Skip to content

Dmole/zsync4j

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

zsync4j

zsync4j is a Java port of zsync. In a nutshell, zsync is rsync over http: it reduces data downloaded for a given file by reusing unchanged parts from an older local version of the file. This can significantly improve download performance, especially for large files with few changes. All the processing is done on the client and no special server-side support is required as zsync uses standard http Range Requests to retrieve non-matching parts of the file.

How do I use it?

Upload

Generate a zsync file using zsyncmake for the file you are uploading and upload the zsync file along with it. For example, to generate a zsync file for an iso in the current working directory use:

ZsyncMake zsyncmake = new ZsyncMake();
Path file = Paths.get("wily-desktop-i386.iso");
zsyncmake.make(file);

Download

To download a file use zsync. For example, to update your local iso with only changed parts of a newer remote version use:

Zsync zsync = new Zsync();
URI zsyncFileURI = URI.create("http://cdimage.ubuntu.com/daily-live/20150612/wily-desktop-i386.iso.zsync");
zsync.zsync(zsyncFileURI);

How does it work?

The zsync control file uploaded together with each file contains block-level checksums, which clients use to identify which parts of the output file can copied from the local file and which parts have to be downloaded. The rough sequence of steps is:

  1. Download zysnc control file
  2. Write all unchanged blocks from the input file into the output file
  3. Request all changed blocks from the server via http Range Requests
  4. Compute full checksum of output file to ensure file was properly put together

For more information check out the zsync paper.

When should I use zsync4j?

zsync4j is most effective if you frequently update large files over relatively slow http connections. It is less effective for small files, since the additional overhead of transferring a small control file does not amortize. Similarly, if large portions of the file change between requests, the cost of issuing multiple range requests vs a single large request may outweigh the savings. zsync4j also does not yet support gzip-compressed files. However, with some modifications to the creation process (see next section) it can be quite effective for zip and jar files. If used effectively, zsycn4j can improve throughput of your http server, since less data has to be sent in response to each request.

How does Salesforce use zsync4j?

At Salesforce we currently use zsync4j to optimize our build process. Our continuous integration infrastructure deploys complete jarsets for each commit (up to 1000 per day) and developers download these jarsets to avoid rebuilding parts of the system locally they are not working on. zsync4j reduces the amount of data that has to be downloaded daily by over 90%.

Most of the content we transfer through zsync4j are jar files. To minimize the diff between updates we ensure jars are created with consistent entry ordering and entry timestamps set to the same value. This also ensure idempotency of jar creation, i.e. building a jar for the same content twice results in identical output files.

About

Java port of zsync

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Java 100.0%