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com.qcloud.cos.transfer.UploadCallable Maven / Gradle / Ivy

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package com.qcloud.cos.transfer;

import static com.qcloud.cos.event.SDKProgressPublisher.publishProgress;

import java.io.InputStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.Callable;
import java.util.concurrent.CancellationException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Future;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import com.qcloud.cos.COS;
import com.qcloud.cos.event.COSProgressPublisher;
import com.qcloud.cos.event.ProgressEventType;
import com.qcloud.cos.event.ProgressListenerChain;
import com.qcloud.cos.internal.UploadPartRequestFactory;
import com.qcloud.cos.model.AbortMultipartUploadRequest;
import com.qcloud.cos.model.COSEncryption;
import com.qcloud.cos.model.CompleteMultipartUploadRequest;
import com.qcloud.cos.model.CompleteMultipartUploadResult;
import com.qcloud.cos.model.EncryptedInitiateMultipartUploadRequest;
import com.qcloud.cos.model.EncryptedPutObjectRequest;
import com.qcloud.cos.model.InitiateMultipartUploadRequest;
import com.qcloud.cos.model.ListPartsRequest;
import com.qcloud.cos.model.PartETag;
import com.qcloud.cos.model.PartListing;
import com.qcloud.cos.model.PartSummary;
import com.qcloud.cos.model.PutObjectRequest;
import com.qcloud.cos.model.PutObjectResult;
import com.qcloud.cos.model.UploadPartRequest;
import com.qcloud.cos.model.UploadResult;
import com.qcloud.cos.transfer.Transfer.TransferState;


public class UploadCallable implements Callable {
    private final COS cos;
    private final ExecutorService threadPool;
    private final PutObjectRequest origReq;
    private String multipartUploadId;
    private final UploadImpl upload;

    private static final Logger log = LoggerFactory.getLogger(UploadCallable.class);
    private final TransferManagerConfiguration configuration;
    private final List> futures = new ArrayList>();
    private final ProgressListenerChain listener;
    private final TransferProgress transferProgress;

    /**
     * ETags retrieved from Qcloud COS for a multi-part upload id. These parts
     * will be skipped while resuming a paused upload.
     */
    private final List eTagsToSkip = new ArrayList();

    private PersistableUpload persistableUpload;

    public UploadCallable(TransferManager transferManager,
            ExecutorService threadPool, UploadImpl upload,
            PutObjectRequest origReq,
            ProgressListenerChain progressListenerChain, String uploadId,
            TransferProgress transferProgress) {
        this.cos = transferManager.getCOSClient();
        this.configuration = transferManager.getConfiguration();

        this.threadPool = threadPool;
        this.origReq = origReq;
        this.listener = progressListenerChain;
        this.upload = upload;
        this.multipartUploadId = uploadId;
        this.transferProgress = transferProgress;
    }

    List> getFutures() {
        return futures;
    }

    /**
     * Returns the ETags retrieved from Qcloud COS for a multi-part upload id.
     * These parts will be skipped while resuming a paused upload.
     */
    List getETags() {
        return eTagsToSkip;
    }

    String getMultipartUploadId() {
        return multipartUploadId;
    }

    /**
     * Returns true if this UploadCallable is processing a multipart upload.
     * @return True if this UploadCallable is processing a multipart upload.
     */
    public boolean isMultipartUpload() {
        return TransferManagerUtils.shouldUseMultipartUpload(origReq, configuration);
    }

    public UploadResult call() throws Exception {
        upload.setState(TransferState.InProgress);
        if ( isMultipartUpload() ) {
            publishProgress(listener, ProgressEventType.TRANSFER_STARTED_EVENT);
            return uploadInParts();
        } else {
            return uploadInOneChunk();
        }
    }

    /**
     * Uploads the given request in a single chunk and returns the result.
     */
    private UploadResult uploadInOneChunk() {
        PutObjectResult putObjectResult = cos.putObject(origReq);

        UploadResult uploadResult = new UploadResult();
        uploadResult.setBucketName(origReq.getBucketName());
        uploadResult.setKey(origReq.getKey());
        uploadResult.setETag(putObjectResult.getETag());
        uploadResult.setVersionId(putObjectResult.getVersionId());
        return uploadResult;
    }

    /**
     * Captures the state of the upload.
     */
    private void captureUploadStateIfPossible() {
        if (origReq.getSSECustomerKey() == null) {
            persistableUpload = new PersistableUpload(origReq.getBucketName(),
                    origReq.getKey(), origReq.getFile()
                            .getAbsolutePath(), multipartUploadId,
                    configuration.getMinimumUploadPartSize(),
                    configuration.getMultipartUploadThreshold());
            notifyPersistableTransferAvailability();
        }
    }

    public PersistableUpload getPersistableUpload() {
        return persistableUpload;
    }

    /**
     * Notifies to the callbacks that state is available
     */
    private void notifyPersistableTransferAvailability() {
        COSProgressPublisher.publishTransferPersistable(
                listener, persistableUpload);
    }

    /**
     * Uploads the request in multiple chunks, submitting each upload chunk task
     * to the thread pool and recording its corresponding Future object, as well
     * as the multipart upload id.
     */
    private UploadResult uploadInParts() throws Exception {
        boolean isUsingEncryption = cos instanceof COSEncryption;
        long optimalPartSize = getOptimalPartSize(isUsingEncryption);

        try {
            if (multipartUploadId == null) {
                multipartUploadId = initiateMultipartUpload(origReq,
                        isUsingEncryption);
            }

            UploadPartRequestFactory requestFactory = new UploadPartRequestFactory(origReq, multipartUploadId, optimalPartSize);

            if (TransferManagerUtils.isUploadParallelizable(origReq, isUsingEncryption)) {
                captureUploadStateIfPossible();
                uploadPartsInParallel(requestFactory, multipartUploadId);
                return null;
            } else {
                return uploadPartsInSeries(requestFactory);
            }
        } catch (Exception e) {
            publishProgress(listener, ProgressEventType.TRANSFER_FAILED_EVENT);
            performAbortMultipartUpload();
            throw e;
        } finally {
            if (origReq.getInputStream() != null) {
                try {origReq.getInputStream().close(); } catch (Exception e) {
                    log.warn("Unable to cleanly close input stream: " + e.getMessage(), e);
                }
            }
        }
    }

    /**
     * Performs an
     * {@link COS#abortMultipartUpload(AbortMultipartUploadRequest)}
     * operation for the given multi-part upload.
     */
    void performAbortMultipartUpload() {
        try {
            if (multipartUploadId != null)
                cos.abortMultipartUpload(new AbortMultipartUploadRequest(
                        origReq.getBucketName(), origReq
                                .getKey(), multipartUploadId));
        } catch (Exception e2) {
            log.info(
                    "Unable to abort multipart upload, you may need to manually remove uploaded parts: "
                            + e2.getMessage(), e2);
        }
    }

    /**
     * Computes and returns the optimal part size for the upload.
     */
    private long getOptimalPartSize(boolean isUsingEncryption) {
        long optimalPartSize = TransferManagerUtils.calculateOptimalPartSize(origReq, configuration);
        if (isUsingEncryption && optimalPartSize % 32 > 0) {
            // When using encryption, parts must line up correctly along cipher block boundaries
            optimalPartSize = optimalPartSize - (optimalPartSize % 32) + 32 ;
        }
        log.debug("Calculated optimal part size: " + optimalPartSize);
        return optimalPartSize;
    }

    /**
     * Uploads all parts in the request in serial in this thread, then completes
     * the upload and returns the result.
     */
    private UploadResult uploadPartsInSeries(UploadPartRequestFactory requestFactory) {

        final List partETags = new ArrayList();

        while (requestFactory.hasMoreRequests()) {
            if (threadPool.isShutdown()) throw new CancellationException("TransferManager has been shutdown");
            UploadPartRequest uploadPartRequest = requestFactory.getNextUploadPartRequest();
            // Mark the stream in case we need to reset it
            InputStream inputStream = uploadPartRequest.getInputStream();
            if (inputStream != null && inputStream.markSupported()) {
                if (uploadPartRequest.getPartSize() >= Integer.MAX_VALUE) {
                    inputStream.mark(Integer.MAX_VALUE);
                } else {
                    inputStream.mark((int)uploadPartRequest.getPartSize());
                }
            }
            partETags.add(cos.uploadPart(uploadPartRequest).getPartETag());
        }

        CompleteMultipartUploadRequest req =
            new CompleteMultipartUploadRequest(
                origReq.getBucketName(), origReq.getKey(), multipartUploadId,
                    partETags)
            .withGeneralProgressListener(origReq.getGeneralProgressListener())            
            ;
        CompleteMultipartUploadResult res = cos.completeMultipartUpload(req);

        UploadResult uploadResult = new UploadResult();
        uploadResult.setBucketName(res.getBucketName());
        uploadResult.setKey(res.getKey());
        uploadResult.setETag(res.getETag());
        uploadResult.setVersionId(res.getVersionId());
        return uploadResult;
    }

    /**
     * Submits a callable for each part to upload to our thread pool and records its corresponding Future.
     */
    private void uploadPartsInParallel(UploadPartRequestFactory requestFactory,
            String uploadId) {

        Map partNumbers = identifyExistingPartsForResume(uploadId);

        while (requestFactory.hasMoreRequests()) {
            if (threadPool.isShutdown()) throw new CancellationException("TransferManager has been shutdown");
            UploadPartRequest request = requestFactory.getNextUploadPartRequest();
            if (partNumbers.containsKey(request.getPartNumber())) {
                PartSummary summary = partNumbers.get(request.getPartNumber());
                eTagsToSkip.add(new PartETag(request.getPartNumber(), summary
                        .getETag()));
                transferProgress.updateProgress(summary.getSize());
                continue;
            }
            futures.add(threadPool.submit(new UploadPartCallable(cos, request)));
        }
    }

    private Map identifyExistingPartsForResume(
            String uploadId) {
        Map partNumbers = new HashMap();
        if (uploadId == null) {
            return partNumbers;
        }
        int partNumber = 0;

        while (true) {
            PartListing parts = cos.listParts(new ListPartsRequest(
                    origReq.getBucketName(),
                    origReq.getKey(), uploadId)
                    .withPartNumberMarker(partNumber));
            for (PartSummary partSummary : parts.getParts()) {
                partNumbers.put(partSummary.getPartNumber(), partSummary);
            }
            if (!parts.isTruncated()) {
                return partNumbers;
            }
            partNumber = parts.getNextPartNumberMarker();
        }
    }

    /**
     * Initiates a multipart upload and returns the upload id
     * @param isUsingEncryption
     */
    private String initiateMultipartUpload(PutObjectRequest origReq, boolean isUsingEncryption) {

        InitiateMultipartUploadRequest req = null;
        if (isUsingEncryption && origReq instanceof EncryptedPutObjectRequest) {
            req = new EncryptedInitiateMultipartUploadRequest(
                    origReq.getBucketName(), origReq.getKey()).withCannedACL(
                    origReq.getCannedAcl()).withObjectMetadata(origReq.getMetadata());
            ((EncryptedInitiateMultipartUploadRequest) req)
                    .setMaterialsDescription(((EncryptedPutObjectRequest) origReq).getMaterialsDescription());
        } else {
            req = new InitiateMultipartUploadRequest(origReq.getBucketName(), origReq.getKey())
                .withCannedACL(origReq.getCannedAcl())
                .withObjectMetadata(origReq.getMetadata());
        }

        TransferManager.appendMultipartUserAgent(req);

        req.withAccessControlList(origReq.getAccessControlList())
           .withStorageClass(origReq.getStorageClass())
           .withRedirectLocation(origReq.getRedirectLocation())
           .withSSECustomerKey(origReq.getSSECustomerKey())
           .withSSECOSKeyManagementParams(origReq.getSSECOSKeyManagementParams())
           .withGeneralProgressListener(origReq.getGeneralProgressListener())
           ;

        String uploadId = cos.initiateMultipartUpload(req).getUploadId();
        log.debug("Initiated new multipart upload: " + uploadId);

        return uploadId;
    }
}




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