Passing Motivation Bridge Principle Message Passing
More informationAn Object Model for Flexible Distributed Systems
An Model for Flexible Distributed Systems Philip Homburg Leendert van Doorn Maarten van Steen Andrew S. Tanenbaum Wiebren de Jonge Vrije Universiteit Amsterdam March 9, 995 Introduction Current distributed
More informationOperating Systems. 18. Remote Procedure Calls. Paul Krzyzanowski. Rutgers University. Spring /20/ Paul Krzyzanowski
Operating Systems 18. Remote Procedure Calls Paul Krzyzanowski Rutgers University Spring 2015 4/20/2015 2014-2015 Paul Krzyzanowski 1 Remote Procedure Calls 2 Problems with the sockets API The sockets
More informationInterprocess Communication Tanenbaum, van Steen: Ch2 (Ch3) CoDoKi: Ch2, Ch3, Ch5
Interprocess Communication Tanenbaum, van Steen: Ch2 (Ch3) CoDoKi: Ch2, Ch3, Ch5 Fall 2008 Jussi Kangasharju Chapter Outline Overview of interprocess communication Remote invocations (RPC etc.) Message
More informationCommunication. Communication. Distributed Systems. Networks and protocols Sockets Remote Invocation Messages Streams. Fall /10/2001 DoCS
Communication Distributed Systems Fall 2002 Communication Process Process Networks and protocols Sockets Remote Invocation Messages Streams 9/10/2001 DoCS 2002 2 Layered Protocols (1) Layers, interfaces,
More informationThe UNIVERSITY of EDINBURGH. SCHOOL of INFORMATICS. CS4/MSc. Distributed Systems. Björn Franke. Room 2414
The UNIVERSITY of EDINBURGH SCHOOL of INFORMATICS CS4/MSc Distributed Systems Björn Franke bfranke@inf.ed.ac.uk Room 2414 (Lecture 3: Remote Invocation and Distributed Objects, 28th September 2006) 1 Programming
More informationpresentation DAD Distributed Applications Development Cristian Toma
Lecture 9 S4 - Core Distributed Middleware Programming in JEE presentation DAD Distributed Applications Development Cristian Toma D.I.C.E/D.E.I.C Department of Economic Informatics & Cybernetics www.dice.ase.ro
More informationRemote Invocation. Today. Next time. l Overlay networks and P2P. l Request-reply, RPC, RMI
Remote Invocation Today l Request-reply, RPC, RMI Next time l Overlay networks and P2P Types of communication " Persistent or transient Persistent A submitted message is stored until delivered Transient
More informationToday CSCI Remote Method Invocation (RMI) Distributed Objects
Today CSCI 5105 Remote Method Invocation (RMI) Message-oriented communication Stream-oriented communication Instructor: Abhishek Chandra 2 Remote Method Invocation (RMI) RPCs applied to distributed objects
More informationDISTRIBUTED OBJECTS AND REMOTE INVOCATION
DISTRIBUTED OBJECTS AND REMOTE INVOCATION Introduction This chapter is concerned with programming models for distributed applications... Familiar programming models have been extended to apply to distributed
More informationRemote Procedure Call
Remote Procedure Call Remote Procedure Call Integrate network communication with programming language Procedure call is well understood implementation use Control transfer Data transfer Goals Easy make
More informationAnalysis of Passive CORBA Fault Tolerance Options for Real-Time Applications Robert A. Kukura, Raytheon IDS Paul V. Werme, NSWCDD
Analysis of Passive CORBA Fault Tolerance Options for Real-Time Applications Robert A. Kukura, Raytheon IDS Paul V. Werme, NSWCDD PASSIVE CORBA FAULT TOLERANCE All clients send method invocations only
More informationOn the Use of CORBA in High Level Software Applications at the SLS
PAUL SCHERRER INSTITUT SLS TME TA 2001 0183 November, 2001 On the Use of CORBA in High Level Software Applications at the SLS Michael Böge, Jan Chrin Paul Scherrer Institut CH 5232 Villigen PSI Switzerland
More information