package org.openslx.util.vm;
import java.io.File;
import java.io.IOException;
import java.io.StringReader;
import java.io.StringWriter;
import java.util.ArrayList;
import javax.xml.parsers.DocumentBuilder;
import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.parsers.ParserConfigurationException;
import javax.xml.transform.OutputKeys;
import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.stream.StreamResult;
import javax.xml.xpath.XPath;
import javax.xml.xpath.XPathConstants;
import javax.xml.xpath.XPathExpression;
import javax.xml.xpath.XPathExpressionException;
import javax.xml.xpath.XPathFactory;
import org.apache.log4j.Logger;
import org.openslx.util.vm.VmMetaData.DriveBusType;
import org.openslx.util.vm.VmMetaData.HardDisk;
import org.w3c.dom.DOMException;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;
/**
* Class representing a .vbox machine description file
*/
public class VboxConfig
{
private static final Logger LOGGER = Logger.getLogger( VboxConfig.class );
XPath xPath = XPathFactory.newInstance().newXPath();
private Document doc = null;
private String displayNameExpression = "/VirtualBox/Machine/@name";
private String displayName = new String();
private String osTypeExpression = "/VirtualBox/Machine/@OSType";
private String osName = new String();
private String hddsExpression = "/VirtualBox/Machine/MediaRegistry/HardDisks/*";
private ArrayList<HardDisk> hddsArray = new ArrayList<HardDisk>();
// list of nodes to automatically remove when reading the vbox file
private static String[] blackList = { "SharedFolders", "HID", "USB", "ExtraData", "Adapter", "GuestProperties", "LPT", "StorageController", "FloppyImages", "DVDImages",
"AttachedDevice", "RemoteDisplay", "VideoCapture" };
public static enum PlaceHolder
{
FLOPPYUUID( "%OpenSLX_FloppyUUID%" ), FLOPPYLOCATION( "%OpenSLX_Floppy_Location%" ), CPU( "%OpenSLX_CPU%" ), MEMORY( "%OpenSLX_MEMORY%" ), MACHINEUUID(
"%OpenSLX_MUUID%" ), NETWORKMAC( "%OpenSLX_Networkcard_MACAddress%" ), HDDLOCATION( "%OpenSLX_HDD_Location%" ), HDDUUID( "%OpenSLX_HDDUUID_" );
private final String holderName;
private PlaceHolder( String name )
{
this.holderName = name;
}
public String holderName()
{
return holderName;
}
}
/**
* constructor with input xml file
* used to set the doc variable of this class when creating vm
*
* @param file as File - the input xml File
* @throws IOException
* @throws UnsupportedVirtualizerFormatException
*/
public VboxConfig( File file ) throws IOException, UnsupportedVirtualizerFormatException
{
try {
DocumentBuilderFactory dbFactory = DocumentBuilderFactory.newInstance();
DocumentBuilder dBuilder = dbFactory.newDocumentBuilder();
doc = dBuilder.parse( file );
// TODO - does this test suffice??
if ( !doc.getDocumentElement().getNodeName().equals( "VirtualBox" ) ) {
throw new UnsupportedVirtualizerFormatException( "No <VirtualBox> root node." );
}
} catch ( ParserConfigurationException | SAXException | IOException e ) {
LOGGER.warn( "Could not parse .Vbox", e );
throw new UnsupportedVirtualizerFormatException( "Could not create VBoxConfig!" );
}
}
/**
* constructor with input string from server
* used to set the doc variable of this class when rebuilding the doc
*
* @param filtered as String - sent from server
* @param length
* @throws IOException
*/
public VboxConfig( byte[] filtered, int length ) throws IOException
{
try {
String filteredString = new String( filtered );
DocumentBuilderFactory dbFactory = DocumentBuilderFactory.newInstance();
// TODO following two settings should handle the formatting of the xml
// but did not work correctly according to Victor... to test.
//dbFactory.setValidating( true );
//dbFactory.setIgnoringElementContentWhitespace( true );
DocumentBuilder dBuilder = dbFactory.newDocumentBuilder();
InputSource is = new InputSource( new StringReader( filteredString ) );
doc = dBuilder.parse( is );
} catch ( ParserConfigurationException | SAXException e ) {
LOGGER.warn( "Could not recreate the dom", e );
}
}
/**
* getter for the xmldoc
*
* @return definition document
*/
public Document getConfigDoc()
{
return doc;
}
/**
* initialization function
* reads the doc, sets Machine name, os type, sets the hdds, adds placeholders, removes unwanted/
* unneeded nodes
*/
public void init()
{
if ( doc.getChildNodes().item( 0 ).getNodeType() == 8 ) {
doc.removeChild( doc.getChildNodes().item( 0 ) );
}
try {
setMachineName();
ensureHardwareUuid();
setOsType();
if ( checkForPlaceholders() ) {
return;
}
setHdds();
removeBlackListedTags();
addPlaceHolders();
} catch ( XPathExpressionException e ) {
LOGGER.debug( "Could not initialize VBoxConfig", e );
return;
}
}
private void ensureHardwareUuid() throws XPathExpressionException
{
NodeList hwNodes = findNodes( "Hardware" );
int count = hwNodes.getLength();
// we will need the machine uuid, so get it
String machineUuid = xPath.compile( "/VirtualBox/Machine/@uuid" ).evaluate( this.doc );
if ( machineUuid.isEmpty() ) {
LOGGER.error( "Machine UUID empty, should never happen!" );
return;
}
// now check if we had a <Hardware/> node, which we always should
if ( count == 1 ) {
Element hw = (Element)hwNodes.item( 0 );
String hwUuid = hw.getAttribute( "uuid" );
if ( !hwUuid.isEmpty() ) {
LOGGER.info( "Found hardware uuid: " + hwUuid );
return;
} else {
if ( !addAttributeToNode( hw, "uuid", machineUuid ) ) {
LOGGER.error( "Failed to set machine UUID '" + machineUuid + "' as hardware UUID." );
return;
}
LOGGER.info( "Saved machine UUID as hardware UUID." );
}
} else {
// zero or more than 1 <Hardware/> were found, fatal either way
// HACK: hijack XPathExpressionException ...
throw new XPathExpressionException( "Zero or more than one <Hardware> node found, should never happen!" );
}
}
/**
* Function checks if the placeholders are present
*
* @return true if the placeholders are present, false otherwise
*/
private boolean checkForPlaceholders()
{
NodeList hdds = findNodes( "HardDisk" );
for ( int i = 0; i < hdds.getLength(); i++ ) {
Element hdd = (Element)hdds.item( i );
if ( hdd == null )
continue;
if ( hdd.getAttribute( "location" ).equals( PlaceHolder.HDDLOCATION.holderName() ) ) {
return true;
}
}
return false;
}
/**
* Function finds and saves the name of the machine
*
* @throws XPathExpressionException
*/
public void setMachineName() throws XPathExpressionException
{
String name = xPath.compile( displayNameExpression ).evaluate( this.doc );
if ( name != null && !name.isEmpty() ) {
displayName = name;
}
}
/**
* Function finds and saves the name of the os
*
* @throws XPathExpressionException
*/
public void setOsType() throws XPathExpressionException
{
String os = xPath.compile( osTypeExpression ).evaluate( this.doc );
if ( os != null && !os.isEmpty() ) {
osName = os;
}
}
public void setHdds() throws XPathExpressionException
{
XPathExpression hddsExpr = xPath.compile( hddsExpression );
Object result = hddsExpr.evaluate( this.doc, XPathConstants.NODESET );
// take all the hdd nodes
NodeList nodes = (NodeList)result;
// foreach hdd in the hddnodes do:
for ( int i = 0; i < nodes.getLength(); i++ ) {
// have the node
// take the uuid
// look under <AttachedDevice if found and do stuff with it
Element hddElement = (Element)nodes.item( i );
if ( hddElement == null )
continue;
// read the filePath
String fileName = hddElement.getAttribute( "location" );
// take the uuid
String uuid = hddElement.getAttribute( "uuid" );
// search in the xml object and give back the parent of the parent of the node that is called Image and has the given uuid
String type = hddElement.getAttribute( "type" );
if ( !type.equals( "Normal" ) && !type.equals( "Writethrough" ) ) {
LOGGER.warn( "Type of the disk file is neither 'Normal' nor 'Writethrough' but: " + type );
LOGGER.warn( "This makes the image not directly modificable, which might lead to problems when editing it locally." );
}
String pathToParent = givePathToStorageController( uuid );
XPathExpression attachedDevicesExpr = xPath.compile( pathToParent );
Object devicesResult = attachedDevicesExpr.evaluate( this.doc, XPathConstants.NODESET );
NodeList devicesNodes = (NodeList)devicesResult;
// TODO -- ehm...should only have 1 element...what do when there are more?
if ( devicesNodes.getLength() > 1 ) {
LOGGER.error( "There can not be more HDDs with the same UUID!" );
return;
}
if ( devicesNodes.getLength() == 0 ) {
LOGGER.error( "Image with UUID '" + uuid + "' does not seem connected to any storage controller. Is it a snapshot?" );
return;
}
Element deviceElement = (Element)devicesNodes.item( 0 );
String controllerDevice = deviceElement.getAttribute( "type" );
String bus = deviceElement.getAttribute( "name" );
DriveBusType busType = null;
if ( bus.equals( "IDE" ) ) {
busType = DriveBusType.IDE;
} else if ( bus.equals( "SCSI" ) ) {
busType = DriveBusType.SCSI;
} else if ( bus.equals( "SATA" ) ) {
busType = DriveBusType.SATA;
}
// add them together
hddsArray.add( new HardDisk( controllerDevice, busType, fileName ) );
}
}
public void addPlaceHolders()
{
// placeholder for the MACAddress
changeAttribute( "Adapter", "MACAddress", PlaceHolder.NETWORKMAC.holderName() );
// placeholder for the machine uuid
changeAttribute( "Machine", "uuid", PlaceHolder.MACHINEUUID.holderName() );
// placeholder for the location of the virtual hdd
changeAttribute( "HardDisk", "location", PlaceHolder.HDDLOCATION.holderName() );
// placeholder for the memory
changeAttribute( "Memory", "RAMSize", PlaceHolder.MEMORY.holderName() );
// placeholder for the CPU
changeAttribute( "CPU", "count", PlaceHolder.CPU.holderName() );
// add placeholder for the uuid of the virtual harddrive.
// must be added on 2 positions...in the HardDisk tag and the attachedDevice tag
// first find the uuid
NodeList hdds = findNodes( "HardDisk" );
for ( int i = 0; i < hdds.getLength(); i++ ) {
Element hdd = (Element)findNodes( "HardDisk" ).item( i );
if ( hdd == null )
continue;
String uuid = hdd.getAttribute( "uuid" );
hdd.setAttribute( "uuid", PlaceHolder.HDDUUID.holderName() + i + "%" );
NodeList images = findNodes( "Image" );
Element image;
for ( int j = 0; j < images.getLength(); j++ ) {
if ( ( (Element)images.item( j ) ).getAttribute( "uuid" ).equals( uuid ) ) {
image = (Element)images.item( j );
image.setAttribute( "uuid", PlaceHolder.HDDUUID.holderName() + i + "%" );
break;
}
}
}
}
/**
* Function used to find nodes in the document
* Function returnes a NodeList of Nodes...not just a Node...even when the wanted Node is a
* single
* Node, you get a NodeList with just one element
*
* @param targetTag as String
* @return nodes as NodeList
*/
public NodeList findNodes( String targetTag )
{
String path = ".//" + targetTag;
XPathExpression expr;
NodeList nodes = null;
try {
expr = xPath.compile( path );
Object nodesObject = expr.evaluate( this.doc, XPathConstants.NODESET );
nodes = (NodeList)nodesObject;
} catch ( XPathExpressionException e ) {
LOGGER.error( "Could not build path", e );
}
return nodes;
}
/**
* Function uses the findNodes function to narrow down the wanted node using 1 attribute and
* its value
*
* @param targetTag
* @param targetAttr0
* @param value0
* @return
*/
public Node findNode( String targetTag, String targetAttr0, String value0 )
{
Node returnNode = null;
NodeList foundNodes = findNodes( targetTag );
for ( int i = 0; i < foundNodes.getLength(); i++ ) {
Element node = (Element)foundNodes.item( i );
if ( node != null && node.hasAttribute( targetAttr0 ) && node.getAttribute( targetAttr0 ).equals( value0 ) ) {
returnNode = foundNodes.item( i );
}
}
return returnNode;
}
/**
* Function used to change the value of an attribute
* Use this function if you know the targetNode is unique
*
* @param targetTag
* @param attribute
* @param newValue
*/
public void changeAttribute( String targetTag, String attribute, String newValue )
{
changeAttribute( targetTag, attribute, newValue, null, null );
}
/**
* Function used to change the value of an attribute
* Use this function if you are not sure if the targetNode is unique
* Use refAttr and refVal to address the right node
*
* @param targetTag
* @param targetAttr
* @param newValue
* @param refAttr
* @param refVal
*/
public void changeAttribute( String targetTag, String targetAttr, String newValue, String refAttr, String refVal )
{
NodeList nodes = findNodes( targetTag );
for ( int i = 0; i < nodes.getLength(); i++ ) {
Element element = (Element)nodes.item( i );
if ( element == null )
return;
if ( refAttr != null && refVal != null ) {
if ( element.getAttribute( refAttr ).equals( refVal ) ) {
element.setAttribute( targetAttr, newValue );
break;
}
} else {
if ( nodes.getLength() > 1 ) {
LOGGER.error( "Action would change values of more than one node; stopped!" );
return;
}
element.setAttribute( targetAttr, newValue );
}
}
}
public boolean addAttributeToNode( Node targetNode, String attrName, String value )
{
if ( targetNode == null ) {
LOGGER.warn( "Node is null; stopped!" );
return false;
}
try {
( (Element)targetNode ).setAttribute( attrName, value );
} catch ( DOMException e ) {
LOGGER.error( "Failed set '" + attrName + "' to '" + value + "' of xml node '" + targetNode.getNodeName() + "': ", e );
return false;
}
return true;
}
public Node addNewNode( String nameOfParent, String nameOfnewNode, boolean oneLiner )
{
return addNewNode( nameOfParent, nameOfnewNode, oneLiner, null, null );
}
public Node addNewNode( String nameOfParent, String nameOfnewNode, boolean oneLiner, String refAttr, String refVal )
{
Node parent = null;
NodeList posibleParents = findNodes( nameOfParent );
Element newNode;
try {
if ( posibleParents.getLength() > 1 ) {
// if we have more then 1 parent we need to have an sanityArg s.t. we insert our new attribute in the right tag
if ( refAttr == null ) {
LOGGER.warn( "Action would change values of more than one node; stopped!" );
return null;
}
for ( int i = 1; i < posibleParents.getLength(); i++ ) {
if ( ( (Element)posibleParents.item( i ) ).getAttribute( refAttr ).equals( refVal ) ) {
parent = posibleParents.item( i );
break;
}
}
} else {
parent = posibleParents.item( 0 );
}
if ( parent == null ) {
LOGGER.warn( "Node: '" + nameOfParent + "' could not be found" );
return null;
}
newNode = doc.createElement( nameOfnewNode );
if ( !oneLiner ) {
org.w3c.dom.Text a = doc.createTextNode( "\n" );
newNode.appendChild( a );
}
parent.appendChild( newNode );
} catch ( DOMException e ) {
LOGGER.error( "Something went wrong: ", e );
return null;
}
return newNode;
}
/**
* USB will be enabled
*/
public void enableUsb()
{
addNewNode( "Hardware", "USB", false );
addNewNode( "USB", "Controllers", false );
// OHCI for USB 1.0
Node controller1 = addNewNode( "Controllers", "Controller", true );
addAttributeToNode( controller1, "name", "OHCI" );
addAttributeToNode( controller1, "type", "OHCI" );
// EHCI for USB 2.0
Node controller2 = addNewNode( "Controllers", "Controller", true );
addAttributeToNode( controller2, "name", "EHCI" );
addAttributeToNode( controller2, "type", "EHCI" );
}
/**
* Disable usb by removing the USB tag
*/
public void disableUsb()
{
NodeList usbList = findNodes( "USB" );
removeNode( usbList.item( 0 ) );
}
// function removes a given child and the format childNode
private void removeNode( Node node )
{
if ( node == null ) {
LOGGER.warn( "node is null; unsafe" );
return;
}
Node parent = node.getParentNode();
// this node here is usually a type3 Node used only for the formating of the vbox file
Node previousSibling = node.getPreviousSibling();
parent.removeChild( node );
// HACK remove empty lines
// format children (\n or \t) have type 3
if ( previousSibling.getNodeType() == 3 ) {
// the value of these Nodes are characters
String tmp = previousSibling.getNodeValue();
boolean shouldDelete = true;
for ( int i = 0; i < tmp.length(); i++ ) {
if ( !Character.isWhitespace( tmp.charAt( i ) ) ) {
shouldDelete = false;
break;
}
}
if ( shouldDelete )
parent.removeChild( previousSibling );
}
}
// cleanup part here
private void removeBlackListedTags() throws XPathExpressionException
{
// iterate over the blackList
for ( String blackedTag : blackList ) {
String blackedExpression = ".//" + blackedTag;
XPathExpression blackedExpr = xPath.compile( blackedExpression );
NodeList blackedNodes = (NodeList)blackedExpr.evaluate( this.doc, XPathConstants.NODESET );
for ( int i = 0; i < blackedNodes.getLength(); i++ ) {
// get the child node
Element child = (Element)blackedNodes.item( i );
// remove child
if ( child.getTagName().equals( "Adapter" ) && child.getAttribute( "enabled" ).equals( "true" ) ) {
// we need to remove the children of the active network adapter
// these are the mode of network connection and disabled modes...they go together -> see wiki
Node firstChild = child.getChildNodes().item( 0 );
Node secondChild = child.getChildNodes().item( 1 );
if ( firstChild != null && secondChild != null ) {
if ( firstChild.getNodeName().equals( "#text" ) && !secondChild.getNodeName().equals( "#text" ) ) {
removeNode( child.getChildNodes().item( 1 ) );
}
}
LOGGER.warn( "possible problem while removing formating node" );
continue;
}
if ( ( child.getTagName().equals( "StorageController" ) && !child.getAttribute( "name" ).equals( "Floppy" ) )
|| ( child.getTagName().equals( "AttachedDevice" ) && child.getAttribute( "type" ).equals( "HardDisk" ) ) ) {
continue;
}
// the structure of the xml Document is achieved through children nodes that are made up of just /n and spaces
// when a child node is deleted we get an empty line there the old child node used to be
removeNode( child );
}
}
}
private String givePathToStorageController( String uuid )
{
// StorageController is the parent of the parent of node with given uuid
return "//Image[contains(@uuid, \'" + uuid + "\')]/../..";
}
public String getDisplayName()
{
return displayName;
}
public String getOsName()
{
return osName;
}
public ArrayList<HardDisk> getHdds()
{
return hddsArray;
}
public String toString()
{
try {
StringWriter sw = new StringWriter();
TransformerFactory tf = TransformerFactory.newInstance();
Transformer transformer = tf.newTransformer();
transformer.setOutputProperty( OutputKeys.OMIT_XML_DECLARATION, "no" );
transformer.setOutputProperty( OutputKeys.METHOD, "xml" );
transformer.setOutputProperty( OutputKeys.INDENT, "yes" );
transformer.setOutputProperty( OutputKeys.ENCODING, "UTF-8" );
transformer.transform( new DOMSource( doc ), new StreamResult( sw ) );
return sw.toString();
} catch ( Exception ex ) {
throw new RuntimeException( "Error converting to String", ex );
}
}
}