I have 3 machines:
- server where the file is located
- server where REST service is running ( Jersey)
- client(browser) with access to 2nd server but no access to 1st server
How can I directly (without saving the file on 2nd server) download the file from 1st server to client's machine?
From 2nd server I can get a ByteArrayOutputStream to get the file from 1st server, can I pass this stream further to the client using the REST service?
It will work this way?
So basically what I want to achieve is to allow the client to download a file from 1st server using the REST service on 2nd server (since there is no direct access from client to 1st server) using only data streams (so no data touching the file system of 2nd server).
What I try now with EasyStream library:
final FTDClient client = FTDClient.getInstance();
try {
final InputStreamFromOutputStream<String> isOs = new InputStreamFromOutputStream<String>() {
@Override
public String produce(final OutputStream dataSink) throws Exception {
return client.downloadFile2(location, Integer.valueOf(spaceId), URLDecoder.decode(filePath, "UTF-8"), dataSink);
}
};
try {
String fileName = filePath.substring(filePath.lastIndexOf("/") + 1);
StreamingOutput output = new StreamingOutput() {
@Override
public void write(OutputStream outputStream) throws IOException, WebApplicationException {
int length;
byte[] buffer = new byte[1024];
while ((length = isOs.read(buffer)) != -1){
outputStream.write(buffer, 0, length);
}
outputStream.flush();
}
};
return Response.ok(output, MediaType.APPLICATION_OCTET_STREAM)
.header("Content-Disposition", "attachment; filename=\"" + fileName + "\"" )
.build();
UPDATE2
So my code now with the custom MessageBodyWriter looks simple:
ByteArrayOutputStream baos = new ByteArrayOutputStream(2048) ;
client.downloadFile(location, spaceId, filePath, baos);
return Response.ok(baos).build();
But I get the same heap error when trying with large files.
UPDATE3
Finally managed to get it working !
StreamingOutput did the trick.
Thank you @peeskillet ! Many thanks !
"How can I directly (without saving the file on 2nd server) download the file from 1st server to client's machine?"
Just use the Client
API and get the InputStream
from the response
Client client = ClientBuilder.newClient();
String url = "...";
final InputStream responseStream = client.target(url).request().get(InputStream.class);
There are two flavors to get the InputStream
. You can also use
Response response = client.target(url).request().get();
InputStream is = (InputStream)response.getEntity();
Which one is the more efficient? I'm not sure, but the returned InputStream
s are different classes, so you may want to look into that if you care to.
From 2nd server I can get a ByteArrayOutputStream to get the file from 1st server, can I pass this stream further to the client using the REST service?
So most of the answers you'll see in the link provided by @GradyGCooper seem to favor the use of StreamingOutput
. An example implementation might be something like
final InputStream responseStream = client.target(url).request().get(InputStream.class);
System.out.println(responseStream.getClass());
StreamingOutput output = new StreamingOutput() {
@Override
public void write(OutputStream out) throws IOException, WebApplicationException {
int length;
byte[] buffer = new byte[1024];
while((length = responseStream.read(buffer)) != -1) {
out.write(buffer, 0, length);
}
out.flush();
responseStream.close();
}
};
return Response.ok(output).header(
"Content-Disposition", "attachment, filename=\"...\"").build();
But if we look at the source code for StreamingOutputProvider, you'll see in the writeTo
, that it simply writes the data from one stream to another. So with our implementation above, we have to write twice.
How can we get only one write? Simple return the InputStream
as the Response
final InputStream responseStream = client.target(url).request().get(InputStream.class);
return Response.ok(responseStream).header(
"Content-Disposition", "attachment, filename=\"...\"").build();
If we look at the source code for InputStreamProvider, it simply delegates to ReadWriter.writeTo(in, out)
, which simply does what we did above in the StreamingOutput
implementation
public static void writeTo(InputStream in, OutputStream out) throws IOException {
int read;
final byte[] data = new byte[BUFFER_SIZE];
while ((read = in.read(data)) != -1) {
out.write(data, 0, read);
}
}
Asides:
Client
objects are expensive resources. You may want to reuse the same Client
for request. You can extract a WebTarget
from the client for each request.
WebTarget target = client.target(url);
InputStream is = target.request().get(InputStream.class);
I think the WebTarget
can even be shared. I can't find anything in the Jersey 2.x documentation (only because it is a larger document, and I'm too lazy to scan through it right now :-), but in the Jersey 1.x documentation, it says the Client
and WebResource
(which is equivalent to WebTarget
in 2.x) can be shared between threads. So I'm guessing Jersey 2.x would be the same. but you may want to confirm for yourself.
You don't have to make use of the Client
API. A download can be easily achieved with the java.net
package APIs. But since you're already using Jersey, it doesn't hurt to use its APIs
The above is assuming Jersey 2.x. For Jersey 1.x, a simple Google search should get you a bunch of hits for working with the API (or the documentation I linked to above)
UPDATE
I'm such a dufus. While the OP and I are contemplating ways to turn a ByteArrayOutputStream
to an InputStream
, I missed the simplest solution, which is simply to write a MessageBodyWriter
for the ByteArrayOutputStream
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import java.lang.annotation.Annotation;
import java.lang.reflect.Type;
import javax.ws.rs.WebApplicationException;
import javax.ws.rs.core.MediaType;
import javax.ws.rs.core.MultivaluedMap;
import javax.ws.rs.ext.MessageBodyWriter;
import javax.ws.rs.ext.Provider;
@Provider
public class OutputStreamWriter implements MessageBodyWriter<ByteArrayOutputStream> {
@Override
public boolean isWriteable(Class<?> type, Type genericType,
Annotation[] annotations, MediaType mediaType) {
return ByteArrayOutputStream.class == type;
}
@Override
public long getSize(ByteArrayOutputStream t, Class<?> type, Type genericType,
Annotation[] annotations, MediaType mediaType) {
return -1;
}
@Override
public void writeTo(ByteArrayOutputStream t, Class<?> type, Type genericType,
Annotation[] annotations, MediaType mediaType,
MultivaluedMap<String, Object> httpHeaders, OutputStream entityStream)
throws IOException, WebApplicationException {
t.writeTo(entityStream);
}
}
Then we can simply return the ByteArrayOutputStream
in the response
return Response.ok(baos).build();
D'OH!
UPDATE 2
Here are the tests I used (
Resource class
@Path("test")
public class TestResource {
final String path = "some_150_mb_file";
@GET
@Produces(MediaType.APPLICATION_OCTET_STREAM)
public Response doTest() throws Exception {
InputStream is = new FileInputStream(path);
ByteArrayOutputStream baos = new ByteArrayOutputStream();
int len;
byte[] buffer = new byte[4096];
while ((len = is.read(buffer, 0, buffer.length)) != -1) {
baos.write(buffer, 0, len);
}
System.out.println("Server size: " + baos.size());
return Response.ok(baos).build();
}
}
Client test
public class Main {
public static void main(String[] args) throws Exception {
Client client = ClientBuilder.newClient();
String url = "http://localhost:8080/api/test";
Response response = client.target(url).request().get();
String location = "some_location";
FileOutputStream out = new FileOutputStream(location);
InputStream is = (InputStream)response.getEntity();
int len = 0;
byte[] buffer = new byte[4096];
while((len = is.read(buffer)) != -1) {
out.write(buffer, 0, len);
}
out.flush();
out.close();
is.close();
}
}
UPDATE 3
So the final solution for this particular use case was for the OP to simply pass the OutputStream
from the StreamingOutput
's write
method. Seems the third-party API, required a OutputStream
as an argument.
StreamingOutput output = new StreamingOutput() {
@Override
public void write(OutputStream out) {
thirdPartyApi.downloadFile(.., .., .., out);
}
}
return Response.ok(output).build();
Not quite sure, but seems the reading/writing within the resource method, using ByteArrayOutputStream`, realized something into memory.
The point of the downloadFile
method accepting an OutputStream
is so that it can write the result directly to the OutputStream
provided. For instance a FileOutputStream
, if you wrote it to file, while the download is coming in, it would get directly streamed to the file.
It's not meant for us to keep a reference to the OutputStream
, as you were trying to do with the baos
, which is where the memory realization comes in.
So with the way that works, we are writing directly to the response stream provided for us. The method write
doesn't actually get called until the writeTo
method (in the MessageBodyWriter
), where the OutputStream
is passed to it.
You can get a better picture looking at the MessageBodyWriter
I wrote. Basically in the writeTo
method, replace the ByteArrayOutputStream
with StreamingOutput
, then inside the method, call streamingOutput.write(entityStream)
. You can see the link I provided in the earlier part of the answer, where I link to the StreamingOutputProvider
. This is exactly what happens
Refer this:
@RequestMapping(value="download", method=RequestMethod.GET)
public void getDownload(HttpServletResponse response) {
// Get your file stream from wherever.
InputStream myStream = someClass.returnFile();
// Set the content type and attachment header.
response.addHeader("Content-disposition", "attachment;filename=myfilename.txt");
response.setContentType("txt/plain");
// Copy the stream to the response's output stream.
IOUtils.copy(myStream, response.getOutputStream());
response.flushBuffer();
}
Details at: https://twilblog.github.io/java/spring/rest/file/stream/2015/08/14/return-a-file-stream-from-spring-rest.html
See example here: Input and Output binary streams using JERSEY?
Pseudo code would be something like this (there are a few other similar options in above mentioned post):
@Path("file/")
@GET
@Produces({"application/pdf"})
public StreamingOutput getFileContent() throws Exception {
public void write(OutputStream output) throws IOException, WebApplicationException {
try {
//
// 1. Get Stream to file from first server
//
while(<read stream from first server>) {
output.write(<bytes read from first server>)
}
} catch (Exception e) {
throw new WebApplicationException(e);
} finally {
// close input stream
}
}
}