David Chandler has put together a build system for Jskad, Savant, QuillDriver, the translation tool, Tibbibl, and for the fonts. This document describes them, and should be updated if we put together build systems for the two diacritics packages and for Wylie Word (but see e-mail to thdl-devel@lists.sourceforge.net that tells why we probably will continue to require Wylie Word developers to edit from within MS Word on account of the difficulty of using CVS with VBA).
What is a build system, you ask? A build system is a set of clear, repeatable procedures that software developers go by to compile, run, test, create documentation, and cut releases. Our build systems are fully automated, which provides a good basis for collaborative development. Even for individual development, a good build system gives you the confidence to make big organizational changes and saves you time in the long run.
Fonts
module
www
module -- how to publish on this very web site, that is
Diacritics
module
WylieWord
module
Jskad
module
This document uses the following terms:
'cvs checkout'
. It's called a
sandbox because you can safely play in it; your work will not
affect others until you commit your changes to the repository.
(Though if you really wanted to, you could create a CVS branch and
then even your commits (to that branch) wouldn't affect the work
of others on the trunk, or main branch.)
thdltools.sourceforge.net
. Windows users should
either get these tools with Cygwin or should install PuTTY; the
latter is probably easier.
Ant is built from the ground up as a full-featured, extensible build system for Java programs. If you use Ant, your classpath-related headaches disappear (after clearing initial hurdles), and you can be sure that the build will work the same on Linux and the Mac as it does on Windows XP, because Ant itself is a Java program. I compile, test, run, and build releases using Ant, and really like it.
Although Ant is mainly intended for building Java programs, it has enough features to make it a viable choice of build system for things non-Java, things like the Tibetan Machine Web font.
To install Apache's Jakarta Ant (or "Apache Ant" or simply "Ant"),
you'll first need a JDK installed. I recommend getting Sun's latest
1.4 JDK (yes, it's available for Linux too). Next, see the Apache Ant website.
Their instructions for installation are pretty good, but you may
have trouble if you're on Windows and you don't know how to set
environment variables (try Control
Panel->System->Advanced->Environment Variables) and the
like. One thing they don't tell you is that their binary
distribution ships with a ton of documentation in
$ANT_HOME/docs/
that can all safely be deleted if you
care about disk space.
I recommend installing Ant yourself, and not using a package manager
such as apt-get or rpm. This is because the ordinary installation
has a well-known $ANT_HOME/lib
directory in which we'll
wish to place a couple of JARs (
junit.jar
and Vamp), as described below. I've had
personal experience with an RPM that made it impossible for me to
make Ant aware of extra JARs, so stay away from RPMs and other
packages.
To test your installation, use cvs to checkout either the
Fonts
module or the Jskad
module. The
Fonts
module has a simpler Ant build file
(Fonts/build.xml
) than the Jskad
module
has, so perhaps it's better for testing. The Jskad
module should be good to go as well, though, because we have a
multi-buildfile system that delegates less common build activities
(ones that require tweaking of your Ant installation) to supporting
buildfiles and keeps the main buildfile,
Jskad/build.xml
, free of nonstandard constructs.
Change directory to whichever module you choose and run the
following command:
ant clean
The output shouldn't alarm you, and it should conclude with "BUILD SUCCESSFUL". If you have any trouble, see Ant's FAQs and then e-mail David Chandler.
Now that you have a good installation of Ant itself, you probably will want to install both JUnit and Vamp. These steps can wait until later if you're not sure you'll be testing our software or packaging our software for release. Here are the steps to install them:
Jskad
module (see below for info
on how to use CVS). Now, to make Ant aware of JUnit, simply copy
Jskad/extensions/to-be-installed-with-ant/junit.jar
to the $ANT_HOME/lib/
directory (and, if you're on
UNIX/Linux, make the file world-readable).
Installing Vamp's Ant task is simple enough, and is in fact
simpler than Vamp's web pages of October 1, 2002 imply. That
is, if you have installed Ant 1.5.1 or later, then you can
simply drop vamp.jar
into Ant's lib
directory (i.e., $ANT_HOME/lib/
) and forget about
changing your classpath (but do be sure, Linux/UNIX users, that
the file is world-readable).
Your build environment is good to go!
If you're working on Windows, it's probably easiest to follow
SourceForge's instructions on using WinCVS and PuTTY. The
instructions there aren't up to date for the latest version of
WinCVS (1.3b8 as of this writing). Instead of telling WinCVS about
plink.exe
in the non-existent Ports
tab of
the Admin->Preferences
menu, you must click the
Settings button next to the server type ("ssh"
) and
click the 'If ssh is not in the path'
checkbox, and
enter plink.exe
's full path there.
Also note that this page is very helpful; it's about how to run WinCVS.
If you're using WinCVS 1.3b8, note that it has a bug -- it truncates
the output of 'cvs diff'
(as explained in
this bug report). For that reason, you may wish to use what
WinCVS calls an "external diff" program, which is easy to install
and configure. Try using
ExamDiff.
If you're on Linux or Unix, SF.net's site docs are excellent. If you're on a Mac, and SF.net's docs don't do the trick, you're in trouble.
Fonts
module
The Fonts
CVS module comes with an Apache Ant build
system. We made this choice because the Jskad
CVS
module already has an Apache Ant build system, and because Ant is
more than powerful enough for our needs. For this module, our only
task is to cut releases. There is nothing to compile here; the only
task that a developer will face is updating the associated
documentation and then cutting a new release, ready to go up on
SourceForge's File Release System (FRS).
To cut releases for one or both of the Tibetan Machine Web and Tibetan Machine, do the following:
Fonts
module. If you have
already checked it out, run 'cvs -f update -d'
(in
WinCVS, hold down the shift key while selecting "Update" and
then be sure the "Create missing directories that exist in the
repository" box is checked).
Fonts
and run the following
command:
ant
If you have any problems, be sure you're using the correct
version of Ant and then read Ant's FAQs and documentation. Or
you can e-mail David Chandler. If it turns out that the problem
is in the Ant build file Fonts/build.xml
, make the
required changes and be sure to commit them to the repository.
Now run the following command to rebuild the releases:
ant clean dist
Fonts
directory is a
mirror of the one in the repository, use cvs to tag this
revision that you wish to release with a name that another
developer, years down the road, will recognize as referring to
this release. To do this, you can run 'cvs -f rtag
tag-name Fonts'
or (and this is preferred) you can
run 'cvs -f tag -c tag-name'
. Good tag
names are like the following:
Fonts_1_0
(referring to the 1.0 release of the
Fonts module)
September_23_2002_release
(referring to the
release of the Fonts module made on September 23, 2002
www
moduleOur SourceForge.net website is entirely under CVS control. This means that we can freely make changes, knowing that they are never lost. It also means that downloading our nightly CVS repository tarball is all that is necessary to save a backup copy of our SF.net web site.
To change an existing web page or to add a new one, you must do the following:
www
module. If you've
already done that, then please use cvs to update (using 'cvs
update -d'
if you want to create missing directories that
exist in the repository) now.
'cvs add'
. Change
any files you wish. Now validate your HTML using W3C's validator. Once it passes
with no errors, commit your changes.
thdltools.sourceforge.net:/home/groups/t/th/thdltools/htdocs
.
To do so, use PuTTY or another ssh
to log in to
thdltools.sourceforge.net
. Now change directory
(cd
) to
/home/groups/t/th/thdltools/htdocs
and run 'cvs
-f update -d -P'
. You'll see your changes being made to
the "real" website. Surf to the website and see
for yourself.
www
module
Not all of the material up at our SF.net website is in the
www
CVS module, but most of it is. Currently, the only
exception is the Javadoc API documentation for Jskad, Savant,
QuillDriver, and the translation tool.
Here is how to update these API docs:
http://thdltools.sourceforge.net/pubapi
, live
at /home/groups/t/th/thdltools/htdocs/
. To update
them, first commit any changes you've made to the repository.
(This, combined with the date stamp that Ant puts into our
Javadoc docs, will give other developers enough information to
recover the revision of the source files that you used. But
feel free to 'cvs tag'
the revision explicitly if
you think it's important. I tagged one revision
javadocs_october_27_2002
, for example.)
'ant private-javadocs-dist
public-javadocs-dist'
from the Jskad
directory, which creates
Jskad/dist/docs/private-javadocs-DSTAMP.zip
and
Jskad/dist/docs/public-javadocs-DSTAMP.zip
.
Examine the output for warnings; resolve them if necessary.
Note that the public-javadocs-dist causes warnings about links
not found that should be ignored; they aren't found because the
things linked to are private or package private.
scp
those two filse over with the command
scp dist/docs/private-javadocs-WHATEVER.zip
dist/docs/public-javadocs-WHATEVER.zip
yourUserId@thdltools.sourceforge.net/home/groups/t/th/thdltools/htdocs/
or use PuTTY's scp
to do something equivalent.
thdltools.sourceforge.net
with
'ssh -l yourUserId thdltools.sourceforge.net'
or
with PuTTY.
cd
) to
/home/groups/t/th/thdltools/htdocs/
.
'cvs -f update -d -P'
--
just in case some developer made changes to the web pages but
forgot to update (don't worry about setting the CVSROOT--cvs is
smart enough to determine everything (but your password)
automatically).
'rm -fr pubapi privateapi public-javadocs* private-javadocs*'
(from the
htdocs/
directory).
'mkdir pubapi privateapi'
.
'cd privateapi'
.
'unzip
../private-javadocs-WHATEVER.zip'
.
'cd ../pubapi'
.
'unzip
../public-javadocs-WHATEVER.zip'
.
'rm -f public-javadocs.zip
private-javadocs.zip; ln -s public-javadocs-WHATEVER.zip
public-javadocs.zip; ln -s private-javadocs-WHATEVER.zip
private-javadocs.zip'
.
http://thdltools.sourceforge.net/api/
looks
up to date (see the date at the very bottom of the page, for
starters). Also, verify that links to J2SE Javadoc
documentation are functioning -- click on a link to
java.lang.Object
and be sure that it works. If
everything is fine, delete
../../private-javadocs-WHATEVER.zip
and log out.
That's all!
Diacritics
moduleWe don't yet have source code in this module. Check back here once we do.
WylieWord
moduleWe don't yet have source code in this module. Check back here once we do.
Jskad
module
The following sections describe how to use the Ant build system we
have for the Jskad
module.
The first thing to note is that the Jskad
module is
misnamed. We have all our Java code inside this module, including
Jskad, Savant, QuillDriver, and the translation tool.
Jskad
moduleYou'll have to first get your computer set up to use CVS. See above.
The next thing you'll need to do is get a CVS sandbox -- a Jskad
directory on
your local computer. Use 'cvs checkout Jskad'
or
WinCVS's "Checkout module" command to do so.
You'll also need to checkout the Fonts
module
underneath the directory where you checked out the
Jskad
directory. We put the TMW font into some JAR
files, so the 'Jskad/Fonts/TibetanMachineWeb/'
directory must exist.
Now go get the JARs you need. Be sure to note which versions you get, because you'll need to mention that in the release notes of any releases you cut. The following are needed:
xalan.jar
, xercesImpl.jar
, and
xml-apis.jar
to $ANT_HOME/lib
.
They need to be there to avoid loader errors when running the
check-report
target, which is a part of the nightly
builds that also requires XSLT (i.e., the presence of those JARs,
but in a place that Ant recognizes). A consequence of using
this location is that you'll probably find using targets like
qd-run
much easier than specifying your own
CLASSPATH.
jdom.jar
from
JDOM.org.
thdl.media.player
option) the Java(TM)
Media Framework. After it is installed, either change your
CLASSPATH to include its jmf.jar
, or avoid the
classpath hassle by copying jmf.jar
to
Jskad/extensions/drop-ins
.
thdl.media.player
option) QuickTime for
Java. Installing it requires installing QuickTime, selecting
a "Custom" install, and checking the box for QuickTime for Java.
After it is installed, either change your CLASSPATH to include its
QTJava.zip
, or avoid the classpath hassle by copying
QTJava.zip
to Jskad/extensions/drop-ins
.
If you need to add something else to the classpath, be it a .jar
file, a .zip file, or a directory, you have several options. You
can set your CLASSPATH environment variable, or you can call Ant
using 'ant -Dadditional.class.path=c:\my.jar'
, or you
can drop JAR or ZIP files into
Jskad/extensions/drop-ins
.
While you're hacking, use our API docs on the web, or build your own.
Jskad
moduleThis section describes how our build system interacts with your daily work hacking on Jskad, Savant, QuillDriver, and the translation tool.
Compiling any of the tools is a simple matter. First, ensure that
you are in the Jskad/
directory of your sandbox.
Now run 'ant program-compile'
to create a
directory tree Jskad/bin/program/
that contains
all the .class files and needed resources (.ini files, .xsl files,
et cetera).
Or you may run 'ant program-dist'
to create a
JAR file Jskad/dist/lib/program-vanilla.jar
that
contains all the .class files and needed resources, but does not
contain any third-party JARs.
You may also run 'ant program-jws'
to create a
Java Web Start release. See below to
learn more about this.
Gotcha: We currently have the build system set up so that it
builds a program, say Jskad, given merely the name of the main
class, say org.thdl.tib.input.Jskad
. This means that
our releases include only classes that we're actually using. But it
also means that your changes to any but the main class will not
cause recompilation. You must use 'ant clean'
before
recompiling. In addition, you should clean after any cvs update.
The alternative to specifying just the main class is specifying
every needed class. If you do this, Ant often rebuilds the correct
classes. But you may have to modify build.xml
when you
add a new file, and your releases may include vestigial classes.
Running the tools is easy for a developer. Just run 'ant
program-run'
, where program is one of
jskad
, tt
, savant
, or
qd
. This deals with classpaths and all of that, and it
compiles beforehand if needed. Note the gotcha above if you're
rerunning after changing the source code -- you'll have to use
'ant clean program-run'
. If you modify a
resource, such as Jskad/source/options.txt
, there are
no gotchas -- Ant is smart enough to handle this.
While you're hacking, use our API docs on the
web, or build your own Javadoc API docs using 'ant
public-javadocs'
(to see only protected and public members)
or 'ant private-javadocs'
(to see all members).
They'll be waiting for you in
Jskad/docs/{public,private}-javadocs/
. If you want to
update the API docs on our website, follow these instructions.
Nowadays, any good Java IDE is aware of Ant and will let you use Ant for the things it is good at while using the IDE for the things it is good at. Ask David Chandler how he got Eclipse up and running; he did it without too much trouble.
Testing is an underappreciated part of software development. Software without a good test suite costs more money and time to maintain, and it can eventually become downright demoralizing when you can't seem to make a simple change without breaking part of the code. If you see the break immediately, it's no big deal. When you have a solid test suite, you're much more likely to make changes with confidence.
But testing isn't just for us, the developers. It's mainly to give the user confidence (though hearing from us about our extensive, automated test suite is the direct method whereby the user gains this confidence). For key parts of our system, parts that we hope others will trust with their most precious data, we need excellent testing, design, and documentation. For other parts of the system, where failure is obvious (like GUI interfaces), testing can slide more easily.
The core modules dealing with Tibetan text are thus going to be heavily tested, mainly by unit tests and end-to-end regression tests that ensure that the software still does what we verified by hand it should do. If we don't do this, can you imagine someone entrusting us to convert their Kangyur, in its Roman transliteration, into Unicode? Don't imagine they will just glance at the first and last page of the converted text and sign off on our fine tool.
In short, the test suite determines whether our software is well-receieved or merely well-intentioned.
We use JUnit to provide automated
unit tests. Running them is as simple as making Ant aware of JUnit
(see below) and then running 'ant clean check'
. If
there are any failures, you should examine the files
Jskad/TEST-*
and track them down.
To make Ant aware of JUnit, simply copy
Jskad/extensions/to-be-installed-with-ant/junit.jar
to
the $ANT_HOME/lib/
directory (and, if you're on
UNIX/Linux, make the file world-readable). More details are provide
above.
To make future testing easy, you should use interfaces rather than hard-wiring in calls to classes that are difficult to instantiate. For example, if we were to make use of a database class in our DuffPane class, doing so directly would mean that the database software would have to be properly installed and up and running in order to test DuffPane individually. If you create an interface and use the database only through that interface, then creating a mock object that pretends to be that database but returns canned answers is a simple matter.
Jskad/build.xml
Should you need to modify the Ant build file
Jskad/build.xml
, feel free to ask David Chandler to do
it for you. Or just look at the contents of that file and find
something similar to what you're doing. There are a few comments in
the file, and all commonly used functionality is factored out into
targets that are then summoned via antcall
tasks.
Java Web Start makes it possible (in theory, anyway) to install a complex application like Savant with one mouse click of a link in your favorite web browser and one more click of a "Yes, install Savant" button in a dialog box (necessary because our applications require security privileges to read and write from disk etc.). Upon the second run of the program, Java Web Start asks the user if they want to create shortcuts on their computer. Also, any time the program is invoked (from a shortcut or a web link) and a network connection is found, new versions of the software will be downloaded automatically, keeping the user up to date.
In addition, the Venus Application Publisher provides a mechanism for creating CD-ROM-based installers that load our Java Web Start code into the user's Web Start cache directory. Then running the software will check for updates as described above. (I don't know if we'll ever use this, and it's kind of ugly, but it's here.)
For the above scenario to play out, the user must have installed a recent (1.2 or later) Java runtime environment. That's it from the user's point of view.
The web server that delivers the content must associate the MIME type application/x-java-jnlp-file with the "jnlp" extension and must associate the MIME type application/x-java-archive-diff with the "jardiff" extension. In addition, if you want to be able to serve up a new release with the least difficulty (simply dropping a .war file (a Java Web ARchive) into the appropriate directory on the server), the server must run a J2EE application server such as Apache's Tomcat.
For the reasons stated above, Java Web Start (JWS) is our distribution mechanism of choice. But cutting a Java Web Start release is not the easiest thing you've ever done. For one thing, because our applications require access to the local disk, they must ask for security privileges. JWS warns users not to grant such privileges unless they know the software provider is trustworthy. Trust depends in turn on identity, and identity is proven by public key cryptography. So to cut a JWS release, you have to sign your JARs and rejar and sign any third-party JARs. (If signing JARs is new to you, the J2SE documentation on the subject is okay, but hopefully reading below will tell you all you need to know.)
First, be sure you've installed Vamp's Ant task as described above. You can do many day-to-day development activities without performing this step, so don't assume that you must have already done it.
Second, create the release notes and the changelog. These should be two different text files. Somewhere in one or both, you should mention the versions of the third-party JARs and APIs that we have packaged with our release. Most importantly, put in a link to the web server on which you're going to put the web start release! Commit these text files to the repository (adding them first if necessary).
Third, commit any changes you've made to the repository. After
being sure that your Jskad
directory is a mirror of the
one in the repository, use cvs to tag this revision that you wish to
release with a name that another developer, years down the road,
will recognize as referring to this release. To do this, you can
run 'cvs -f rtag tag-name Jskad'
or (and this is
preferred) you can run 'cvs -f tag -c tag-name'
.
Good tag names are like the following:
thdl_tools_1_0
(referring to the 1.0 release of the
Jskad module)
September_23_2002_release
(referring to the release
of all programs in Fonts
module made on September 23,
2002
As you may have inferred, we release all four programs when we release any one of them. This is only a half-truth, though--we release the unified source distribution any time we release a binary distribution, but we don't necessarily put out all four binary distributions in unison.
Now run
ant -Dkeystore="file:///c:/thdl/sandboxes/Jskad/your.keystore"
-Dkeystore.password=baz
-Ddgkey.password=foo
-Dkey.alias="Johnny Developer"
-Djnlp.codebase="http://your.web.server/THDL_STUFF"
program-jws'
where program is one of jskad
, tt
,
savant
, or qd
. This cleans first, so your
changes will be respected. This then creates a WAR file
Jskad/dist/java-web-start/program-JWS.war
. This
also extracts the signed JAR from inside that WAR, which is handy if
you're deploying to a web server that isn't running a J2EE
application server. More on that below.
The argument to -Dkeystore
is a URL like
file:///c:/foo/keystore
. This should be a keystore
that you've created with keytool. We haven't yet paid the money to
get a real X.509 key, so create your own. Users will see a nasty
warning saying that we may not be who we say we are, but so be it.
Each key in your key store has an associated alias, such as your
name. Specify it as the argument to -Dkey.alias
. The
other two arguments are the password for the keystore as a whole
(-Dkeystore.password
) and the password for the specific
key whose alias you're giving.
Inspect the output for warnings. Ignore the warning about
"[vampwar]
org.apache.velocity.runtime.exception.ReferenceException: reference
: template = html/test.html [line 37,column 14] : $jnlp-url is not a
valid reference."
but fix any others.
If you wish to deploy to a J2EE application server, such as Apache's
Tomcat, now copy the .war
file to the server. You're
done with the binary part of the release.
If you're deploying to a plain-vanilla web server, first ensure that
its MIME type associations are correct (see above). Now ignore the .war
file and copy the appropriate .jnlp
file(s) and the
appropriate JAR(s) from Jskad/dist/java-web-start/
to
the webserver. Those two files are all you need, and you don't need
to edit the .jnlp
file because you specified the
jnlp.codebase
property.
Now put up a source release on SourceForge's File Release System
(FRS). After ensuring that you've made NOT EVEN ONE CHANGE to your
sandbox, and after updating it, and after verifying that this
revision is cvs-tagged appropriately, use 'ant
src-dist'
to create
Jskad/source/THDL-Tools-src-todays-date.zip
.
Now put this zip file up on the FRS with the appropriate release
notes and changelog (which should have been committed and tagged in
the repository).
You're done! Except, of course, for the gotcha: At present,
only the translation tool and Jskad have working Java Web Start
releases; Savant's and QuillDriver's are on the way. Savant and
QuillDriver, like Jskad, requires all-permissions security. That
means that xalan.jar
, xercesImpl.jar
, and
xml-apis.jar
need to be jar-signed by the same
certificate as QuillDriver. We do this automatically via 'ant
self-contained-dist'
or 'ant
web-start-releases'
, but here's how to do this manually:
Now send an e-mail to thdltools-announce@lists.sourceforge.net telling users where the JWS binary release is, where the source code distribution is, and why they should upgrade or try it out.