org.opensaml.saml.metadata.resolver.impl.FileBackedHTTPMetadataResolver Maven / Gradle / Ivy
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* Licensed to the University Corporation for Advanced Internet Development,
* Inc. (UCAID) under one or more contributor license agreements. See the
* NOTICE file distributed with this work for additional information regarding
* copyright ownership. The UCAID licenses this file to You under the Apache
* License, Version 2.0 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.opensaml.saml.metadata.resolver.impl;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.util.Timer;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import net.shibboleth.utilities.java.support.annotation.Duration;
import net.shibboleth.utilities.java.support.annotation.constraint.Positive;
import net.shibboleth.utilities.java.support.component.ComponentInitializationException;
import net.shibboleth.utilities.java.support.component.ComponentSupport;
import net.shibboleth.utilities.java.support.resolver.ResolverException;
import org.apache.http.client.HttpClient;
import org.joda.time.DateTime;
import org.opensaml.core.xml.XMLObject;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.w3c.dom.Document;
import com.google.common.io.Files;
/**
* An HTTP metadata provider that caches a copy of the retrieved metadata to disk so that, in the event that
* the metadata may not be pulled from the URL, it may be pulled from disk using the most recently fetched data.
*
*
* If the backup file does not already exist, it will be created by saving the byte[] retrieved in the HTTP fetch.
*
*
*
* If {@link #isInitializeFromBackupFile()} is true, then initialization will attempt to load metadata first
* from the backup file on disk, if it exists. If successful then the next refresh after initialization, which
* will attempt the full HTTP fetch, will be scheduled for the interval indicated by
* {@link #getBackupFileInitNextRefreshDelay()}. This can help prevent large metadata batches from slowing down
* the synchronous resolver start up process, deferring the more expensive HTTP fetch operation to the asynchronous
* background refresh thread.
*
*
*/
public class FileBackedHTTPMetadataResolver extends HTTPMetadataResolver {
/** Class logger. */
@Nonnull private final Logger log = LoggerFactory.getLogger(FileBackedHTTPMetadataResolver.class);
/** File containing the backup of the metadata. */
@Nullable private File metadataBackupFile;
/** Flag used to track state of whether currently initializing or not. */
private boolean initializing;
/** Flag indicating whether initialization should first attempt to load metadata from backup file. */
private boolean initializeFromBackupFile = true;
/** Flag indicating whether metadata load during init was from backup file. */
private boolean initializedFromBackupFile;
/** Duration in milliseconds after which to schedule next refresh, when initialized from backup file. */
@Duration @Positive private long backupFileInitNextRefreshDelay = 5000;
/**
* Constructor.
*
* @param client HTTP client used to fetch remote metadata
* @param metadataURL the URL to fetch the metadata
* @param backupFilePath the file that will keep a backup copy of the metadata,
*
* @throws ResolverException thrown if the URL is not a valid URL, the metadata can not be retrieved from
* the URL
*/
public FileBackedHTTPMetadataResolver(final HttpClient client,
final String metadataURL, final String backupFilePath)
throws ResolverException {
this(null, client, metadataURL, backupFilePath);
}
/**
* Constructor.
*
* @param client HTTP client used to fetch remote metadata
* @param backgroundTaskTimer timer used to schedule background metadata refresh tasks
* @param metadataURL the URL to fetch the metadata
* @param backupFilePath the file that will keep a backup copy of the metadata,
*
* @throws ResolverException thrown if the URL is not a valid URL, the metadata can not be retrieved from
* the URL
*/
public FileBackedHTTPMetadataResolver(final Timer backgroundTaskTimer,
final HttpClient client, final String metadataURL,
final String backupFilePath) throws ResolverException {
super(backgroundTaskTimer, client, metadataURL);
setBackupFile(backupFilePath);
}
/**
* Get the flag indicating whether metadata load during initialization was from backup file.
*
* @return true if initial load was from backup file, false otherwise
*/
public boolean isInitializedFromBackupFile() {
return initializedFromBackupFile;
}
/**
* Get the flag indicating whether initialization should first attempt to load metadata from backup file,
* if it exists.
*
* Defaults to: true.
*
* @return true if should initialize from backup file, false otherwise
*/
public boolean isInitializeFromBackupFile() {
return initializeFromBackupFile;
}
/**
* Set the flag indicating whether initialization should first attempt to load metadata from backup file,
* if it exists.
*
* Defaults to: true.
*
* @param flag true if should initialize from backup file, false otherwise
*/
public void setInitializeFromBackupFile(final boolean flag) {
ComponentSupport.ifInitializedThrowUnmodifiabledComponentException(this);
ComponentSupport.ifDestroyedThrowDestroyedComponentException(this);
initializeFromBackupFile = flag;
}
/**
* Get the duration in milliseconds after which to schedule next refresh, when initialized from backup file.
*
* Defaults to 5000ms.
*
* @return the duration in milliseconds
*/
public long getBackupFileInitNextRefreshDelay() {
return backupFileInitNextRefreshDelay;
}
/**
* Set the duration in milliseconds after which to schedule next refresh, when initialized from backup file.
*
* Defaults to 5000ms.
*
* @param delay the next refresh delay, in milliseconds
*/
public void setBackupFileInitNextRefreshDelay(final long delay) {
ComponentSupport.ifInitializedThrowUnmodifiabledComponentException(this);
ComponentSupport.ifDestroyedThrowDestroyedComponentException(this);
if (delay < 0) {
throw new IllegalArgumentException("Backup file init next refresh delay must be greater than 0");
}
backupFileInitNextRefreshDelay = delay;
}
/** {@inheritDoc} */
@Override
protected void doDestroy() {
metadataBackupFile = null;
super.doDestroy();
}
/** {@inheritDoc} */
@Override
protected void initMetadataResolver() throws ComponentInitializationException {
try {
validateBackupFile(metadataBackupFile);
} catch (final ResolverException e) {
if (isFailFastInitialization()) {
log.error("{} Metadata backup file path was invalid, initialization is fatal", getLogPrefix());
throw new ComponentInitializationException("Metadata backup file path was invalid", e);
} else {
log.error("{} Metadata backup file path was invalid, continuing without known good backup file",
getLogPrefix());
}
}
try {
initializing = true;
super.initMetadataResolver();
} finally {
initializing = false;
}
}
/**
* Sets the file used to backup metadata. The given file path is checked to see if it is a read/writable file if it
* exists or if can be created if it does not exist.
*
* @param backupFilePath path to the backup file
*
* @throws ResolverException thrown if the backup file is not read/writable or creatable
*/
protected void setBackupFile(final String backupFilePath) throws ResolverException {
ComponentSupport.ifInitializedThrowUnmodifiabledComponentException(this);
ComponentSupport.ifDestroyedThrowDestroyedComponentException(this);
final File backingFile = new File(backupFilePath);
metadataBackupFile = backingFile;
}
/**
* Validate the basic properties of the specified metadata backup file, for example that it
* exists and/or can be created; that it is not a directory; and that it is readable and writable.
*
* @param backupFile the file to evaluate
* @throws ResolverException if file does not pass basic properties required of a metadata backup file
*/
protected void validateBackupFile(final File backupFile) throws ResolverException {
if (!backupFile.exists()) {
try {
log.debug("{} Testing creation of backup file", getLogPrefix());
backupFile.createNewFile();
} catch (final IOException e) {
final String msg = "Unable to create backup file " + backupFile.getAbsolutePath();
log.error("{} " + msg, getLogPrefix(), e);
throw new ResolverException(msg, e);
} finally {
// Don't leave the empty test file lying around if it didin't originally exist.
// On init, if not valid metadata, this will muck with attempting to first load
// from backup file instead of http.
if (backupFile.exists()) {
final boolean deleted = backupFile.delete();
if (!deleted) {
log.debug("{} Deletion of test backup file failed", getLogPrefix());
}
}
}
}
if (backupFile.exists()) {
if (backupFile.isDirectory()) {
throw new ResolverException("Filepath " + backupFile.getAbsolutePath()
+ " is a directory and may not be used as a backup metadata file");
}
if (!backupFile.canRead()) {
throw new ResolverException("Filepath " + backupFile.getAbsolutePath()
+ " exists but can not be read by this user");
}
if (!backupFile.canWrite()) {
throw new ResolverException("Filepath " + backupFile.getAbsolutePath()
+ " exists but can not be written to by this user");
}
}
}
/** {@inheritDoc} */
@Override
protected byte[] fetchMetadata() throws ResolverException {
if (initializing && initializeFromBackupFile && metadataBackupFile.exists()) {
log.debug("{} On initialization, detected existing backup file, attempting load from that: {}",
getLogPrefix(), metadataBackupFile.getAbsolutePath());
try {
final byte[] backingData = Files.toByteArray(metadataBackupFile);
log.debug("{} Successfully initialized from backup file: {}",
getLogPrefix(), metadataBackupFile.getAbsolutePath());
initializedFromBackupFile = true;
return backingData;
} catch (final IOException e) {
log.warn("{} Error initializing from backup file, continuing with normal HTTP fetch",
getLogPrefix(), e);
}
}
try {
return super.fetchMetadata();
} catch (final ResolverException e) {
if (getCachedOriginalMetadata() != null) {
log.warn("{} Problem reading metadata from remote source; "
+ "detected existing cached metadata, skipping load of backup file", getLogPrefix());
return null;
}
if (metadataBackupFile.exists()) {
log.warn("{} Problem reading metadata from remote source, processing existing backup file: {}",
getLogPrefix(), metadataBackupFile.getAbsolutePath());
try {
return Files.toByteArray(metadataBackupFile);
} catch (final IOException ioe) {
final String errMsg = "Unable to retrieve metadata from backup file "
+ metadataBackupFile.getAbsolutePath();
log.error("{} " + errMsg, getLogPrefix(), ioe);
throw new ResolverException(errMsg, ioe);
}
} else {
log.error("{} Unable to read metadata from remote server and backup does not exist", getLogPrefix());
throw new ResolverException("Unable to read metadata from remote server and backup does not exist");
}
}
}
/** {@inheritDoc} */
@Override
protected long computeNextRefreshDelay(final DateTime expectedExpiration) {
if (initializing && initializedFromBackupFile) {
log.debug("{} Detected initialization from backup file, scheduling next refresh from HTTP in {}ms",
getLogPrefix(), getBackupFileInitNextRefreshDelay());
return getBackupFileInitNextRefreshDelay();
} else {
return super.computeNextRefreshDelay(expectedExpiration);
}
}
/** {@inheritDoc} */
@Override
protected void postProcessMetadata(final byte[] metadataBytes,
final Document metadataDom, final XMLObject originalMetadata,
final XMLObject filteredMetadata) throws ResolverException {
try {
validateBackupFile(metadataBackupFile);
try (final FileOutputStream out = new FileOutputStream(metadataBackupFile)) {
out.write(metadataBytes);
out.flush();
}
} catch (final ResolverException e) {
log.error("{} Unable to write metadata to backup file: {}",
getLogPrefix(), metadataBackupFile.getAbsoluteFile(), e);
} catch (final IOException e) {
log.error("{} Unable to write metadata to backup file: {}",
getLogPrefix(), metadataBackupFile.getAbsoluteFile(), e);
} finally {
super.postProcessMetadata(metadataBytes, metadataDom, originalMetadata, filteredMetadata);
}
}
}