Leaked source code of windows server 2003
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/******************************************************************************\
*
* FileName: AGPCPQ.H
*
* Group: AGP (Accelerated Graphics Port)
*
* Level: Driver
*
* Date: December 15, 1997
*
* Author: John Theisen
*
********************************************************************************
*
* Module Functional Description:
*
* This is the header file for Compaq's Accelerated Graphics Port (AGP)
* GART MiniPort driver.
*
********************************************************************************
*
* History:
*
* DATE REV. DESCRIPTION DELEVOPER
* -------- ---- ------------------------------------ -------------------------
*
* 12/15/97 1.00 Initial Revision. John Theisen
*
\******************************************************************************/
#define _NTDRIVER_
#include "stdarg.h"
#include "stdio.h"
#include "ntos.h"
#include "pci.h"
#include "wdmguid.h"
#include "zwapi.h"
#include "ntpoapi.h"
#include "agp.h"
//
// Device/Function/Bus numbers for the primary and secondary north bridges.
//
// "Primary" values are the same for RCC and Draco.
// "Secondary" values are only relevant on RCC HPSA machines.
// (By definition, if a northbridge exists at this location, then it is an HPSA machine.)
//
#define PRIMARY_LE_BUS_ID 0
#define PRIMARY_HE_BUS_ID 0
#define SECONDARY_LE_BUS_ID 0
//
// PCI_SLOT_NUMBER type = ULONG == [XXXXXXXX XXXXXXXX XXXXXXXX YYYZZZZZ]
//
// Where X = reserved
// Y = function number 0 - 7
// Z = device number 0 - 255
//
#define MAKE_PCI_SLOT_NUMBER(dev, func) ((func << 5) + (dev))
#define PRIMARY_LE_HOST_DEVICE 0
#define PRIMARY_HE_HOST_DEVICE 0
#define PRIMARY_LE_HOST_FUNCTION 0
#define PRIMARY_LE_PCI_DEVICE PRIMARY_LE_HOST_DEVICE
#define PRIMARY_LE_PCI_FUNCION 1
#define PRIMARY_HE_PCI_DEVICE PRIMARY_HE_HOST_DEVICE
#define PRIMARY_HE_PCI_FUNCTION 1
#define SECONDARY_LE_HOST_DEVICE 17
#define SECONDARY_LE_HOST_FUNCTION 0
#define SECONDARY_LE_PCI_DEVICE SECONDARY_LE_HOST_DEVICE
#define SECONDARY_LE_PCI_FUNCION 1
#define PRIMARY_LE_HOSTPCI_SLOT_ID MAKE_PCI_SLOT_NUMBER(PRIMARY_LE_HOST_DEVICE, PRIMARY_LE_HOST_FUNCTION)
#define PRIMARY_LE_PCIPCI_SLOT_ID MAKE_PCI_SLOT_NUMBER(PRIMARY_LE_PCI_DEVICE, PRIMARY_LE_PCI_FUNCION)
#define PRIMARY_HE_PCIPCI_SLOT_ID MAKE_PCI_SLOT_NUMBER(PRIMARY_HE_PCI_DEVICE, PRIMARY_HE_PCI_FUNCTION)
#define SECONDARY_LE_HOSTPCI_SLOT_ID MAKE_PCI_SLOT_NUMBER(SECONDARY_LE_HOST_DEVICE, SECONDARY_LE_HOST_FUNCTION)
#define SECONDARY_LE_PCIPCI_SLOT_ID MAKE_PCI_SLOT_NUMBER(SECONDARY_LE_PCI_DEVICE, SECONDARY_LE_PCI_FUNCION)
//
//
//
#define AGP_CPQ_BUS_ID PRIMARY_LE_BUS_ID
#define AGP_CPQ_HOSTPCI_SLOT_ID PRIMARY_LE_HOSTPCI_SLOT_ID
#define AGP_CPQ_PCIPCI_SLOT_ID PRIMARY_LE_PCIPCI_SLOT_ID
#define OFFSET_DEVICE_VENDOR_ID 0x00
#define OFFSET_BAR0 0x10 // Base of AGP Device Address Space
#define OFFSET_BAR1 0x14 // Memory Mapped Control Registers Pointer
#define OFFSET_AP_SIZE 0x8C // For the RCC chipsets. Draco doesn't implement this.
#define OFFSET_REV_ID 0x08 // Silicon Revision ID (on RCC chipsets).
#define MAX_REV_ID_TO_LIMIT_1X 4 // Maximum Silicon Rev ID that has the 2X bug.
#define MAX_REV_ID_TO_FIX_RQ 5 // Macimum Silicon Rev ID that has the RQ bug.
#define OFFSET_SHADOW_BYTE 0x93 // Byte that contains the shaddow enable bit (bit 3).
#define FLAG_DISABLE_SHADOW 0x08
#define MASK_ENABLE_SHADOW (~FLAG_DISABLE_SHADOW)
//
// RCC Vendor-Device IDs (as of August 1998):
//
// CNB_20_LE (function 0) -- 0x00071166
// CNB_20_LE (function 1) -- 0x00051166
// CNB_20_HE (function 0) -- 0x00081166
// CNB_20_HE (function 1) -- 0x00091166
//
#define AGP_CNB20_LE_IDENTIFIER 0x00071166 // * function 0 ID.
#define AGP_CNB20_HE_IDENTIFIER 0x00081166
#define AGP_CNB20_HE4X_IDENTIFIER 0x00131166
#define AGP_CMIC_GC_IDENTIFIER 0x00151166
#define AGP_DRACO_IDENTIFIER 0xAE6C0E11 // * Note, support for this chipset is no longer required.
#define AP_SIZE_DEFAULT 0x10000000 // all chipsets default to 256MB
#define AP_MAX_SIZE_CNB20_LE 0x80000000 // 2GB
#define AP_MAX_SIZE_CNB20_HE 0x80000000 // 2GB
#define AP_MAX_SIZE_DRACO 0x10000000 // 256MB
#define AP_SIZE_COUNT_CNB20_LE 7
#define AP_SIZE_COUNT_CNB20_HE 7
#define AP_SIZE_COUNT_DRACO 1
#define LOWEST_REVISION_ID_SUPPORTED 1
#define MAX_CACHED_ENTRIES_TO_INVALIDATE 3
#define MASK_LOW_TWENTYFIVE (~0x01FFFFFF)
#define ALL_ONES (~0x0)
//
// Conversions from BAR0 read/write-attribute-encoding to aperture sizes.
//
// 0x00000000 (b 0000 0000 ...) = 0MB
// 0xFE000000 (b 1111 1110 ...) = 32MB
// 0xFC000000 (b 1111 1100 ...) = 64MB
// 0xF8000000 (b 1111 1000 ...) = 128MB
// 0xF0000000 (b 1111 0000 ...) = 256MB
// 0xE0000000 (b 1110 0000 ...) = 512MB
// 0xC0000000 (b 1100 0000 ...) = 1GB
// 0x80000000 (b 1000 0000 ...) = 2GB
#define BAR0_CODED_AP_SIZE_0MB 0x00000000
#define BAR0_CODED_AP_SIZE_32MB 0xFE000000
#define BAR0_CODED_AP_SIZE_64MB 0xFC000000
#define BAR0_CODED_AP_SIZE_128MB 0xF8000000
#define BAR0_CODED_AP_SIZE_256MB 0xF0000000
#define BAR0_CODED_AP_SIZE_512MB 0xE0000000
#define BAR0_CODED_AP_SIZE_1GB 0xC0000000
#define BAR0_CODED_AP_SIZE_2GB 0x80000000
//
// Conversions from the values in bits 3:1 of the AGP Device
// Address Space Size Register to aperture sizes.
//
// 0 (b 000) = 32MB
// 1 (b 001) = 64MB
// 2 (b 010) = 128MB
// 3 (b 011) = 256MB
// 4 (b 100) = 512MB
// 5 (b 101) = 1GB
// 6 (b 110) = 2GB
// 7 (b 111) -> "Reserved"
//
#define SET_AP_SIZE_32MB 0
#define SET_AP_SIZE_64MB 1
#define SET_AP_SIZE_128MB 2
#define SET_AP_SIZE_256MB 3
#define SET_AP_SIZE_512MB 4
#define SET_AP_SIZE_1GB 5
#define SET_AP_SIZE_2GB 6
#define BYTES_2G 0x80000000UL // 2G Value, to avoid integral const. overflow
//
// Taken from config.c
//
typedef struct _BUS_SLOT_ID {
ULONG BusId;
ULONG SlotId;
} BUS_SLOT_ID, *PBUS_SLOT_ID;
//
// Macros for reading and writing to the Host-PCI Bridge registers
//
#define ReadCPQConfig(_buf_,_offset_,_size_) \
{ \
ULONG _len_; \
_len_ = HalGetBusDataByOffset(PCIConfiguration, \
AGP_CPQ_BUS_ID, \
AGP_CPQ_HOSTPCI_SLOT_ID, \
(_buf_), \
(_offset_), \
(_size_)); \
ASSERT(_len_ == (_size_)); \
}
#define WriteCPQConfig(_buf_,_offset_,_size_) \
{ \
ULONG _len_; \
_len_ = HalSetBusDataByOffset(PCIConfiguration, \
AGP_CPQ_BUS_ID, \
AGP_CPQ_HOSTPCI_SLOT_ID, \
(_buf_), \
(_offset_), \
(_size_)); \
ASSERT(_len_ == (_size_)); \
}
//
// Macro to translate the APSIZE encoding into MB.
//
#define TranslateCodedValueIntoApSize(_apsize_, _value_) \
{ \
_apsize_ = (((_value_ & MASK_LOW_TWENTYFIVE) ^ ALL_ONES) + 1); \
}
//
// GART table entry.
//
typedef struct _GART_ENTRY_HW {
ULONG Valid : 1;
ULONG Linked : 1;
ULONG Dirty : 1;
ULONG Rsrvd1 : 9;
ULONG Page : 20;
} GART_ENTRY_HW, *PGART_ENTRY_HW;
typedef struct _GART_ENTRY_SW {
ULONG State : 5;
ULONG Rsrvd1 : 27;
} GART_ENTRY_SW, *PGART_ENTRY_SW;
typedef struct _GART_PTE {
union {
GART_ENTRY_HW Hard;
ULONG AsUlong;
GART_ENTRY_SW Soft;
};
} GART_PTE, *PGART_PTE;
//
// GART Entry bits
//
#define GART_ENTRY_INVALID 0x00 // 00000
#define GART_ENTRY_VALID 0x01 // 00001
#define GART_ENTRY_LINKED 0x02 // 00010
#define GART_ENTRY_DIRTY 0x04 // 00100
#define GART_ENTRY_WC 0x08 // 01000
#define GART_ENTRY_UC 0x10 // 10000
//
// Defined GART Entry states.
//
#define GART_ENTRY_FREE GART_ENTRY_INVALID
#define GART_ENTRY_RESERVED_WC GART_ENTRY_WC
#define GART_ENTRY_RESERVED_UC GART_ENTRY_UC
#define GART_ENTRY_VALID_WC (GART_ENTRY_VALID)
#define GART_ENTRY_VALID_UC (GART_ENTRY_VALID)
#define GART_ENTRY_VALID_WC_LINKED (GART_ENTRY_VALID_WC | GART_ENTRY_LINKED)
#define GART_ENTRY_VALID_UC_LINKED (GART_ENTRY_VALID_UC | GART_ENTRY_LINKED)
//
// Memory Mapped Control Registers.
//
typedef struct _GART_CACHE_ENTRY_CONTROL_REGISTER {
ULONG volatile GartEntryInvalidate:1;
ULONG volatile GartEntryUpdate:1;
ULONG Rsrvd1:10;
ULONG volatile GartEntryOffset:20;
} GART_CACHE_ENTRY_CONTROL_REGISTER, *PGART_CACHE_ENTRY_CONTROL_REGISTER;
typedef struct _GART_CACHE_ENTRY_CONTROL {
union {
GART_CACHE_ENTRY_CONTROL_REGISTER AsBits;
ULONG volatile AsDword;
};
} GART_CACHE_ENTRY_CONTROL, *PGART_CACHE_ENTRY_CONTROL;
typedef struct _MM_CONTROL_REGS {
UCHAR RevisionID;
struct _GART_CAPABILITES {
UCHAR ValidBitErrorReportingSupported:1;
UCHAR LinkingSupported:1;
UCHAR TwoLevelAddrTransSupported:1;
UCHAR BusCountersSupported:1;
UCHAR Rsrvd1:4;
} Capabilities;
struct _GART_FEATURE_CONTROL {
UCHAR ValidBitErrorReportingEnable:1;
UCHAR LinkingEnable:1;
UCHAR Rsrvd1:1;
UCHAR GARTCacheEnable:1;
UCHAR Rsrvd2:4;
} FeatureControl;
struct _GART_FEATURE_STATUS {
UCHAR volatile ValidBitErrorDetected:1;
UCHAR Rsrvd1:7;
} FeatureStatus;
struct _GART_BASE_ADDRESS {
ULONG Rsrvd1:12;
ULONG Page:20;
} GartBase;
struct _GART_AND_DIR_CACHE_SIZES {
ULONG MaxTableEntries:16;
ULONG MaxDirEntries:16;
} CacheSize;
struct _GART_CACHE_CONTROL {
ULONG volatile GartAndDirCacheInvalidate:1;
ULONG Rsrvd1:31;
} CacheControl;
GART_CACHE_ENTRY_CONTROL CacheEntryControl;
struct _POSTED_WRITE_BUFFER_CONTROL {
UCHAR volatile Flush:1;
UCHAR Rsrvd1:7;
} PostedWriteBufferControl;
struct _AGP_BUS_COUNTERS_COMMAND {
UCHAR volatile ClearCounters:1;
UCHAR EnableUtilization:1;
UCHAR EnableBandwidth:1;
UCHAR EnableLatency:1;
UCHAR Rsrvd1:4;
} BusCounters;
USHORT Rsrvd1;
ULONG BusUtilizationCounter;
ULONG BusBandwidthCounter;
ULONG BusLatencyCounter;
} MM_CONTROL_REGS, *PMM_CONTROL_REGS;
typedef struct _AGP_DEVICE_ADDRESS_SPACE_SIZE_REG {
UCHAR Rsrvd1:4;
UCHAR ApSize:3;
UCHAR AgpValid:1;
} AGP_DAS_SIZE_REG, *PAGP_DAS_SIZE_REG;
typedef struct _AGP_AP_SIZE_REG {
union {
AGP_DAS_SIZE_REG AsBits;
UCHAR AsByte;
};
} AGP_AP_SIZE_REG, *PAGP_AP_SIZE_REG;
//
// Compaq-specific extension
//
typedef struct _AGPCPQ_EXTENSION {
PMM_CONTROL_REGS MMIO;
PHYSICAL_ADDRESS ApertureStart;
ULONG ApertureLength;
PGART_PTE Gart;
PVOID Dir;
ULONG GartLength;
ULONG MaxGartLength;
ULONG DeviceVendorID;
ULONG GartPointer;
BOOLEAN IsHPSA;
ULONGLONG SpecialTarget;
} AGPCPQ_EXTENSION, *PAGPCPQ_EXTENSION;
//
// Taken from Config.c
//
extern
NTSTATUS
ApGetSetBusData(
IN PBUS_SLOT_ID BusSlotId,
IN BOOLEAN Read,
IN PVOID Buffer,
IN ULONG Offset,
IN ULONG Length
);
extern
NTSTATUS
DnbSetShadowBit(
ULONG SetToOne
);