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Wondering if this is implemented sufficiently and efficiently. Trying to get the most speed out of this I can but I feel that I have not implemented this as best as possible. Here is the code snippet. If I tweak the .Buffer() call and only use 1 (simulating a single thread) it takes longer. If I set the buffer to 9 (based on #of cores + 1) it's much faster. However, I was under the impression that async would be faster than multi-threading.... doesn't seem to be working here.

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using System.Security.Cryptography;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
using System.Data;
using System.Data.Sql;
using System.Data.SqlClient;
using CryptSharp.Utility;
using CryptSharp; // CryptSharp Lib in NuGet
using System.Reactive;
using System.Reactive.Linq;
using System.Reactive.Concurrency;
using System.Reactive.Linq.ObservĪ±ble;
using System.Reactive.PlatformServices;

namespace ConsoleApplication1
    internal class Program
        private static void Main(string[] args)
            const bool dispalyOutput = true;
            Console.WriteLine("Main thread id: {0}", Thread.CurrentThread.ManagedThreadId);
            // if the bugger is adjusted then it will create threads via .net TPL Parallel foreach
            var o = (from num in Enumerable.Range(1, 1000) select num).ToObservable(Scheduler.Default).Buffer(32);

            var w = Stopwatch.StartNew();

            o.SubscribeOn(Scheduler.Default).ObserveOn(Scheduler.Default).Subscribe(n =>
                            Parallel.ForEach(n, chunk =>
                            using (new SimultaneousDelegateCheck(false))
                                var crypto =  GetCrypto(chunk.ToString());
                                if (dispalyOutput)
                                    if (chunk%10 == 0)
                                        Console.WriteLine("Hash|{0} Tid:{1}: {2}", chunk,
                                                          Thread.CurrentThread.ManagedThreadId, crypto.Result);
                        (n) => Console.WriteLine("Error: {0}", n.Message),
                        () =>
                            Console.WriteLine("Total time: {0}", w.Elapsed);

            Console.WriteLine("Main thread finished in {0}", w.Elapsed);
            Console.WriteLine("Finished (called before anon delegate runs above)");

        static async Task<string> GetCrypto(string s)
            //var crypto = Task.Run(() => s.CryptSharpSHA256Hash());  // requires CryptSharp lib from Nuget
            var crypto = Task.Run(() => s.Hash(new SHA256Managed()));
            //var crypto = Task.Run(() => s.Hash(new SHA256CryptoServiceProvider()));

            //var crypto = Task.Factory.StartNew(() => s.CryptSharpSHA256Hash());  // requires CryptSharp lib from Nuget
            //var crypto = Task.Run(() => s.Hash(new SHA256Managed()));
            //var crypto = Task.Run(() => s.Hash(new SHA256CryptoServiceProvider()));
            return await crypto;

    public static class HashExtension
        public static string CryptSharpScryptHash(this string input)
            throw new NotImplementedException("don't do that");

        public static string CryptSharpSHA256Hash(this string input)
            return Crypter.Sha256.Crypt(input);

        public static string Hash(this string input, HashAlgorithm algorithm = null)
                algorithm=new SHA256Managed();

            var inputBytes = Encoding.UTF8.GetBytes(input);
            // Combine salt and input bytes
            var salt = "hashsalt".GetBytes();
            var saltedInput = new Byte[salt.Length + inputBytes.Length];
            salt.CopyTo(saltedInput, 0);
            inputBytes.CopyTo(saltedInput, salt.Length);
            var hashedBytes = algorithm.ComputeHash(inputBytes);

            return BitConverter.ToString(hashedBytes).Replace("-", "");
            //return Convert.ToBase64String(hashedBytes);

        public static byte[] GetBytes(this string str)
            byte[] bytes = new byte[str.Length * sizeof(char)];
            System.Buffer.BlockCopy(str.ToCharArray(), 0, bytes, 0, bytes.Length);
            return bytes;

        public static string GetString(this byte[] bytes)
            char[] chars = new char[bytes.Length / sizeof(char)];
            System.Buffer.BlockCopy(bytes, 0, chars, 0, bytes.Length);
            return new string(chars);

    public class SimultaneousDelegateCheck : IDisposable
        private static int _delegateCount = 0;
        public void Dispose()
            Interlocked.Decrement(ref _delegateCount);

        public SimultaneousDelegateCheck(bool display = true)
            var usage = 0;
            if ((usage = Interlocked.Increment(ref _delegateCount)) == 1) return;
                Console.WriteLine("threads:{0}", _delegateCount);
share|improve this question
The calls to ObserveOn and SubscribeOn are redundant and should not be used. If you read the [Rx design guidelines](, there is a section regarding these calls giving more information on the impact of using them. Also, the await keyword should be used outside the method which returns a task. There is no point on waiting on a Task before returning from the method which creates it. That removes all control to the caller regarding when it want to await for the result. – Pedro Pombeiro May 25 '13 at 21:50
I would expect that a CPU bound problem like calculating a hash would see improvements if run multi-threaded. Maybe you are confusing Async with IO bound operations that are often exposed via Async? – Lee Campbell May 28 '13 at 11:31
Well, I guess this was more an example to learn about async ops w/ Rx. But also, was thinking of using them for ajax calls or to allow the UI thread to be more responsive while running a bigger CPU intense calculation. – bbqchickenrobot May 28 '13 at 20:05

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