How is Java / JVM built ? Adopt OpenJDK is your answer!

Introduction & history
As some of you may already know, starting with Java 7, OpenJDK is the Reference Implementation (RI) to Java. The below time line gives you an idea about the history of OpenJDK:
OpenJDK history (2006 till date)
If you have wondered about the JDK or JRE binaries that you download from vendors like Oracle, Red Hat, etcetera, then the clue is that these all stem from OpenJDK. Each vendor then adds some extra artefacts that are not open source yet due to security, proprietary or other reasons.


What is OpenJDK made of ?
OpenJDK is made up of a number of repositories, namely corba, hotspot, jaxp, jaxws, jdk, langtools, and nashorn. Between OpenjJDK8 and OpenJDK9 there have been no new repositories introduced, but lots of new changes and restructuring, primarily due to Jigsaw – the modularisation of Java itself [2] [3] [4] [5].
repo composition, language breakdown (metrics are estimated)
Recent history
OpenJDK Build Benchmarks – build-infra (Nov 2011) by Fredrik Öhrström, ex-Oracle, OpenJDK hero!

Fredrik Öhrström visited the LJC [16] in November 2011 where he showed us how to build OpenJDK on the three major platforms, and also distributed a four page leaflet with the benchmarks of the various components and how long they took to build. The new build system and the new makefiles are a result of the build system being re-written (build-infra).


Below are screen-shots of the leaflets, a good reference to compare our journey:

How has Java the language and platform built over the years ?

Java is built by bootstrapping an older (previous) version of Java – i.e. Java is built using Java itself as its building block. Where older components are put together to create a new component which in the next phase becomes the building block. A good example of bootstrapping can be found at Scheme from Scratch [6] or even on Wikipedia [7].


OpenJDK8 [8] is compiled and built using JDK7, similarly OpenJDK9 [9] is compiled and built using JDK8. In theory OpenJDK8 can be compiled using the images created from OpenJDK8, similarly for OpenJDK9 using OpenJDK9. Using a process called bootcycle images – a JDK image of OpenJDK is created and then using the same image, OpenJDK is compiled again, which can be accomplished using a make command option:
$ make bootcycle-images       # Build images twice, second time with newly built JDK

make offers a number of options under OpenJDK8 and OpenJDK9, you can build individual components or modules by naming them, i.e.

$ make [component-name] | [module-name]
or even run multiple build processes in parallel, i.e.
$ make JOBS=<n>                 # Run <n> parallel make jobs
Finally install the built artefact using the install option, i.e.
$ make install


Some myths busted
OpenJDK or Hotspot to be more specific isn’t completely written in C/C++, a good part of the code-base is good ‘ole Java (see the composition figure above). So you don’t have to be a hard-core developer to contribute to OpenJDK. Even the underlying C/C++ code code-base isn’t scary or daunting to look at. For example here is an extract of a code snippet from vm/memory/universe.cpp in the HotSpot repo –
.
.
.
Universe::initialize_heap()

if (UseParallelGC) {
#ifndef SERIALGC
Universe::_collectedHeap = new ParallelScavengeHeap();
#else // SERIALGC
fatal("UseParallelGC not supported in this VM.");
#endif // SERIALGC

} else if (UseG1GC) {
#ifndef SERIALGC
G1CollectorPolicy* g1p = new G1CollectorPolicy();
G1CollectedHeap* g1h = new G1CollectedHeap(g1p);
Universe::_collectedHeap = g1h;
#else // SERIALGC
fatal("UseG1GC not supported in java kernel vm.");
#endif // SERIALGC

} else {
GenCollectorPolicy* gc_policy;

if (UseSerialGC) {
gc_policy = new MarkSweepPolicy();
} else if (UseConcMarkSweepGC) {
#ifndef SERIALGC
if (UseAdaptiveSizePolicy) {
gc_policy = new ASConcurrentMarkSweepPolicy();
} else {
gc_policy = new ConcurrentMarkSweepPolicy();
}
#else // SERIALGC
fatal("UseConcMarkSweepGC not supported in this VM.");
#endif // SERIALGC
} else { // default old generation
gc_policy = new MarkSweepPolicy();
}

Universe::_collectedHeap = new GenCollectedHeap(gc_policy);
}
. . .
(please note that the above code snippet might have changed since published here)
The things that appears clear from the above code-block are, we are looking at how pre-compiler notations are used to create Hotspot code that supports a certain type of GC i.e. Serial GC or Parallel GC. Also the type of GC policy is selected in the above code-block when one or more GC switches are toggled i.e. UseAdaptiveSizePolicy when enabled selects the Asynchronous Concurrent Mark and Sweep policy. In case of either Use Serial GC or Use Concurrent Mark Sweep GC are not selected, then the GC policy selected is Mark and Sweep policy. All of this and more is pretty clearly readable and verbose, and not just nicely formatted code that reads like English.


Further commentary can be found in the section called Deep dive Hotspot stuff in the Adopt OpenJDK Intermediate & Advance experiences [11] document.


Steps to build your own JDK or JRE
Earlier we mentioned about JDK and JRE images – these are no longer only available to the big players in the Java world, you and I can build such images very easily. The steps for the process have been simplified, and for a quick start see the Adopt OpenJDK Getting Started Kit [12] and Adopt OpenJDK Intermediate & Advance experiences [11] documents. For detailed version of the same steps, please see the Adopt OpenJDK home page [13]. Basically building a JDK image from the OpenJDK code-base boils down to the below commands:


(setup steps have been made brief and some commands omitted, see links above for exact steps)
 $ hg clone http://hg.openjdk.java.net/jdk8/jdk8 jdk8  (a)...OpenJDK8
or
$ hg clone http://hg.openjdk.java.net/jdk9/jdk9 jdk9  (a)...OpenJDK9
$ ./get_source.sh                                     (b)
$ bash configure                                      (c)
$ make clean images                                   (d)
(setup steps have been made brief and some commands omitted, see links above for exact steps)


To explain what is happening at each of the steps above:
(a) We clone the openjdk mercurial repo just like we would using git clone ….
(b) Once we have step (a) completed, we change into the folder created, and run the get_source.sh command, which is equivalent to a git fetch or a git pull, since the step (a) only brings down base files and not all of the files and folders.
(c) Here we run a script that checks for and creates the configuration needed to do the compile and build process
(d) Once step (c) is success we perform a complete compile, build and create JDK and JRE images from the built artefacts


As you can see these are dead-easy steps to follow to build an artefact or JDK/JRE images [step (a) needs to be run only once].


Benefits
– contribute to the evolution and improvement of the Java the language & platform
– learn about the internals of the language and platform
– learn about the OS platform and other technologies whilst doing the above
– get involved in F/OSS projects
– stay on top the latest changes in the Java / JVM sphere
– knowledge and experience that helps professionally but also these are not readily available from other sources (i.e. books, training, work-experience, university courses, etcetera).
– advancement in career
– personal development (soft skills and networking)


Contribute
Join the Adopt OpenJDK [13] and Betterrev [15] projects and contribute by giving us feedback about everything Java including these projects. Join the Adoption Discuss mailing list [14] and other OpenJDK related mailing lists to start with, these will keep you updated with latest progress and changes to OpenJDK. Fork any of the projects you see and submit changes via pull-requests.


Thanks and support

Adopt OpenJDK [13] and umbrella projects have been supported and progressed with help of JCP [21], the Openjdk team [22], JUGs like London Java Community [16], SouJava [17] and other JUGs in Brazil, a number of JUGs in Europe i.e. BGJUG (Bulgarian JUG) [18], BeJUG (Belgium JUG) [19], Macedonian JUG [20], and a number of other small JUGs. We hope in the coming time more JUGs and individuals would get involved. If you or your JUG wish to participate please get in touch.

—-

Credits
Special thanks to +Martijn Verburg (incepted Adopt OpenJDK),+Richard Warburton, +Oleg Shelajev, +Mite Mitreski, +Kaushik Chaubal and +Julius G for helping improve the content and quality of this post, and sharing their OpenJDK experience with us.

—-

How to get started ?
Join the Adoption Discuss mailing list [14], go to the Adopt OpenJDK home page [13] to get started, followed by referring to the Adopt OpenJDK Getting Started Kit [12] and Adopt OpenJDK Intermediate & Advance experiences [11] documents.


Please share your comments here or tweet at @theNeomatrix369.

Resources
[17] SouJava

This post is part of the Java Advent Calendar and is licensed under the Creative Commons 3.0 Attribution license. If you like it, please spread the word by sharing, tweeting, FB, G+ and so on!

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Hotspot™ is in focus again -aka- Hacking Hotspot™ in Eclipse Juno under Ubuntu 12.04!

News, introduction and a bit of History

Hotspots, sunspots, solar flares et al have been in the news since the last few months, first a major one in November 2012, followed by another one in January 2013.Solar flares from the Sun - August 2012 Java Hotspot Whilst I have your attention on this topic, did you know the JVM (Java Virtual Machine) also goes by the name Hotspot™, find out why it is called so! HotSpot. Unlike the sun’s solar hotspots, the JVM i.e. Hotspot™ is a much gentler entity! With the new build system i.e. build-infra it is now possible to build and run Hotspot from within Eclipse in a matter of minutes. Further you can even launch your own java-based program using gamma – the Hotspot launcher.

The steps are similar to that of building it via the command-line interface (CLI) – but with the advantage of being able to Run and Debug any line in the Hotspot source-code (it is a C/C++ based component of the OpenJDK project). You can also pass in the same arguments as you would to the java command-line.


In this blog we will cover the following in two parts, a simple import-build-run steps for busy readers (first 8 to 9 sections) followed by a simple hack-build-run-examine (the additional sections) for ones with more spare time in hand:


Building the latest version of OpenJDK locally
Installing Eclipse Juno under Ubuntu 12.04
Importing the C/C++ Hotspot project into Eclipse Juno
Downloading the Hotspot ready-to-go project files (and supporting script files)
Applying the downloaded files to the imported Eclipse project files
Running Eclipse with the Hotspot project loaded
Building Hotspot from within Eclipse
Running Hotspot from within Eclipse

Hacking the java.c program – add your own code to it
Running Hotspot (and loading a simple Demo class) from within Eclipse
Putting breakpoints in java.c within Eclipse
Tracing code and inspecting variables in java.c within Eclipse
Examining the different logs generated during the build and Run/Debug launching processes

Most of these sections will have screen-shots to illustrate the actions to be taken to achieve the results. We cover only basic aspects of the topic so advanced topics won’t be covered here. Having said that it is a step up from the Old Build system, as in the new Build-infra incremental builds have made things faster.

Pre-requisites

The below programs and environments are required, including basic operational knowledge and understanding of them:

Eclipse Juno
Eclipse CDT 6.0
Ubuntu 12.04 (CLI & GUI familiarity)
OpenJDK 8 (a version that builds)
OpenJDK 7 or Java / Javac 7.0 (JRE/JDK 1.7.013 – at the time of writing)
Any class or jar that can be run using the java command.
Basic knowledge of C/C++ (if you are going to make changes to Hotspot)
Basic knowledge of Bash scripting


Building the latest version of OpenJDK locally

In order to download and install the latest OpenJDK system, follow build instructions at http://java.net/projects/adoptopenjdk/pages/AdoptOpenJDKVMBuild.


Installing Eclipse Juno under Ubuntu 12.04

Please ensure you do not have a previous installation of Eclipse on your system, if you do uninstall it before performing the below instructions.

Find out whether you are running a 32- or 64-bits system with the below command:

$ file /bin/bash

Sample output indicating the platform of the system
/bin/bash: ELF 32-bit LSB executable, Intel 80386, version 1 (SYSV), dynamically linked (uses shared libs), for GNU/Linux 2.6.24, BuildID[sha1]=0xf199a4a89ac968c2e0e99f2410600b9d7e995187, stripped

Quick method

Download the script that does that automatically for us:
$ wget http://bit.ly/YBS8AR

Run it with the correct platform parameter using the feedback from the previous step:
$ bash installEclipseJunoCDTForUbuntu12.04.sh 32
or
$ bash installEclipseJunoCDTForUbuntu12.04.sh 64

To create a icon in the Unity Dashboard, etc… please refer to the last section of the original blog

— OR —

Step-by-step method

Go to the downloads folder under your $HOME directory:

$ cd ~/Downloads

Download the necessary Eclipse Juno CDT package

32 bits
$ wget http://bit.ly/11QStqT
– or –
64 bits
$ wget http://bit.ly/WSadhy

Untar the downloaded file:

32 bits
$ tar -zxvf eclipse-cpp-juno-SR1-linux-gtk.tar.gz
– or –
64 bits
$ tar -zxvf eclipse-cpp-juno-SR1-linux-gtk-x86_64.tar.gz

This results in a folder named “eclipse”, which should be copied to /opt with

$ sudo mv “eclipse” /opt

Now add a link to the executable in /usr/bin to “/opt/eclipse/eclipse” for easier access.

$ sudo ln -s “/opt/eclipse/eclipse” /usr/bin/eclipse

To do the rest of the optional steps i.e. create a icon in the Unity Dashboard, etc… please refer to the last section of the original blog.


Importing the C/C++ Hotspot project into Eclipse Juno

Run Eclipse

Make it a point to create your own Eclipse workspace for OpenJDK projects calling it something like ‘Eclipse_OpenJDK_Projects’ (without quotes).
1. WorkspaceLauncher - select your OpenJDK workspace

File > Import… > select a import source > Existing Code as Makefile Project
Select the hotspot project from the hotspot sub-folder
Select ‘Cross GCC’ as the Toolchain
2. ImportExistingCode

Once imported, the hotspot project appears in the Project Explorer panel at the left-hand-side.
3. ProjectExplorerOnceImported
Now shutdown Eclipse.


Downloading the Hotspot ready-to-go project files (and supporting script files)

Go to the command-prompt and navigate to where the ‘hotspot’ folder is situated (i.e. ~/sources/jdk8_tl/hotspot).

Run this command at the CLI:

$ wget http://bit.ly/Vreesk

Download takes under a minute and the download progress bar should show 100%.


Applying the downloaded files to the imported Eclipse project files

Run the below command from within the hotspot folder:

$ bash downloadEclipseProjectFiles.sh ~/Eclipse_OpenJDK_Projects ~/Eclipse_OpenJDK_Projects/

Once all the scripts and supporting files are downloaded the following visible and hidden files and folders should become available:

.cproject (hidden)
.project (hidden)
.settings (hidden)
.metadata (moved to destination)
eclipseScripts

The local copies of .cproject and .project will be overwritten by the above action, along with that the .metadata folder in the Eclipse workspace for the project will also be updated.

Navigate to the eclipseScripts folder and run:

$ bash runEclipseForHotspot.sh ~/Eclipse_OpenJDK_Projects

This should launch Eclipse and take you to your imported project (always launch Eclipse via the script file).


Building Hotspot from within Eclipse

Select the project in the Project Explorer and select the menu option Project > Build Project (in case of first-time build from within Eclipse, please do a Clean Build from within Eclipse before doing a full-build).
Now shutdown Eclipse.

Restart Eclipse using the script mentioned in the above section (see Applying the downloaded…), always launch Eclipse via this script file.

Select the project in the Project Explorer and select the menu option Project > Build Project.
A successful build will result in messages in the build output console:
BuildConsoleOuput


Running Hotspot from within Eclipse

Select the ‘hotspot’ project from the Project Explorer and select the menu option Run > Run.

Basically running ‘gamma’ through the Eclipse Run/Debug launcher should print out the gamma usage screen which looks like the below (snapshot) and exactly the same as the ‘java –help’ command run from the command prompt:

[Loaded sun.misc.Launcher$AppClassLoader$1 from shared objects file]
[Loaded java.lang.SystemClassLoaderAction from shared objects file]
Usage: gamma [-options] class [args...]
           (to execute a class)
   or  gamma [-options] -jar jarfile [args...]
           (to execute a jar file)

where options include:
    -cp <class search path of directories and zip/jar files>
    -classpath <class search path of directories and zip/jar files>
                  A : separated list of directories, JAR archives,
                  and ZIP archives to search for class files.
.
.
.
[Loaded java.lang.Shutdown from shared objects file]
[Loaded java.lang.Shutdown$Lock from shared objects file]

See section “Examining all kinds of logs…” for a detailed version of the above snapshot of the log.

_______________________________________________________________________________________________________________________________________________________________________________

Hacking the java.c program – add your own code to it

The C/C++ code in Hotspot, in this case java.c (found in the hotspot/src/share/launcher folder) isn’t as scary as C/C++ code can be deemed to be – I hope it removes such a phobia about system-level languages. Locate hotspot/src/share/launcher/java.c in Eclipse, open it and go to the section of the code between line numbers 388 and 389 and insert the below block of code:

      printf("**********************************\n");
      printf("* Simple java.c hack \n");
      printf("**********************************\n");
      printf("* jre path: %s \n", jrepath);
      printf("* jvm path: %s \n", jvmpath);
      printf("* Jarfile: %s \n", jarfile);
      printf("* Classname: %s \n", classname);
      printf("**********************************\n");

which on completion should look like:
5. java.c.hacking


Running Hotspot (and loading a simple Demo class) from within Eclipse

If you don’t have a sample class or jar to hand, create one, here is a snapshot of the code behind the demo HelloWorld.java program:

public class HelloWorld {
    public static void main(String[] args) {
        System.out.println("************************");
        System.out.println("*     Hello, World     *");
        System.out.println("************************");
    }
}

Save this program say in the $HOME folder, then edit ../hotspot/eclipseScripts/updateEnvVarsForEclipseForHotspot.sh to enable passing the HelloWorld or any other class to the hotspot program’s Run/Debug Launcher – instructions in the file, look for the below block of code (comment and uncomment the relevant lines). If another name or location is chosen for the demo class or program, then make the necessary amendment in the above script file – comments available in the file to guide you (see below).

# Uncomment this line when you have a sample class or jar to pass to gamma
# export DEMOCLASS_OR_JAR_ARG="-cp $HOME HelloWorld"

# This will invoke gamma to display the usage screen
export DEMOCLASS_OR_JAR_ARG=""
}

Restart Eclipse using the script mentioned in the above section (see Applying the downloaded…), always launch Eclipse via this script file.

The above lines should produce the below output (snapshot) between two blocks of verbose messages from gamma, which also contains the print messages to the console that were inserted into the java.c unit:

Using java runtime at: /usr/lib/jvm/java-7-openjdk-i386/jre/
**********************************
* Simple java.c hack
**********************************
* jre path: /usr/lib/jvm/java-7-openjdk-i386/jre/
* jvm path: /home/saiubuntu/sources/jdk8_tl/build/linux-x86-normal-server-release/hotspot/linux_i486_compiler2/product/libjvm.so
* Jarfile: (null)
* Classname: HelloWorld
**********************************
[Loaded java.lang.Object from shared objects file]
[Loaded java.io.Serializable from shared objects file]
.
.
.
************************
*&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Hello, World&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;*
************************
[Loaded java.lang.Shutdown from shared objects file]
[Loaded java.lang.Shutdown$Lock from shared objects file]

See the below section on “Examining all kinds of logs…” for a detailed version of the above snapshot.


Putting breakpoints in java.c within Eclipse

Open java.c in the Eclipse editor, position the cursor on line 392 (or any other line) and double click on the left-hand-side border/bevel of the editor window:
7. ToggleBreakpointsInJava.C


Tracing code and inspecting variables in java.c within Eclipse

Now select the project in the Project Explorer and run the program in Debug mode by clicking on the menu option Run > Debug to launch the Debug perspective:
EclipseHotspotDebugBreakpoint

Adding a Watch Expression and Tracing through the lines of code shows the current value being populated in the Watch Expression window (top right corner). A watch expression can be added by merely select the field or variable in the editor, right-mouse click and selecting Watch Expression from the pop-up menu:
EclipseHotspotWatchExpressionDebugMode


Examining the different logs generated during the build and Run/Debug launching processes

A number of log files were created during the whole process and can be examined, see below (the names of the files describe their contents):

hotspot.eclipse.clean.build.log (console messages generated on Clean Hotspot Build action)
hotspot.eclipse.full.build.log (console messages generated on Full Hotspot Build action)
hotspot.eclipse.incremental.build.log (console messages generated on Incremental Hotspot Build action)
gamma.run_or_debug.Usage.output.log (console messages generated on running gamma in verbose mode, and not launching any program)
gamma.run_or_debug.HelloWorld.Verbose.output.log (console messages generated on running gamma in verbose mode, and launching the HelloWorld program)


A number of advanced hacks (assignment for readers!)

1) Insert debug-level log messages into java.c throughout the unit, rebuild gamma and run the Demo class or any other java-based.
2) Refactor java.c and insert debug-level log messages throughout the unit, rebuild gamma and run the Demo class or any other java-based program.
3) After step 2) above, load a low-latency, GC-tuned java based program, with GC-logs enabled and examine the GC-logs produced, to see if there is any change in performance (for performance tuning buffs).
4) Apply the Elvis operator to javac (a good way to get exposure to ‘how to modify javac?’) and compile a java program with the Elvis operator implemented in it.
5) GC-fun: replace the existing garbage collector(s) with a custom one. Resurrect PermGen or iCMS in the existing code. Add your change you always wanted to, to the existing version of Hotspot (for GC buffs).
6) Change javac to be able to parse and compile new language features or understand another dialect of JVM-based languages or maybe even older programming languages like C, Assembly, Scheme or Smalltalk.
7) Replace the built-in class-loader with your custom version.


References

(1) OpenJDK: README for the New Build System
(2) Hotspot Runtime Overview
(3) HotSpot Internals
(4) Hotspot Docs
(5) OpenJDK build instructions (old build)
(6) Hacking Hotspot in Eclipse – Roman Kennke (old build system)
(7) Biased Locking in HotSpot
(8) HotSpot source: command line arguments
(9) Memory leak profiling with netbeans
(10) HotSpot Tools – HotSpot Internals for OpenJDK – Oracle Wiki
(11) HotSpot development on Linux with NetBeans
(12) Building Hotspot in Eclipse under Ubuntu 12.04 (Old Build system)


Related references

Read about the Adopt OpenJDK program at the the Adopt OpenJDK java.net project website. Join the Adopt OpenJDK mailing list at the google group or send an email to adopt-openjdk@googlegroups.com to subscribe to the mailing list. Find out how to join a Google group.
@adoptopenjdk – follow us on twitter, get the latest Adopt OpenJDK community news!

Read about the Adopt-a-JSR program at the java.net project website. Join the Adopt-a-JSR mailing list at the java.net mailing list. Send an email to members@adoptajsr.java.net to subscribe to the mailing list.
@adoptajsr – follow us on twitter, get the latest Adopt-a-JSR community news!


Finally

These instructions will be converted to much compact ‘wiki’ instructions without any of the narrations explanations as mentioned in the blog above – “post any feedback and improvements from the users of the instructions!”. You can post them at the bottom of this blog or tweet them to me at @theNeomatrix369.

‘Thank you’ to those who have helped in the process (@karianna, @RichardWarburto, Girish Balakrishnan, @teozaurus, @SamirTalwar, @sandromancuso and @stPundit). Any (constructive) comments or request for changes are welcome.

I have learnt a lot about the topics covered here i.e. Java, Eclipse and Ubuntu! For those who wish to dive deeper in Hotspot and Java, make use of all the links in the blog, study the bash scripts written to automate the process, above all look into the hotspot folder and take interest in all the files it contains.

Feel free to approach the list of ‘assignment’ hacks, I’ll be more than happy to add links from here to your page if you accomplish any one of them. You will also be mentioned in our community news relayed regularly.

Post #fosdem, #jfokus – lots more #java, #jsr & #openjdk news from all over!

In the last couple of weeks since FOSDEM 2013, Jfokus 2013 and, events and hackdays organised by LJC JUG members, we have had a lots of exciting news and resources to share with you. The source of the information have been mailing lists / forums, meetup events, twitter and other sources.

Plenty were spoken about #java, #jsr and #openjdk, the topics covered by the #adoptajar and #adoptopenjdk programs.

FOSDEM 2013

Speaker interviews:


Jfokus 2013

#Jfokus coverage of #java, a snapshot by Kevin Farnham:


@steveonjava – Nighthacking!

Watch all the recordings of Steve’s Nighthacking from FOSDEM 2013 through to Jfokus 2013!


LJC events & hackdays

Garbage collection – The useful parts


WebSocket & JSON Hack Day (covering implementation for JSR 356 & JSR 353)


Bring your Performance Problems Panel


@adoptajsr news feed

– Plenty of updates on polls, JSRs, presentations, github projects, etc… were discussed on twitter.
– WebSocket & JSON Hack Day (covering implementation for JSR 356 & JSR 353) – see above!
Suggestion to extend / improve the Java API – Thanks Hildeberto Mendonça for coming forward to contribute!
– Modernize Connector/MDB — Vote and comment – Thanks Richard Kolb for support such initiatives!
CDI 1.1 applications you can work with – Thanks Luigi for the contribution!


@adoptopenjdk news feed

– Updates on latest changes and developments in the OpenJDK world that were discussed amongs members on twitter.
– Potential plans to deprecate SPARC V8 support in HotSpot!
– StringBuffer to StringBuilder again – discussions rekindled!


Upcoming events and meetings

Adopt-a-JSR online meeting – February 27
Further hackdays, discussion panels and events to be organised by LJC JUG members.
26-27 March 2013, Devoxx UK

—-

Read about the Adopt OpenJDK program at the the Adopt OpenJDK java.net project website.
Join the Adopt OpenJDK mailing list at the google group. Find out how to join a Google group or send an email to adopt-openjdk@googlegroups.com to subscribe to the mailing list.

Read about the Adopt-a-JSR program at the java.net project website.
Join the Adopt-a-JSR mailing list at the java.net mailing list. Send an email to members@adoptajsr.java.net to subscribe to the mailing list.

The OpenJDK and JSR topics get good coverage at FOSDEM 2013! JUG members participating!

Its FOSDEM (Free and Open source Software Developers’ European Meeting) time again, and this year we have very good coverage on the OpenJDK and JSR topics at FOSDEM 2013. A number of speakers and events are taking place throughout the two days covering various topics on Java.

Adopt-a-JSR and JSRs
The speakers and events for these topics will speak on the present state and the future of Java, technical topics like InvokeDynamics, Zero, and the Shark compiler. The new JSR for Hotspot/JVM that will affect the Android world i.e. Dalvik users! Below are a list of speakers and events covered under this topic.

Speakers

Events

Adopt OpenJDK / OpenJDK
The OpenJDK topic has got massive coverage with 17 speakers, speaking and holding events covering various topics. In summary the topics covered will be:

– Past and future of OpenJDK, new releases
– Q & A session on OpenJDK
– The OpenJDK journey and what has been learnt so far
– Porting OpenJDK to PowerPC/AIX, AArch64
– Running Nashorn and JavaJFX
– OpenJDK7u progress
– Highlight on OpenJDK Lambda
– Using Shark again

Below are a list of speakers and events covered under this topic.
Speakers

Events

Java gets its own space in the Free Java (Dev Room).

Members of the LJC JUG, CEJUG, Brussels JUG and other JUGs worldwide will be present at this event!

Follow the event on Twitter by following the below handles:
@fosdem
@adoptopenjdk
@adoptajsr

FOSDEM website: https://fosdem.org/2013/

Read about the Adopt OpenJDK program at the the Adopt OpenJDK java.net project website.
Join the Adopt OpenJDK mailing list at the google group or send an email to adopt-openjdk@googlegroups.com to subscribe to the mailing list. Find out how to join a Google group.

Read about the Adopt-a-JSR program at the java.net project website.
Join the Adopt-a-JSR mailing list at the java.net mailing list. Send an email to members@adoptajsr.java.net to subscribe to the mailing list.

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