singrdk/base/Kernel/Singularity.Drivers/PciBus.cs

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////////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: PciBus.cs
//
// Note:
//
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#define VERBOSE
//#define DEBUG_PCI_BUS
//#define DONT_USE_PNP_FOR_PCI
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using Microsoft.Singularity.Channels;
using Microsoft.Singularity.Io;
using Microsoft.Singularity.Configuration;
using System;
using System.Collections;
using System.Text;
using System.Configuration.Assemblies;
using System.Runtime.Remoting;
using System.Runtime.InteropServices;
using System.Runtime.CompilerServices;
namespace Microsoft.Singularity.Drivers
{
// create the resource object for CTR to fill in
[DriverCategory]
[Signature("/pnp/PNP0A03")]
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[Signature("/pnp/PNP0A08")]
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[EnumeratesDevice("pci/...")]
internal class PciBusResources : DriverCategoryDeclaration
{
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[IoFixedPortRange(Base = 0x0cf8, Length = 0x08, Shared = true)]
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IoPortRange configPort;
// Provide to unify creation.
public static IDevice! DeviceCreate(IoConfig! config, String! instanceName)
{
Tracing.Log(Tracing.Debug, "Creating PCI Bus");
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PciBus pciBus = new PciBus(PciEnumerator.GetEnumerator(config));
#if VERBOSE
DebugStub.WriteLine("Displaying PCI Enumeration:");
pciBus.Display();
DebugStub.WriteLine("PCI Enumeration End.");
#endif
return pciBus;
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}
}
[CLSCompliant(false)]
public class PciBus : IBusDevice
{
private PciEnumerator! enumerator;
static ushort IdentifierFromUnits(uint nBus, uint nDevice, uint nFunction)
{
return (ushort)(nFunction | (nDevice << 3) | (nBus << 8));
}
public PciBus(PciEnumerator! enumerator)
{
this.enumerator = enumerator;
}
public void Initialize()
{
Tracing.Log(Tracing.Debug, "Initializing PciBus.");
}
public void Finalize()
{
}
public SortedList Enumerate()
{
return enumerator.Enumerate();
}
public void Display()
{
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SortedList sl = enumerator.Enumerate();
for ( int i = 0; i < sl.Count; i++ ) {
object o = sl.GetByIndex(i);
PciConfig config = o as PciConfig;
if (config == null) {
DebugStub.Break();
}
else {
string str = sl.GetKey(i) as string;
DebugStub.Write("{0}: ",__arglist(str));
config.Print();
}
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}
}
}
[CLSCompliant(false)]
public class PciEnumerator
{
public const uint MAX_BUSES = 256;
public const uint MAX_DEVICES = 32;
public const uint MAX_FUNCTIONS = 8;
public const uint MAX_IDENTIFIER = (MAX_BUSES * MAX_DEVICES * MAX_FUNCTIONS) - 1;
private const ushort PCI_ADDRESS_PORT = 0xcf8;
private const ushort PCI_DATA_PORT = 0xcfc;
private IoPort! addressPort;
private IoPort! dataPort;
static ushort IdentifierFromUnits(uint nBus, uint nDevice, uint nFunction)
{
return (ushort)(nFunction | (nDevice << 3) | (nBus << 8));
}
public static PciEnumerator GetEnumerator(IoConfig config)
{
#if DONT_USE_PNP_FOR_PCI
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if (config != null && config.FixedRanges != null &&
config.FixedRanges.Length >= 1 && config.FixedRanges[0] != null &&
config.FixedRanges[0] is IoPortRange) {
IoPortRange ports = (IoPortRange)config.FixedRanges[0];
if(ports != null) {
IoPort addrPort = ports.PortAtOffset(0, 4, Access.Write);
IoPort dataPort = ports.PortAtOffset(4, 4, Access.ReadWrite);
return new PciEnumerator(addrPort, dataPort);
}
else {
DebugStub.WriteLine("PciBus: config != null but ports == null\n");
DebugStub.Break();
}
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}
else {
#endif
IoPortRange dev = new IoPortRange(PCI_ADDRESS_PORT, 8, Access.ReadWrite);
return new PciEnumerator(dev.PortAtOffset(0, 4, Access.Write),
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dev.PortAtOffset(4, 4, Access.ReadWrite));
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#if DONT_USE_PNP_FOR_PCI
}
#endif
}
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private PciEnumerator(IoPort! addressPort, IoPort! dataPort)
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{
this.addressPort = addressPort;
this.dataPort = dataPort;
}
private uint Read32(uint identifier, uint offset)
{
if (identifier < 0 || identifier > MAX_IDENTIFIER) {
throw new OverflowException("BAD_IDENTIFIER");
}
if ((offset & 0x3) != 0) {
throw new Exception("BAD_OFFSET");
}
uint config = (((uint)offset & 0xfc) |
((uint)identifier << 8) |
((uint)1 << 31));
addressPort.Write32(config);
return dataPort.Read32();
}
private void Write32(uint identifier, uint offset, uint value)
{
if (identifier < 0 || identifier > MAX_IDENTIFIER) {
throw new OverflowException("BAD_IDENTIFIER");
}
if ((offset & 0x3) != 0) {
throw new Exception("BAD_OFFSET");
}
uint config = (((uint)offset & 0xfc) |
((uint)identifier << 8) |
((uint)1 << 31));
addressPort.Write32(config);
dataPort.Write32(value);
}
private PciPort PortForIdentifier(uint identifier)
{
if (identifier < 0 || identifier > MAX_IDENTIFIER) {
throw new OverflowException("BAD_IDENTIFIER");
}
return new PciPort(addressPort, dataPort, (ushort)identifier);
}
public SortedList! Enumerate()
{
Tracing.Log(Tracing.Debug, "PCI Bus Enumerate");
SortedList found = new SortedList();
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for (uint bus = 0; bus < MAX_BUSES; bus++) {
bool hadDevices = false;
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for (uint device = 0; device < MAX_DEVICES; device++) {
PciConfig config;
uint identifier = IdentifierFromUnits(bus, device, 0);
uint u = Read32(identifier, 0);
if (u == ~0u || u == 0) {
continue;
}
u = Read32(identifier, 0x0c);
uint max_functions = (u & PciConfig.PCI_MULTIFUNCTION) == 0
? (uint)1 : MAX_FUNCTIONS;
#if DEBUG_PCI_BUS
Tracing.Log(Tracing.Debug, " {0}.{1}:C => max={2} [{3:x8}]",
bus, device, max_functions, u);
#endif
for (uint function = 0; function < max_functions; function++) {
identifier = IdentifierFromUnits(bus, device, function);
u = Read32(identifier, 0);
#if DEBUG_PCI_BUS
Tracing.Log(Tracing.Debug, " {0}.{1}.{2}:0 => {3:x8}",
bus, device, function, u);
#endif
if (u == ~0u || u == 0) {
continue;
}
u = Read32(identifier, 0x0c);
#if DEBUG_PCI_BUS
Tracing.Log(Tracing.Debug, " {0}.{1}.{2}:C => {3:x8}",
bus, device, function, u);
#endif
switch (u & PciConfig.PCI_TYPE_MASK) {
case PciConfig.PCI_DEVICE_TYPE:
config = new PciDeviceConfig(PortForIdentifier(identifier));
break;
case PciConfig.PCI_BRIDGE_TYPE:
config = new PciBridgeConfig(PortForIdentifier(identifier));
break;
case PciConfig.PCI_CARDBUS_TYPE:
config = new PciCardbusConfig(PortForIdentifier(identifier));
break;
default:
config = null;
break;
}
if (config != null) {
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if (((config.VendorId == 0x8086) && (config.DeviceId == 0x269E)) ||
((config.VendorId == 0x8086) && (config.DeviceId == 0x2681))) {
//
// TEMP: Do not enumerate Intel SATA controllers on the Dell Precision 490.
// This needs to be removed when we have real drivers for them.
//
}
else if ((config.VendorId == 0x8086) &&
(config.DeviceId >= 0x27C0) &&
(config.DeviceId <= 0x27C6)) {
//
// TEMP: Do not enumerate Intel SATA controllers on the Dell Precision 380.
// This needs to be removed when we have real drivers for them.
//
}
else {
found.Add(String.Format("/bus{0,4:x4}/dev{1,4:x4}/func{2,4:x4}",
bus, device, function),
config);
hadDevices = true;
}
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}
}
}
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if (!hadDevices) {
break;
}
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}
return found;
}
}
}