docs/html/guide/developing/tools/ddms.jd - platform/frameworks/base - Git at Google

 page.title=Using Dalvik Debug Monitor Service (DDMS)
 @jd:body

 <p>Android ships with a debugging tool called the Dalvik Debug Monitor Service (DDMS),
     which provides port-forwarding services, screen capture on the device, thread
     and heap information on the device, logcat, process, and radio state information,
     incoming call and SMS spoofing, location data spoofing, and more. This page
     provides a modest discussion of DDMS features; it is not an exhaustive exploration of
     all the features and capabilities.</p>

 <p>DDMS ships in the <code>tools/</code> directory of the SDK.
     Enter this directory from a terminal/console and type <code>ddms</code> (or <code>./ddms</code>
     on Mac/Linux) to run it. DDMS will work with both the emulator and a connected device. If both are
     connected and running simultaneously, DDMS defaults to the emulator.</p>

 <h2 id="how-ddms-works">How DDMS works</h2>
 <p>DDMS acts as a middleman to connect the IDE to the applications running on
 the device. On Android, every application runs in its own process,
 each of which hosts its own virtual machine (VM). And each process
 listens for a debugger on a different port.</p>

 <p>When it starts, DDMS connects to <a href="{@docRoot}guide/developing/tools/adb.html">adb</a> and
 starts a device monitoring service between the two, which will notify DDMS when a device is
 connected or disconnected. When a device is connected, a VM monitoring service is created
 between adb and DDMS, which will notify DDMS when a VM on the device is started
 or terminated. Once a VM is running, DDMS retrieves the the VM's process ID (pid), via adb,
 and opens a connection to the VM's debugger, through the adb daemon (adbd) on the device.
 DDMS can now talk to the VM using a custom wire protocol.</p>

 <p>For each VM on the device, DDMS opens a port upon which it will listen for a debugger. For the first VM, DDMS listens for a debugger on port 8600, the next on 8601, and so on. When a debugger connects to one of these ports, all traffic is forwarded between the debugger and the associated VM. Debugging can then process like any remote debugging session.</p>

 <p>DDMS also opens another local port, the DDMS "base port" (8700, by default), upon which it also listens for a debugger. When a debugger connects to this base port, all traffic is forwarded to the VM currently selected in DDMS, so this is typically where you debugger should connect.</p>

 <p>For more information on port-forwarding with DDMS,
 read <a href="{@docRoot}guide/developing/debug-tasks.html#ide-debug-port">Configuring your IDE to attach
 to port 8700 for debugging</a>.</p>

 <p class="note"><strong>Tip:</strong>
 You can set a number of DDMS preferences in <strong>File</strong> > <strong>Preferences</strong>.
 Preferences are saved to &quot;$HOME/.ddmsrc&quot;. </p>

 <p class="warning"><strong>Known debugging issues with Dalvik</strong><br/>
 Debugging an application in the Dalvik VM should work the same as it does
 in other VMs. However, when single-stepping out of synchronized code, the "current line"
 cursor may jump to the last line in the method for one step.</p>


 <h2 id="left-pane">Left Pane</h2>
 <p>The left side of the Debug Monitor shows each emulator/device currently found, with a list of
     all the VMs currently running within each.
     VMs are identified by the package name of the application it hosts.</p>
 <p>Use this list to find and attach to the VM
     running the activity(ies) that you want to debug. Next to each VM in the
     list is a &quot;debugger pass-through&quot; port (in the right-most column).
     If you connect your debugger to one of the the ports listed, you
     will be connected to the corresponding VM on the device. However, when using
     DDMS, you need only connect to port 8700, as DDMS forwards all traffic here to the
     currently selected VM. (Notice, as you select a VM in the list, the listed port includes 8700.)
     This way, there's no need to reconfigure the debugger's port each time you switch between VMs.</p>
 <p>When an application running on the device calls {@link android.os.Debug#waitForDebugger()}
     (or you select this option in the <a href="{@docRoot}guide/developing/debug-tasks.html#additionaldebugging">developer
     options</a>), a red icon will be shown next to the client name, while it waits for the
     debugger to attach to the VM. When a debugger is connected, the icon will turn green. </p>
 <p>If you see a crossed-out bug icon, this means that the DDMS was unable to complete a
 connection between the debugger and the VM because it was unable to open the VM's local port.
 If you see this for all VMs on the device, it is likely because you have another instance of
 DDMS running (this includes the Eclipse plugin).</p>
 <p>If you see a question mark in place of an application package, this means that,
 once DDMS received the application pid from adb, it
 somehow failed to make a successful handshake with the VM process. Try restarting DDMS.</p>


 <h2 id="right-pane">Right pane</h2>
 <p>On the right side, the Debug Monitor provides tabs that display useful information
 and some pretty cool tools.</p>

 <h3 id="info">Info</h3>
 <p>This view shows some general information about the selected VM, including the process
     ID, package name, and VM version.</p>

 <h3 id="threads">Threads</h3>
 <p> The threads view has a list of threads running in the process of the target VM.
      To reduce the amount
     of data sent over the wire, the thread updates are only sent when explicitly
     enabled by toggling the &quot;threads&quot; button
     in the toolbar. This toggle is maintained per VM. This tab includes the following
     information: </p>
 <ul>
     <li> <strong>ID</strong> - a VM-assigned unique thread ID. In Dalvik, these are
         odd numbers starting from 3. </li>
     <li> <strong>Tid</strong> - the Linux thread ID. For the main thread in a process,
         this will match the process ID. </li>
     <li> <strong>Status</strong> - the VM thread status. Daemon threads are
         shown with an asterisk (*). This will be one of the following:
         <ul>
                 <li> <em>running</em> - executing application code </li>
             <li> <em>sleeping</em> - called Thread.sleep() </li>
             <li> <em>monitor</em> - waiting to acquire a monitor lock </li>
             <li> <em>wait</em> - in Object.wait() </li>
             <li> <em>native</em> - executing native code </li>
             <li> <em>vmwait</em> - waiting on a VM resource </li>
             <li> <em>zombie</em> - thread is in the process of dying </li>
             <li> <em>init</em> - thread is initializing (you shouldn't see this) </li>
             <li> <em>starting</em> - thread is about to start (you shouldn't see
                 this either) </li>
         </ul>
     </li>
     <li> <strong>utime</strong> - cumulative time spent executing user code, in &quot;jiffies&quot; (usually
         10ms). Only available under Linux. </li>
     <li> <strong>stime</strong> - cumulative time spent executing system code, in &quot;jiffies&quot;  (usually
         10ms). </li>
     <li> <strong>Name</strong> - the name of the thread</li>
 </ul>
 <p> &quot;ID&quot; and &quot;Name&quot; are set when the thread is started. The remaining
     fields are updated periodically (default is every 4 seconds). </p>

 <h3 id="vm-heap">VM Heap</h3>
 <p> Displays some heap stats, updated during garbage collection. If, when a VM is selected,
 the VM Heap view says that heap updates are not enabled, click the "Show heap updates" button,
 located in the top-left toolbar. Back in the VM Heap view, click <strong>Cause GC</strong>
 to perform garbage collection and update the heap stats.</p>


 <h3 id="allocation-tracker">Allocation Tracker</h3>
 <p>In this view, you can track the memory allocation of each virtual machine.
 With a VM selected in the left pane, click <strong>Start Tracking</strong>, then
 <strong>Get Allocations</strong> to view all allocations since tracking started.
 The table below will be filled with all the relevant
 data. Click it again to refresh the list.</p>


 <h3 id="emulator-control">Emulator Control</h3>
 <p>With these controls, you can simulate special device states and activities.
 Features include:</p>
 <ul>
 <li><strong>Telephony Status</strong> - change the state of the phone's Voice and Data plans
     (home, roaming, searching, etc.), and simulate different kinds of network Speed and Latency
     (GPRS, EDGE, UTMS, etc.).</li>
 <li><strong>Telephony Actions</strong> - perform simulated phone calls and SMS messages to the emulator.</li>
 <li><strong>Location Controls</strong> - send mock location data to the emulator so that you can perform
   location-aware operations like GPS mapping.

 <p>To use the Location Controls, launch your application in the Android emulator and open DDMS.
 Click the Emulator Controls tab and scroll down to Location Controls.
 From here, you can:</p>
 <ul class="listhead">
     <li>Manually send individual longitude/latitude coordinates to the device.
 	<p>Click <strong>Manual</strong>,
 	select the coordinate format, fill in the fields and click <strong>Send</strong>.
 	</p>
     </li>
     <li>Use a GPX file describing a route for playback to the device.
 	<p>Click <strong>GPX</strong> and load the file. Once loaded,
 	click the play button to playback the route for your location-aware application.</p>
 	<p>When performing playback from GPX, you can adjust the speed of
 	playback from the DDMS panel and control playback with the pause and skip buttons.
 	DDMS will parse both the waypoints (<code>&lt;wpt></code>, in the first table),
         and the tracks (<code>&lt;trk></code>,
 	in the second table, with support for multiple segments, <code>&lt;trkseg></code>,
         although they are simply
 	concatenated). Only the tracks can be played. Clicking a waypoint in the first list simply
 	sends its coordinate to the device, while selecting a track lets you play it.</p>
     </li>
     <li>Use a KML file describing individual placemarks for sequenced playback to the device.
 	<p>Click <strong>KML</strong> and load the file. Once loaded,
 	click the play button to send the coordinates to your location-aware application.</p>
 	<p>When using a KML file, it is parsed for a <code>&lt;coordinates&gt;</code>
     	element. The value of which should be a single
     	set of longitude, latitude and altitude figures. For example:</p>
 	<pre>&lt;coordinates>-122.084143,37.421972,4&lt;/coordinates></pre>
 	<p>In your file, you may include multiple <code>&lt;Placemark></code> elements, each containing
 	a <code>&lt;coordinates></code> element. When you do so, the collection of placemarks will
 	be added as tracks. DDMS will send one placemark per second to the device.</p>
 	<p>One way to generate a suitable KML file is to find a location in Google Earth.
 	Right-click the location entry that appears on the left and select "Save place as..."
 	with the save format set to Kml.</p>
 <p class="note"><strong>Note:</strong> DDMS does not support routes created with the
 <code>&lt;MultiGeometry>&lt;LineString>lat1, long1, lat2, long2, ....&lt;/LineString>&lt;/MultiGeometry></code> methods.
 	There is also currently no support for the <code>&lt;TimeStamp></code> node inside
 	the <code>&lt;Placemark></code>.
 	Future releases may support timed placement and routes within a single coordinate element.</p>
     </li>
   </ul>
   <p>For <em>additional</em> methods of setting up mocks of location-based data, see the
   <a href="{@docRoot}guide/topics/location/index.html">Location</a> topic.</p>
   </li>
 </ul>


 <!-- <h4>Event Log</h4> -->


 <h2 id="file-explorer">File Explorer</h2>
 <p>With the File Explorer, you can view the device file system and perform basic management,
 like pushing and pulling files. This circumvents using the <a href="{@docRoot}guide/developing/tools/adb.html">adb</a>
 <code>push</code> and <code>pull</code> commands, with a GUI experience.</p>
 <p>With DDMS open, select <strong>Device</strong> > <strong>File Explorer...</strong> to open the
 File Explorer window. You can drag-and-drop into the device directories, but cannot drag <em>out</em> of them.
 To copy files from the device, select the file and click the <strong>Pull File from Device</strong>
 button in the toolbar. To delete files, use the <strong>Delete</strong> button in the toolbar.</p>
 <p>If you're interested in using an SD card image on the emulator, you're still required to use
 the <code>mksdcard</code> command to create an image, and then mount it during emulator bootup.
 For example, from the <code>/tools</code> directory, execute:</p>
 <pre>
 <b>$</b> mksdcard 1024M ./img
 <b>$</b> emulator -sdcard ./img
 </pre>
 <p>Now, when the emulator is running, the DDMS File Explorer will be able to read and write to the
 sdcard directory. However, your files may not appear automatically. For example, if you add an
 MP3 file to the sdcard, the media player won't see them until you restart the emulator. (When restarting
 the emulator from command line, be sure to mount the sdcard again.)</p>
 <p>For more information on creating an SD card image, see the
 <a href="{@docRoot}guide/developing/tools/othertools.html#mksdcard">Other Tools</a> document.</p>

 <h2 id="screen-capture">Screen Capture</h2>
 <p>You can capture screen images on the device or emulator by selecting <strong>Device</strong>
     &gt; <strong>Screen capture...</strong> in the menu bar, or press CTRL-S.</p>

 <h2 id="exploring-processes">Exploring Processes</h2>
 <p>You can see the output of <code>ps -x</code> for a specific VM by selecting <strong>Device</strong>
     &gt; <strong>Show process status</strong>... in the menu bar.</p>

 <h2 id="cause-a-gc-to-occur">Cause a GC to Occur</h2>
 <p>Cause garbage collection to occury by pressing the trash can button on the toolbar. </p>

 <h2 id="running-dumpsys-and-dumpstate">Running Dumpsys and Dumpstate on the Device (logcat)<a name="logcat" id="logcat"></a> </h2>
 <ul>
         <li>To run <strong>dumpsys</strong> (logcat) from Dalvik, select <strong>Device</strong> &gt;
             <strong>Run logcat...</strong> in the menu bar.</li>
     <li>To run <strong>dumpstate</strong> from Dalvik, select <strong>Device</strong> &gt; <strong>Dump device
         state...</strong> in the menu bar. </li>
 </ul>

 <h2 id="examine-radio-state">Examine Radio State</h2>
 <p>By default, radio state is not output during a standard logcat (it is a lot of
     information). To see radio information, either click <strong>Device</strong> &gt; <strong>Dump radio
     state...</strong> or run logcat as described in <a href="{@docRoot}guide/developing/debug-tasks.html#logradio">Logging
     Radio Information</a>. </p>

 <h2 id="stop-a-vitrual-machine">Stop a Virtual Machine </h2>
 <p>You can stop a virtual machine by selecting <strong>Actions</strong> &gt; <strong>Halt
 VM</strong>. Pressing this  button causes the VM to call <code>System.exit(1)</code>.</p>

 <h2 id="known-issues" style="color:#FF0000">Known issues with DDMS </h2>
 <p>DDMS has the following known limitations:</p>
 <ul>
     <li>If you connect and disconnect a debugger, ddms drops and reconnects the
         client so the VM realizes that the debugger has gone away. This will be fixed
         eventually. </li>
 </ul>
	page.title=Using Dalvik Debug Monitor Service (DDMS)
	@jd:body

	<p>Android ships with a debugging tool called the Dalvik Debug Monitor Service (DDMS),
	which provides port-forwarding services, screen capture on the device, thread
	and heap information on the device, logcat, process, and radio state information,
	incoming call and SMS spoofing, location data spoofing, and more. This page
	provides a modest discussion of DDMS features; it is not an exhaustive exploration of
	all the features and capabilities.</p>

	<p>DDMS ships in the <code>tools/</code> directory of the SDK.
	Enter this directory from a terminal/console and type <code>ddms</code> (or <code>./ddms</code>
	on Mac/Linux) to run it. DDMS will work with both the emulator and a connected device. If both are
	connected and running simultaneously, DDMS defaults to the emulator.</p>

	<h2 id="how-ddms-works">How DDMS works</h2>
	<p>DDMS acts as a middleman to connect the IDE to the applications running on
	the device. On Android, every application runs in its own process,
	each of which hosts its own virtual machine (VM). And each process
	listens for a debugger on a different port.</p>

	<p>When it starts, DDMS connects to <a href="{@docRoot}guide/developing/tools/adb.html">adb</a> and
	starts a device monitoring service between the two, which will notify DDMS when a device is
	connected or disconnected. When a device is connected, a VM monitoring service is created
	between adb and DDMS, which will notify DDMS when a VM on the device is started
	or terminated. Once a VM is running, DDMS retrieves the the VM's process ID (pid), via adb,
	and opens a connection to the VM's debugger, through the adb daemon (adbd) on the device.
	DDMS can now talk to the VM using a custom wire protocol.</p>

	<p>For each VM on the device, DDMS opens a port upon which it will listen for a debugger. For the first VM, DDMS listens for a debugger on port 8600, the next on 8601, and so on. When a debugger connects to one of these ports, all traffic is forwarded between the debugger and the associated VM. Debugging can then process like any remote debugging session.</p>

	<p>DDMS also opens another local port, the DDMS "base port" (8700, by default), upon which it also listens for a debugger. When a debugger connects to this base port, all traffic is forwarded to the VM currently selected in DDMS, so this is typically where you debugger should connect.</p>

	<p>For more information on port-forwarding with DDMS,
	read <a href="{@docRoot}guide/developing/debug-tasks.html#ide-debug-port">Configuring your IDE to attach
	to port 8700 for debugging</a>.</p>

	<p class="note"><strong>Tip:</strong>
	You can set a number of DDMS preferences in <strong>File</strong> > <strong>Preferences</strong>.
	Preferences are saved to "$HOME/.ddmsrc". </p>

	<p class="warning"><strong>Known debugging issues with Dalvik</strong><br/>
	Debugging an application in the Dalvik VM should work the same as it does
	in other VMs. However, when single-stepping out of synchronized code, the "current line"
	cursor may jump to the last line in the method for one step.</p>


	<h2 id="left-pane">Left Pane</h2>
	<p>The left side of the Debug Monitor shows each emulator/device currently found, with a list of
	all the VMs currently running within each.
	VMs are identified by the package name of the application it hosts.</p>
	<p>Use this list to find and attach to the VM
	running the activity(ies) that you want to debug. Next to each VM in the
	list is a "debugger pass-through" port (in the right-most column).
	If you connect your debugger to one of the the ports listed, you
	will be connected to the corresponding VM on the device. However, when using
	DDMS, you need only connect to port 8700, as DDMS forwards all traffic here to the
	currently selected VM. (Notice, as you select a VM in the list, the listed port includes 8700.)
	This way, there's no need to reconfigure the debugger's port each time you switch between VMs.</p>
	<p>When an application running on the device calls {@link android.os.Debug#waitForDebugger()}
	(or you select this option in the <a href="{@docRoot}guide/developing/debug-tasks.html#additionaldebugging">developer
	options</a>), a red icon will be shown next to the client name, while it waits for the
	debugger to attach to the VM. When a debugger is connected, the icon will turn green. </p>
	<p>If you see a crossed-out bug icon, this means that the DDMS was unable to complete a
	connection between the debugger and the VM because it was unable to open the VM's local port.
	If you see this for all VMs on the device, it is likely because you have another instance of
	DDMS running (this includes the Eclipse plugin).</p>
	<p>If you see a question mark in place of an application package, this means that,
	once DDMS received the application pid from adb, it
	somehow failed to make a successful handshake with the VM process. Try restarting DDMS.</p>


	<h2 id="right-pane">Right pane</h2>
	<p>On the right side, the Debug Monitor provides tabs that display useful information
	and some pretty cool tools.</p>

	<h3 id="info">Info</h3>
	<p>This view shows some general information about the selected VM, including the process
	ID, package name, and VM version.</p>

	<h3 id="threads">Threads</h3>
	<p> The threads view has a list of threads running in the process of the target VM.
	To reduce the amount
	of data sent over the wire, the thread updates are only sent when explicitly
	enabled by toggling the "threads" button
	in the toolbar. This toggle is maintained per VM. This tab includes the following
	information: </p>
	<ul>
	<li> <strong>ID</strong> - a VM-assigned unique thread ID. In Dalvik, these are
	odd numbers starting from 3. </li>
	<li> <strong>Tid</strong> - the Linux thread ID. For the main thread in a process,
	this will match the process ID. </li>
	<li> <strong>Status</strong> - the VM thread status. Daemon threads are
	shown with an asterisk (*). This will be one of the following:
	<ul>
	<li> <em>running</em> - executing application code </li>
	<li> <em>sleeping</em> - called Thread.sleep() </li>
	<li> <em>monitor</em> - waiting to acquire a monitor lock </li>
	<li> <em>wait</em> - in Object.wait() </li>
	<li> <em>native</em> - executing native code </li>
	<li> <em>vmwait</em> - waiting on a VM resource </li>
	<li> <em>zombie</em> - thread is in the process of dying </li>
	<li> <em>init</em> - thread is initializing (you shouldn't see this) </li>
	<li> <em>starting</em> - thread is about to start (you shouldn't see
	this either) </li>
	</ul>
	</li>
	<li> <strong>utime</strong> - cumulative time spent executing user code, in "jiffies" (usually
	10ms). Only available under Linux. </li>
	<li> <strong>stime</strong> - cumulative time spent executing system code, in "jiffies" (usually
	10ms). </li>
	<li> <strong>Name</strong> - the name of the thread</li>
	</ul>
	<p> "ID" and "Name" are set when the thread is started. The remaining
	fields are updated periodically (default is every 4 seconds). </p>

	<h3 id="vm-heap">VM Heap</h3>
	<p> Displays some heap stats, updated during garbage collection. If, when a VM is selected,
	the VM Heap view says that heap updates are not enabled, click the "Show heap updates" button,
	located in the top-left toolbar. Back in the VM Heap view, click <strong>Cause GC</strong>
	to perform garbage collection and update the heap stats.</p>


	<h3 id="allocation-tracker">Allocation Tracker</h3>
	<p>In this view, you can track the memory allocation of each virtual machine.
	With a VM selected in the left pane, click <strong>Start Tracking</strong>, then
	<strong>Get Allocations</strong> to view all allocations since tracking started.
	The table below will be filled with all the relevant
	data. Click it again to refresh the list.</p>


	<h3 id="emulator-control">Emulator Control</h3>
	<p>With these controls, you can simulate special device states and activities.
	Features include:</p>
	<ul>
	<li><strong>Telephony Status</strong> - change the state of the phone's Voice and Data plans
	(home, roaming, searching, etc.), and simulate different kinds of network Speed and Latency
	(GPRS, EDGE, UTMS, etc.).</li>
	<li><strong>Telephony Actions</strong> - perform simulated phone calls and SMS messages to the emulator.</li>
	<li><strong>Location Controls</strong> - send mock location data to the emulator so that you can perform
	location-aware operations like GPS mapping.

	<p>To use the Location Controls, launch your application in the Android emulator and open DDMS.
	Click the Emulator Controls tab and scroll down to Location Controls.
	From here, you can:</p>
	<ul class="listhead">
	<li>Manually send individual longitude/latitude coordinates to the device.
	<p>Click <strong>Manual</strong>,
	select the coordinate format, fill in the fields and click <strong>Send</strong>.
	</p>
	</li>
	<li>Use a GPX file describing a route for playback to the device.
	<p>Click <strong>GPX</strong> and load the file. Once loaded,
	click the play button to playback the route for your location-aware application.</p>
	<p>When performing playback from GPX, you can adjust the speed of
	playback from the DDMS panel and control playback with the pause and skip buttons.
	DDMS will parse both the waypoints (<code><wpt></code>, in the first table),
	and the tracks (<code><trk></code>,
	in the second table, with support for multiple segments, <code><trkseg></code>,
	although they are simply
	concatenated). Only the tracks can be played. Clicking a waypoint in the first list simply
	sends its coordinate to the device, while selecting a track lets you play it.</p>
	</li>
	<li>Use a KML file describing individual placemarks for sequenced playback to the device.
	<p>Click <strong>KML</strong> and load the file. Once loaded,
	click the play button to send the coordinates to your location-aware application.</p>
	<p>When using a KML file, it is parsed for a <code><coordinates></code>
	element. The value of which should be a single
	set of longitude, latitude and altitude figures. For example:</p>
	<pre><coordinates>-122.084143,37.421972,4</coordinates></pre>
	<p>In your file, you may include multiple <code><Placemark></code> elements, each containing
	a <code><coordinates></code> element. When you do so, the collection of placemarks will
	be added as tracks. DDMS will send one placemark per second to the device.</p>
	<p>One way to generate a suitable KML file is to find a location in Google Earth.
	Right-click the location entry that appears on the left and select "Save place as..."
	with the save format set to Kml.</p>
	<p class="note"><strong>Note:</strong> DDMS does not support routes created with the
	<code><MultiGeometry><LineString>lat1, long1, lat2, long2, ....</LineString></MultiGeometry></code> methods.
	There is also currently no support for the <code><TimeStamp></code> node inside
	the <code><Placemark></code>.
	Future releases may support timed placement and routes within a single coordinate element.</p>
	</li>
	</ul>
	<p>For <em>additional</em> methods of setting up mocks of location-based data, see the
	<a href="{@docRoot}guide/topics/location/index.html">Location</a> topic.</p>
	</li>
	</ul>


	<!-- <h4>Event Log</h4> -->


	<h2 id="file-explorer">File Explorer</h2>
	<p>With the File Explorer, you can view the device file system and perform basic management,
	like pushing and pulling files. This circumvents using the <a href="{@docRoot}guide/developing/tools/adb.html">adb</a>
	<code>push</code> and <code>pull</code> commands, with a GUI experience.</p>
	<p>With DDMS open, select <strong>Device</strong> > <strong>File Explorer...</strong> to open the
	File Explorer window. You can drag-and-drop into the device directories, but cannot drag <em>out</em> of them.
	To copy files from the device, select the file and click the <strong>Pull File from Device</strong>
	button in the toolbar. To delete files, use the <strong>Delete</strong> button in the toolbar.</p>
	<p>If you're interested in using an SD card image on the emulator, you're still required to use
	the <code>mksdcard</code> command to create an image, and then mount it during emulator bootup.
	For example, from the <code>/tools</code> directory, execute:</p>
	<pre>
	<b>$</b> mksdcard 1024M ./img
	<b>$</b> emulator -sdcard ./img
	</pre>
	<p>Now, when the emulator is running, the DDMS File Explorer will be able to read and write to the
	sdcard directory. However, your files may not appear automatically. For example, if you add an
	MP3 file to the sdcard, the media player won't see them until you restart the emulator. (When restarting
	the emulator from command line, be sure to mount the sdcard again.)</p>
	<p>For more information on creating an SD card image, see the
	<a href="{@docRoot}guide/developing/tools/othertools.html#mksdcard">Other Tools</a> document.</p>

	<h2 id="screen-capture">Screen Capture</h2>
	<p>You can capture screen images on the device or emulator by selecting <strong>Device</strong>
	> <strong>Screen capture...</strong> in the menu bar, or press CTRL-S.</p>

	<h2 id="exploring-processes">Exploring Processes</h2>
	<p>You can see the output of <code>ps -x</code> for a specific VM by selecting <strong>Device</strong>
	> <strong>Show process status</strong>... in the menu bar.</p>

	<h2 id="cause-a-gc-to-occur">Cause a GC to Occur</h2>
	<p>Cause garbage collection to occury by pressing the trash can button on the toolbar. </p>

	<h2 id="running-dumpsys-and-dumpstate">Running Dumpsys and Dumpstate on the Device (logcat)<a name="logcat" id="logcat"></a> </h2>
	<ul>
	<li>To run <strong>dumpsys</strong> (logcat) from Dalvik, select <strong>Device</strong> >
	<strong>Run logcat...</strong> in the menu bar.</li>
	<li>To run <strong>dumpstate</strong> from Dalvik, select <strong>Device</strong> > <strong>Dump device
	state...</strong> in the menu bar. </li>
	</ul>

	<h2 id="examine-radio-state">Examine Radio State</h2>
	<p>By default, radio state is not output during a standard logcat (it is a lot of
	information). To see radio information, either click <strong>Device</strong> > <strong>Dump radio
	state...</strong> or run logcat as described in <a href="{@docRoot}guide/developing/debug-tasks.html#logradio">Logging
	Radio Information</a>. </p>

	<h2 id="stop-a-vitrual-machine">Stop a Virtual Machine </h2>
	<p>You can stop a virtual machine by selecting <strong>Actions</strong> > <strong>Halt
	VM</strong>. Pressing this button causes the VM to call <code>System.exit(1)</code>.</p>

	<h2 id="known-issues" style="color:#FF0000">Known issues with DDMS </h2>
	<p>DDMS has the following known limitations:</p>
	<ul>
	<li>If you connect and disconnect a debugger, ddms drops and reconnects the
	client so the VM realizes that the debugger has gone away. This will be fixed
	eventually. </li>
	</ul>