singrdk/base/Drivers/VolumeManager/disk.sg

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////////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
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// File: Disk.sg
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//
// Reads and manages volumes and Partitions on the system
//
// Useful links:
// http://www.ata-atapi.com/hiwtab.htm
// http://www.win.tue.nl/~aeb/partitions/
using System;
using System.Collections;
using System.Runtime.InteropServices;
using System.Threading;
using Microsoft.SingSharp;
using Microsoft.Singularity;
using Microsoft.Singularity.Channels;
using Microsoft.Singularity.Directory;
using Microsoft.Singularity.Io;
using Microsoft.Singularity.V1.Services;
using Microsoft.Singularity.V1.Threads;
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namespace Microsoft.Singularity.Services.VolumeManager
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{
[StructLayout(LayoutKind.Sequential, Pack=4)]
internal pointerfree struct PartitionDescriptor
{
public byte BootIndicator;
private byte chsStartHead;
private byte chsStartSector;
private byte chsStartCylinder;
public byte SystemId;
private byte chsEndHead;
private byte chsEndSector;
private byte chsEndCylinder;
private uint leStartSector;
private uint leTotalSector;
private static byte GetChsSector(byte sectorByte)
{
return (byte)(sectorByte & 0x3f);
}
private static ushort GetChsCylinder(byte sectorByte,
byte cylinderByte)
{
return (ushort)
((((int)sectorByte & 0xc0) << 2) + (int)cylinderByte);
}
public byte ChsStartHead
{
get { return chsStartHead; }
}
public byte ChsStartSector
{
get { return GetChsSector(chsStartSector); }
}
public ushort ChsStartCylinder
{
get { return GetChsCylinder(chsStartSector, chsStartCylinder); }
}
public byte ChsEndHead
{
get { return chsEndHead; }
}
public byte ChsEndSector
{
get { return GetChsSector(chsEndSector); }
}
public ushort ChsEndCylinder
{
get { return GetChsCylinder(chsEndSector, chsEndCylinder); }
}
public uint StartSector
{
get { return ByteOrder.LittleEndianToHost(leStartSector); }
set { leStartSector = ByteOrder.HostToLittleEndian(value); }
}
public uint TotalSector
{
get { return ByteOrder.LittleEndianToHost(leTotalSector); }
set { leTotalSector = ByteOrder.HostToLittleEndian(value); }
}
}
public class Disk
{
public const byte SystemIdFat16Extended = 0x05;
public const byte SystemIdFat32ExtendedLba = 0x0f;
public const byte Byte510Signature = 0x55;
public const byte Byte511Signature = 0xaa;
public const int Descriptor0Offset = 0x1be;
public const int DescriptorSize = 16;
public const int DescriptorMax = 4;
public const int BytesPerSector = 512;
private String diskName;
private ArrayList partitions; // Holds boxed PartitionDescriptor's
private TRef<VolumeManagerContract.Exp:Accept> VolExp;
public void MakeTRef([Claims]VolumeManagerContract.Exp:Accept! imp)
requires imp.InState(VolumeManagerContract.Accept.Value);
{
VolExp = new TRef<VolumeManagerContract.Exp:Accept> (imp);
}
public VolumeManagerContract.Exp:Accept! AcquireTRef()
{
assert VolExp != null;
VolumeManagerContract.Exp:Accept exp = VolExp.Acquire();
VolExp = null;
return exp;
}
internal int PartitionCount
{
get { return (partitions == null) ? 0 : partitions.Count; }
}
internal bool GetPartition(int partitionId,
out PartitionDescriptor pd)
{
if (partitions != null && partitionId < partitions.Count) {
pd = (PartitionDescriptor) (!)partitions[partitionId];
return true;
}
pd = new PartitionDescriptor();
return false;
}
private static byte[] in ExHeap
ReadSector(DiskDeviceContract.Imp:Ready! imp, ulong sectorNumber)
{
byte[]! in ExHeap outBuffer = new [ExHeap] byte[BytesPerSector];
imp.SendRead(outBuffer, 0, BytesPerSector, sectorNumber);
switch receive {
case imp.RecvAckRead(inBuffer):
return inBuffer;
case imp.RecvNakRead():
return null;
case imp.ChannelClosed():
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DebugStub.WriteLine("Disk closed channel on volume manager.");
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return null;
}
}
public bool Initialize(string! diskName)
{
this.diskName = diskName;
DiskDeviceContract.Imp imp;
// Open a connection to the disk
imp = OpenDisk(diskName);
if (imp == null) {
return false;
}
byte[] in ExHeap mbrBuffer = ReadSector(imp, 0);
try {
if (mbrBuffer != null) {
try {
partitions = ParseMasterBootRecord(imp, mbrBuffer);
}
finally {
delete mbrBuffer;
}
}
else {
throw new Exception("Didn't get AckRead on MBR");
}
}
finally {
delete imp;
}
return true;
}
public static ArrayList
ParseMasterBootRecord(DiskDeviceContract.Imp:Ready! imp,
byte[]! in ExHeap mbrRecord)
{
// validate signature
Tracing.Log(Tracing.Debug,"Signature = {0:x2}{1:x2}\n",
(UIntPtr)mbrRecord[510], (UIntPtr)mbrRecord[511]);
if (mbrRecord[510] != Byte510Signature ||
mbrRecord[511] != Byte511Signature) {
DebugStub.Print("Bad MBR signature ({0:x2}{1:x2})\n",
__arglist(mbrRecord[510], mbrRecord[511]));
return null; //not found
}
DebugStub.Print("MBR signature ({0:x2}{1:x2})\n",
__arglist(mbrRecord[510], mbrRecord[511]));
ArrayList partitions = new ArrayList(4);
for (int i = 0; i < DescriptorMax; i++) {
ref PartitionDescriptor r = ref mbrRecord[Descriptor0Offset + i * DescriptorSize];
Tracing.Log(Tracing.Debug,
"Partition: boot={0:x2}, StartSector={1}, Total={2}\n",
r.BootIndicator, r.StartSector, r.TotalSector);
DebugStub.Print(" Partition: boot={0:x2}, StartSector={1}, Total={2} (CHS {3}.{4}.{5}--{6}.{7}.{8})\n",
__arglist(r.BootIndicator,
r.StartSector,
r.TotalSector,
r.ChsStartCylinder,
r.ChsStartHead,
r.ChsStartSector,
r.ChsEndCylinder,
r.ChsEndHead,
r.ChsEndSector
));
if (r.SystemId == SystemIdFat16Extended ||
r.SystemId == SystemIdFat32ExtendedLba) {
FetchAndParseExtendedPartition(imp, ref r, partitions);
}
else if (r.TotalSector != 0) {
partitions.Add(r);
}
}
int count = 0;
foreach (Object o in partitions) {
PartitionDescriptor pd = (PartitionDescriptor) (!)o;
// The next non-null cast should be redundant because of
// assertion, but is required to silence compiler.
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DebugStub.WriteLine(" Partition {0}, system={1}, start={2}, count = {3}", __arglist(
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count++,
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pd.SystemId, pd.StartSector, pd.TotalSector));
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}
return partitions;
}
private static void
FetchAndParseExtendedPartition(DiskDeviceContract.Imp:Ready! imp,
ref PartitionDescriptor parent,
ArrayList! partitions)
{
DebugStub.Write(" Extended Partition system={0}, start={1}, count = {2}\n",
__arglist(parent.SystemId,
parent.StartSector,
parent.TotalSector));
byte [] in ExHeap buffer = ReadSector(imp, (ulong)parent.StartSector);
if (buffer != null) {
try {
ParseExtendedPartition(imp, ref parent, buffer, partitions);
}
finally {
delete buffer;
}
}
}
private static void
ParseExtendedPartition(DiskDeviceContract.Imp:Ready! imp,
ref PartitionDescriptor parent,
byte []! in ExHeap sector,
ArrayList! partitions)
{
// Check signature
if (sector[510] != Byte510Signature ||
sector[511] != Byte511Signature) {
DebugStub.Print("Bad Extended Partition signature {0:x2}{1:x2}\n",
__arglist(sector[510], sector[511]));
return;
}
// Check first descriptor matches parent
ref PartitionDescriptor self = ref sector[Descriptor0Offset];
if (self.TotalSector == 0) {
DebugStub.Print("Zero sectors for extended partitions");
return;
}
self.StartSector += parent.StartSector;
partitions.Add(self);
// Check if second descriptor is also an extended partition
ref PartitionDescriptor child = ref sector[Descriptor0Offset + DescriptorSize];
if ((child.SystemId == SystemIdFat32ExtendedLba ||
child.SystemId == SystemIdFat16Extended) &&
child.TotalSector != 0)
{
child.StartSector += parent.StartSector;
FetchAndParseExtendedPartition(imp, ref child, partitions);
}
}
private DiskDeviceContract.Imp:Ready OpenDisk(string! devName)
{
DiskDeviceContract.Exp! exp;
DiskDeviceContract.Imp! imp;
DiskDeviceContract.NewChannel(out imp, out exp);
// get NS endpoint
DirectoryServiceContract.Imp ns = DirectoryService.NewClientEndpoint();
DebugStub.Print("Attempting to bind to {0}\n", __arglist(devName));
bool success = false;
ns.SendBind(Bitter.FromString2(devName),exp);
switch receive {
case ns.AckBind():
DebugStub.Print("VolMgr: Bound to {0}.\n", __arglist(devName));
success = true;
break;
case ns.NakBind(rejected, error):
DebugStub.Print("VolMgr: Failed to bind to {0}.\n", __arglist(devName));
delete rejected;
break;
case unsatisfiable:
throw new Exception("Didn't Disk.RecvAckBind or Disk.RecvNakBind");
break;
}
if (!success) {
Tracing.Log(Tracing.Debug,"OpenDisk lookup of {0} failed\n",devName);
delete imp;
delete ns;
return null;
}
switch receive {
case imp.Success():
break;
case unsatisfiable:
throw new Exception("Didn't Disk.RecvSuccess");
break;
}
delete ns;
return imp;
} //OpenDisk
} //
} //namespace class