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DataLakeFileAsyncClient Class

public class DataLakeFileAsyncClient
extends DataLakePathAsyncClient

This class provides a client that contains file operations for Azure Storage Data Lake. Operations provided by this client include creating a file, deleting a file, renaming a file, setting metadata and http headers, setting and retrieving access control, getting properties, reading a file, and appending and flushing data to write to a file.

This client is instantiated through DataLakePathClientBuilder or retrieved via getFileAsyncClient(String fileName).

Please refer to the Azure Docs for more information.

Method Summary

Modifier and Type Method and Description
Mono<Void> append(BinaryData data, long fileOffset)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Void> append(Flux<ByteBuffer> data, long fileOffset, long length)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Response<Void>> appendWithResponse(BinaryData data, long fileOffset, byte[] contentMd5, String leaseId)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Response<Void>> appendWithResponse(BinaryData data, long fileOffset, DataLakeFileAppendOptions appendOptions)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Response<Void>> appendWithResponse(Flux<ByteBuffer> data, long fileOffset, long length, byte[] contentMd5, String leaseId)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Response<Void>> appendWithResponse(Flux<ByteBuffer> data, long fileOffset, long length, DataLakeFileAppendOptions appendOptions)

Appends data to the specified resource to later be flushed (written) by a call to flush

Mono<Void> delete()

Deletes a file.

Mono<Boolean> deleteIfExists()

Deletes a file if it exists.

Mono<Response<Boolean>> deleteIfExistsWithResponse(DataLakePathDeleteOptions options)

Deletes a file if it exists.

Mono<Response<Void>> deleteWithResponse(DataLakeRequestConditions requestConditions)

Deletes a file.

Mono<PathInfo> flush(long position)

Deprecated

Flushes (writes) data previously appended to the file through a call to append.

Mono<PathInfo> flush(long position, boolean overwrite)

Flushes (writes) data previously appended to the file through a call to append.

Mono<Response<PathInfo>> flushWithResponse(long position, boolean retainUncommittedData, boolean close, PathHttpHeaders httpHeaders, DataLakeRequestConditions requestConditions)

Flushes (writes) data previously appended to the file through a call to append.

Mono<Response<PathInfo>> flushWithResponse(long position, DataLakeFileFlushOptions flushOptions)

Flushes (writes) data previously appended to the file through a call to append.

DataLakeFileAsyncClient getCustomerProvidedKeyAsyncClient(CustomerProvidedKey customerProvidedKey)

Creates a new DataLakeFileAsyncClient with the specified customerProvidedKey.

String getFileName()

Gets the name of this file, not including its full path.

String getFilePath()

Gets the path of this file, not including the name of the resource itself.

String getFileUrl()

Gets the URL of the file represented by this client on the Data Lake service.

Flux<ByteBuffer> query(String expression)

Queries the entire file.

Mono<FileQueryAsyncResponse> queryWithResponse(FileQueryOptions queryOptions)

Queries the entire file.

Flux<ByteBuffer> read()

Reads the entire file.

Mono<PathProperties> readToFile(ReadToFileOptions options)

Reads the entire file into a file specified by the path.

Mono<PathProperties> readToFile(String filePath)

Reads the entire file into a file specified by the path.

Mono<PathProperties> readToFile(String filePath, boolean overwrite)

Reads the entire file into a file specified by the path.

Mono<Response<PathProperties>> readToFileWithResponse(ReadToFileOptions options)

Reads the entire file into a file specified by the path.

Mono<Response<PathProperties>> readToFileWithResponse(String filePath, FileRange range, ParallelTransferOptions parallelTransferOptions, DownloadRetryOptions options, DataLakeRequestConditions requestConditions, boolean rangeGetContentMd5, Set<OpenOption> openOptions)

Reads the entire file into a file specified by the path.

Mono<FileReadAsyncResponse> readWithResponse(FileRange range, DownloadRetryOptions options, DataLakeRequestConditions requestConditions, boolean getRangeContentMd5)

Reads a range of bytes from a file.

Mono<DataLakeFileAsyncClient> rename(String destinationFileSystem, String destinationPath)

Moves the file to another location within the file system.

Mono<Response<DataLakeFileAsyncClient>> renameWithResponse(String destinationFileSystem, String destinationPath, DataLakeRequestConditions sourceRequestConditions, DataLakeRequestConditions destinationRequestConditions)

Moves the file to another location within the file system.

Mono<Void> scheduleDeletion(FileScheduleDeletionOptions options)

Schedules the file for deletion.

Mono<Response<Void>> scheduleDeletionWithResponse(FileScheduleDeletionOptions options)

Schedules the file for deletion.

Mono<PathInfo> upload(BinaryData data, ParallelTransferOptions parallelTransferOptions)

Creates a new file and uploads content.

Mono<PathInfo> upload(BinaryData data, ParallelTransferOptions parallelTransferOptions, boolean overwrite)

Creates a new file and uploads content.

Mono<PathInfo> upload(Flux<ByteBuffer> data, ParallelTransferOptions parallelTransferOptions)

Creates a new file and uploads content.

Mono<PathInfo> upload(Flux<ByteBuffer> data, ParallelTransferOptions parallelTransferOptions, boolean overwrite)

Creates a new file and uploads content.

Mono<Void> uploadFromFile(String filePath)

Creates a new file, with the content of the specified file.

Mono<Void> uploadFromFile(String filePath, boolean overwrite)

Creates a new file, with the content of the specified file.

Mono<Void> uploadFromFile(String filePath, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map<String,String> metadata, DataLakeRequestConditions requestConditions)

Creates a new file, with the content of the specified file.

Mono<Response<PathInfo>> uploadFromFileWithResponse(String filePath, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map<String,String> metadata, DataLakeRequestConditions requestConditions)

Creates a new file, with the content of the specified file.

Mono<Response<PathInfo>> uploadWithResponse(FileParallelUploadOptions options)

Creates a new file.

Mono<Response<PathInfo>> uploadWithResponse(Flux<ByteBuffer> data, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map<String,String> metadata, DataLakeRequestConditions requestConditions)

Creates a new file.

Methods inherited from DataLakePathAsyncClient

Methods inherited from java.lang.Object

Method Details

append

public Mono append(BinaryData data, long fileOffset)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

client.append(data, offset, length)
     .subscribe(
         response -> System.out.println("Append data completed"),
         error -> System.out.printf("Error when calling append data: %s", error));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.

Returns:

A reactive response signalling completion.

append

public Mono append(Flux data, long fileOffset, long length)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

client.append(data, offset, length)
     .subscribe(
         response -> System.out.println("Append data completed"),
         error -> System.out.printf("Error when calling append data: %s", error));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.
length - The exact length of the data. It is important that this value match precisely the length of the data emitted by the Flux.

Returns:

A reactive response signalling completion.

appendWithResponse

public Mono> appendWithResponse(BinaryData data, long fileOffset, byte[] contentMd5, String leaseId)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

FileRange range = new FileRange(1024, 2048L);
 DownloadRetryOptions options = new DownloadRetryOptions().setMaxRetryRequests(5);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5
 BinaryData data = BinaryData.fromString("Data!");

 client.appendWithResponse(data, offset, contentMd5, leaseId).subscribe(response ->
     System.out.printf("Append data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.
contentMd5 - An MD5 hash of the content of the data. If specified, the service will calculate the MD5 of the received data and fail the request if it does not match the provided MD5.
leaseId - By setting lease id, requests will fail if the provided lease does not match the active lease on the file.

Returns:

A reactive response signalling completion.

appendWithResponse

public Mono> appendWithResponse(BinaryData data, long fileOffset, DataLakeFileAppendOptions appendOptions)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

FileRange range = new FileRange(1024, 2048L);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5
 DataLakeFileAppendOptions appendOptions = new DataLakeFileAppendOptions()
     .setLeaseId(leaseId)
     .setContentHash(contentMd5)
     .setFlush(true);
 BinaryData data = BinaryData.fromString("Data!");

 client.appendWithResponse(data, offset, appendOptions).subscribe(response ->
     System.out.printf("Append data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.
appendOptions - DataLakeFileAppendOptions

Returns:

A reactive response signalling completion.

appendWithResponse

public Mono> appendWithResponse(Flux data, long fileOffset, long length, byte[] contentMd5, String leaseId)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

FileRange range = new FileRange(1024, 2048L);
 DownloadRetryOptions options = new DownloadRetryOptions().setMaxRetryRequests(5);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5

 client.appendWithResponse(data, offset, length, contentMd5, leaseId).subscribe(response ->
     System.out.printf("Append data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.
length - The exact length of the data. It is important that this value match precisely the length of the data emitted by the Flux.
contentMd5 - An MD5 hash of the content of the data. If specified, the service will calculate the MD5 of the received data and fail the request if it does not match the provided MD5.
leaseId - By setting lease id, requests will fail if the provided lease does not match the active lease on the file.

Returns:

A reactive response signalling completion.

appendWithResponse

public Mono> appendWithResponse(Flux data, long fileOffset, long length, DataLakeFileAppendOptions appendOptions)

Appends data to the specified resource to later be flushed (written) by a call to flush

Code Samples

FileRange range = new FileRange(1024, 2048L);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5
 DataLakeFileAppendOptions appendOptions = new DataLakeFileAppendOptions()
     .setLeaseId(leaseId)
     .setContentHash(contentMd5)
     .setFlush(true);

 client.appendWithResponse(data, offset, length, appendOptions).subscribe(response ->
     System.out.printf("Append data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

data - The data to write to the file.
fileOffset - The position where the data is to be appended.
length - The exact length of the data. It is important that this value match precisely the length of the data emitted by the Flux.
appendOptions - DataLakeFileAppendOptions

Returns:

A reactive response signalling completion.

delete

public Mono delete()

Deletes a file.

Code Samples

client.delete().subscribe(response ->
     System.out.println("Delete request completed"));

For more information see the Azure Docs

Returns:

A reactive response signalling completion.

deleteIfExists

public Mono deleteIfExists()

Deletes a file if it exists.

Code Samples

client.deleteIfExists().subscribe(deleted -> {
     if (deleted) {
         System.out.println("Successfully deleted.");
     } else {
         System.out.println("Does not exist.");
     }
 });

For more information see the Azure Docs

Overrides:

DataLakeFileAsyncClient.deleteIfExists()

Returns:

a reactive response signaling completion. true indicates that the file was successfully deleted, false indicates that the file did not exist.

deleteIfExistsWithResponse

public Mono> deleteIfExistsWithResponse(DataLakePathDeleteOptions options)

Deletes a file if it exists.

Code Samples

DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId);
 DataLakePathDeleteOptions options = new DataLakePathDeleteOptions().setIsRecursive(false)
     .setRequestConditions(requestConditions);

 client.deleteIfExistsWithResponse(options).subscribe(response -> {
     if (response.getStatusCode() == 404) {
         System.out.println("Does not exist.");
     } else {
         System.out.println("successfully deleted.");
     }
 });

For more information see the Azure Docs

Overrides:

DataLakeFileAsyncClient.deleteIfExistsWithResponse(DataLakePathDeleteOptions options)

Parameters:

Returns:

A reactive response signaling completion. If Response<T>'s status code is 200, the file was successfully deleted. If status code is 404, the file does not exist.

deleteWithResponse

public Mono> deleteWithResponse(DataLakeRequestConditions requestConditions)

Deletes a file.

Code Samples

DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId);

 client.deleteWithResponse(requestConditions)
     .subscribe(response -> System.out.println("Delete request completed"));

For more information see the Azure Docs

Parameters:

requestConditions - DataLakeRequestConditions

Returns:

A reactive response signalling completion.

flush

@Deprecated
public Mono flush(long position)

Deprecated

Flushes (writes) data previously appended to the file through a call to append. The previously uploaded data must be contiguous.

By default this method will not overwrite existing data.

Code Samples

client.flush(position).subscribe(response ->
     System.out.println("Flush data completed"));

For more information, see the Azure Docs

Parameters:

position - The length of the file after all data has been written.

Returns:

A reactive response containing the information of the created resource.

flush

public Mono flush(long position, boolean overwrite)

Flushes (writes) data previously appended to the file through a call to append. The previously uploaded data must be contiguous.

Code Samples

boolean overwrite = true;
 client.flush(position, overwrite).subscribe(response ->
     System.out.println("Flush data completed"));

For more information, see the Azure Docs

Parameters:

position - The length of the file after all data has been written.
overwrite - Whether to overwrite, should data exist on the file.

Returns:

A reactive response containing the information of the created resource.

flushWithResponse

public Mono> flushWithResponse(long position, boolean retainUncommittedData, boolean close, PathHttpHeaders httpHeaders, DataLakeRequestConditions requestConditions)

Flushes (writes) data previously appended to the file through a call to append. The previously uploaded data must be contiguous.

Code Samples

FileRange range = new FileRange(1024, 2048L);
 DownloadRetryOptions options = new DownloadRetryOptions().setMaxRetryRequests(5);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5
 boolean retainUncommittedData = false;
 boolean close = false;
 PathHttpHeaders httpHeaders = new PathHttpHeaders()
     .setContentLanguage("en-US")
     .setContentType("binary");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId);

 client.flushWithResponse(position, retainUncommittedData, close, httpHeaders,
     requestConditions).subscribe(response ->
     System.out.printf("Flush data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

position - The length of the file after all data has been written.
retainUncommittedData - Whether uncommitted data is to be retained after the operation.
close - Whether a file changed event raised indicates completion (true) or modification (false).
httpHeaders - PathHttpHeaders
requestConditions - DataLakeRequestConditions

Returns:

A reactive response containing the information of the created resource.

flushWithResponse

public Mono> flushWithResponse(long position, DataLakeFileFlushOptions flushOptions)

Flushes (writes) data previously appended to the file through a call to append. The previously uploaded data must be contiguous.

Code Samples

FileRange range = new FileRange(1024, 2048L);
 DownloadRetryOptions options = new DownloadRetryOptions().setMaxRetryRequests(5);
 byte[] contentMd5 = new byte[0]; // Replace with valid md5
 boolean retainUncommittedData = false;
 boolean close = false;
 PathHttpHeaders httpHeaders = new PathHttpHeaders()
     .setContentLanguage("en-US")
     .setContentType("binary");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId);
 Integer leaseDuration = 15;

 DataLakeFileFlushOptions flushOptions = new DataLakeFileFlushOptions()
     .setUncommittedDataRetained(retainUncommittedData)
     .setClose(close)
     .setPathHttpHeaders(httpHeaders)
     .setRequestConditions(requestConditions)
     .setLeaseAction(LeaseAction.ACQUIRE)
     .setLeaseDuration(leaseDuration)
     .setProposedLeaseId(leaseId);

 client.flushWithResponse(position, flushOptions).subscribe(response ->
     System.out.printf("Flush data completed with status %d%n", response.getStatusCode()));

For more information, see the Azure Docs

Parameters:

position - The length of the file after all data has been written.
flushOptions - DataLakeFileFlushOptions

Returns:

A reactive response containing the information of the created resource.

getCustomerProvidedKeyAsyncClient

public DataLakeFileAsyncClient getCustomerProvidedKeyAsyncClient(CustomerProvidedKey customerProvidedKey)

Creates a new DataLakeFileAsyncClient with the specified customerProvidedKey.

Overrides:

DataLakeFileAsyncClient.getCustomerProvidedKeyAsyncClient(CustomerProvidedKey customerProvidedKey)

Parameters:

customerProvidedKey - the CustomerProvidedKey for the file, pass null to use no customer provided key.

Returns:

a DataLakeFileAsyncClient with the specified customerProvidedKey.

getFileName

public String getFileName()

Gets the name of this file, not including its full path.

Returns:

The name of the file.

getFilePath

public String getFilePath()

Gets the path of this file, not including the name of the resource itself.

Returns:

The path of the file.

getFileUrl

public String getFileUrl()

Gets the URL of the file represented by this client on the Data Lake service.

Returns:

the URL.

query

public Flux query(String expression)

Queries the entire file.

For more information, see the Azure Docs

Code Samples

ByteArrayOutputStream queryData = new ByteArrayOutputStream();
 String expression = "SELECT * from BlobStorage";
 client.query(expression).subscribe(piece -> {
     try {
         queryData.write(piece.array());
     } catch (IOException ex) {
         throw new UncheckedIOException(ex);
     }
 });

Parameters:

expression - The query expression.

Returns:

A reactive response containing the queried data.

queryWithResponse

public Mono queryWithResponse(FileQueryOptions queryOptions)

Queries the entire file.

For more information, see the Azure Docs

Code Samples

String expression = "SELECT * from BlobStorage";
 FileQueryJsonSerialization input = new FileQueryJsonSerialization()
     .setRecordSeparator('\n');
 FileQueryDelimitedSerialization output = new FileQueryDelimitedSerialization()
     .setEscapeChar('\0')
     .setColumnSeparator(',')
     .setRecordSeparator('\n')
     .setFieldQuote('\'')
     .setHeadersPresent(true);
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions().setLeaseId(leaseId);
 Consumer<FileQueryError> errorConsumer = System.out::println;
 Consumer<FileQueryProgress> progressConsumer = progress -> System.out.println("total file bytes read: "
     + progress.getBytesScanned());
 FileQueryOptions queryOptions = new FileQueryOptions(expression)
     .setInputSerialization(input)
     .setOutputSerialization(output)
     .setRequestConditions(requestConditions)
     .setErrorConsumer(errorConsumer)
     .setProgressConsumer(progressConsumer);

 client.queryWithResponse(queryOptions)
     .subscribe(response -> {
         ByteArrayOutputStream queryData = new ByteArrayOutputStream();
         response.getValue().subscribe(piece -> {
             try {
                 queryData.write(piece.array());
             } catch (IOException ex) {
                 throw new UncheckedIOException(ex);
             }
         });
     });

Parameters:

queryOptions - FileQueryOptions

Returns:

A reactive response containing the queried data.

read

public Flux read()

Reads the entire file.

Code Samples

ByteArrayOutputStream downloadData = new ByteArrayOutputStream();
 client.read().subscribe(piece -> {
     try {
         downloadData.write(piece.array());
     } catch (IOException ex) {
         throw new UncheckedIOException(ex);
     }
 });

For more information, see the Azure Docs

Returns:

A reactive response containing the file data.

readToFile

public Mono readToFile(ReadToFileOptions options)

Reads the entire file into a file specified by the path.

The file will be created and must not exist, if the file already exists a FileAlreadyExistsException will be thrown.

Code Samples

client.readToFile(new ReadToFileOptions(file))
     .subscribe(response -> System.out.println("Completed download to file"));

For more information, see the Azure Docs

Parameters:

options - ReadToFileOptions

Returns:

A reactive response containing the file properties and metadata.

readToFile

public Mono readToFile(String filePath)

Reads the entire file into a file specified by the path.

The file will be created and must not exist, if the file already exists a FileAlreadyExistsException will be thrown.

Code Samples

client.readToFile(file).subscribe(response -> System.out.println("Completed download to file"));

For more information, see the Azure Docs

Parameters:

filePath - A String representing the filePath where the downloaded data will be written.

Returns:

A reactive response containing the file properties and metadata.

readToFile

public Mono readToFile(String filePath, boolean overwrite)

Reads the entire file into a file specified by the path.

If overwrite is set to false, the file will be created and must not exist, if the file already exists a FileAlreadyExistsException will be thrown.

Code Samples

boolean overwrite = false; // Default value
 client.readToFile(file, overwrite).subscribe(response -> System.out.println("Completed download to file"));

For more information, see the Azure Docs

Parameters:

filePath - A String representing the filePath where the downloaded data will be written.
overwrite - Whether to overwrite the file, should the file exist.

Returns:

A reactive response containing the file properties and metadata.

readToFileWithResponse

public Mono> readToFileWithResponse(ReadToFileOptions options)

Reads the entire file into a file specified by the path.

By default the file will be created and must not exist, if the file already exists a FileAlreadyExistsException will be thrown. To override this behavior, provide appropriate OpenOptions

Code Samples

ReadToFileOptions options = new ReadToFileOptions(file);
 options.setRange(new FileRange(1024, 2048L));
 options.setDownloadRetryOptions(new DownloadRetryOptions().setMaxRetryRequests(5));
 options.setOpenOptions(new HashSet<>(Arrays.asList(StandardOpenOption.CREATE_NEW,
     StandardOpenOption.WRITE, StandardOpenOption.READ))); //Default options
 options.setParallelTransferOptions(new ParallelTransferOptions().setBlockSizeLong(4L * Constants.MB));
 options.setDataLakeRequestConditions(null);
 options.setRangeGetContentMd5(false);

 client.readToFileWithResponse(options)
     .subscribe(response -> System.out.println("Completed download to file"));

For more information, see the Azure Docs

Parameters:

options - ReadToFileOptions

Returns:

A reactive response containing the file properties and metadata.

readToFileWithResponse

public Mono> readToFileWithResponse(String filePath, FileRange range, ParallelTransferOptions parallelTransferOptions, DownloadRetryOptions options, DataLakeRequestConditions requestConditions, boolean rangeGetContentMd5, Set openOptions)

Reads the entire file into a file specified by the path.

By default the file will be created and must not exist, if the file already exists a FileAlreadyExistsException will be thrown. To override this behavior, provide appropriate OpenOptions

Code Samples

FileRange fileRange = new FileRange(1024, 2048L);
 DownloadRetryOptions downloadRetryOptions = new DownloadRetryOptions().setMaxRetryRequests(5);
 Set<OpenOption> openOptions = new HashSet<>(Arrays.asList(StandardOpenOption.CREATE_NEW,
     StandardOpenOption.WRITE, StandardOpenOption.READ)); // Default options

 client.readToFileWithResponse(file, fileRange, null, downloadRetryOptions, null, false, openOptions)
     .subscribe(response -> System.out.println("Completed download to file"));

For more information, see the Azure Docs

Parameters:

filePath - A String representing the filePath where the downloaded data will be written.
range - FileRange
parallelTransferOptions - ParallelTransferOptions to use to download to file. Number of parallel transfers parameter is ignored.
requestConditions - DataLakeRequestConditions
rangeGetContentMd5 - Whether the contentMD5 for the specified file range should be returned.
openOptions - OpenOptions to use to configure how to open or create the file.

Returns:

A reactive response containing the file properties and metadata.

readWithResponse

public Mono readWithResponse(FileRange range, DownloadRetryOptions options, DataLakeRequestConditions requestConditions, boolean getRangeContentMd5)

Reads a range of bytes from a file.

Code Samples

FileRange range = new FileRange(1024, 2048L);
 DownloadRetryOptions options = new DownloadRetryOptions().setMaxRetryRequests(5);

 client.readWithResponse(range, options, null, false).subscribe(response -> {
     ByteArrayOutputStream readData = new ByteArrayOutputStream();
     response.getValue().subscribe(piece -> {
         try {
             readData.write(piece.array());
         } catch (IOException ex) {
             throw new UncheckedIOException(ex);
         }
     });
 });

For more information, see the Azure Docs

Parameters:

range - FileRange
requestConditions - DataLakeRequestConditions
getRangeContentMd5 - Whether the contentMD5 for the specified file range should be returned.

Returns:

A reactive response containing the file data.

rename

public Mono rename(String destinationFileSystem, String destinationPath)

Moves the file to another location within the file system. For more information see the Azure Docs.

Code Samples

DataLakeFileAsyncClient renamedClient = client.rename(fileSystemName, destinationPath).block();
 System.out.println("Directory Client has been renamed");

Parameters:

destinationFileSystem - The file system of the destination within the account. null for the current file system.
destinationPath - Relative path from the file system to rename the file to, excludes the file system name. For example if you want to move a file with fileSystem = "myfilesystem", path = "mydir/hello.txt" to another path in myfilesystem (ex: newdir/hi.txt) then set the destinationPath = "newdir/hi.txt"

Returns:

A Mono containing a DataLakeFileAsyncClient used to interact with the new file created.

renameWithResponse

public Mono> renameWithResponse(String destinationFileSystem, String destinationPath, DataLakeRequestConditions sourceRequestConditions, DataLakeRequestConditions destinationRequestConditions)

Moves the file to another location within the file system. For more information, see the Azure Docs.

Code Samples

DataLakeRequestConditions sourceRequestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId);
 DataLakeRequestConditions destinationRequestConditions = new DataLakeRequestConditions();

 DataLakeFileAsyncClient newRenamedClient = client.renameWithResponse(fileSystemName, destinationPath,
     sourceRequestConditions, destinationRequestConditions).block().getValue();
 System.out.println("Directory Client has been renamed");

Parameters:

destinationFileSystem - The file system of the destination within the account. null for the current file system.
destinationPath - Relative path from the file system to rename the file to, excludes the file system name. For example if you want to move a file with fileSystem = "myfilesystem", path = "mydir/hello.txt" to another path in myfilesystem (ex: newdir/hi.txt) then set the destinationPath = "newdir/hi.txt"
sourceRequestConditions - DataLakeRequestConditions against the source.
destinationRequestConditions - DataLakeRequestConditions against the destination.

Returns:

A Mono containing a Response<T> whose value contains a DataLakeFileAsyncClient used to interact with the file created.

scheduleDeletion

public Mono scheduleDeletion(FileScheduleDeletionOptions options)

Schedules the file for deletion.

Code Samples

FileScheduleDeletionOptions options = new FileScheduleDeletionOptions(OffsetDateTime.now().plusDays(1));

 client.scheduleDeletion(options)
     .subscribe(r -> System.out.println("File deletion has been scheduled"));

Parameters:

options - Schedule deletion parameters.

Returns:

A reactive response signalling completion.

scheduleDeletionWithResponse

public Mono> scheduleDeletionWithResponse(FileScheduleDeletionOptions options)

Schedules the file for deletion.

Code Samples

FileScheduleDeletionOptions options = new FileScheduleDeletionOptions(OffsetDateTime.now().plusDays(1));

 client.scheduleDeletionWithResponse(options)
     .subscribe(r -> System.out.println("File deletion has been scheduled"));

Parameters:

options - Schedule deletion parameters.

Returns:

A reactive response signalling completion.

upload

public Mono upload(BinaryData data, ParallelTransferOptions parallelTransferOptions)

Creates a new file and uploads content.

Code Samples

Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions pto = new ParallelTransferOptions()
     .setBlockSizeLong(blockSize)
     .setProgressListener(bytesTransferred -> System.out.printf("Upload progress: %s bytes sent", bytesTransferred));

 BinaryData.fromFlux(data, length, false)
     .flatMap(binaryData -> client.upload(binaryData, pto))
     .doOnError(throwable -> System.err.printf("Failed to upload %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload succeeded"));

Parameters:

data - The data to write to the file. Unlike other upload methods, this method does not require that the Flux be replayable. In other words, it does not have to support multiple subscribers and is not expected to produce the same values across subscriptions.
parallelTransferOptions - ParallelTransferOptions used to configure buffered uploading.

Returns:

A reactive response containing the information of the uploaded file.

upload

public Mono upload(BinaryData data, ParallelTransferOptions parallelTransferOptions, boolean overwrite)

Creates a new file and uploads content.

Code Samples

Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions pto = new ParallelTransferOptions()
     .setBlockSizeLong(blockSize)
     .setProgressListener(bytesTransferred -> System.out.printf("Upload progress: %s bytes sent", bytesTransferred));

 BinaryData.fromFlux(data, length, false)
     .flatMap(binaryData -> client.upload(binaryData, pto, true))
     .doOnError(throwable -> System.err.printf("Failed to upload %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload succeeded"));

Parameters:

data - The data to write to the file. Unlike other upload methods, this method does not require that the Flux be replayable. In other words, it does not have to support multiple subscribers and is not expected to produce the same values across subscriptions.
parallelTransferOptions - ParallelTransferOptions used to configure buffered uploading.
overwrite - Whether to overwrite, should the file already exist.

Returns:

A reactive response containing the information of the uploaded file.

upload

public Mono upload(Flux data, ParallelTransferOptions parallelTransferOptions)

Creates a new file and uploads content.

Code Samples

client.uploadFromFile(filePath)
     .doOnError(throwable -> System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload from file succeeded"));

Parameters:

data - The data to write to the file. Unlike other upload methods, this method does not require that the Flux be replayable. In other words, it does not have to support multiple subscribers and is not expected to produce the same values across subscriptions.
parallelTransferOptions - ParallelTransferOptions used to configure buffered uploading.

Returns:

A reactive response containing the information of the uploaded file.

upload

public Mono upload(Flux data, ParallelTransferOptions parallelTransferOptions, boolean overwrite)

Creates a new file and uploads content.

Code Samples

boolean overwrite = false; // Default behavior
 client.uploadFromFile(filePath, overwrite)
     .doOnError(throwable -> System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload from file succeeded"));

Parameters:

data - The data to write to the file. Unlike other upload methods, this method does not require that the Flux be replayable. In other words, it does not have to support multiple subscribers and is not expected to produce the same values across subscriptions.
parallelTransferOptions - ParallelTransferOptions used to configure buffered uploading.
overwrite - Whether to overwrite, should the file already exist.

Returns:

A reactive response containing the information of the uploaded file.

uploadFromFile

public Mono uploadFromFile(String filePath)

Creates a new file, with the content of the specified file. By default, this method will not overwrite an existing file.

Code Samples

client.uploadFromFile(filePath)
     .doOnError(throwable -> System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload from file succeeded"));

Parameters:

filePath - Path to the upload file

Returns:

An empty response

uploadFromFile

public Mono uploadFromFile(String filePath, boolean overwrite)

Creates a new file, with the content of the specified file.

Code Samples

boolean overwrite = false; // Default behavior
 client.uploadFromFile(filePath, overwrite)
     .doOnError(throwable -> System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload from file succeeded"));

Parameters:

filePath - Path to the upload file
overwrite - Whether to overwrite, should the file already exist.

Returns:

An empty response

uploadFromFile

public Mono uploadFromFile(String filePath, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map metadata, DataLakeRequestConditions requestConditions)

Creates a new file, with the content of the specified file.

To avoid overwriting, pass "*" to setIfNoneMatch(String ifNoneMatch).

Code Samples

PathHttpHeaders headers = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadata = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions().setBlockSizeLong(blockSize);

 client.uploadFromFile(filePath, parallelTransferOptions, headers, metadata, requestConditions)
     .doOnError(throwable -> System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion -> System.out.println("Upload from file succeeded"));

Parameters:

filePath - Path to the upload file
parallelTransferOptions - ParallelTransferOptions to use to upload from file. Number of parallel transfers parameter is ignored.
headers - PathHttpHeaders
metadata - Metadata to associate with the resource. If there is leading or trailing whitespace in any metadata key or value, it must be removed or encoded.
requestConditions - DataLakeRequestConditions

Returns:

An empty response

uploadFromFileWithResponse

public Mono> uploadFromFileWithResponse(String filePath, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map metadata, DataLakeRequestConditions requestConditions)

Creates a new file, with the content of the specified file.

To avoid overwriting, pass "*" to setIfNoneMatch(String ifNoneMatch).

Code Samples

PathHttpHeaders headers = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadata = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions().setBlockSizeLong(blockSize);

 client.uploadFromFileWithResponse(filePath, parallelTransferOptions, headers, metadata, requestConditions)
     .doOnError(throwable ->
         System.err.printf("Failed to upload from file %s%n", throwable.getMessage()))
     .subscribe(completion ->
         System.out.println("Upload from file succeeded at: " + completion.getValue().getLastModified()));

Parameters:

filePath - Path to the upload file
parallelTransferOptions - ParallelTransferOptions to use to upload from file. Number of parallel transfers parameter is ignored.
headers - PathHttpHeaders
metadata - Metadata to associate with the resource. If there is leading or trailing whitespace in any metadata key or value, it must be removed or encoded.
requestConditions - DataLakeRequestConditions

Returns:

A reactive response containing the information of the uploaded file.

uploadWithResponse

public Mono> uploadWithResponse(FileParallelUploadOptions options)

Creates a new file.

To avoid overwriting, pass "*" to setIfNoneMatch(String ifNoneMatch).

Code Samples

PathHttpHeaders headers = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadata = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions().setBlockSizeLong(blockSize);

 client.uploadWithResponse(new FileParallelUploadOptions(data)
     .setParallelTransferOptions(parallelTransferOptions).setHeaders(headers)
     .setMetadata(metadata).setRequestConditions(requestConditions)
     .setPermissions("permissions").setUmask("umask"))
     .subscribe(response -> System.out.println("Uploaded file %n"));

Using Progress Reporting

PathHttpHeaders httpHeaders = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadataMap = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions conditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 ParallelTransferOptions pto = new ParallelTransferOptions()
     .setBlockSizeLong(blockSize)
     .setProgressListener(bytesTransferred -> System.out.printf("Upload progress: %s bytes sent", bytesTransferred));

 client.uploadWithResponse(new FileParallelUploadOptions(data)
     .setParallelTransferOptions(parallelTransferOptions).setHeaders(headers)
     .setMetadata(metadata).setRequestConditions(requestConditions)
     .setPermissions("permissions").setUmask("umask"))
     .subscribe(response -> System.out.println("Uploaded file %n"));

Parameters:

Returns:

A reactive response containing the information of the uploaded file.

uploadWithResponse

public Mono> uploadWithResponse(Flux data, ParallelTransferOptions parallelTransferOptions, PathHttpHeaders headers, Map metadata, DataLakeRequestConditions requestConditions)

Creates a new file. To avoid overwriting, pass "*" to setIfNoneMatch(String ifNoneMatch).

Code Samples

PathHttpHeaders headers = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadata = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions requestConditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 Long blockSize = 100L * 1024L * 1024L; // 100 MB;
 ParallelTransferOptions parallelTransferOptions = new ParallelTransferOptions().setBlockSizeLong(blockSize);

 client.uploadWithResponse(data, parallelTransferOptions, headers, metadata, requestConditions)
     .subscribe(response -> System.out.println("Uploaded file %n"));

Using Progress Reporting

PathHttpHeaders httpHeaders = new PathHttpHeaders()
     .setContentMd5("data".getBytes(StandardCharsets.UTF_8))
     .setContentLanguage("en-US")
     .setContentType("binary");

 Map<String, String> metadataMap = Collections.singletonMap("metadata", "value");
 DataLakeRequestConditions conditions = new DataLakeRequestConditions()
     .setLeaseId(leaseId)
     .setIfUnmodifiedSince(OffsetDateTime.now().minusDays(3));
 ParallelTransferOptions pto = new ParallelTransferOptions()
     .setBlockSizeLong(blockSize)
     .setProgressListener(bytesTransferred -> System.out.printf("Upload progress: %s bytes sent", bytesTransferred));

 client.uploadWithResponse(data, pto, httpHeaders, metadataMap, conditions)
     .subscribe(response -> System.out.println("Uploaded file %n"));

Parameters:

data - The data to write to the file. Unlike other upload methods, this method does not require that the Flux be replayable. In other words, it does not have to support multiple subscribers and is not expected to produce the same values across subscriptions.
parallelTransferOptions - ParallelTransferOptions used to configure buffered uploading.
headers - PathHttpHeaders
metadata - Metadata to associate with the resource. If there is leading or trailing whitespace in any metadata key or value, it must be removed or encoded.
requestConditions - DataLakeRequestConditions

Returns:

A reactive response containing the information of the uploaded file.

Applies to