| <html> |
| <head> |
| <title>Basic Dalvik VM Invocation</title> |
| </head> |
| |
| <body> |
| <h1>Basic Dalvik VM Invocation</h1> |
| |
| <p> |
| On an Android device, the Dalvik virtual machine usually executes embedded |
| in the Android application framework. It's also possible to run it directly, |
| just as you would a virtual machine on your desktop system. |
| </p><p> |
| After compiling your Java language sources, convert and combine the .class |
| files into a DEX file, and push that to the device. Here's a simple example: |
| |
| </p><p><code> |
| % <font color="green">echo 'class Foo {'\</font><br> |
| > <font color="green">'public static void main(String[] args) {'\</font><br> |
| > <font color="green">'System.out.println("Hello, world"); }}' > Foo.java</font><br> |
| % <font color="green">javac Foo.java</font><br> |
| % <font color="green">dx --dex --output=foo.jar Foo.class</font><br> |
| % <font color="green">adb push foo.jar /sdcard</font><br> |
| % <font color="green">adb shell dalvikvm -cp /sdcard/foo.jar Foo</font><br> |
| Hello, world |
| </code> |
| </p><p> |
| The <code>-cp</code> option sets the classpath. The initial directory |
| for <code>adb shell</code> may not be what you expect it to be, so it's |
| usually best to specify absolute pathnames. |
| |
| </p><p> |
| The <code>dx</code> command accepts lists of individual class files, |
| directories, or Jar archives. When the <code>--output</code> filename |
| ends with <code>.jar</code>, <code>.zip</code>, or <code>.apk</code>, |
| a file called <code>classes.dex</code> is created and stored inside the |
| archive. |
| </p><p> |
| Run <code>adb shell dalvikvm -help</code> to see a list of command-line |
| options. |
| </p><p> |
| |
| |
| |
| <h2>Working with the desktop build</h2> |
| |
| <!-- largely lifted from |
| http://groups.google.com/group/android-porting/browse_thread/thread/ab553116dbc960da/29167c58b3b49051#29167c58b3b49051 |
| --> |
| |
| <p> |
| The Dalvik VM can also be used directly on the desktop. This is somewhat |
| more complicated however, because you won't have certain things set up in |
| your environment, and several native code libraries are required to support |
| the core Dalvik libs. |
| </p><p> |
| Start with: |
| |
| <pre> |
| . build/envsetup.sh |
| lunch sim-eng |
| </pre> |
| |
| You should see something like: |
| |
| <pre> |
| ============================================ |
| TARGET_PRODUCT=sim |
| TARGET_BUILD_VARIANT=eng |
| TARGET_SIMULATOR=true |
| TARGET_BUILD_TYPE=debug |
| TARGET_ARCH=x86 |
| HOST_ARCH=x86 |
| HOST_OS=linux |
| HOST_BUILD_TYPE=release |
| BUILD_ID= |
| ============================================ |
| </pre> |
| |
| </p></p> |
| This configures you to build for the desktop, linking against glibc. |
| This mode is NOT recommended for anything but experimental use. It |
| may go away in the future. |
| </p></p> |
| You may see <code>TARGET_BUILD_TYPE=release</code> or <code>=debug</code> |
| or possibly nothing there at all. You may want to replace the |
| <code>lunch</code> command with |
| <code>choosecombo Simulator debug sim eng</code>. |
| </p></p> |
| Build the world (add a <code>-j4</code> if you have multiple cores): |
| |
| <pre> |
| make |
| </pre> |
| |
| </p></p> |
| When that completes, you have a working dalvikm on your desktop |
| machine: |
| |
| <pre> |
| % dalvikvm |
| E/dalvikvm(19521): ERROR: must specify non-'.' bootclasspath |
| W/dalvikvm(19521): JNI_CreateJavaVM failed |
| Dalvik VM init failed (check log file) |
| </pre> |
| |
| </p></p> |
| To actually do something, you need to specify the bootstrap class path |
| and give it a place to put DEX data that it uncompresses from jar |
| files. You can do that with a script like this: |
| |
| <blockquote><pre> |
| #!/bin/sh |
| |
| # base directory, at top of source tree; replace with absolute path |
| base=`pwd` |
| |
| # configure root dir of interesting stuff |
| root=$base/out/debug/host/linux-x86/product/sim/system |
| export ANDROID_ROOT=$root |
| |
| # configure bootclasspath |
| bootpath=$root/framework |
| export BOOTCLASSPATH=$bootpath/core.jar:$bootpath/ext.jar:$bootpath/framework.jar:$bootpath/android.policy.jar:$bootpath/services.jar |
| |
| # this is where we create the dalvik-cache directory; make sure it exists |
| export ANDROID_DATA=/tmp/dalvik_$USER |
| mkdir -p $ANDROID_DATA/dalvik-cache |
| |
| exec dalvikvm $@ |
| </pre></blockquote> |
| |
| </p></p> |
| The preparation with <code>dx</code> is the same as before: |
| |
| <pre> |
| % cat > Foo.java |
| class Foo { public static void main(String[] args) { |
| System.out.println("Hello, world"); |
| } } |
| (ctrl-D) |
| % javac Foo.java |
| % dx --dex --output=foo.jar Foo.class |
| % ./rund -cp foo.jar Foo |
| Hello, world |
| </pre> |
| |
| As above, you can get some info about valid arguments like this: |
| |
| <pre> |
| % ./rund -help |
| </pre> |
| |
| </p></p> |
| This also shows what options the VM was configured with. The sim "debug" |
| build has all sorts of additional assertions and checks enabled, |
| which slows the VM down, but since this is just for experiments it |
| doesn't matter. |
| |
| </p></p> |
| All of the above applies to x86 Linux. Anything else will likely |
| require a porting effort. If libffi supports your system, the amount of |
| work required should be minor. |
| |
| </p></p> |
| <address>Copyright © 2009 The Android Open Source Project</address> |
| |
| </body> |
| </html> |