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I'm downloading zipped files containing XMLs, and I'd like to avoid writing the zip files to disk before manipulating them because of latency requirements. However, doesn't suffice for me. There's no way to say "here's a byte array of a zip file, use it" without turning it into a stream, and ZipInputStream is not reliable, since it scans for entry headers (see discussion below EDIT for reasons why that is not reliable).

I do not yet have access to the zip files I'll be handling, so I don't know whether I'll be able to handle them through the ZipInputStream, and I need to find a solution that will work with any valid ZIP files, as the penalty for a failure once I go into production will be high.

Assuming ZipInputStream won't work, what can I do to solve this problem in cases where there are no entry headers? I'm using Wikipedia's definition, which includes a comment on how to correctly uncompress zip files (quoted below), as the standard.


The Apache Commons Zip library has a good write up on some of the problems using Stream (both their solution and Java's) has. I'll further add, from wikipedia and personal experience, and the size and crc field on entry headers may not be filled (I've files with -1 in these fields). Thanks to centic for providing this link.

Also, let me quote the wikipedia on the subject:

Tools that correctly read zip archives must scan for the signatures of the various fields, the zip central directory. They must not scan for entries because only the directory specifies where a file chunk starts. Scanning could lead to false positives, as the format doesn't forbid other data to be between chunks, or uncompressed stream containing such signatures.

Note that ZipInputStream scans for entries, not the central directory, which is the problem with it.

Final Edit

If anyone is interested, this script can be used to produce a valid ZIP file that cannot be read by ZipInputStream from an existing ZIP file. So, as a final edit to this closed question, I needed a library that can read files such as the ones produced by this script.

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closed as not a real question by random, Nicol Bolas, Adam Rackis, jmort253, AVD Sep 13 '12 at 9:39

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

In practice I haven't encountered a zipped archive that ZipInputStream could not read. Perhaps it happens, but I'd suggest that it might be a rare occurrence. The only real issue I've noticed with it is that improperly synchronized access to a single ZipInputStream instance can trigger a concurrency exception in native code, which promptly brings the entire JVM crashing to a halt. Note that Java uses these same classes for loading classes out of JAR files, so one would expect them to be fairly robust, when used properly. – aroth Aug 19 '12 at 23:47
Where did you look at the format which suggests that the entry data is optional? Note that the ability for some tools to work with a file doesn't guarantee that it's valid. – Jon Skeet Sep 6 '12 at 5:56
@DanielC.Sobral: I'll edit my answer to address that. It sounds like you're effectively making impossible demands here. – Jon Skeet Sep 8 '12 at 6:37
This deserves reopening, definitely. Its a completely valid question. – Richard J. Ross III Sep 12 '12 at 17:00
@DanielC.Sobral: "I don't have the file I need to decompress to test with ... at which point either my application works, or I'll have to explain myself to the people depending on it." That's the worst development strategy I've ever heard of. People aren't asking for the exact file you'll have in production use; they're asking for a test file. And if you can't get a reasonable test file, then your code will be untested. And if your untested code will truly be used on election night... well, I sincerely hope that any voting system relying on your code isn't in a critical district/state. – Nicol Bolas Sep 13 '12 at 2:46
up vote 18 down vote accepted

EDIT: Another suggestion...

Looking at ZipFile from the Apache Commons implementation, it looks like it wouldn't be too hard to effectively fork that for your project. Create a wrapper around your byte array which has all the pieces of the RandomAccessFile API which are required (I don't think there are very many). You've already indicated that you prefer the interface to ZipFile, so why not go with that?

We don't know enough about your project to know whether this opens up any legal questions - and even if you gave details, I doubt that anyone here would be able to give good legal advice - but I suspect it wouldn't take more than an hour or two to get this solution up and working, and I suspect you'd have reasonable confidence in it.

EDIT: This may be a slightly more productive answer...

If you're worried about the entries not being contiguous, but don't want to handle all the compression side yourself, you might consider an option where you effectively rewrite the data. Create a new ByteArrayOutputStream, and read the central directory at the end. For each entry in the central directory, write out an entry (header + data) to the output stream in a format that you believe ZipInputStream will be happy with. Then write a new central directory - if you want your replacement to be valid you may need to do this from scratch, but if you're using code which you know won't actually read the central directory, you could just provide the original one, ignoring the fact that it might not then be valid. So long as it starts with the right signature, that's probably good enough :)

Once you've done that, convert the ByteArrayOutputStream into a new byte[], wrap it in a ByteArrayInputStream and then pass that to ZipInputStream or ZipArchiveInputStream.

Depending on your purposes, you may not even need to do that much - you may be able to just extract each file as you go by creating a "mini" zip file with just the one entry you're reading from the directory at a time.

This does involve understanding the zip file format, but not completely - just the skeleton, effectively. It's not a quick and easy fix like using an existing API completely, but it shouldn't take very long. It doesn't guarantee it'll be able to read all invalid files (how could it?) but it will protect you against the "data between entries" issue you seem to be particularly concerned about. Hope it's at least a useful idea...

there's no way to say "here's a byte array of a zip file, use it"

Yes there is:

byte[] data = ...;
ByteArrayInputStream byteStream = new ByteArrayInputStream(data);
ZipInputStream zipStream = new ZipInputStream(byteStream);

That leaves the issue of whether ZipInputStream can handle all the zip files you'll give it - but I wouldn't write it off quite so quickly.

Of course, there are other APIs available. You may want to look at Apache Commons Compress, for example. Even though ZipFile requires a file, ZipArchiveInputStream doesn't - so again, you could use a ByteArrayInputStream. EDIT: It looks like ZipArchiveStream doesn't read from the central directory either. I was hoping it would use markSupported to check beforehand, but it appears not to...

EDIT: In the comments on the question, I asked where you'd read that the zip file doesn't have to contain entry data. You quoted wikipedia:

"Tools that correctly read zip archives must scan for the signatures of the various fields, the zip central directory. They must not scan for entries because only the directory specifies where a file chunk starts. Scanning could lead to false positives, as the format doesn't forbid other data to be between chunks, or uncompressed stream containing such signatures."

That's not the same as entry data being optional. It's saying that there may be extra data in awkward places, not that the entries may be missing completely. It's basically saying that the entries shouldn't be assumed to be contiguous. I could happily concede that ZipInputStream may not be reading the central directory at the end of the file, but finding code which does that isn't the same as finding code which copes with entry data not existing.

You then write:

I might further add that whether the zip is valid or not is not my concern. Working with it is.

... which suggests you want code which will handle invalid zip files. Combined with this:

I do not yet have access to the zip files I'll be handling, so I don't know whether I'll be able to handle them through the stream

That means you're asking for code which should handle zip files which are invalid in ways you can't even predict. Just how invalid would it have to be for you to be able to reject it? If I give you 1000 random bytes, with no attempt for them to be a zip file at all, what on earth would you do with it?

Basically, you need to pin the problem down more tightly before it's feasible to even say whether a particular library is a valid solution. It's reasonable to collect a set of zip files from various places, which may be invalid in well-understood ways, and say "I must be able to support all of these." Later you may need to do some work if it turns out that wasn't good enough. But to be able to support anything, however broken, simply isn't a valid requirement.

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I didn't see your edit. I honestly don't know how can I pin the problem down more tightly. I want something that decompresses all valid ZIP files correctly -- which ZIS doesn't. And, yes, if it turns out to be an invalid ZIP file, I'll still have to deal with it, but I'll be in a better position if I don't handicap myself beforehand. – Daniel C. Sobral Sep 13 '12 at 1:50
@DanielC.Sobral: Right, so given the one way you've explained in which ZipInputStream wouldn't handle valid files with extra data between chunks, and the way my edit suggests you handle that, is there any other kind of valid file which you think wouldn't work with the suggestion I've made? – Jon Skeet Sep 13 '12 at 2:29
No, the way you suggest should work. However, I'm asking if there are libraries that do that for me (it's right there, third paragraph), for two reasons: I don't have much time to do that, and I suspect the chance of letting a fatal bug into production doing it myself might be higher than the chance of getting a file ZIS can't handle. TrueZIP, if it works, is a better answer. Someone suggested Common VFS + ZipFile on Twitter, after the question was closed, which is also a pretty good idea. – Daniel C. Sobral Sep 13 '12 at 2:42
@DanielC.Sobral: I've suggested yet another option which might be simpler - see the edit (at the top). One downside of TrueZIP is that it requires Java 7 - are you using Java 7? If it works for you, go for it - I tried reading the documentation and got lost fairly quickly. – Jon Skeet Sep 13 '12 at 2:53

TrueZIP library provides alternative mature zip implementation.

It also features file system abstraction even for HTTP.

For example:

Path path = new TPath(new URI(""));
try (InputStream in = Files.newInputStream(path)) {
    // Read archive entry contents here.

So, if you are interested only in specific entries, it would download them only, saving bandwidth and time. And you would not have to write downloading code.

See also

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Sadly, while this may be a valid answer (I'll go over that faq later), it doesn't really help me, since all my I/O is asynchronous. So, unless it provides an asynchronous I/O interface to replace mine, I can't use it. I'll still accept the answer if it works, though. – Daniel C. Sobral Sep 8 '12 at 0:11

I would use the Apache library commons-compress, see

It has support for reading Zip-files via streams, there is in-depth documentation at for a detailed documentation. It also states some limitations which are inherent in the Zip-Format.

Sample code looks as follows:

ZipArchiveInputStream zip =
    new ZipArchiveInputStream(inputStream);
try {
    ZipArchiveEntry entry = zip.getNextZipEntry();
    while(entry != null) {
        assertEquals("README", entry.getName());
        entry = zip.getNextZipEntry();
} finally {
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Thanks for that link on the Apache Commons, because it expresses correctly the problem of using a stream as a Zip. That is not an inherent limitation of the Zip-Format, but of using Streams to handle the Zip-Format, and that's exactly the limitations I need to get around. – Daniel C. Sobral Sep 11 '12 at 14:56
I think it problems are actually caused by how the zip format is defined,i.e. having some of the information only stored at the end of the file makes it impossible to accurately handle complicated zips without loading the full file first. Apache Compress uses a compromise in that they provide a streaming interface, but sacrifice some features which are rarely used in zips anyway. So if you know the source of the zips you can be sure that such zips do not occur and be fine with Apache commons. – centic Sep 11 '12 at 17:29
Loading the full file first I can do; knowing the source of the zips beforehand I can't -- if I could, I wouldn't be here asking this question, nor would I have offered a bounty on it. – Daniel C. Sobral Sep 13 '12 at 1:54

This question sounds similar to How to create a directory in memory? pseudo file system / virtual directory. Basically, my suggestion is to use a more general solution- an in-memory virtual filesystem (and I don't mean on OS level, like Linux' ramfs/tmpfs).

One example is to use the Java 7 NIO APIs, which now provide an SPI for implementing a file system via FileSystemProvider. It seems that the ShrinkWrap filesystem implements this SPI.

A more accessible option would be to use Apache Commons VFS' ram filesystem: it requires only Java 5. If you need to be compatible with Java 5 and 6, this is probably your best bet.

I first remember reading about in-memory filesystems in Java from this article, which apart from pointing out solutions like Commons VFS and JBoss Microcontainer, gives a nice example use case for the NetBeans IDE.

While an in-memory virtual filesystem is a nice general solution of avoiding the OS-level filesystem (with the associated performance benefits), it probably suffers from other disadvantages, which more specialized solutions could address. For instance, I am not sure how using this filesystem would behave when used concurrently from multiple threads. It might work fine as long as you don't access the same files, or you might need to create separate filesystems (which might be prohibitive in terms of resource usage).

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