/*
* The MIT License
*
* Copyright (c) 2004-2010, Sun Microsystems, Inc., Kohsuke Kawaguchi,
* Seiji Sogabe, Stephen Connolly
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
package hudson.model;
import com.infradna.tool.bridge_method_injector.WithBridgeMethods;
import hudson.Extension;
import hudson.ExtensionPoint;
import hudson.FilePath;
import hudson.FileSystemProvisioner;
import hudson.Launcher;
import hudson.model.Descriptor.FormException;
import hudson.model.Queue.Task;
import hudson.model.labels.LabelAtom;
import hudson.model.queue.CauseOfBlockage;
import hudson.node_monitors.NodeMonitor;
import hudson.remoting.VirtualChannel;
import hudson.security.ACL;
import hudson.security.AccessControlled;
import hudson.security.Permission;
import hudson.slaves.ComputerListener;
import hudson.slaves.NodeDescriptor;
import hudson.slaves.NodeProperty;
import hudson.slaves.NodePropertyDescriptor;
import hudson.slaves.OfflineCause;
import hudson.util.ClockDifference;
import hudson.util.DescribableList;
import hudson.util.EnumConverter;
import hudson.util.TagCloud;
import hudson.util.TagCloud.WeightFunction;
import java.io.IOException;
import java.lang.reflect.Type;
import java.util.Collections;
import java.util.HashSet;
import java.util.Set;
import java.util.List;
import java.util.logging.Logger;
import jenkins.model.Jenkins;
import net.sf.json.JSONObject;
import org.kohsuke.stapler.BindInterceptor;
import org.kohsuke.stapler.Stapler;
import org.kohsuke.stapler.StaplerRequest;
import org.kohsuke.stapler.export.ExportedBean;
import org.kohsuke.stapler.export.Exported;
/**
* Base type of Hudson slaves (although in practice, you probably extend {@link Slave} to define a new slave type.)
*
* <p>
* As a special case, {@link Jenkins} extends from here.
*
* @author Kohsuke Kawaguchi
* @see NodeMonitor
* @see NodeDescriptor
*/
@ExportedBean
public abstract class Node extends AbstractModelObject implements ReconfigurableDescribable<Node>, ExtensionPoint, AccessControlled {
private static final Logger LOGGER = Logger.getLogger(Node.class.getName());
/**
* Newly copied slaves get this flag set, so that Hudson doesn't try to start this node until its configuration
* is saved once.
*/
protected volatile transient boolean holdOffLaunchUntilSave;
public String getDisplayName() {
return getNodeName(); // default implementation
}
public String getSearchUrl() {
return "computer/"+getNodeName();
}
public boolean isHoldOffLaunchUntilSave() {
return holdOffLaunchUntilSave;
}
/**
* Name of this node.
*
* @return
* "" if this is master
*/
@Exported(visibility=999)
public abstract String getNodeName();
/**
* When the user clones a {@link Node}, Hudson uses this method to change the node name right after
* the cloned {@link Node} object is instantiated.
*
* <p>
* This method is never used for any other purpose, and as such for all practical intents and purposes,
* the node name should be treated like immutable.
*
* @deprecated to indicate that this method isn't really meant to be called by random code.
*/
public abstract void setNodeName(String name);
/**
* Human-readable description of this node.
*/
@Exported
public abstract String getNodeDescription();
/**
* Returns a {@link Launcher} for executing programs on this node.
*
* <p>
* The callee must call {@link Launcher#decorateFor(Node)} before returning to complete the decoration.
*/
public abstract Launcher createLauncher(TaskListener listener);
/**
* Returns the number of {@link Executor}s.
*
* This may be different from <code>getExecutors().size()</code>
* because it takes time to adjust the number of executors.
*/
@Exported
public abstract int getNumExecutors();
/**
* Returns {@link Mode#EXCLUSIVE} if this node is only available
* for those jobs that exclusively specifies this node
* as the assigned node.
*/
@Exported
public abstract Mode getMode();
/**
* Gets the corresponding {@link Computer} object.
*
* @return
* this method can return null if there's no {@link Computer} object for this node,
* such as when this node has no executors at all.
*/
public final Computer toComputer() {
AbstractCIBase ciBase = Jenkins.getInstance();
return ciBase.getComputer(this);
}
/**
* Gets the current channel, if the node is connected and online, or null.
*
* This is just a convenience method for {@link Computer#getChannel()} with null check.
*/
public final VirtualChannel getChannel() {
Computer c = toComputer();
return c==null ? null : c.getChannel();
}
/**
* Creates a new {@link Computer} object that acts as the UI peer of this {@link Node}.
* Nobody but {@link Jenkins#updateComputerList()} should call this method.
*/
protected abstract Computer createComputer();
/**
* Let Nodes be aware of the lifecycle of their own {@link Computer}.
*/
@Extension
public static class InternalComputerListener extends ComputerListener {
@Override
public void onOnline(Computer c, TaskListener listener) {
Node node = c.getNode();
// At startup, we need to restore any previously in-effect temp offline cause.
// We wait until the computer is started rather than getting the data to it sooner
// so that the normal computer start up processing works as expected.
if (node.temporaryOfflineCause != null && node.temporaryOfflineCause != c.getOfflineCause()) {
c.setTemporarilyOffline(true, node.temporaryOfflineCause);
}
}
}
private OfflineCause temporaryOfflineCause;
/**
* Enable a {@link Computer} to inform its node when it is taken
* temporarily offline.
*/
void setTemporaryOfflineCause(OfflineCause cause) {
try {
if (temporaryOfflineCause != cause) {
temporaryOfflineCause = cause;
Jenkins.getInstance().save(); // Gotta be a better way to do this
}
} catch (java.io.IOException e) {
LOGGER.warning("Unable to complete save, temporary offline status will not be persisted: " + e.getMessage());
}
}
/**
* Return the possibly empty tag cloud for the labels of this node.
*/
public TagCloud<LabelAtom> getLabelCloud() {
return new TagCloud<LabelAtom>(getAssignedLabels(),new WeightFunction<LabelAtom>() {
public float weight(LabelAtom item) {
return item.getTiedJobs().size();
}
});
}
/**
* Returns the possibly empty set of labels that are assigned to this node,
* including the automatic {@link #getSelfLabel() self label}, manually
* assigned labels and dynamically assigned labels via the
* {@link LabelFinder} extension point.
*
* This method has a side effect of updating the hudson-wide set of labels
* and should be called after events that will change that - e.g. a slave
* connecting.
*/
@Exported
public Set<LabelAtom> getAssignedLabels() {
Set<LabelAtom> r = Label.parse(getLabelString());
r.add(getSelfLabel());
r.addAll(getDynamicLabels());
return Collections.unmodifiableSet(r);
}
/**
* Return all the labels assigned dynamically to this node.
* This calls all the LabelFinder implementations with the node converts
* the results into Labels.
* @return HashSet<Label>.
*/
private HashSet<LabelAtom> getDynamicLabels() {
HashSet<LabelAtom> result = new HashSet<LabelAtom>();
for (LabelFinder labeler : LabelFinder.all()) {
// Filter out any bad(null) results from plugins
// for compatibility reasons, findLabels may return LabelExpression and not atom.
for (Label label : labeler.findLabels(this))
if (label instanceof LabelAtom) result.add((LabelAtom)label);
}
return result;
}
/**
* Returns the manually configured label for a node. The list of assigned
* and dynamically determined labels is available via
* {@link #getAssignedLabels()} and includes all labels that have been
* manually configured.
*
* Mainly for form binding.
*/
public abstract String getLabelString();
/**
* Gets the special label that represents this node itself.
*/
@WithBridgeMethods(Label.class)
public LabelAtom getSelfLabel() {
return LabelAtom.get(getNodeName());
}
/**
* Called by the {@link Queue} to determine whether or not this node can
* take the given task. The default checks include whether or not this node
* is part of the task's assigned label, whether this node is in
* {@link Mode#EXCLUSIVE} mode if it is not in the task's assigned label,
* and whether or not any of this node's {@link NodeProperty}s say that the
* task cannot be run.
*
* @since 1.360
* @deprecated as of 1.413
* Use {@link #canTake(Queue.BuildableItem)}
*/
public CauseOfBlockage canTake(Task task) {
return null;
}
/**
* Called by the {@link Queue} to determine whether or not this node can
* take the given task. The default checks include whether or not this node
* is part of the task's assigned label, whether this node is in
* {@link Mode#EXCLUSIVE} mode if it is not in the task's assigned label,
* and whether or not any of this node's {@link NodeProperty}s say that the
* task cannot be run.
*
* @since 1.413
*/
public CauseOfBlockage canTake(Queue.BuildableItem item) {
Label l = item.getAssignedLabel();
if(l!=null && !l.contains(this))
return CauseOfBlockage.fromMessage(Messages._Node_LabelMissing(getNodeName(),l)); // the task needs to be executed on label that this node doesn't have.
if(l==null && getMode()== Mode.EXCLUSIVE)
return CauseOfBlockage.fromMessage(Messages._Node_BecauseNodeIsReserved(getNodeName())); // this node is reserved for tasks that are tied to it
// Check each NodeProperty to see whether they object to this node
// taking the task
for (NodeProperty prop: getNodeProperties()) {
CauseOfBlockage c = prop.canTake(item);
if (c!=null) return c;
}
// Looks like we can take the task
return null;
}
/**
* Returns a "workspace" directory for the given {@link TopLevelItem}.
*
* <p>
* Workspace directory is usually used for keeping out the checked out
* source code, but it can be used for anything.
*
* @return
* null if this node is not connected hence the path is not available
*/
// TODO: should this be modified now that getWorkspace is moved from AbstractProject to AbstractBuild?
public abstract FilePath getWorkspaceFor(TopLevelItem item);
/**
* Gets the root directory of this node.
*
* <p>
* Hudson always owns a directory on every node. This method
* returns that.
*
* @return
* null if the node is offline and hence the {@link FilePath}
* object is not available.
*/
public abstract FilePath getRootPath();
/**
* Gets the {@link FilePath} on this node.
*/
public FilePath createPath(String absolutePath) {
VirtualChannel ch = getChannel();
if(ch==null) return null; // offline
return new FilePath(ch,absolutePath);
}
public FileSystemProvisioner getFileSystemProvisioner() {
// TODO: make this configurable or auto-detectable or something else
return FileSystemProvisioner.DEFAULT;
}
/**
* Gets the {@link NodeProperty} instances configured for this {@link Node}.
*/
public abstract DescribableList<NodeProperty<?>, NodePropertyDescriptor> getNodeProperties();
// used in the Jelly script to expose descriptors
public List<NodePropertyDescriptor> getNodePropertyDescriptors() {
return NodeProperty.for_(this);
}
public ACL getACL() {
return Jenkins.getInstance().getAuthorizationStrategy().getACL(this);
}
public final void checkPermission(Permission permission) {
getACL().checkPermission(permission);
}
public final boolean hasPermission(Permission permission) {
return getACL().hasPermission(permission);
}
public Node reconfigure(final StaplerRequest req, JSONObject form) throws FormException {
if (form==null) return null;
final JSONObject jsonForProperties = form.optJSONObject("nodeProperties");
BindInterceptor old = req.setBindListener(new BindInterceptor() {
@Override
public Object onConvert(Type targetType, Class targetTypeErasure, Object jsonSource) {
if (jsonForProperties!=jsonSource) return DEFAULT;
try {
DescribableList<NodeProperty<?>, NodePropertyDescriptor> tmp = new DescribableList<NodeProperty<?>, NodePropertyDescriptor>(Saveable.NOOP,getNodeProperties().toList());
tmp.rebuild(req, jsonForProperties, NodeProperty.all());
return tmp.toList();
} catch (FormException e) {
throw new IllegalArgumentException(e);
} catch (IOException e) {
throw new IllegalArgumentException(e);
}
}
});
try {
return getDescriptor().newInstance(req, form);
} finally {
req.setBindListener(old);
}
}
public abstract NodeDescriptor getDescriptor();
/**
* Estimates the clock difference with this slave.
*
* @return
* always non-null.
* @throws InterruptedException
* if the operation is aborted.
*/
public abstract ClockDifference getClockDifference() throws IOException, InterruptedException;
/**
* Constants that control how Hudson allocates jobs to slaves.
*/
public enum Mode {
NORMAL(Messages.Node_Mode_NORMAL()),
EXCLUSIVE(Messages.Node_Mode_EXCLUSIVE());
private final String description;
public String getDescription() {
return description;
}
public String getName() {
return name();
}
Mode(String description) {
this.description = description;
}
static {
Stapler.CONVERT_UTILS.register(new EnumConverter(), Mode.class);
}
}
}