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(1)

Using UML, Patterns, and Java

Object-Oriented Softwar e Engineering

Configuration &

Build Management

(2)

Outline of the Lecture

 Purpose of Software Configuration Management (SCM)

 Some Terminology

 Software Configuration Management Activities

  Outline of a Software Configuration Management Plan

•  Build Management

•  Continous Integration

(3)

Miscellaneous

•  The “Zen and the Art of Motorcycle Maintenance” competition

•  Prize: A 2 Gigabyte USB stick

•  We have a winner!

(4)
(5)

Miscellaneous

•  The Winner is Manuel Then: Congratulations!

•  Page 105 in the German Translation

•  Page 86 in the Paperback edition, Bantam Edition 1975

(6)

Requirements for Build Management

•  Large and distributed software projects need to provide a development infrastructure with an integrated build management that supports:

•  Regular builds from the master directory

•  Automated execution of tests

•  E-mail notification

•  Determination of code metrics

•  Automated publishing of the applications and test results (e.g. to a website)

•  Tools for Build Management:

•  Unix’s Make

•  Ant

•  Maven

(7)

Activities in Build Management

•  The transition from source code to the executable application contains many mechanical (boring) activities:

•  Settings required paths and libraries

•  Compiling source code

•  Copying source files (e.g. images, sound files, start scripts)

•  Setting of file permissions (e.g. to executable)

•  Packaging of the application (e.g. zip, tar, dmg)

•  Executing these steps manually is time- consuming and the chance of introducing failures is high

•  Automating these steps has its origins in Unix

(8)

Example: Build Management in Unix

•  The Unix command make executes compilation of large programs according to a set of dependency rules

•  Dependency rule

•  Tree structure of prerequisites

•  Time stamps of files

Example of a dependency rule:

main.obj : main.c gcc -c main.c

(9)

Example Makefile

project.exe : main.obj io.obj

tlink main.obj, io.obj, project.exe main.obj : main.c

gcc -c main.c

io.obj : io.c gcc - c io.c

(10)

Make

•  Make is as powerful as the existing commands it executes

•  However, make has its problems:

•  Different shell commands are needed on different platforms

•  Complex shell scripts are hard to maintain and hard to debug

(11)

Next Step: Ant, a Platform Independent Build Management Tool

•  Build tool based on Java, http://ant.apache.org

•  Tasks get executed by invoking Java classes, not shell scripts or shell commands

•  Ant allows the execution of tasks such as:

•  compilation

•  execution

•  file system operations (e.g. copy, move)

•  archiving

•  deployment

•  Ant has become a standard in the Java Open Source community

•  Ant build files are platform independent

•  Ant’s build file is an XML document

(12)

General Structure of Ant Build Files

(13)

Examples of Ant Tasks

Each Ant Task is a Java application.

Custom tasks can be implemented in Java to support custom needs.

(14)

Construction of Ant Build Files

•  The default name for a Ant build file is build.xml

•  The xml root element must be the ‘project’

element

•  The ‘default’ attribute of the project element is required and specifies the default target to use

•  Targets contain zero or more AntTasks

•  The ‘name’ attribute is required

•  AntTasks are the smallest units of the build process

(15)

% ant

Buildfile: build.xml

hello: [echo] Hello, World BUILD SUCCESSFUL

Total time: 2 seconds

Ant Build File Example

<project default="hello">

<target name="hello">

<echo message="Hello, World"/>

</target>

</project>

Execution of build file:

(16)

Maven Overview

•  A Java project management and integration build tool, http://maven.apache.org/

•  Maven supports the same functionality as Ant

•  Ant is actually integrated into Maven

•  Maven’s extended functionality

•  Automatically generates a development website containing

•  Project organization information

•  Project development state reports

•  Based on the concept of a central project object model (POM)

(17)

Maven Capabilities

•  Maven is able to

•  Receive developer artifacts from the programmers’

SCM directory

•  Compile and package the source code

•  Download dependent artifacts from another (external) repository

•  Generate Javadoc websites

•  Generate developer and code metrics

•  Generate websites containing status information to track issues

•  Deploy the compiled source code and the generated website to a webserver

(18)

Modeling a Project in Maven

Project Object Model (POM)

•  Project name, id, description, version number

•  Website URL

•  Issue tracking URL

•  Mailing list URLs

•  SCM directory URL

•  Developer information

•  License information

•  Dependencies

•  Name, version, location of a Java library from jar file

•  Project directory layout

•  Specifies source code and unit test code directories

(19)

Modeling a Project in Maven (UML)

Project Object Model

Project Descriptor namecurrentVersion

organization inceptionYear description url

Developer Descriptor nameid

organization roles

Repository Descriptor connection

developerConnection url

Build Descriptor sourceDirectory resources

(20)

Example:

Generating ARENA’s Development Website

•  ARENA uses a SCM master directory at

oose.globalse.org

•  ARENA depends on the Java library servlet.jar available in the Ibiblio repository

•  The ARENA website is located on the server sysiphus.in.tum.de

•  Maven compiles the ARENA sources in the

programmer’s directory of the developer

(21)

Modeling a Project in Maven (UML)

Project Object Model

Project Descriptor namecurrentVersion

organization inceptionYear description url

Developer Descriptor nameid

organization roles

Repository Descriptor connection

developerConnection url

Build Descriptor sourceDirectory resources

(22)

Project Descriptor for ARENA (in project.xml)

<project>

<!-- a unique name for this project -->

<id>arena</id>

<!-- a short but descriptive name for the project -->

<name>ARENA</name>

<currentVersion>0.9</currentVersion>

<!-- details about organization who 'owns' the project -->

<organization>

<name>Bernd Bruegge &amp; Allen H. Dutoit</name>

<url>http://wwwbruegge.in.tum.de/</url>

<logo>/images/ase_logo.gif</logo>

</organization>

<inceptionYear>2004</inceptionYear>

<logo>/images/arena.gif</logo>

<description>ARENA</description>

<!-- the project home page -->

<url>http://sysiphus.informatik.tu-muenchen.de/arena</url>

<siteAddress>sysiphus.informatik.tu-muenchen.de </siteAddress>

<siteDirectory>/www/arena</siteDirectory>

(23)

The ARENA Website (Generated by Maven)

(24)

Team Members and Roles in project.xml

<developers>

<developer>

<name>Allen Dutoit</name>

<id>dutoit</id>

<organization>Technische Universität München
 </organization>

<roles>

<role>Architect</role> <role>Developer</role>

</roles>

</developer>

<developer>

<name>Michael Nagel</name>

<id>nagel</id>

<organization>Technische Universität München
 </organization>

<roles> <role>Developer</role>

</roles>

</developer>

<developer>

<name>Timo Wolf</name>

<id>wolft</id>

<organization>Technische Universität München
 </organization>

<roles> <role>Developer</role>

</roles>

</developer>

</developers>

(25)

Generated Website contains a Description

of the Team

(26)

Software Configuration Management Specification in project.xml

<repository>

<connection>

scm|svn|http|//oose.globalse.org/svn/trunk/examples/arena </connection>

<developerConnection>

scm|svn|http|//oose.globalse.org/svn </developerConnection>

<url>

http://oose.globalse.org/svn/trunk/examples/arena/

</url>

</repository>

•  The repository tag enables Maven to

•  map the user ids used by the SCM tool to the developer names listed in the Maven team site

•  identify developers activities

•  identify source code changes made by the developers

(27)

Generated Website:

Developer Activities (last 30 days)

(28)

Generated Website:

Change Log (last 30 days)

(29)

Build Management in the project.xml

<build>

<sourceDirectory>src</sourceDirectory>

<resources>

<resource>

<directory>src</directory>

<includes>

<include>**/*.properties</include>

<include>**/*.gif</include>

</includes>

</resource>

</resources>

</build>

The Build tag specifies the programmer’s directory containing the source code to be used for the

build

(30)

Result: Website contains the current source

code of ARENA

(31)

Outline of the Lecture

 Purpose of Software Configuration Management (SCM)

 Some Terminology

 Software Configuration Management Activities

  Outline of a Software Configuration Management Plan

  Build Management

•  Continous Integration

(32)

Typical Problems and Risks in Software Projects

•  Lack of project visibility

•  Nobody knows what is going on

•  Late discovery of faults

•  The later a fault is found, the more expensive it is to fix it.

•  Lack of deployable software

•  “It worked on my machine”

•  Also, horizontal integration testing strategies don’t

focus on an early running system. It is often created in the last moment

•  Low quality software

•  Managers and developers make last-minute decisions to deliver a system developed with the above problems.

(33)

Continuous Integration Motivation

•  Risk #1: The later integration occurs in a

project, the bigger is the risk that unexpected faults occur

•  Risk #2: The higher the complexity of the software system, the more difficult it is to integrate its components

•  Continous integration addresses these risks by building as early as possible and frequently

•  Additional Advantages:

•  There is always an executable version of the system

•  Team members have a good overview of the project status

(34)

Definition Continuous Integration

Continuous Integration: A software

development method where members of a team integrate their work frequently, usually each person integrates at least daily, leading to multiple integrations per day.

Each integration is verified by an automated build including the execution of tests to detect integration errors as quickly as possible.

(35)

Continuous Integration can regularly answers these Questions

•  Do all the software components work together?

•  How much code is covered by automated tests?

•  Where all tests successful after the latest change?

•  What is my code complexity?

•  Is the team adhering to coding standards?

•  Where there any problems with the last deployment?

(36)

Modeling a Continuous Integration System

•  Functions:

•  Set up scheduling strategy (poll, event-based)

•  Detect change

•  Execute build script when change has been detected

•  Run unit test cases

•  Generate project status metrics

•  Visualize status of the projects

•  Move successful builds into Software repository

•  Components (Subsystems)

•  Master Directory: Version control (IEEE: Controlled Library).

•  Builder Subsystem: Execute build script when a change has been detected

•  Continuous Integration (CI) Server

•  Management Subsystem: Visualize project status via Webbrowser

•  Notification Subsystem: Publishes results of the build via different channels (E-Mail Client, RSS Feed)

(37)

Analysis: Functional Model for Continuous Integration

Simple Exercise: Develop the functional model!

(38)

Analysis: Functional Model for Continuous

Integration

(39)

Design: Deployment Diagram of a

Continuous Integration System

(40)

Design of a Continuous Integration System

•  Development Node

•  Manage Programmer’s Directory (IEEE: Dynamic Library)

•  Software Configuration Management client

•  Integrated Development Environment

•  Run build script locally using the Builder Subsystem

(41)

Design of a Continuous Integration System (Deployment Diagram)

•  Software Configuration Management Node

•  Contains the Master Directory (IEEE: Controlled Library)

•  Runs the Software Configuration Management Server

(42)

Design of a Continuous Integration System (Deployment Diagram)

•  Integration Build Node

•  Creates & maintains the Software Repository (IEEE: static library)

•  SCM Client interacts with SCM Node if (when) a change has occurred

•  Runs build globally using Builder when a change has been detected

•  Notification component publishes results of the build

•  uses different channels such as E-Mail or RSS Feed

(43)

Design of a Continuous Integration System (Deployment Diagram)

•  Management Node

•  Visualize build results

•  Visualize project metrics

•  Receive notification about build status

(44)

Examples of Available

Continous Integration Systems

•  Cockpit

•  CruiseControl and CruiseControl.NET

•  Anthill

•  Continuum

•  Hudson

List of continuous integration tools:

http://confluence.public.thoughtworks.org/display/

CC/CI+Feature+Matrix

(45)

CruiseControl: Subsystem Overview (not in UML!)

Source: http://cruisecontrol.sourceforge.net/overview.html

(46)

Cruise Control: The Build Loop

•  The daemon process checks for source code changes in the projects

•  If a change has occurred, the subsystem executes the following actions:

•  Obtain all the build artifacts (described in

“config.xml”)

•  Possibly via the project.xml file (if Maven is used)

•  Execute the Build file

•  Write the results into a log file (“xml logs”)

•  Send notifications to subscribers.

(47)

Getting Started with CruiseControl

•  Download CruiseControl binary distribution

•  http://cruisecontrol.sourceforge.net/download.html

•  Unzip downloaded archive

•  Run cruisecontrol.sh (.bat)

•  Watch the example project being built

•  http://localhost:8080/cruisecontrol

•  Modify config.xml to include your own project

(48)

Further Reading

[Duvall 2007]

•  Paul M. Duvall, Steve Matyas and Andrew Glover:

Continuous Integration. Improving Software Quality and Reducing Risk, Addison Wesley, Upper Saddle River, NJ, 2007

(49)

Tomorrow’s Exercise

•  Goal: Being able to set up and manage continuous integration

•  Team-based organization: The exercise is team-based

•  We recommend a team size of 5 people (4-6)

•  Choose a team leader

•  Equipment:

•  Bring at least 2 laptops per team to the class room

•  Preparations (Mandatory, by midnight)

•  E-Mail the team member names to naughton@in.tum.de

•  Set up Eclipse on at least one of the team laptops

•  Check out and study the Bumpers project using the information available on the exercise portal :

https://wwwbruegge.informatik.tu-muenchen.de/twiki/bin/view/

Lehrstuhl/POMSS09Exercises

•  Additional details

•  Will be distributed at the beginning of the exercise session.

(50)

Deployment in tomorrows exercise

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