singrdk/base/Applications/Network/UdpBlast/UdpBlast.cs

////////////////////////////////////////////////////////////////////////////////
//
//  Microsoft Research Singularity
//
//  Copyright (c) Microsoft Corporation.  All rights reserved.
//
//  Note:   Simple Singularity test program.
//
using System;
using System.Diagnostics;
using System.Net.IP;
using System.Threading;

using Microsoft.Singularity;
using Microsoft.SingSharp;
using Microsoft.Singularity.Channels;
using Microsoft.Singularity.Directory;
using NetStack.Contracts;
using NetStack.Channels.Public;

using Microsoft.Contracts;
using Microsoft.SingSharp.Reflection;
using Microsoft.Singularity.Applications;
using Microsoft.Singularity.Io;
using Microsoft.Singularity.Configuration;
[assembly: Transform(typeof(ApplicationResourceTransform))]

namespace Microsoft.Singularity.Applications.Network
{
    [ConsoleCategory(HelpMessage="Send UDP data to and ipAddress and port",
                     DefaultAction=true)]
    internal class Parameters {
        [InputEndpoint("data")]
        public readonly TRef<UnicodePipeContract.Exp:READY> Stdin;

        [OutputEndpoint("data")]
        public readonly TRef<UnicodePipeContract.Imp:READY> Stdout;

        [Endpoint]
        public readonly TRef<UdpContract.Imp:Start> udpRef;

        [LongParameter("p", Mandatory=false, HelpMessage="Packet size (bytes)", Default = 1500)]
        internal long packetBytes;

        [LongParameter("r", Mandatory=false, HelpMessage="Transmission rate in bits per second", Default = 64000)]
        internal long bitsPerSecond;

        [LongParameter("t", Mandatory=false, HelpMessage="Seconds to send packets for", Default = 30)]
        internal long seconds;

        [BoolParameter("v", Mandatory=false, HelpMessage="Verbose output", Default = true)]
        internal bool verbose;

        [StringParameter("Address", Mandatory=true, Position=0, HelpMessage="Destination IP Address")]
        internal string address;

        [LongParameter("port", Mandatory=true, Position=1, HelpMessage="Destination UDP port")]
        internal long port;

        reflective internal Parameters();

        internal int AppMain() {
            return UdpBlast.AppMain(this);
        }
    }

    public class UdpBlast
    {
        private const uint FixedHeaderBytes = 42; // Ether + IP + UDP

        private static bool verbose;

        public static void VerboseWriteLine(string format,
                                            params Object [] args)
        {
            string msg = String.Format(format, args);
            DebugStub.WriteLine(msg);
            if (verbose) {
                Console.WriteLine(format, args);
            }
        }

        private static void
        SendPackets(
            UdpConnectionContract.Imp:ReadyState! udpConn,
            long   bitsPerSecond,
            uint   bytesPerPacket,
            long   durationSeconds
            )
        {
            DateTime startTime  = DateTime.Now;
            DateTime endTime    = (startTime +
                                   TimeSpan.FromSeconds(durationSeconds));

            DateTime secondStart = startTime;
            DateTime secondEnd   = startTime + TimeSpan.FromSeconds(1);

            DateTime now = startTime;

            uint second         = 0;
            long bitsThisSecond = 0;
            long totalBits      = 0;
            int  totalPackets   = 0;

            VerboseWriteLine("UdpBlast: {0} bytesPerPacket, Limiting transfer to {1} bitsPerSecond, for {2} seconds",
                              bytesPerPacket, bitsPerSecond, durationSeconds);

            while (now < endTime) {
                int pps = 0;

                while (now < secondEnd && bitsThisSecond < bitsPerSecond) {
                    // XXX: Just bursting packets out for
                    // now rather than pacing them,
                    // interested mainly in saturation case.
                    byte[] in ExHeap pkt;
                    uint pktSize;
                    if ((long)bytesPerPacket * 8 < bitsPerSecond - bitsThisSecond) {
                        pktSize = bytesPerPacket;
                    }
                    else {
                        // Send a final runt packet for this cycle to keep us under
                        // the agreed total bits per second rate.
                        pktSize = (uint)((bitsPerSecond - bitsThisSecond) / 8);
                        if (pktSize <= FixedHeaderBytes) {
                            pktSize = FixedHeaderBytes + 1;
                        }
                    }
                    pkt = new [ExHeap] byte [pktSize - FixedHeaderBytes];
                    udpConn.SendWrite(pkt);
                    udpConn.RecvOK();
                    bitsThisSecond += pktSize * 8;
                    now = DateTime.Now;
                    pps++;
                    totalPackets++;
                }

                while (now < secondEnd) {
                    Thread.Sleep(0);
                    now = DateTime.Now;
                }

                TimeSpan tau = secondEnd - secondStart;

                long bytesPerSecond = (bitsThisSecond / tau.TotalSeconds) / 8;

                VerboseWriteLine(
                    "Round {0} duration(secs) {1:f2} rate (pps) {2} rate (bps) {3:e3}, bytes/sec {4:e3}",
                    second, tau.TotalSeconds,
                    pps,
                    bitsThisSecond / tau.TotalSeconds,
                    bytesPerSecond);

                second++;
                totalBits      += bitsThisSecond;
                bitsThisSecond  = 0;
                secondStart     = now;
                secondEnd       = now + TimeSpan.FromSeconds(1);
            }

            Console.WriteLine(
                "Average rate: packets/sec {0}, bits/sec {1:e3}, bytes/sec {2:e3}",
                totalPackets / (now - startTime).TotalSeconds,
                totalBits / (now - startTime).TotalSeconds,
                (totalBits / (now - startTime).TotalSeconds) / 8
                );
        }

        public static int
        Blast(
            [Claims] UdpConnectionContract.Imp:ReadyState! udpConn,
            IPv4   address,
            ushort port,
            long   bitsPerSecond,
            long   bytesPerPacket,
            long   durationSeconds
            )
        {
            Console.WriteLine("UdpBlast({0}, {1})", address, port);

            try {
                udpConn.SendConnectWithAnyLocalEndPoint((uint)address, port);

                switch receive {
                    case udpConn.OK() :
                        // success;
                        Console.WriteLine("Connected");
                        break;

                    case udpConn.InvalidEndPoint(ip, rejectedPort) :
                        throw new Exception("udpConn address and port rejected");

                    case udpConn.ChannelClosed() :
                        throw new Exception("udpConn channel closed");
                }

                SendPackets(udpConn,
                            bitsPerSecond,
                            (uint)bytesPerPacket,
                            durationSeconds);
                Console.WriteLine("Closing connection");

                udpConn.SendClose();
            }
            catch (Exception e) {
                Console.WriteLine("Unexpected exception: {0}", e);
            }
            finally {
                delete udpConn;
            }

            return 0;
        }

        internal static int AppMain(Parameters! config)
        {
            IPv4 host;
            try {
                host = IPv4.Parse(config.address);
            }
            catch (FormatException e) {
                Console.WriteLine("{0}: {1}", e, config.address);
                return -1;
            }

            if (config.port > 65536 || config.port < 0) {
                Console.WriteLine("Port number out of range: {0}", config.port);
                return -1;
            }
            ushort port = (ushort) config.port;

            if ((uint)config.packetBytes < FixedHeaderBytes) {
                Console.WriteLine("Packet size needs to be larger than fixed header size ({0} bytes)", FixedHeaderBytes);
                return -1;
            }

            UdpBlast.verbose = config.verbose;

            UdpContract.Imp udpConn = ((!)config.udpRef).Acquire();
            if (udpConn == null) {
                Console.WriteLine("Could not initialize TCP endpoint.");
                return 1;
            }
            udpConn.RecvReady();

            UdpConnectionContract.Imp! connImp;
            UdpConnectionContract.Exp! connExp;
            UdpConnectionContract.NewChannel(out connImp, out connExp);

            udpConn.SendCreateUdpSession(connExp);
            connImp.RecvReady();
            delete udpConn;

            return Blast(connImp,
                         host, port,
                         config.bitsPerSecond,
                         config.packetBytes,
                         config.seconds
                         );
        }
    } // end class UdpBlast
}
RDK 1.1 2008-03-05 09:52:00 -05:00			`////////////////////////////////////////////////////////////////////////////////`
			`//`
			`// Microsoft Research Singularity`
			`//`
			`// Copyright (c) Microsoft Corporation. All rights reserved.`
			`//`
			`// Note: Simple Singularity test program.`
			`//`
			`using System;`
			`using System.Diagnostics;`
			`using System.Net.IP;`
			`using System.Threading;`

			`using Microsoft.Singularity;`
			`using Microsoft.SingSharp;`
			`using Microsoft.Singularity.Channels;`
			`using Microsoft.Singularity.Directory;`
			`using NetStack.Contracts;`
			`using NetStack.Channels.Public;`

			`using Microsoft.Contracts;`
			`using Microsoft.SingSharp.Reflection;`
			`using Microsoft.Singularity.Applications;`
			`using Microsoft.Singularity.Io;`
			`using Microsoft.Singularity.Configuration;`
			`[assembly: Transform(typeof(ApplicationResourceTransform))]`

RDK 2.0 2008-11-17 18:29:00 -05:00			`namespace Microsoft.Singularity.Applications.Network`
			`{`
RDK 1.1 2008-03-05 09:52:00 -05:00			`[ConsoleCategory(HelpMessage="Send UDP data to and ipAddress and port",`
			`DefaultAction=true)]`
			`internal class Parameters {`
			`[InputEndpoint("data")]`
			`public readonly TRef<UnicodePipeContract.Exp:READY> Stdin;`

			`[OutputEndpoint("data")]`
			`public readonly TRef<UnicodePipeContract.Imp:READY> Stdout;`

			`[Endpoint]`
			`public readonly TRef<UdpContract.Imp:Start> udpRef;`

			`[LongParameter("p", Mandatory=false, HelpMessage="Packet size (bytes)", Default = 1500)]`
			`internal long packetBytes;`

			`[LongParameter("r", Mandatory=false, HelpMessage="Transmission rate in bits per second", Default = 64000)]`
			`internal long bitsPerSecond;`

			`[LongParameter("t", Mandatory=false, HelpMessage="Seconds to send packets for", Default = 30)]`
			`internal long seconds;`

			`[BoolParameter("v", Mandatory=false, HelpMessage="Verbose output", Default = true)]`
			`internal bool verbose;`

			`[StringParameter("Address", Mandatory=true, Position=0, HelpMessage="Destination IP Address")]`
			`internal string address;`

			`[LongParameter("port", Mandatory=true, Position=1, HelpMessage="Destination UDP port")]`
			`internal long port;`

			`reflective internal Parameters();`

			`internal int AppMain() {`
			`return UdpBlast.AppMain(this);`
			`}`
			`}`

			`public class UdpBlast`
			`{`
			`private const uint FixedHeaderBytes = 42; // Ether + IP + UDP`

			`private static bool verbose;`

			`public static void VerboseWriteLine(string format,`
			`params Object [] args)`
			`{`
			`string msg = String.Format(format, args);`
			`DebugStub.WriteLine(msg);`
			`if (verbose) {`
			`Console.WriteLine(format, args);`
			`}`
			`}`

			`private static void`
			`SendPackets(`
			`UdpConnectionContract.Imp:ReadyState! udpConn,`
			`long bitsPerSecond,`
			`uint bytesPerPacket,`
			`long durationSeconds`
			`)`
			`{`
			`DateTime startTime = DateTime.Now;`
			`DateTime endTime = (startTime +`
			`TimeSpan.FromSeconds(durationSeconds));`

			`DateTime secondStart = startTime;`
			`DateTime secondEnd = startTime + TimeSpan.FromSeconds(1);`

			`DateTime now = startTime;`

			`uint second = 0;`
			`long bitsThisSecond = 0;`
			`long totalBits = 0;`
RDK 2.0 2008-11-17 18:29:00 -05:00			`int totalPackets = 0;`

			`VerboseWriteLine("UdpBlast: {0} bytesPerPacket, Limiting transfer to {1} bitsPerSecond, for {2} seconds",`
			`bytesPerPacket, bitsPerSecond, durationSeconds);`
RDK 1.1 2008-03-05 09:52:00 -05:00
			`while (now < endTime) {`
			`int pps = 0;`

			`while (now < secondEnd && bitsThisSecond < bitsPerSecond) {`
			`// XXX: Just bursting packets out for`
			`// now rather than pacing them,`
			`// interested mainly in saturation case.`
			`byte[] in ExHeap pkt;`
			`uint pktSize;`
			`if ((long)bytesPerPacket * 8 < bitsPerSecond - bitsThisSecond) {`
			`pktSize = bytesPerPacket;`
			`}`
			`else {`
RDK 2.0 2008-11-17 18:29:00 -05:00			`// Send a final runt packet for this cycle to keep us under`
			`// the agreed total bits per second rate.`
RDK 1.1 2008-03-05 09:52:00 -05:00			`pktSize = (uint)((bitsPerSecond - bitsThisSecond) / 8);`
			`if (pktSize <= FixedHeaderBytes) {`
			`pktSize = FixedHeaderBytes + 1;`
			`}`
			`}`
			`pkt = new [ExHeap] byte [pktSize - FixedHeaderBytes];`
			`udpConn.SendWrite(pkt);`
			`udpConn.RecvOK();`
			`bitsThisSecond += pktSize * 8;`
			`now = DateTime.Now;`
			`pps++;`
RDK 2.0 2008-11-17 18:29:00 -05:00			`totalPackets++;`
RDK 1.1 2008-03-05 09:52:00 -05:00			`}`

			`while (now < secondEnd) {`
			`Thread.Sleep(0);`
			`now = DateTime.Now;`
			`}`

			`TimeSpan tau = secondEnd - secondStart;`
RDK 2.0 2008-11-17 18:29:00 -05:00
			`long bytesPerSecond = (bitsThisSecond / tau.TotalSeconds) / 8;`

RDK 1.1 2008-03-05 09:52:00 -05:00			`VerboseWriteLine(`
RDK 2.0 2008-11-17 18:29:00 -05:00			`"Round {0} duration(secs) {1:f2} rate (pps) {2} rate (bps) {3:e3}, bytes/sec {4:e3}",`
RDK 1.1 2008-03-05 09:52:00 -05:00			`second, tau.TotalSeconds,`
			`pps,`
RDK 2.0 2008-11-17 18:29:00 -05:00			`bitsThisSecond / tau.TotalSeconds,`
			`bytesPerSecond);`

RDK 1.1 2008-03-05 09:52:00 -05:00			`second++;`
			`totalBits += bitsThisSecond;`
			`bitsThisSecond = 0;`
			`secondStart = now;`
			`secondEnd = now + TimeSpan.FromSeconds(1);`
			`}`

			`Console.WriteLine(`
RDK 2.0 2008-11-17 18:29:00 -05:00			`"Average rate: packets/sec {0}, bits/sec {1:e3}, bytes/sec {2:e3}",`
			`totalPackets / (now - startTime).TotalSeconds,`
			`totalBits / (now - startTime).TotalSeconds,`
			`(totalBits / (now - startTime).TotalSeconds) / 8`
RDK 1.1 2008-03-05 09:52:00 -05:00			`);`
			`}`

			`public static int`
			`Blast(`
			`[Claims] UdpConnectionContract.Imp:ReadyState! udpConn,`
			`IPv4 address,`
			`ushort port,`
			`long bitsPerSecond,`
			`long bytesPerPacket,`
			`long durationSeconds`
			`)`
			`{`
			`Console.WriteLine("UdpBlast({0}, {1})", address, port);`

			`try {`
			`udpConn.SendConnectWithAnyLocalEndPoint((uint)address, port);`

			`switch receive {`
			`case udpConn.OK() :`
			`// success;`
			`Console.WriteLine("Connected");`
			`break;`

			`case udpConn.InvalidEndPoint(ip, rejectedPort) :`
			`throw new Exception("udpConn address and port rejected");`

			`case udpConn.ChannelClosed() :`
			`throw new Exception("udpConn channel closed");`
			`}`

			`SendPackets(udpConn,`
			`bitsPerSecond,`
			`(uint)bytesPerPacket,`
			`durationSeconds);`
			`Console.WriteLine("Closing connection");`

			`udpConn.SendClose();`
			`}`
			`catch (Exception e) {`
			`Console.WriteLine("Unexpected exception: {0}", e);`
			`}`
			`finally {`
			`delete udpConn;`
			`}`

			`return 0;`
			`}`

			`internal static int AppMain(Parameters! config)`
			`{`
			`IPv4 host;`
			`try {`
			`host = IPv4.Parse(config.address);`
			`}`
			`catch (FormatException e) {`
			`Console.WriteLine("{0}: {1}", e, config.address);`
			`return -1;`
			`}`

RDK 2.0 2008-11-17 18:29:00 -05:00			`if (config.port > 65536 \|\| config.port < 0) {`
RDK 1.1 2008-03-05 09:52:00 -05:00			`Console.WriteLine("Port number out of range: {0}", config.port);`
			`return -1;`
			`}`
			`ushort port = (ushort) config.port;`

			`if ((uint)config.packetBytes < FixedHeaderBytes) {`
			`Console.WriteLine("Packet size needs to be larger than fixed header size ({0} bytes)", FixedHeaderBytes);`
			`return -1;`
			`}`

			`UdpBlast.verbose = config.verbose;`

			`UdpContract.Imp udpConn = ((!)config.udpRef).Acquire();`
			`if (udpConn == null) {`
			`Console.WriteLine("Could not initialize TCP endpoint.");`
			`return 1;`
			`}`
			`udpConn.RecvReady();`

			`UdpConnectionContract.Imp! connImp;`
			`UdpConnectionContract.Exp! connExp;`
			`UdpConnectionContract.NewChannel(out connImp, out connExp);`

			`udpConn.SendCreateUdpSession(connExp);`
			`connImp.RecvReady();`
			`delete udpConn;`

			`return Blast(connImp,`
			`host, port,`
			`config.bitsPerSecond,`
			`config.packetBytes,`
			`config.seconds`
			`);`
			`}`
			`} // end class UdpBlast`
			`}`