reactos/drivers/bus/pcix/pci/ppbridge.c
Pierre Schweitzer 321bcc056d Create the AHCI branch for Aman's work
svn path=/branches/GSoC_2016/AHCI/; revision=71203
2016-04-24 20:17:09 +00:00

771 lines
27 KiB
C

/*
* PROJECT: ReactOS PCI Bus Driver
* LICENSE: BSD - See COPYING.ARM in the top level directory
* FILE: drivers/bus/pci/pci/ppbridge.c
* PURPOSE: PCI-to-PCI Bridge Support
* PROGRAMMERS: ReactOS Portable Systems Group
*/
/* INCLUDES *******************************************************************/
#include <pci.h>
#define NDEBUG
#include <debug.h>
/* FUNCTIONS ******************************************************************/
ULONG
NTAPI
PciBridgeIoBase(IN PPCI_COMMON_HEADER PciData)
{
BOOLEAN Is32Bit;
ULONG Base, IoBase;
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Get the base */
Base = PciData->u.type1.IOLimit;
/* Low bit specifies 32-bit address, top bits specify the base */
Is32Bit = (Base & 0xF) == 1;
IoBase = (Base & 0xF0) << 8;
/* Is it 32-bit? */
if (Is32Bit)
{
/* Read the upper 16-bits from the other register */
IoBase |= PciData->u.type1.IOBaseUpper16 << 16;
ASSERT(PciData->u.type1.IOLimit & 0x1);
}
/* Return the base address */
return IoBase;
}
ULONG
NTAPI
PciBridgeIoLimit(IN PPCI_COMMON_HEADER PciData)
{
BOOLEAN Is32Bit;
ULONG Limit, IoLimit;
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Get the limit */
Limit = PciData->u.type1.IOLimit;
/* Low bit specifies 32-bit address, top bits specify the limit */
Is32Bit = (Limit & 0xF) == 1;
IoLimit = (Limit & 0xF0) << 8;
/* Is it 32-bit? */
if (Is32Bit)
{
/* Read the upper 16-bits from the other register */
IoLimit |= PciData->u.type1.IOLimitUpper16 << 16;
ASSERT(PciData->u.type1.IOBase & 0x1);
}
/* Return the I/O limit */
return IoLimit | 0xFFF;
}
ULONG
NTAPI
PciBridgeMemoryBase(IN PPCI_COMMON_HEADER PciData)
{
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Return the memory base */
return (PciData->u.type1.MemoryBase << 16);
}
ULONG
NTAPI
PciBridgeMemoryLimit(IN PPCI_COMMON_HEADER PciData)
{
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Return the memory limit */
return (PciData->u.type1.MemoryLimit << 16) | 0xFFFFF;
}
PHYSICAL_ADDRESS
NTAPI
PciBridgePrefetchMemoryBase(IN PPCI_COMMON_HEADER PciData)
{
BOOLEAN Is64Bit;
LARGE_INTEGER Base;
USHORT PrefetchBase;
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Get the base */
PrefetchBase = PciData->u.type1.PrefetchBase;
/* Low bit specifies 64-bit address, top bits specify the base */
Is64Bit = (PrefetchBase & 0xF) == 1;
Base.LowPart = ((PrefetchBase & 0xFFF0) << 16);
/* Is it 64-bit? */
if (Is64Bit)
{
/* Read the upper 32-bits from the other register */
Base.HighPart = PciData->u.type1.PrefetchBaseUpper32;
}
/* Return the base */
return Base;
}
PHYSICAL_ADDRESS
NTAPI
PciBridgePrefetchMemoryLimit(IN PPCI_COMMON_HEADER PciData)
{
BOOLEAN Is64Bit;
LARGE_INTEGER Limit;
USHORT PrefetchLimit;
ASSERT(PCI_CONFIGURATION_TYPE(PciData) == PCI_BRIDGE_TYPE);
/* Get the base */
PrefetchLimit = PciData->u.type1.PrefetchLimit;
/* Low bit specifies 64-bit address, top bits specify the limit */
Is64Bit = (PrefetchLimit & 0xF) == 1;
Limit.LowPart = (PrefetchLimit << 16) | 0xFFFFF;
/* Is it 64-bit? */
if (Is64Bit)
{
/* Read the upper 32-bits from the other register */
Limit.HighPart = PciData->u.type1.PrefetchLimitUpper32;
}
/* Return the limit */
return Limit;
}
ULONG
NTAPI
PciBridgeMemoryWorstCaseAlignment(IN ULONG Length)
{
ULONG Alignment;
ASSERT(Length != 0);
/* Start with highest alignment (2^31) */
Alignment = 0x80000000;
/* Keep dividing until we reach the correct power of two */
while (!(Length & Alignment)) Alignment >>= 1;
/* Return the alignment */
return Alignment;
}
BOOLEAN
NTAPI
PciBridgeIsPositiveDecode(IN PPCI_PDO_EXTENSION PdoExtension)
{
/* Undocumented ACPI Method PDEC to get positive decode settings */
return PciIsSlotPresentInParentMethod(PdoExtension, 'CEDP');
}
BOOLEAN
NTAPI
PciBridgeIsSubtractiveDecode(IN PPCI_CONFIGURATOR_CONTEXT Context)
{
PPCI_COMMON_HEADER Current, PciData;
PPCI_PDO_EXTENSION PdoExtension;
/* Get pointers from context */
Current = Context->Current;
PciData = Context->PciData;
PdoExtension = Context->PdoExtension;
/* Only valid for PCI-to-PCI bridges */
ASSERT((Current->BaseClass == PCI_CLASS_BRIDGE_DEV) &&
(Current->SubClass == PCI_SUBCLASS_BR_PCI_TO_PCI));
/* Check for hacks first, then check the ProgIf of the bridge */
if (!(PdoExtension->HackFlags & PCI_HACK_SUBTRACTIVE_DECODE) &&
(Current->ProgIf != 1) &&
((PciData->u.type1.IOLimit & 0xF0) == 0xF0))
{
/* A subtractive decode bridge would have a ProgIf 1, and no I/O limit */
DPRINT("Subtractive decode does not seem to be enabled\n");
return FALSE;
}
/*
* Check for Intel ICH PCI-to-PCI (i82801) bridges (used on the i810,
* i820, i840, i845 Chipsets) that have subtractive decode broken.
*/
if (((PdoExtension->VendorId == 0x8086) &&
((PdoExtension->DeviceId == 0x2418) ||
(PdoExtension->DeviceId == 0x2428) ||
(PdoExtension->DeviceId == 0x244E) ||
(PdoExtension->DeviceId == 0x2448))) ||
(PdoExtension->HackFlags & PCI_HACK_BROKEN_SUBTRACTIVE_DECODE))
{
/* Check if the ACPI BIOS says positive decode should be enabled */
if (PciBridgeIsPositiveDecode(PdoExtension))
{
/* Obey ACPI */
DPRINT1("Putting bridge in positive decode because of PDEC\n");
return FALSE;
}
}
/* If we found subtractive decode, we'll need a resource update later */
DPRINT1("PCI : Subtractive decode on 0x%x\n", Current->u.type1.SecondaryBus);
PdoExtension->UpdateHardware = TRUE;
return TRUE;
}
VOID
NTAPI
PPBridge_SaveCurrentSettings(IN PPCI_CONFIGURATOR_CONTEXT Context)
{
NTSTATUS Status;
PCM_PARTIAL_RESOURCE_DESCRIPTOR CmDescriptor;
PIO_RESOURCE_DESCRIPTOR IoDescriptor;
PPCI_FUNCTION_RESOURCES Resources;
PCI_COMMON_HEADER BiosData;
PPCI_COMMON_HEADER Current;
PPCI_COMMON_CONFIG SavedConfig;
ULONG i, Bar, BarMask;
PULONG BarArray;
PHYSICAL_ADDRESS Limit, Base, Length;
BOOLEAN HaveIoLimit, CheckAlignment;
PPCI_PDO_EXTENSION PdoExtension;
/* Get the pointers from the extension */
PdoExtension = Context->PdoExtension;
Resources = PdoExtension->Resources;
Current = Context->Current;
/* Check if decodes are disabled */
if (!(Context->Command & (PCI_ENABLE_IO_SPACE | PCI_ENABLE_MEMORY_SPACE)))
{
/* Well, we're going to need them from somewhere, use the registry data */
Status = PciGetBiosConfig(PdoExtension, &BiosData);
if (NT_SUCCESS(Status)) Current = &BiosData;
}
/* Scan all current and limit descriptors for each BAR needed */
BarArray = Current->u.type1.BaseAddresses;
for (i = 0; i < 6; i++)
{
/* Get the current resource descriptor, and the limit requirement */
CmDescriptor = &Resources->Current[i];
IoDescriptor = &Resources->Limit[i];
/* Copy descriptor data, skipping null descriptors */
CmDescriptor->Type = IoDescriptor->Type;
if (CmDescriptor->Type == CmResourceTypeNull) continue;
CmDescriptor->Flags = IoDescriptor->Flags;
CmDescriptor->ShareDisposition = IoDescriptor->ShareDisposition;
/* Initialize the high-parts to zero, since most stuff is 32-bit only */
Base.QuadPart = Limit.QuadPart = Length.QuadPart = 0;
/* Check if we're handling PCI BARs, or the ROM BAR */
if ((i < PCI_TYPE1_ADDRESSES) || (i == 5))
{
/* Is this the ROM BAR? */
if (i == 5)
{
/* Read the correct bar, with the appropriate mask */
Bar = Current->u.type1.ROMBaseAddress;
BarMask = PCI_ADDRESS_ROM_ADDRESS_MASK;
/* Decode the base address, and write down the length */
Base.LowPart = Bar & BarMask;
DPRINT1("ROM BAR Base: %lx\n", Base.LowPart);
CmDescriptor->u.Memory.Length = IoDescriptor->u.Memory.Length;
}
else
{
/* Otherwise, get the BAR from the array */
Bar = BarArray[i];
/* Is this an I/O BAR? */
if (Bar & PCI_ADDRESS_IO_SPACE)
{
/* Set the correct mask */
ASSERT(CmDescriptor->Type == CmResourceTypePort);
BarMask = PCI_ADDRESS_IO_ADDRESS_MASK;
}
else
{
/* This is a memory BAR, set the correct base */
ASSERT(CmDescriptor->Type == CmResourceTypeMemory);
BarMask = PCI_ADDRESS_MEMORY_ADDRESS_MASK;
/* IS this a 64-bit BAR? */
if ((Bar & PCI_ADDRESS_MEMORY_TYPE_MASK) == PCI_TYPE_64BIT)
{
/* Read the next 32-bits as well, ie, the next BAR */
Base.HighPart = BarArray[i + 1];
}
}
/* Decode the base address, and write down the length */
Base.LowPart = Bar & BarMask;
DPRINT1("BAR Base: %lx\n", Base.LowPart);
CmDescriptor->u.Generic.Length = IoDescriptor->u.Generic.Length;
}
}
else
{
/* Reset loop conditions */
HaveIoLimit = FALSE;
CheckAlignment = FALSE;
/* Check which descriptor is being parsed */
if (i == 2)
{
/* I/O Port Requirements */
Base.LowPart = PciBridgeIoBase(Current);
Limit.LowPart = PciBridgeIoLimit(Current);
DPRINT1("Bridge I/O Base and Limit: %lx %lx\n",
Base.LowPart, Limit.LowPart);
/* Do we have any I/O Port data? */
if (!(Base.LowPart) && (Current->u.type1.IOLimit))
{
/* There's a limit */
HaveIoLimit = TRUE;
}
}
else if (i == 3)
{
/* Memory requirements */
Base.LowPart = PciBridgeMemoryBase(Current);
Limit.LowPart = PciBridgeMemoryLimit(Current);
/* These should always be there, so check their alignment */
DPRINT1("Bridge MEM Base and Limit: %lx %lx\n",
Base.LowPart, Limit.LowPart);
CheckAlignment = TRUE;
}
else if (i == 4)
{
/* This should only be present for prefetch memory */
ASSERT(CmDescriptor->Flags & CM_RESOURCE_MEMORY_PREFETCHABLE);
Base = PciBridgePrefetchMemoryBase(Current);
Limit = PciBridgePrefetchMemoryLimit(Current);
/* If it's there, check the alignment */
DPRINT1("Bridge Prefetch MEM Base and Limit: %I64x %I64x\n", Base, Limit);
CheckAlignment = TRUE;
}
/* Check for invalid base address */
if (Base.QuadPart >= Limit.QuadPart)
{
/* Assume the descriptor is bogus */
CmDescriptor->Type = CmResourceTypeNull;
IoDescriptor->Type = CmResourceTypeNull;
continue;
}
/* Check if there's no memory, and no I/O port either */
if (!(Base.LowPart) && !(HaveIoLimit))
{
/* This seems like a bogus requirement, ignore it */
CmDescriptor->Type = CmResourceTypeNull;
continue;
}
/* Set the length to be the limit - the base; should always be 32-bit */
Length.QuadPart = Limit.LowPart - Base.LowPart + 1;
ASSERT(Length.HighPart == 0);
CmDescriptor->u.Generic.Length = Length.LowPart;
/* Check if alignment should be set */
if (CheckAlignment)
{
/* Compute the required alignment for this length */
ASSERT(CmDescriptor->u.Memory.Length > 0);
IoDescriptor->u.Memory.Alignment =
PciBridgeMemoryWorstCaseAlignment(CmDescriptor->u.Memory.Length);
}
}
/* Now set the base address */
CmDescriptor->u.Generic.Start.LowPart = Base.LowPart;
}
/* Save PCI settings into the PDO extension for easy access later */
PdoExtension->Dependent.type1.PrimaryBus = Current->u.type1.PrimaryBus;
PdoExtension->Dependent.type1.SecondaryBus = Current->u.type1.SecondaryBus;
PdoExtension->Dependent.type1.SubordinateBus = Current->u.type1.SubordinateBus;
/* Check for subtractive decode bridges */
if (PdoExtension->Dependent.type1.SubtractiveDecode)
{
/* Check if legacy VGA decodes are enabled */
DPRINT1("Subtractive decode bridge\n");
if (Current->u.type1.BridgeControl & PCI_ENABLE_BRIDGE_VGA)
{
/* Save this setting for later */
DPRINT1("VGA Bridge\n");
PdoExtension->Dependent.type1.VgaBitSet = TRUE;
}
/* Legacy ISA decoding is not compatible with subtractive decode */
ASSERT(PdoExtension->Dependent.type1.IsaBitSet == FALSE);
}
else
{
/* Check if legacy VGA decodes are enabled */
if (Current->u.type1.BridgeControl & PCI_ENABLE_BRIDGE_VGA)
{
/* Save this setting for later */
DPRINT1("VGA Bridge\n");
PdoExtension->Dependent.type1.VgaBitSet = TRUE;
/* And on positive decode, we'll also need extra resources locked */
PdoExtension->AdditionalResourceCount = 4;
}
/* Check if legacy ISA decoding is enabled */
if (Current->u.type1.BridgeControl & PCI_ENABLE_BRIDGE_ISA)
{
/* Save this setting for later */
DPRINT1("ISA Bridge\n");
PdoExtension->Dependent.type1.IsaBitSet = TRUE;
}
}
/*
* Check for Intel ICH PCI-to-PCI (i82801) bridges (used on the i810,
* i820, i840, i845 Chipsets) that have subtractive decode broken.
*/
if (((PdoExtension->VendorId == 0x8086) &&
((PdoExtension->DeviceId == 0x2418) ||
(PdoExtension->DeviceId == 0x2428) ||
(PdoExtension->DeviceId == 0x244E) ||
(PdoExtension->DeviceId == 0x2448))) ||
(PdoExtension->HackFlags & PCI_HACK_BROKEN_SUBTRACTIVE_DECODE))
{
/* Check if subtractive decode is actually enabled */
if (PdoExtension->Dependent.type1.SubtractiveDecode)
{
/* We're going to need a copy of the configuration for later use */
DPRINT1("apply config save hack to ICH subtractive decode\n");
SavedConfig = ExAllocatePoolWithTag(0, PCI_COMMON_HDR_LENGTH, 'PciP');
PdoExtension->ParentFdoExtension->PreservedConfig = SavedConfig;
if (SavedConfig) RtlCopyMemory(SavedConfig, Current, PCI_COMMON_HDR_LENGTH);
}
}
}
VOID
NTAPI
PPBridge_SaveLimits(IN PPCI_CONFIGURATOR_CONTEXT Context)
{
PIO_RESOURCE_DESCRIPTOR Limit;
PULONG BarArray;
PHYSICAL_ADDRESS MemoryLimit;
ULONG i;
PPCI_COMMON_HEADER Working;
PPCI_PDO_EXTENSION PdoExtension;
/* Get the pointers from the context */
Working = Context->PciData;
PdoExtension = Context->PdoExtension;
/* Scan the BARs into the limit descriptors */
BarArray = Working->u.type1.BaseAddresses;
Limit = PdoExtension->Resources->Limit;
/* First of all, loop all the BARs */
for (i = 0; i < PCI_TYPE1_ADDRESSES; i++)
{
/* Create a descriptor for their limits */
if (PciCreateIoDescriptorFromBarLimit(&Limit[i], &BarArray[i], FALSE))
{
/* This was a 64-bit descriptor, make sure there's space */
ASSERT((i + 1) < PCI_TYPE1_ADDRESSES);
/* Skip the next descriptor since this one is double sized */
i++;
Limit[i].Type = CmResourceTypeNull;
}
}
/* Check if this is a subtractive decode bridge */
if (PciBridgeIsSubtractiveDecode(Context))
{
/* This bridge is subtractive */
PdoExtension->Dependent.type1.SubtractiveDecode = TRUE;
/* Subtractive bridges cannot use legacy ISA or VGA functionality */
PdoExtension->Dependent.type1.IsaBitSet = FALSE;
PdoExtension->Dependent.type1.VgaBitSet = FALSE;
}
/* For normal decode bridges, we'll need to find the bridge limits too */
if (!PdoExtension->Dependent.type1.SubtractiveDecode)
{
/* Loop the descriptors that are left, to store the bridge limits */
for (i = PCI_TYPE1_ADDRESSES; i < 5; i++)
{
/* No 64-bit memory addresses, and set the address to 0 to begin */
MemoryLimit.HighPart = 0;
(&Limit[i])->u.Port.MinimumAddress.QuadPart = 0;
/* Are we getting the I/O limit? */
if (i == 2)
{
/* There should be one, get it */
ASSERT(Working->u.type1.IOLimit != 0);
ASSERT((Working->u.type1.IOLimit & 0x0E) == 0);
MemoryLimit.LowPart = PciBridgeIoLimit(Working);
/* Build a descriptor for this limit */
(&Limit[i])->Type = CmResourceTypePort;
(&Limit[i])->Flags = CM_RESOURCE_PORT_WINDOW_DECODE |
CM_RESOURCE_PORT_POSITIVE_DECODE;
(&Limit[i])->u.Port.Alignment = 0x1000;
(&Limit[i])->u.Port.MinimumAddress.QuadPart = 0;
(&Limit[i])->u.Port.MaximumAddress = MemoryLimit;
(&Limit[i])->u.Port.Length = 0;
}
else if (i == 3)
{
/* There should be a valid memory limit, get it */
ASSERT((Working->u.type1.MemoryLimit & 0xF) == 0);
MemoryLimit.LowPart = PciBridgeMemoryLimit(Working);
/* Build the descriptor for it */
(&Limit[i])->Flags = CM_RESOURCE_MEMORY_READ_WRITE;
(&Limit[i])->Type = CmResourceTypeMemory;
(&Limit[i])->u.Memory.Alignment = 0x100000;
(&Limit[i])->u.Memory.MinimumAddress.QuadPart = 0;
(&Limit[i])->u.Memory.MaximumAddress = MemoryLimit;
(&Limit[i])->u.Memory.Length = 0;
}
else if (Working->u.type1.PrefetchLimit)
{
/* Get the prefetch memory limit, if there is one */
MemoryLimit = PciBridgePrefetchMemoryLimit(Working);
/* Write out the descriptor for it */
(&Limit[i])->Flags = CM_RESOURCE_MEMORY_PREFETCHABLE;
(&Limit[i])->Type = CmResourceTypeMemory;
(&Limit[i])->u.Memory.Alignment = 0x100000;
(&Limit[i])->u.Memory.MinimumAddress.QuadPart = 0;
(&Limit[i])->u.Memory.MaximumAddress = MemoryLimit;
(&Limit[i])->u.Memory.Length = 0;
}
else
{
/* Blank descriptor */
(&Limit[i])->Type = CmResourceTypeNull;
}
}
}
/* Does the ROM have its own BAR? */
if (Working->u.type1.ROMBaseAddress & PCI_ROMADDRESS_ENABLED)
{
/* Build a limit for it as well */
PciCreateIoDescriptorFromBarLimit(&Limit[i],
&Working->u.type1.ROMBaseAddress,
TRUE);
}
}
VOID
NTAPI
PPBridge_MassageHeaderForLimitsDetermination(IN PPCI_CONFIGURATOR_CONTEXT Context)
{
PPCI_COMMON_HEADER PciData, Current;
/* Get pointers from context */
PciData = Context->PciData;
Current = Context->Current;
/*
* Write FFh everywhere so that the PCI bridge ignores what it can't handle.
* Based on the bits that were ignored (still 0), this is how we can tell
* what the limit is.
*/
RtlFillMemory(PciData->u.type1.BaseAddresses,
FIELD_OFFSET(PCI_COMMON_HEADER, u.type1.CapabilitiesPtr) -
FIELD_OFFSET(PCI_COMMON_HEADER, u.type1.BaseAddresses),
0xFF);
/* Copy the saved settings from the current context into the PCI header */
PciData->u.type1.PrimaryBus = Current->u.type1.PrimaryBus;
PciData->u.type1.SecondaryBus = Current->u.type1.SecondaryBus;
PciData->u.type1.SubordinateBus = Current->u.type1.SubordinateBus;
PciData->u.type1.SecondaryLatency = Current->u.type1.SecondaryLatency;
/* No I/O limit or base. The bottom base bit specifies that FIXME */
PciData->u.type1.IOBaseUpper16 = 0xFFFE;
PciData->u.type1.IOLimitUpper16 = 0xFFFF;
/* Save secondary status before it gets cleared */
Context->SecondaryStatus = Current->u.type1.SecondaryStatus;
/* Clear secondary status */
Current->u.type1.SecondaryStatus = 0;
PciData->u.type1.SecondaryStatus = 0;
}
VOID
NTAPI
PPBridge_RestoreCurrent(IN PPCI_CONFIGURATOR_CONTEXT Context)
{
/* Copy back the secondary status register */
Context->Current->u.type1.SecondaryStatus = Context->SecondaryStatus;
}
VOID
NTAPI
PPBridge_GetAdditionalResourceDescriptors(IN PPCI_CONFIGURATOR_CONTEXT Context,
IN PPCI_COMMON_HEADER PciData,
IN PIO_RESOURCE_DESCRIPTOR IoDescriptor)
{
UNREFERENCED_PARAMETER(Context);
/* Does this bridge have VGA decodes on it? */
if (PciData->u.type1.BridgeControl & PCI_ENABLE_BRIDGE_VGA)
{
/* Build a private descriptor with 3 entries */
IoDescriptor->Type = CmResourceTypeDevicePrivate;
IoDescriptor->u.DevicePrivate.Data[0] = 3;
IoDescriptor->u.DevicePrivate.Data[1] = 3;
/* First, the VGA range at 0xA0000 */
IoDescriptor[1].Type = CmResourceTypeMemory;
IoDescriptor[1].Flags = CM_RESOURCE_MEMORY_READ_WRITE;
IoDescriptor[1].u.Port.Length = 0x20000;
IoDescriptor[1].u.Port.Alignment = 1;
IoDescriptor[1].u.Port.MinimumAddress.QuadPart = 0xA0000;
IoDescriptor[1].u.Port.MaximumAddress.QuadPart = 0xBFFFF;
/* Then, the VGA registers at 0x3B0 */
IoDescriptor[2].Type = CmResourceTypePort;
IoDescriptor[2].Flags = CM_RESOURCE_PORT_POSITIVE_DECODE |
CM_RESOURCE_PORT_10_BIT_DECODE;
IoDescriptor[2].u.Port.Length = 12;
IoDescriptor[2].u.Port.Alignment = 1;
IoDescriptor[2].u.Port.MinimumAddress.QuadPart = 0x3B0;
IoDescriptor[2].u.Port.MaximumAddress.QuadPart = 0x3BB;
/* And finally the VGA registers at 0x3C0 */
IoDescriptor[3].Type = CmResourceTypePort;
IoDescriptor[3].Flags = CM_RESOURCE_PORT_POSITIVE_DECODE |
CM_RESOURCE_PORT_10_BIT_DECODE;
IoDescriptor[3].u.Port.Length = 32;
IoDescriptor[3].u.Port.Alignment = 1;
IoDescriptor[3].u.Port.MinimumAddress.QuadPart = 0x3C0;
IoDescriptor[3].u.Port.MaximumAddress.QuadPart = 0x3DF;
}
}
VOID
NTAPI
PPBridge_ResetDevice(IN PPCI_PDO_EXTENSION PdoExtension,
IN PPCI_COMMON_HEADER PciData)
{
UNREFERENCED_PARAMETER(PdoExtension);
UNREFERENCED_PARAMETER(PciData);
UNIMPLEMENTED_DBGBREAK();
}
VOID
NTAPI
PPBridge_ChangeResourceSettings(IN PPCI_PDO_EXTENSION PdoExtension,
IN PPCI_COMMON_HEADER PciData)
{
//BOOLEAN IoActive;
PPCI_FDO_EXTENSION FdoExtension;
PPCI_FUNCTION_RESOURCES PciResources;
ULONG i;
/* Check if I/O Decodes are enabled */
//IoActive = (PciData->u.type1.IOBase & 0xF) == 1;
/*
* Check for Intel ICH PCI-to-PCI (i82801) bridges (used on the i810,
* i820, i840, i845 Chipsets) that don't have subtractive decode broken.
* If they do have broken subtractive support, or if they are not ICH bridges,
* then check if the bridge supports substractive decode at all.
*/
if ((((PdoExtension->VendorId == 0x8086) &&
((PdoExtension->DeviceId == 0x2418) ||
(PdoExtension->DeviceId == 0x2428) ||
(PdoExtension->DeviceId == 0x244E) ||
(PdoExtension->DeviceId == 0x2448))) &&
(!(PdoExtension->HackFlags & PCI_HACK_BROKEN_SUBTRACTIVE_DECODE) ||
(PdoExtension->Dependent.type1.SubtractiveDecode == FALSE))) ||
(PdoExtension->Dependent.type1.SubtractiveDecode == FALSE))
{
/* No resources are needed on a subtractive decode bridge */
PciData->u.type1.MemoryBase = 0xFFFF;
PciData->u.type1.PrefetchBase = 0xFFFF;
PciData->u.type1.IOBase = 0xFF;
PciData->u.type1.IOLimit = 0;
PciData->u.type1.MemoryLimit = 0;
PciData->u.type1.PrefetchLimit = 0;
PciData->u.type1.PrefetchBaseUpper32 = 0;
PciData->u.type1.PrefetchLimitUpper32 = 0;
PciData->u.type1.IOBaseUpper16 = 0;
PciData->u.type1.IOLimitUpper16 = 0;
}
else
{
/*
* Otherwise, get the FDO to read the old PCI configuration header that
* had been saved by the hack in PPBridge_SaveCurrentSettings.
*/
FdoExtension = PdoExtension->ParentFdoExtension;
ASSERT(PdoExtension->Resources == NULL);
/* Read the PCI header data and use that here */
PciData->u.type1.IOBase = FdoExtension->PreservedConfig->u.type1.IOBase;
PciData->u.type1.IOLimit = FdoExtension->PreservedConfig->u.type1.IOLimit;
PciData->u.type1.MemoryBase = FdoExtension->PreservedConfig->u.type1.MemoryBase;
PciData->u.type1.MemoryLimit = FdoExtension->PreservedConfig->u.type1.MemoryLimit;
PciData->u.type1.PrefetchBase = FdoExtension->PreservedConfig->u.type1.PrefetchBase;
PciData->u.type1.PrefetchLimit = FdoExtension->PreservedConfig->u.type1.PrefetchLimit;
PciData->u.type1.PrefetchBaseUpper32 = FdoExtension->PreservedConfig->u.type1.PrefetchBaseUpper32;
PciData->u.type1.PrefetchLimitUpper32 = FdoExtension->PreservedConfig->u.type1.PrefetchLimitUpper32;
PciData->u.type1.IOBaseUpper16 = FdoExtension->PreservedConfig->u.type1.IOBaseUpper16;
PciData->u.type1.IOLimitUpper16 = FdoExtension->PreservedConfig->u.type1.IOLimitUpper16;
}
/* Loop bus resources */
PciResources = PdoExtension->Resources;
if (PciResources)
{
/* Loop each resource type (the BARs, ROM BAR and Prefetch) */
for (i = 0; i < 6; i++)
{
UNIMPLEMENTED;
}
}
/* Copy the bus number data */
PciData->u.type1.PrimaryBus = PdoExtension->Dependent.type1.PrimaryBus;
PciData->u.type1.SecondaryBus = PdoExtension->Dependent.type1.SecondaryBus;
PciData->u.type1.SubordinateBus = PdoExtension->Dependent.type1.SubordinateBus;
/* Copy the decode flags */
if (PdoExtension->Dependent.type1.IsaBitSet)
{
PciData->u.type1.BridgeControl |= PCI_ENABLE_BRIDGE_ISA;
}
if (PdoExtension->Dependent.type1.VgaBitSet)
{
PciData->u.type1.BridgeControl |= PCI_ENABLE_BRIDGE_VGA;
}
}
/* EOF */