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I created this to test out a parallel extract:

    public static async Task ExtractToDirectoryAsync(this FileInfo file, DirectoryInfo folder)
    {

        ActionBlock<ZipArchiveEntry> block = new ActionBlock<ZipArchiveEntry>((entry) =>
        {
            var path = Path.Combine(folder.FullName, entry.FullName);

            Directory.CreateDirectory(Path.GetDirectoryName(path));
            entry.ExtractToFile(path);

        }, new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = 2 });

        using (var archive = ZipFile.OpenRead(file.FullName))
        {
            foreach (var entry in archive.Entries.Where(e => e.Name != string.Empty))
            {
                block.Post(entry);
            }
            block.Complete();
            await block.Completion;
        }

    }

and the following unit test for testing:

    [TestMethod]
    public async Task ExtractTestAsync()
    {
        if (Resources.LocalExtractFolder.Exists)
            Resources.LocalExtractFolder.Delete(true);
        //  Resources.LocalExtractFolder.Create();
        await Resources.WebsiteZip.ExtractToDirectoryAsync(Resources.LocalExtractFolder);
    }

With MaxDegreeOfParallelism = 1, things work but with 2 it do not.

Test Name:  ExtractTestAsync
Test FullName:  Composite.Azure.Tests.ZipFileTests.ExtractTestAsync
Test Source:    c:\Development\C1\local\CompositeC1\Composite.Azure.Tests\ZipFileTests.cs : line 21
Test Outcome:   Failed
Test Duration:  0:00:02.4138753

Result Message: 
Test method Composite.Azure.Tests.ZipFileTests.ExtractTestAsync threw exception: 
System.IO.InvalidDataException: Unknown block type. Stream might be corrupted.
Result StackTrace:  
at System.IO.Compression.Inflater.Decode()
   at System.IO.Compression.Inflater.Inflate(Byte[] bytes, Int32 offset, Int32 length)
   at System.IO.Compression.DeflateStream.Read(Byte[] array, Int32 offset, Int32 count)
   at System.IO.Stream.InternalCopyTo(Stream destination, Int32 bufferSize)
   at System.IO.Stream.CopyTo(Stream destination)
   at System.IO.Compression.ZipFileExtensions.ExtractToFile(ZipArchiveEntry source, String destinationFileName, Boolean overwrite)
   at System.IO.Compression.ZipFileExtensions.ExtractToFile(ZipArchiveEntry source, String destinationFileName)
   at Composite.Azure.Storage.Compression.ZipArchiveExtensions.<>c__DisplayClass6.<ExtractToDirectoryAsync>b__3(ZipArchiveEntry entry) in c:\Development\C1\local\CompositeC1\Composite.Azure.Storage\Compression\ZipArchiveExtensions.cs:line 37
   at System.Threading.Tasks.Dataflow.ActionBlock`1.ProcessMessage(Action`1 action, KeyValuePair`2 messageWithId)
   at System.Threading.Tasks.Dataflow.ActionBlock`1.<>c__DisplayClass5.<.ctor>b__0(KeyValuePair`2 messageWithId)
   at System.Threading.Tasks.Dataflow.Internal.TargetCore`1.ProcessMessagesLoopCore()
--- End of stack trace from previous location where exception was thrown ---
   at System.Runtime.CompilerServices.TaskAwaiter.ThrowForNonSuccess(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.HandleNonSuccessAndDebuggerNotification(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.GetResult()
   at Composite.Azure.Storage.Compression.ZipArchiveExtensions.<ExtractToDirectoryAsync>d__8.MoveNext() in c:\Development\C1\local\CompositeC1\Composite.Azure.Storage\Compression\ZipArchiveExtensions.cs:line 48
--- End of stack trace from previous location where exception was thrown ---
   at System.Runtime.CompilerServices.TaskAwaiter.ThrowForNonSuccess(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.HandleNonSuccessAndDebuggerNotification(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.GetResult()
   at Composite.Azure.Tests.ZipFileTests.<ExtractTestAsync>d__2.MoveNext() in c:\Development\C1\local\CompositeC1\Composite.Azure.Tests\ZipFileTests.cs:line 25
--- End of stack trace from previous location where exception was thrown ---
   at System.Runtime.CompilerServices.TaskAwaiter.ThrowForNonSuccess(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.HandleNonSuccessAndDebuggerNotification(Task task)
   at System.Runtime.CompilerServices.TaskAwaiter.GetResult()

Update 2

Here is a my own go at doing it parallel, it dont work either :) Remember to handle exceptions in the continueWith.

public static void ExtractToDirectorySemaphore(this FileInfo file, DirectoryInfo folder)
        {

            int MaxDegreeOfParallelism = 2;
            using (var archive = ZipFile.OpenRead(file.FullName))
            {

                var semaphore = new Semaphore(MaxDegreeOfParallelism, MaxDegreeOfParallelism);

                foreach (var entry in archive.Entries.Where(e => e.Name != string.Empty))
                {
                    semaphore.WaitOne();

                    var task = Task.Run(() =>
                    {
                        var path = Path.Combine(folder.FullName, entry.FullName);

                        Directory.CreateDirectory(Path.GetDirectoryName(path));
                        entry.ExtractToFile(path);
                    });
                    task.ContinueWith(handle =>
                    {
                        try
                        {
                            //do any cleanup/post processing
                        }
                        finally
                        {
                            // Release the semaphore so the next thing can be processed
                            semaphore.Release();
                        }
                    });
                }
                while(MaxDegreeOfParallelism-->0)
                    semaphore.WaitOne(); //Wait here until the last task completes.


            }

        }

And here is the async version:

public static Task ExtractToDirectorySemaphoreAsync(this FileInfo file, DirectoryInfo folder)
        {
            return Task.Factory.StartNew(() =>
            {
                int MaxDegreeOfParallelism = 50;
                using (var archive = ZipFile.OpenRead(file.FullName))
                {

                    var semaphore = new Semaphore(MaxDegreeOfParallelism, MaxDegreeOfParallelism);

                    foreach (var entry in archive.Entries.Where(e => e.Name != string.Empty))
                    {
                        semaphore.WaitOne();

                        var task = Task.Run(() =>
                        {
                            var path = Path.Combine(folder.FullName, entry.FullName);

                            Directory.CreateDirectory(Path.GetDirectoryName(path));
                            entry.ExtractToFile(path);
                        });
                        task.ContinueWith(handle =>
                        {
                            try
                            {
                                //do any cleanup/post processing
                            }
                            finally
                            {
                                // Release the semaphore so the next thing can be processed
                                semaphore.Release();
                            }
                        },TaskContinuationOptions.AttachedToParent); // the outher task will wait for all.
                    }

                }
            });
        }

Update 3

The following exceptions is thrown in the handle.Exception.

{"Block length does not match with its complement."}  
[0] = {"A local file header is corrupt."}

Have to find out if ZipFile is thread safe or not.

share|improve this question
    
how much faster is your parallel version than the non parallel one? – Mikeb Apr 24 '13 at 18:43
    
Well, it is for a upload to azure storage, where there will be added alittle more then just extracting the file. But on a simpel extract to folder, it vent from 10sec to 5sec with 2 concurrent tasks. No further benefit for n concurrent tasks. But my zip file is 1500 files from 0-50kb each and a few large ones. The speed up will be more on larger files as it not being limited by context switching. – pksorensen Apr 24 '13 at 18:52
    
I suspect a race condition. Would be interesting to see if your parallel (non-async) version works if the files inside the zip are very large ... like a megabyte or more. Can you test that? Create a zip with a few 1-megabyte files in it? – Jim Mischel Apr 24 '13 at 19:12
7  
The ZipArchiveEntry has a reference back to the ZipFile (so it can extract or delete), so when you call ExtractToFile, you end up using the original ZipFile concurrently on multiple threads, which is not allowed. – Raymond Chen Apr 25 '13 at 14:55
1  
What @RaymondChen said: But as a solution you can make copies of the input stream (meaning some byte[]), create separate ZipFiles, and extract them in parallel then (obviously you need to partition the file entries manually) :) – leppie Apr 25 '13 at 15:04
up vote 2 down vote accepted

Disclamer: Its only a proof of concept.

Replacing ZipFile.OpenRead with ParallelZipFile.OpenRead in the samples in the code all 4 unittests passes.

   public class ParallelZipFile
    {
        public static ParallelZipArchive OpenRead(string path)
        {

            return new ParallelZipArchive(ZipFile.OpenRead(path),path);
        }
    }
    public class ParallelZipArchive : IDisposable
    {
        internal ZipArchive _archive;
        internal string _path;
        internal ConcurrentQueue<ZipArchive> FreeReaders = new ConcurrentQueue<ZipArchive>();

        public ParallelZipArchive(ZipArchive zip,string path)
        {
            _path = path;
            _archive = zip;
            FreeReaders.Enqueue(zip);
        }

        public ReadOnlyCollection<ParallelZipArchiveEntry> Entries
        {
            get
            {
                var list = new List<ParallelZipArchiveEntry>(_archive.Entries.Count);
                int i = 0;
                foreach (var entry in _archive.Entries)
                    list.Add(new ParallelZipArchiveEntry(i++, entry, this));

                return  new ReadOnlyCollection<ParallelZipArchiveEntry>(list);
            }
        }


        public void Dispose()
        {
            foreach (var archive in FreeReaders)
                archive.Dispose();
        }
    }
    public class ParallelZipArchiveEntry
    {
        private ParallelZipArchive _parent;
        private int _entry;
        public string Name { get; set; }
        public string FullName { get; set; }

        public ParallelZipArchiveEntry(int entryNr, ZipArchiveEntry entry, ParallelZipArchive parent)
        {
            _entry = entryNr;
            _parent = parent;
            Name = entry.Name;
            FullName = entry.FullName;
        }

        public void ExtractToFile(string path)
        {
            ZipArchive value;
            Trace.TraceInformation(string.Format("Number of readers: {0}", _parent.FreeReaders.Count));

            if (!_parent.FreeReaders.TryDequeue(out value))
                value = ZipFile.OpenRead(_parent._path);

            value.Entries.Skip(_entry).First().ExtractToFile(path);



            _parent.FreeReaders.Enqueue(value);
        }
    }

unit tests

[TestClass]
    public class ZipFileTests
    {
        [ClassInitialize()]
        public static void PreInitialize(TestContext context)
        {
            if (Resources.LocalExtractFolderTruth.Exists)
                Resources.LocalExtractFolderTruth.Delete(true);

            ZipFile.ExtractToDirectory(Resources.WebsiteZip.FullName, Resources.LocalExtractFolderTruth.FullName);
        }

        [TestInitialize()]
        public void InitializeTests()
        {
            if (Resources.LocalExtractFolder.Exists)
                Resources.LocalExtractFolder.Delete(true);

        }

        [TestMethod]
        public void ExtractTest()
        {

            Resources.WebsiteZip.ExtractToDirectory(Resources.LocalExtractFolder);

            Assert.IsTrue(Helpers.DirectoryTools.CompareDirectories(
                Resources.LocalExtractFolderTruth, Resources.LocalExtractFolder));

        }
        [TestMethod]
        public async Task ExtractAsyncTest()
        {

            await Resources.WebsiteZip.ExtractToDirectoryAsync(Resources.LocalExtractFolder);

            Assert.IsTrue(Helpers.DirectoryTools.CompareDirectories(
               Resources.LocalExtractFolderTruth, Resources.LocalExtractFolder));
        }
        [TestMethod]
        public void ExtractSemaphoreTest()
        {

            Resources.WebsiteZip.ExtractToDirectorySemaphore(Resources.LocalExtractFolder);
            Assert.IsTrue(Helpers.DirectoryTools.CompareDirectories(
               Resources.LocalExtractFolderTruth, Resources.LocalExtractFolder));
        }
        [TestMethod]
        public async Task ExtractSemaphoreAsyncTest()
        {

            await Resources.WebsiteZip.ExtractToDirectorySemaphoreAsync(Resources.LocalExtractFolder);
            Assert.IsTrue(Helpers.DirectoryTools.CompareDirectories(
               Resources.LocalExtractFolderTruth, Resources.LocalExtractFolder));
        }

    }
share|improve this answer

The problem is that you open the file only once with only one handle. One handle has one read position and the read position gets messed up if you do parallel reads on the same handle. Open the file multiple times with multiple handles and you should be fine.

share|improve this answer

I agree with Floste's answer but i suggest a different approach. If your files are like ~50k inside the zip file:

1) Create a queue of byte arrays for each file. 2) Each member of the queue is an extracted zip file entry. 3) Try to extract files from zip file into byte array and when extraction is complete add it to the queue. 4) Extraction thread should be a single thread, no parallelism. 5) While extraction thread is doing its job, create another threads/tasks for emptying the queue. These tasks will take the extracted data from queue and write them to disk. Since they are different files there will be no race condition or unavailable resource.

There might be needed a mutex or lock for the queue. This may not be the best way but i'm sure you'll get some speed.

share|improve this answer

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