singrdk/base/Kernel/Singularity.Hal.ApicPC/Hpet.cs

213 lines
6.3 KiB
C#

///////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: Hpet.cs
//
//
// Note:
// Based on IA-PC HPET (High Precision Event Timers) Specification
// Revision 1.0, June 2004.
//
// The HPET code includes unchecked I/O memory operations so
// methods can be marked as NoHeapAllocation. CreateDevice()
// must verify that there is at least enough memory for the
// MainTimer.
namespace Microsoft.Singularity.Hal
{
using Microsoft.Singularity.Io;
using Microsoft.Singularity.Configuration;
using System;
using System.Runtime.CompilerServices;
internal struct HpetTimerCaps
{
internal const uint FsbDelivery = 1u << 15;
internal const uint Width64 = 1u << 5;
internal const uint PeriodicSupport = 1u << 4;
internal const uint Mask = FsbDelivery | Width64 | PeriodicSupport;
}
internal struct HpetTimerConf
{
internal const uint LevelTriggered = 1u << 1;
internal const uint InterruptEnable = 1u << 2;
internal const uint PeriodicMode = 1u << 3;
internal const uint Force32Bit = 1u << 8;
}
[DriverCategory]
[Signature("/pnp/PNP0103")]
public sealed class HpetResources : DriverCategoryDeclaration
{
[IoMemoryRange(0, Default = 0, Length = 0x400)]
public IoMemoryRange mem1;
}
internal sealed class Hpet : IDevice
{
private PnpConfig config;
private IoMemory region;
private const int MainCounterOffset = 0xf0;
internal const int MinRegionBytes = 0xf8;
uint periodFs; // femtoseconds
uint capabilities; // bits 0-31 at offset 0
internal Hpet(PnpConfig config)
{
this.config = config;
IoMemoryRange imr = (IoMemoryRange) config.DynamicRanges[0];
this.region = imr.MemoryAtOffset(0, (int) imr.Length.ToUInt32(),
Access.ReadWrite);
capabilities = region.Read32(0x00);
periodFs = region.Read32(0x04);
// Disable interrupts on timers
for (uint i = 0; i <= MaxCounterIndex; i++) {
DisableInterrupt(i);
}
uint gc = region.Read32(0x10) & ~3u; // Clear legacy bits
region.Write32(0x10, gc | 1); // Enable main counter
}
void IDevice.Initialize()
{
}
void IDevice.Finalize()
{
}
/// <summary> Period in femptoseconds (10^-15) </summary>
internal uint PeriodFs
{
[NoHeapAllocation]
get { return periodFs; }
}
internal ushort VendorId
{
[NoHeapAllocation]
get { return (ushort) (capabilities >> 16); }
}
internal uint Width
{
[NoHeapAllocation]
get { return ((capabilities & 0x2000) != 0) ? 64u : 32u; }
}
internal uint MaxCounterIndex
{
[NoHeapAllocation]
get { return ((capabilities >> 8) & 0xf); }
}
internal uint AvailableCounters
{
[NoHeapAllocation]
get { return MaxCounterIndex + 1; }
}
internal uint Revision
{
[NoHeapAllocation]
get { return capabilities & 0xff; }
}
internal ulong MainCounterValue
{
[NoHeapAllocation]
get {
ulong value;
uint hi;
do {
IoResult r;
r = region.Read64NoThrow(MainCounterOffset, out value);
DebugStub.Assert(IoResult.Success == r);
r = region.Read32NoThrow(MainCounterOffset + 4, out hi);
DebugStub.Assert(IoResult.Success == r);
} while ((uint)(value >> 32) != hi);
return value;
}
}
internal uint MainCounterValue32
{
[NoHeapAllocation]
get {
uint value;
IoResult r = region.Read32NoThrow(MainCounterOffset,
out value);
DebugStub.Assert(IoResult.Success == r);
return value;
}
}
[NoHeapAllocation]
internal void ClearInterrupt(uint timer)
{
if (timer <= MaxCounterIndex) {
uint value;
IoResult result = region.Read32NoThrow(0x20, out value);
DebugStub.Assert(IoResult.Success == result);
value = value & ~(1u << (int)timer);
result = region.Write32NoThrow(0x20, value);
DebugStub.Assert(IoResult.Success == result);
}
}
[NoHeapAllocation]
private int TimerOffset(uint timer)
{
return 0x100 + 0x20 * (int)timer;
}
internal void DisableInterrupt(uint timer)
{
if (timer <= MaxCounterIndex) {
uint m = region.Read32(TimerOffset(timer));
m &= ~HpetTimerConf.InterruptEnable;
region.Write32(TimerOffset(timer), m);
}
}
internal static IDevice CreateDevice(IoConfig config, string name)
{
PnpConfig pnpConfig = config as PnpConfig;
if (pnpConfig == null) {
return null;
}
IoMemoryRange imr = config.DynamicRanges[0] as IoMemoryRange;
if (imr == null) {
return null;
}
int imrBytes = (int)imr.Length.ToUInt32();
if (imrBytes < Hpet.MinRegionBytes) {
DebugStub.Write(
"HPET failed as region too small ({0} bytes).\n",
__arglist(imrBytes));
return null;
}
Hpet hpet = new Hpet(pnpConfig);
HalDevices.SwitchToHpetClock(hpet);
return hpet;
}
}
}