singrdk/base/Kernel/Singularity.Io/ConsoleOutput.sg

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///////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: ConsoleOutput.sg
//
// Note:
//
using System;
using System.Text;
using System.Threading;
using System.Runtime.CompilerServices; //StructAlign attribute
using System.Runtime.InteropServices; //structLayout attribute
using System.GCs;
using Microsoft.SingSharp;
using Microsoft.Singularity;
using Microsoft.Singularity.Channels;
using Microsoft.Singularity.Directory;
using Microsoft.Singularity.Io;
using Microsoft.Singularity.Hal;
using Allocation = Microsoft.Singularity.V1.Services.SharedHeapService.Allocation;
namespace Microsoft.Singularity.Io
{
//////////////////////////////////////////////////////////////////////////
//
// The ConsoleOutput class has a single message pump that manages messages
// to/from the "/dev/conout" namespace and incoming play requests.
//
public class ConsoleOutput
{
private static HalScreen! screen;
private static Thread! worker;
private static bool stopWork;
public static void Initialize()
{
screen = (!)Console.Screen;
stopWork = false;
worker = Thread.CreateThread(null, new ThreadStart(Pump));
worker.Start();
}
public static void Finalize()
{
stopWork = true;
worker.Join();
}
public static void Pump()
{
byte[] side = new byte [160];
// Create a ServiceProvider channel
ServiceProviderContract.Imp! imp;
ServiceProviderContract.Exp! sp;
ServiceProviderContract.NewChannel(out imp, out sp);
// Connect the service provider to the namespace.
DirectoryServiceContract.Imp nc = DirectoryService.NewClientEndpoint();
// Register the device using the namespace.
try {
nc.SendRegister(Bitter.FromString2("/dev/conout"), imp);
switch receive {
case nc.AckRegister():
break;
case nc.NakRegister(rejected, error):
DebugStub.Break();
if (rejected != null) {
delete rejected;
}
break;
case unsatisfiable:
DebugStub.Print("unable to register /dev/conout with name service\n");
DebugStub.Break();
delete sp;
return;
}
}
finally {
delete nc;
}
Tracing.Log(Tracing.Audit, "conout Registered");
// create a set of all client endpoints connected to the sound device
ESet<ConsoleDeviceContract.Exp:Ready> clients
= new ESet<ConsoleDeviceContract.Exp:Ready>();
try {
while (!stopWork) {
switch receive {
// Listen for new connections
case sp.Connect(candidate): {
ConsoleDeviceContract.Exp newClient
= candidate as ConsoleDeviceContract.Exp;
if (newClient != null) {
newClient.SendSuccess();
clients.Add(newClient);
sp.SendAckConnect();
}
else {
sp.SendNackConnect(candidate);
}
break;
}
case ep.Clear() in clients: {
screen.Clear();
ep.SendAckClear();
clients.Add(ep); // add client endpoint back into set.
break;
}
case ep.GetDisplayDimensions() in clients: {
int columns, rows;
screen.GetDisplayDimensions(out columns, out rows);
ep.SendDisplayDimensions(columns, rows);
clients.Add(ep);
break;
}
case ep.GetCursorPosition() in clients: {
int column, row;
screen.GetCursorPosition(out column, out row);
ep.SendCursorPosition(column, row);
clients.Add(ep);
break;
}
case ep.SetCursorPosition(column, row) in clients: {
if (screen.SetCursorPosition(column, row)) {
ep.SendAckSetCursorPosition();
}
else {
ep.SendInvalidPosition();
}
clients.Add(ep);
break;
}
case ep.SetCursorSize(cursorSize) in clients:
if (cursorSize == CursorSize.Large) {
screen.SetCursorSizeLarge();
}
else {
screen.SetCursorSizeSmall();
}
ep.SendAckSetCursorSize();
clients.Add(ep);
break;
case ep.Write(buffer, offset, count) in clients: {
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if (buffer != null) {
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if (side.Length < count) {
side = new byte [count];
}
for (int i = 0; i < count; i++) {
side[i] = (byte)buffer[offset + i];
}
screen.Write(side, 0, count);
}
ep.SendAckWrite(buffer);
clients.Add(ep); // add client endpoint back into set.
break;
}
case ep.PutChar(char c) in clients:
screen.PutChar(c);
ep.SendAckPutChar();
clients.Add(ep);
break;
case ep.PutCharAt(char c, int column, int row) in clients:
if (screen.PutCharAt(c, column, row)) {
ep.SendAckPutCharAt();
}
else {
ep.SendInvalidPosition();
}
clients.Add(ep); // add client endpoint back into set.
break;
case ep.ClearCursorToEndOfLine() in clients:
screen.ClearCursorToEndOfLine();
ep.SendAckClearCursorToEndOfLine();
clients.Add(ep);
break;
case ep.CursorFlash() in clients: {
screen.CursorFlash();
ep.SendAckCursorFlash();
clients.Add(ep); // add client endpoint back into set.
break;
}
case ep.CursorHide() in clients: {
screen.CursorHide();
ep.SendAckCursorHide();
clients.Add(ep); // add client endpoint back into set.
break;
}
case ep.CursorShow() in clients: {
screen.CursorShow();
ep.SendAckCursorShow();
clients.Add(ep); // add client endpoint back into set.
break;
}
// Listen for client departure
case ep.ChannelClosed() in clients: {
Tracing.Log(Tracing.Debug, "Client channel closes.");
delete ep;
break;
}
case unsatisfiable: {
Tracing.Log(Tracing.Debug, "Received unknown message.");
DebugStub.Break();
stopWork = true;
break;
}
}
}
}
finally {
Tracing.Log(Tracing.Debug, "conout finished message pump.");
clients.Dispose();
delete sp;
}
Tracing.Log(Tracing.Audit, "Shutdown");
}
}
}