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This module contains code to support integration with Amazon Web Services.
It also declares the dependencies needed to work with AWS services.
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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.apache.hadoop.fs.s3a;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.concurrent.atomic.AtomicLong;
import java.util.stream.Collectors;
import com.amazonaws.AmazonClientException;
import com.amazonaws.AmazonServiceException;
import com.amazonaws.ClientConfiguration;
import com.amazonaws.SdkClientException;
import com.amazonaws.auth.AWSCredentialsProvider;
import com.amazonaws.services.s3.AmazonS3;
import com.amazonaws.services.s3.AmazonS3Client;
import com.amazonaws.services.s3.model.CompleteMultipartUploadRequest;
import com.amazonaws.services.s3.model.CompleteMultipartUploadResult;
import com.amazonaws.services.s3.model.DeleteObjectRequest;
import com.amazonaws.services.s3.model.DeleteObjectsRequest;
import com.amazonaws.services.s3.model.DeleteObjectsResult;
import com.amazonaws.services.s3.model.GetObjectRequest;
import com.amazonaws.services.s3.model.InitiateMultipartUploadRequest;
import com.amazonaws.services.s3.model.InitiateMultipartUploadResult;
import com.amazonaws.services.s3.model.ListMultipartUploadsRequest;
import com.amazonaws.services.s3.model.ListObjectsRequest;
import com.amazonaws.services.s3.model.ListObjectsV2Request;
import com.amazonaws.services.s3.model.ListObjectsV2Result;
import com.amazonaws.services.s3.model.MultipartUploadListing;
import com.amazonaws.services.s3.model.ObjectListing;
import com.amazonaws.services.s3.model.PutObjectRequest;
import com.amazonaws.services.s3.model.PutObjectResult;
import com.amazonaws.services.s3.model.S3Object;
import com.amazonaws.services.s3.model.S3ObjectSummary;
import com.amazonaws.services.s3.model.UploadPartRequest;
import com.amazonaws.services.s3.model.UploadPartResult;
import com.google.common.base.Preconditions;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.Path;
/**
* A wrapper around {@link com.amazonaws.services.s3.AmazonS3} that injects
* inconsistency and/or errors. Used for testing S3Guard.
* Currently only delays listing visibility, not affecting GET.
*/
@InterfaceAudience.Private
@InterfaceStability.Unstable
public class InconsistentAmazonS3Client extends AmazonS3Client {
private static final Logger LOG =
LoggerFactory.getLogger(InconsistentAmazonS3Client.class);
private FailureInjectionPolicy policy;
/**
* Counter of failures since last reset.
*/
private final AtomicLong failureCounter = new AtomicLong(0);
/**
* Composite of data we need to track about recently deleted objects:
* when it was deleted (same was with recently put objects) and the object
* summary (since we should keep returning it for sometime after its
* deletion).
*/
private static class Delete {
private Long time;
private S3ObjectSummary summary;
Delete(Long time, S3ObjectSummary summary) {
this.time = time;
this.summary = summary;
}
public Long time() {
return time;
}
public S3ObjectSummary summary() {
return summary;
}
}
/**
* Map of key to delay -> time it was deleted + object summary (object summary
* is null for prefixes.
*/
private Map delayedDeletes = new HashMap<>();
/** Map of key to delay -> time it was created. */
private Map delayedPutKeys = new HashMap<>();
public InconsistentAmazonS3Client(AWSCredentialsProvider credentials,
ClientConfiguration clientConfiguration, Configuration conf) {
super(credentials, clientConfiguration);
policy = new FailureInjectionPolicy(conf);
}
/**
* Clear any accumulated inconsistency state. Used by tests to make paths
* visible again.
* @param fs S3AFileSystem under test
* @throws Exception on failure
*/
public static void clearInconsistency(S3AFileSystem fs) throws Exception {
AmazonS3 s3 = fs.getAmazonS3ClientForTesting("s3guard");
InconsistentAmazonS3Client ic = InconsistentAmazonS3Client.castFrom(s3);
ic.clearInconsistency();
}
/**
* A way for tests to patch in a different fault injection policy at runtime.
* @param fs filesystem under test
*
*/
public static void setFailureInjectionPolicy(S3AFileSystem fs,
FailureInjectionPolicy policy) throws Exception {
AmazonS3 s3 = fs.getAmazonS3ClientForTesting("s3guard");
InconsistentAmazonS3Client ic = InconsistentAmazonS3Client.castFrom(s3);
ic.replacePolicy(policy);
}
private void replacePolicy(FailureInjectionPolicy pol) {
this.policy = pol;
}
@Override
public String toString() {
return String.format("Inconsistent S3 Client: %s; failure count %d",
policy, failureCounter.get());
}
/**
* Clear all oustanding inconsistent keys. After calling this function,
* listings should behave normally (no failure injection), until additional
* keys are matched for delay, e.g. via putObject(), deleteObject().
*/
public void clearInconsistency() {
LOG.info("clearing all delayed puts / deletes");
delayedDeletes.clear();
delayedPutKeys.clear();
}
/**
* Convenience function for test code to cast from supertype.
* @param c supertype to cast from
* @return subtype, not null
* @throws Exception on error
*/
public static InconsistentAmazonS3Client castFrom(AmazonS3 c) throws
Exception {
InconsistentAmazonS3Client ic = null;
if (c instanceof InconsistentAmazonS3Client) {
ic = (InconsistentAmazonS3Client) c;
}
Preconditions.checkNotNull(ic, "Not an instance of " +
"InconsistentAmazonS3Client");
return ic;
}
@Override
public DeleteObjectsResult deleteObjects(DeleteObjectsRequest
deleteObjectsRequest)
throws AmazonClientException, AmazonServiceException {
maybeFail();
for (DeleteObjectsRequest.KeyVersion keyVersion :
deleteObjectsRequest.getKeys()) {
registerDeleteObject(keyVersion.getKey(),
deleteObjectsRequest.getBucketName());
}
return super.deleteObjects(deleteObjectsRequest);
}
@Override
public void deleteObject(DeleteObjectRequest deleteObjectRequest)
throws AmazonClientException, AmazonServiceException {
String key = deleteObjectRequest.getKey();
LOG.debug("key {}", key);
maybeFail();
registerDeleteObject(key, deleteObjectRequest.getBucketName());
super.deleteObject(deleteObjectRequest);
}
/* We should only need to override this version of putObject() */
@Override
public PutObjectResult putObject(PutObjectRequest putObjectRequest)
throws AmazonClientException, AmazonServiceException {
LOG.debug("key {}", putObjectRequest.getKey());
maybeFail();
registerPutObject(putObjectRequest);
return super.putObject(putObjectRequest);
}
/* We should only need to override these versions of listObjects() */
@Override
public ObjectListing listObjects(ListObjectsRequest listObjectsRequest)
throws AmazonClientException, AmazonServiceException {
maybeFail();
return innerlistObjects(listObjectsRequest);
}
/**
* Run the list object call without any failure probability.
* This stops a very aggressive failure rate from completely overloading
* the retry logic.
* @param listObjectsRequest request
* @return listing
* @throws AmazonClientException failure
*/
private ObjectListing innerlistObjects(ListObjectsRequest listObjectsRequest)
throws AmazonClientException, AmazonServiceException {
LOG.debug("prefix {}", listObjectsRequest.getPrefix());
ObjectListing listing = super.listObjects(listObjectsRequest);
listing = filterListObjects(listing);
listing = restoreListObjects(listObjectsRequest, listing);
return listing;
}
/* We should only need to override these versions of listObjects() */
@Override
public ListObjectsV2Result listObjectsV2(ListObjectsV2Request request)
throws AmazonClientException, AmazonServiceException {
maybeFail();
return innerListObjectsV2(request);
}
/**
* Non failing V2 list object request.
* @param request request
* @return result.
*/
private ListObjectsV2Result innerListObjectsV2(ListObjectsV2Request request) {
LOG.debug("prefix {}", request.getPrefix());
ListObjectsV2Result listing = super.listObjectsV2(request);
listing = filterListObjectsV2(listing);
listing = restoreListObjectsV2(request, listing);
return listing;
}
private void addSummaryIfNotPresent(List list,
S3ObjectSummary item) {
// Behavior of S3ObjectSummary
String key = item.getKey();
if (list.stream().noneMatch((member) -> member.getKey().equals(key))) {
list.add(item);
}
}
/**
* Add prefix of child to given list. The added prefix will be equal to
* ancestor plus one directory past ancestor. e.g.:
* if ancestor is "/a/b/c" and child is "/a/b/c/d/e/file" then "a/b/c/d" is
* added to list.
* @param prefixes list to add to
* @param ancestor path we are listing in
* @param child full path to get prefix from
*/
private void addPrefixIfNotPresent(List prefixes, String ancestor,
String child) {
Path prefixCandidate = new Path(child).getParent();
Path ancestorPath = new Path(ancestor);
Preconditions.checkArgument(child.startsWith(ancestor), "%s does not " +
"start with %s", child, ancestor);
while (!prefixCandidate.isRoot()) {
Path nextParent = prefixCandidate.getParent();
if (nextParent.equals(ancestorPath)) {
String prefix = prefixCandidate.toString();
if (!prefixes.contains(prefix)) {
prefixes.add(prefix);
}
return;
}
prefixCandidate = nextParent;
}
}
/**
* Checks that the parent key is an ancestor of the child key.
* @param parent key that may be the parent.
* @param child key that may be the child.
* @param recursive if false, only return true for direct children. If
* true, any descendant will count.
* @return true if parent is an ancestor of child
*/
private boolean isDescendant(String parent, String child, boolean recursive) {
if (recursive) {
if (!parent.endsWith("/")) {
parent = parent + "/";
}
return child.startsWith(parent);
} else {
Path actualParentPath = new Path(child).getParent();
Path expectedParentPath = new Path(parent);
return actualParentPath.equals(expectedParentPath);
}
}
/**
* Simulate eventual consistency of delete for this list operation: Any
* recently-deleted keys will be added.
* @param request List request
* @param rawListing listing returned from underlying S3
* @return listing with recently-deleted items restored
*/
private ObjectListing restoreListObjects(ListObjectsRequest request,
ObjectListing rawListing) {
List outputList = rawListing.getObjectSummaries();
List outputPrefixes = rawListing.getCommonPrefixes();
// recursive list has no delimiter, returns everything that matches a
// prefix.
boolean recursiveObjectList = !("/".equals(request.getDelimiter()));
String prefix = request.getPrefix();
restoreDeleted(outputList, outputPrefixes, recursiveObjectList, prefix);
return new CustomObjectListing(rawListing, outputList, outputPrefixes);
}
/**
* V2 list API variant of
* {@link #restoreListObjects(ListObjectsRequest, ObjectListing)}.
* @param request original v2 list request
* @param result raw s3 result
*/
private ListObjectsV2Result restoreListObjectsV2(ListObjectsV2Request request,
ListObjectsV2Result result) {
List outputList = result.getObjectSummaries();
List outputPrefixes = result.getCommonPrefixes();
// recursive list has no delimiter, returns everything that matches a
// prefix.
boolean recursiveObjectList = !("/".equals(request.getDelimiter()));
String prefix = request.getPrefix();
restoreDeleted(outputList, outputPrefixes, recursiveObjectList, prefix);
return new CustomListObjectsV2Result(result, outputList, outputPrefixes);
}
/**
* Main logic for
* {@link #restoreListObjects(ListObjectsRequest, ObjectListing)} and
* the v2 variant above.
* @param summaries object summary list to modify.
* @param prefixes prefix list to modify
* @param recursive true if recursive list request
* @param prefix prefix for original list request
*/
private void restoreDeleted(List summaries,
List prefixes, boolean recursive, String prefix) {
// Go through all deleted keys
for (String key : new HashSet<>(delayedDeletes.keySet())) {
Delete delete = delayedDeletes.get(key);
if (isKeyDelayed(delete.time(), key)) {
if (isDescendant(prefix, key, recursive)) {
if (delete.summary() != null) {
addSummaryIfNotPresent(summaries, delete.summary());
}
}
// Non-recursive list has delimiter: will return rolled-up prefixes for
// all keys that are not direct children
if (!recursive) {
if (isDescendant(prefix, key, true)) {
addPrefixIfNotPresent(prefixes, prefix, key);
}
}
} else {
// Clean up any expired entries
delayedDeletes.remove(key);
}
}
}
private ObjectListing filterListObjects(ObjectListing rawListing) {
// Filter object listing
List outputList = filterSummaries(
rawListing.getObjectSummaries());
// Filter prefixes (directories)
List outputPrefixes = filterPrefixes(
rawListing.getCommonPrefixes());
return new CustomObjectListing(rawListing, outputList, outputPrefixes);
}
private ListObjectsV2Result filterListObjectsV2(ListObjectsV2Result raw) {
// Filter object listing
List outputList = filterSummaries(
raw.getObjectSummaries());
// Filter prefixes (directories)
List outputPrefixes = filterPrefixes(raw.getCommonPrefixes());
return new CustomListObjectsV2Result(raw, outputList, outputPrefixes);
}
private List filterSummaries(
List summaries) {
List outputList = new ArrayList<>();
for (S3ObjectSummary s : summaries) {
String key = s.getKey();
if (!isKeyDelayed(delayedPutKeys.get(key), key)) {
outputList.add(s);
}
}
return outputList;
}
private List filterPrefixes(List prefixes) {
return prefixes.stream()
.filter(key -> !isKeyDelayed(delayedPutKeys.get(key), key))
.collect(Collectors.toList());
}
private boolean isKeyDelayed(Long enqueueTime, String key) {
if (enqueueTime == null) {
LOG.debug("no delay for key {}", key);
return false;
}
long currentTime = System.currentTimeMillis();
long deadline = enqueueTime + policy.getDelayKeyMsec();
if (currentTime >= deadline) {
delayedDeletes.remove(key);
LOG.debug("no longer delaying {}", key);
return false;
} else {
LOG.info("delaying {}", key);
return true;
}
}
private void registerDeleteObject(String key, String bucket) {
if (policy.shouldDelay(key)) {
// Record summary so we can add it back for some time post-deletion
ListObjectsRequest request = new ListObjectsRequest()
.withBucketName(bucket)
.withPrefix(key);
S3ObjectSummary summary = innerlistObjects(request).getObjectSummaries()
.stream()
.filter(result -> result.getKey().equals(key))
.findFirst()
.orElse(null);
delayedDeletes.put(key, new Delete(System.currentTimeMillis(), summary));
}
}
private void registerPutObject(PutObjectRequest req) {
String key = req.getKey();
if (policy.shouldDelay(key)) {
enqueueDelayedPut(key);
}
}
/**
* Record this key as something that should not become visible in
* listObject replies for a while, to simulate eventual list consistency.
* @param key key to delay visibility of
*/
private void enqueueDelayedPut(String key) {
LOG.debug("delaying put of {}", key);
delayedPutKeys.put(key, System.currentTimeMillis());
}
@Override
public CompleteMultipartUploadResult completeMultipartUpload(
CompleteMultipartUploadRequest completeMultipartUploadRequest)
throws SdkClientException, AmazonServiceException {
maybeFail();
return super.completeMultipartUpload(completeMultipartUploadRequest);
}
@Override
public UploadPartResult uploadPart(UploadPartRequest uploadPartRequest)
throws SdkClientException, AmazonServiceException {
maybeFail();
return super.uploadPart(uploadPartRequest);
}
@Override
public InitiateMultipartUploadResult initiateMultipartUpload(
InitiateMultipartUploadRequest initiateMultipartUploadRequest)
throws SdkClientException, AmazonServiceException {
maybeFail();
return super.initiateMultipartUpload(initiateMultipartUploadRequest);
}
@Override
public MultipartUploadListing listMultipartUploads(
ListMultipartUploadsRequest listMultipartUploadsRequest)
throws SdkClientException, AmazonServiceException {
maybeFail();
return super.listMultipartUploads(listMultipartUploadsRequest);
}
public long getDelayKeyMsec() {
return policy.getDelayKeyMsec();
}
/**
* Set the probability of throttling a request.
* @param throttleProbability the probability of a request being throttled.
*/
public void setThrottleProbability(float throttleProbability) {
policy.setThrottleProbability(throttleProbability);
}
/**
* Conditionally fail the operation.
* @param errorMsg description of failure
* @param statusCode http status code for error
* @throws AmazonClientException if the client chooses to fail
* the request.
*/
private void maybeFail(String errorMsg, int statusCode)
throws AmazonClientException {
// code structure here is to line up for more failures later
AmazonServiceException ex = null;
if (policy.trueWithProbability(policy.getThrottleProbability())) {
// throttle the request
ex = new AmazonServiceException(errorMsg
+ " count = " + (failureCounter.get() + 1), null);
ex.setStatusCode(statusCode);
}
int failureLimit = policy.getFailureLimit();
if (ex != null) {
long count = failureCounter.incrementAndGet();
if (failureLimit == 0
|| (failureLimit > 0 && count < failureLimit)) {
throw ex;
}
}
}
private void maybeFail() {
maybeFail("throttled", 503);
}
/**
* Set the limit on failures before all operations pass through.
* This resets the failure count.
* @param limit limit; "0" means "no limit"
*/
public void setFailureLimit(int limit) {
policy.setFailureLimit(limit);
failureCounter.set(0);
}
@Override
public S3Object getObject(GetObjectRequest var1) throws SdkClientException,
AmazonServiceException {
maybeFail("file not found", 404);
S3Object o = super.getObject(var1);
LOG.debug("Wrapping in InconsistentS3Object for key {}", var1.getKey());
return new InconsistentS3Object(o, policy);
}
@Override
public S3Object getObject(String bucketName, String key)
throws SdkClientException, AmazonServiceException {
S3Object o = super.getObject(bucketName, key);
LOG.debug("Wrapping in InconsistentS3Object for key {}", key);
return new InconsistentS3Object(o, policy);
}
/** Since ObjectListing is immutable, we just override it with wrapper. */
@SuppressWarnings("serial")
private static class CustomObjectListing extends ObjectListing {
private final List customListing;
private final List customPrefixes;
CustomObjectListing(ObjectListing rawListing,
List customListing,
List customPrefixes) {
super();
this.customListing = customListing;
this.customPrefixes = customPrefixes;
this.setBucketName(rawListing.getBucketName());
this.setCommonPrefixes(rawListing.getCommonPrefixes());
this.setDelimiter(rawListing.getDelimiter());
this.setEncodingType(rawListing.getEncodingType());
this.setMarker(rawListing.getMarker());
this.setMaxKeys(rawListing.getMaxKeys());
this.setNextMarker(rawListing.getNextMarker());
this.setPrefix(rawListing.getPrefix());
this.setTruncated(rawListing.isTruncated());
}
@Override
public List getObjectSummaries() {
return customListing;
}
@Override
public List getCommonPrefixes() {
return customPrefixes;
}
}
@SuppressWarnings("serial")
private static class CustomListObjectsV2Result extends ListObjectsV2Result {
private final List customListing;
private final List customPrefixes;
CustomListObjectsV2Result(ListObjectsV2Result raw,
List customListing, List customPrefixes) {
super();
this.customListing = customListing;
this.customPrefixes = customPrefixes;
this.setBucketName(raw.getBucketName());
this.setCommonPrefixes(raw.getCommonPrefixes());
this.setDelimiter(raw.getDelimiter());
this.setEncodingType(raw.getEncodingType());
this.setStartAfter(raw.getStartAfter());
this.setMaxKeys(raw.getMaxKeys());
this.setContinuationToken(raw.getContinuationToken());
this.setPrefix(raw.getPrefix());
this.setTruncated(raw.isTruncated());
}
@Override
public List getObjectSummaries() {
return customListing;
}
@Override
public List getCommonPrefixes() {
return customPrefixes;
}
}
}