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package com.qcloud.cos.transfer;
import static com.qcloud.cos.internal.Constants.MAXIMUM_UPLOAD_PARTS;
import java.io.File;
import java.util.concurrent.Executors;
import java.util.concurrent.ThreadFactory;
import java.util.concurrent.ThreadPoolExecutor;
import com.qcloud.cos.model.CopyObjectRequest;
import com.qcloud.cos.model.PutObjectRequest;
import com.qcloud.cos.transfer.Transfer.TransferState;
/**
* Internal utilities for multipart uploads with TransferManager.
*/
public class TransferManagerUtils {
/**
* Returns a new thread pool configured with the default settings.
*
* @return A new thread pool configured with the default settings.
*/
public static ThreadPoolExecutor createDefaultExecutorService() {
ThreadFactory threadFactory = new ThreadFactory() {
private int threadCount = 1;
public Thread newThread(Runnable r) {
Thread thread = new Thread(r);
thread.setName("cos-transfer-manager-worker-" + threadCount++);
return thread;
}
};
return (ThreadPoolExecutor)Executors.newFixedThreadPool(1, threadFactory);
}
/**
* Returns true if the specified upload request can use parallel part
* uploads for increased performance.
*
* @param putObjectRequest
* The request to check.
* @param isUsingEncryption
* True if the upload is an encrypted upload, otherwise false.
*
* @return True if this request can use parallel part uploads for faster
* uploads.
*/
public static boolean isUploadParallelizable(final PutObjectRequest putObjectRequest, final boolean isUsingEncryption) {
// Each uploaded part in an encrypted upload depends on the encryption context
// from the previous upload, so we cannot parallelize encrypted upload parts.
if (isUsingEncryption) return false;
// Otherwise, if there's a file, we can process the uploads concurrently.
return (getRequestFile(putObjectRequest) != null);
}
/**
* Returns the size of the data in this request, otherwise -1 if the content
* length is unknown.
*
* @param putObjectRequest
* The request to check.
*
* @return The size of the data in this request, otherwise -1 if the size of
* the data is unknown.
*/
public static long getContentLength(PutObjectRequest putObjectRequest) {
File file = getRequestFile(putObjectRequest);
if (file != null) return file.length();
if (putObjectRequest.getInputStream() != null) {
if (putObjectRequest.getMetadata().getContentLength() > 0) {
return putObjectRequest.getMetadata().getContentLength();
}
}
return -1;
}
/**
* Returns the optimal part size, in bytes, for each individual part upload
* in a multipart upload.
*
* @param putObjectRequest
* The request containing all the details of the upload.
* @param configuration
* Configuration values to use when calculating size.
*
* @return The optimal part size, in bytes, for each individual part upload
* in a multipart upload.
*/
public static long calculateOptimalPartSize(PutObjectRequest putObjectRequest, TransferManagerConfiguration configuration) {
double contentLength = TransferManagerUtils.getContentLength(putObjectRequest);
double optimalPartSize = (double)contentLength / (double)MAXIMUM_UPLOAD_PARTS;
// round up so we don't push the upload over the maximum number of parts
optimalPartSize = Math.ceil(optimalPartSize);
return (long)Math.max(optimalPartSize, configuration.getMinimumUploadPartSize());
}
/**
* Returns true if the the specified request should be processed as a
* multipart upload (instead of a single part upload).
*
* @param putObjectRequest
* The request containing all the details of the upload.
* @param configuration
* Configuration settings controlling how transfer manager
* processes requests.
*
* @return True if the the specified request should be processed as a
* multipart upload.
*/
public static boolean shouldUseMultipartUpload(PutObjectRequest putObjectRequest, TransferManagerConfiguration configuration) {
long contentLength = TransferManagerUtils.getContentLength(putObjectRequest);
return (contentLength >= configuration.getMultipartUploadThreshold());
}
/**
* Convenience method for getting the file specified in a request.
*/
public static File getRequestFile(final PutObjectRequest putObjectRequest) {
if (putObjectRequest.getFile() != null) return putObjectRequest.getFile();
return null;
}
/**
* Calculates the optimal part size of each part request if the copy
* operation is carried out as multi-part copy.
*
* @param copyObjectRequest
* the original request.
* @param configuration
* configuration containing the default part size.
* @param contentLengthOfSource
* content length of the Qcloud COS object.
* @return the optimal part size for a copy part request.
*/
public static long calculateOptimalPartSizeForCopy(
CopyObjectRequest copyObjectRequest,
TransferManagerConfiguration configuration,
long contentLengthOfSource) {
double optimalPartSize = (double) contentLengthOfSource
/ (double) MAXIMUM_UPLOAD_PARTS;
// round up so we don't push the copy over the maximum number of parts
optimalPartSize = Math.ceil(optimalPartSize);
return (long) Math.max(optimalPartSize,
configuration.getMultipartCopyPartSize());
}
/**
* Determines the pause status based on the current state of transfer.
*/
public static PauseStatus determinePauseStatus(TransferState transferState,
boolean forceCancel) {
if (forceCancel) {
if (transferState == TransferState.Waiting) {
return PauseStatus.CANCELLED_BEFORE_START;
} else if (transferState == TransferState.InProgress) {
return PauseStatus.CANCELLED;
}
}
if (transferState == TransferState.Waiting) {
return PauseStatus.NOT_STARTED;
}
return PauseStatus.NO_EFFECT;
}
}