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1<html>
2<head>
3    <title>Basic Dalvik VM Invocation</title>
4</head>
5
6<body>
7<h1>Basic Dalvik VM Invocation</h1>
8
9<p>
10On an Android device, the Dalvik virtual machine usually executes embedded
11in the Android application framework.  It's also possible to run it directly,
12just as you would a virtual machine on your desktop system.
13</p><p>
14After compiling your Java language sources, convert and combine the .class
15files into a DEX file, and push that to the device.  Here's a simple example:
16
17</p><p><code>
18% <font color="green">echo 'class Foo {'\</font><br>
19&gt; <font color="green">'public static void main(String[] args) {'\</font><br>
20&gt; <font color="green">'System.out.println("Hello, world"); }}' &gt; Foo.java</font><br>
21% <font color="green">javac Foo.java</font><br>
22% <font color="green">dx --dex --output=foo.jar Foo.class</font><br>
23% <font color="green">adb push foo.jar /sdcard</font><br>
24% <font color="green">adb shell dalvikvm -cp /sdcard/foo.jar Foo</font><br>
25Hello, world
26</code>
27</p><p>
28The <code>-cp</code> option sets the classpath.  The initial directory
29for <code>adb shell</code> may not be what you expect it to be, so it's
30usually best to specify absolute pathnames.
31
32</p><p>
33The <code>dx</code> command accepts lists of individual class files,
34directories, or Jar archives.  When the <code>--output</code> filename
35ends with <code>.jar</code>, <code>.zip</code>, or <code>.apk</code>,
36a file called <code>classes.dex</code> is created and stored inside the
37archive.
38</p><p>
39Run <code>adb shell dalvikvm -help</code> to see a list of command-line
40options.
41</p><p>
42
43
44
45<h2>Using a debugger</h2>
46
47<p>
48You can debug stand-alone applications with any JDWP-compliant debugger.
49There are two basic approaches.
50</p><p>
51The first way is to connect directly through TCP.  Add, to the "dalvikvm"
52invocation line above, an argument like:
53</p><p>
54<code>&nbsp;&nbsp;-agentlib:jdwp=transport=dt_socket,address=8000,server=y,suspend=y</code>
55</p><p>
56This tells the VM to wait for a debugger to connect to it on TCP port 8000.
57You need to tell adb to forward local port 8000 to device port 8000:
58</p><p>
59<code>% <font color="green">adb forward tcp:8000 tcp:8000</font></code>
60</p><p>
61and then connect to it with your favorite debugger (using <code>jdb</code>
62as an example here):
63</p><p>
64<code>% <font color="green">jdb -attach localhost:8000</font></code>
65</p><p>
66When the debugger attaches, the VM will be in a suspended state.  You can
67set breakpoints and then tell it to continue.
68
69
70</p><p>
71You can also connect through DDMS, like you would for an Android application.
72Add, to the "dalvikvm" command line:
73</p><p>
74<code>&nbsp;&nbsp;-agentlib:jdwp=transport=dt_android_adb,suspend=y,server=y</code>
75</p><p>
76Note the <code>transport</code> has changed, and you no longer need to
77specify a TCP port number.  When your application starts, it will appear
78in DDMS, with "?" as the application name.  Select it in DDMS, and connect
79to it as usual, e.g.:
80</p><p>
81<code>% <font color="green">jdb -attach localhost:8700</font></code>
82</p><p>
83Because command-line applications don't include the client-side
84DDM setup, features like thread monitoring and allocation tracking will not
85be available in DDMS.  It's strictly a debugger pass-through in this mode.
86</p><p>
87See <a href="debugger.html">Dalvik Debugger Support</a> for more information
88about using debuggers with Dalvik.
89
90
91
92<h2>Working with the desktop build</h2>
93
94<!-- largely lifted from
95http://groups.google.com/group/android-porting/browse_thread/thread/ab553116dbc960da/29167c58b3b49051#29167c58b3b49051
96-->
97
98<p>
99The Dalvik VM can also be used directly on the desktop.  This is somewhat
100more complicated however, because you won't have certain things set up in
101your environment, and several native code libraries are required to support
102the core Dalvik libs.
103</p><p>
104Start with:
105
106<pre>
107  . build/envsetup.sh
108  lunch sim-eng
109</pre>
110
111You should see something like:
112
113<pre>
114  ============================================
115  TARGET_PRODUCT=sim
116  TARGET_BUILD_VARIANT=eng
117  TARGET_SIMULATOR=true
118  TARGET_BUILD_TYPE=debug
119  TARGET_ARCH=x86
120  HOST_ARCH=x86
121  HOST_OS=linux
122  HOST_BUILD_TYPE=release
123  BUILD_ID=
124  ============================================
125</pre>
126
127</p></p>
128This configures you to build for the desktop, linking against glibc.
129This mode is NOT recommended for anything but experimental use.  It
130may go away in the future.
131</p></p>
132You may see <code>TARGET_BUILD_TYPE=release</code> or <code>=debug</code>
133or possibly nothing there at all.  You may want to replace the
134<code>lunch</code> command with
135<code>choosecombo Simulator debug sim eng</code>.
136</p></p>
137Build the world (add a <code>-j4</code> if you have multiple cores):
138
139<pre>
140  make
141</pre>
142
143</p></p>
144When that completes, you have a working dalvikm on your desktop
145machine:
146
147<pre>
148  % dalvikvm
149  E/dalvikvm(19521): ERROR: must specify non-'.' bootclasspath
150  W/dalvikvm(19521): JNI_CreateJavaVM failed
151  Dalvik VM init failed (check log file)
152</pre>
153
154</p></p>
155To actually do something, you need to specify the bootstrap class path
156and give it a place to put DEX data that it uncompresses from jar
157files.  You can do that with a script like this:
158
159<blockquote><pre>
160#!/bin/sh
161
162# base directory, at top of source tree; replace with absolute path
163base=`pwd`
164
165# configure root dir of interesting stuff
166root=$base/out/debug/host/linux-x86/product/sim/system
167export ANDROID_ROOT=$root
168
169# configure bootclasspath
170bootpath=$root/framework
171export BOOTCLASSPATH=$bootpath/core.jar:$bootpath/ext.jar:$bootpath/framework.jar:$bootpath/android.policy.jar:$bootpath/services.jar
172
173# this is where we create the dalvik-cache directory; make sure it exists
174export ANDROID_DATA=/tmp/dalvik_$USER
175mkdir -p $ANDROID_DATA/dalvik-cache
176
177exec dalvikvm $@
178</pre></blockquote>
179
180</p></p>
181The preparation with <code>dx</code> is the same as before:
182
183<pre>
184  % cat &gt; Foo.java
185  class Foo { public static void main(String[] args) {
186    System.out.println("Hello, world");
187  } }
188  (ctrl-D)
189  % javac Foo.java
190  % dx --dex --output=foo.jar Foo.class
191  % ./rund -cp foo.jar Foo
192  Hello, world
193</pre>
194
195As above, you can get some info about valid arguments like this:
196
197<pre>
198  % ./rund -help
199</pre>
200
201</p></p>
202This also shows what options the VM was configured with.  The sim "debug"
203build has all sorts of additional assertions and checks enabled,
204which slows the VM down, but since this is just for experiments it
205doesn't matter.
206
207</p></p>
208All of the above applies to x86 Linux.  Anything else will likely
209require a porting effort.  If libffi supports your system, the amount of
210work required should be minor.
211
212</p></p>
213<address>Copyright &copy; 2009 The Android Open Source Project</address>
214
215</body>
216</html>
217