/*++ Copyright (c) 1994 NEC Corporation Copyright (c) 1994 NEC Software, Ltd. Module Name: nec98.h (cf. eisa.h) Abstract: The module defines the structures, and defines for the NEC PC98 chip set. Author: Michio Nakamura 20-Sep-1994 Revision History: Takaaki Tochizawa 13-Mar-1998 Add 2nd DMA for FIR. --*/ #ifndef _EISA_ #define _EISA_ // // Define the DMA page register structure. // #define DMA_BANK_A31_A24_DR0 0xe05 #define DMA_BANK_A31_A24_DR1 0xe07 #define DMA_BANK_A31_A24_DR2 0xe09 #define DMA_BANK_A31_A24_DR3 0xe0b #define DMA_INC_ENABLE_A31_A24 0xe0f // // Define the DMA 2 page register structure. // #define DMA2_BANK_A31_A24_DR5 0xf07 #define DMA2_BANK_A31_A24_DR6 0xf09 #define DMA2_BANK_A31_A24_DR7 0xf0b #define DMA2_INC_ENABLE_A31_A24 0xf0f // // Define the DMA 2 mode change register // #define DMA2_MODE_CHANGE 0xf4 #define DMA2_MODE_8237_COMP 0x0 #define DMA2_MODE_71037_A 0x1 #define DMA2_MODE_71037_B 0x2 #define DMA2_MODE_71037_C 0x3 #define DMA_STATUS 0xc8 #define DMA_COMMAND 0xc8 #define SINGLE_MASK 0xca #define MODE 0xcb #define CLEAR_BYTE_POINTER 0xcc #define CLEAR_MASK 0xce typedef struct _DMA_PAGE{ UCHAR Reserved1; // offset 0x20 UCHAR Channel1; // offset 0x21 UCHAR Reserved2; UCHAR Channel2; // offset 0x23 UCHAR Reserved3; UCHAR Channel3; // offset 0x25 UCHAR Reserved4; UCHAR Channel0; // offset 0x27 UCHAR Reserved5[0x120-0x27];// offset 0x120 UCHAR Channel5; // offset 0x121 UCHAR Reserved6; UCHAR Channel6; // offset 0x123 UCHAR Reserved7; UCHAR Channel7; // offset 0x125 UCHAR Reserved8[4]; }DMA_PAGE, *PDMA_PAGE; // // Define the DMA stop register structure. // typedef struct _DMA_CHANNEL_STOP { UCHAR ChannelLsb; UCHAR ChannelMsb; UCHAR ChannelHsb; UCHAR Reserved; }DMA_CHANNEL_STOP, *PDMA_CHANNEL_STOP; // // Define DMA 1 address and count structure. // typedef struct _DMA1_ADDRESS_COUNT { UCHAR Reserved1; UCHAR DmaBaseAddress; UCHAR Reserved2; UCHAR DmaBaseCount; }DMA1_ADDRESS_COUNT, *PDMA1_ADDRESS_COUNT; // // Define DMA 2 address and count structure. // typedef struct _DMA2_ADDRESS_COUNT { UCHAR Reserved1; UCHAR DmaBaseAddress; UCHAR Reserved2; UCHAR DmaBaseCount; }DMA2_ADDRESS_COUNT, *PDMA2_ADDRESS_COUNT; // // Define DMA 1 control register structure. // typedef struct _DMA1_CONTROL { DMA1_ADDRESS_COUNT DmaAddressCount[4]; UCHAR Reserved1; UCHAR DmaStatus; //offset 0x11 UCHAR Reserved2; UCHAR DmaRequest; //offset 0x13 UCHAR Reserved3; UCHAR SingleMask; //offset 0x15 UCHAR Reserved4; UCHAR Mode; //offset 0x17 UCHAR Reserved5; UCHAR ClearBytePointer; //offset 0x19 UCHAR Reserved6; UCHAR MasterClear; //offset 0x1b UCHAR Reserved7; UCHAR ClearMask; //offset 0x1d UCHAR Reserved; UCHAR AllMask; //offset 0x1f }DMA1_CONTROL, *PDMA1_CONTROL; // // Define DMA 2 control register structure. // typedef struct _DMA2_CONTROL { UCHAR Reserved8[0x100-0x20];//offset 0x20 DMA2_ADDRESS_COUNT DmaAddressCount[4]; //offset 0x100 UCHAR Reserved1; UCHAR DmaStatus; //offset 0x111 UCHAR Reserved2; UCHAR DmaRequest; //offset 0x113 UCHAR Reserved3; UCHAR SingleMask; //offset 0x115 UCHAR Reserved4; UCHAR Mode; //offset 0x117 UCHAR Reserved5; UCHAR ClearBytePointer; //offset 0x119 UCHAR Reserved6; UCHAR MasterClear; //offset 0x11b UCHAR Reserved7; UCHAR ClearMask; //offset 0x11d UCHAR Reserved; UCHAR AllMask; //offset 0x11f UCHAR Reserved9[10]; //offset 0x120 }DMA2_CONTROL, *PDMA2_CONTROL; // // Define Timer control register structure. // typedef struct _TIMER_CONTROL { UCHAR BcdMode : 1; UCHAR Mode : 3; UCHAR SelectByte : 2; UCHAR SelectCounter : 2; }TIMER_CONTROL, *PTIMER_CONTROL; // // Define Timer status register structure. // typedef struct _TIMER_STATUS { UCHAR BcdMode : 1; UCHAR Mode : 3; UCHAR SelectByte : 2; UCHAR CrContentsMoved : 1; UCHAR OutPin : 1; }TIMER_STATUS, *PTIMER_STATUS; // // Define Mode values. // #define TM_SIGNAL_END_OF_COUNT 0 #define TM_ONE_SHOT 1 #define TM_RATE_GENERATOR 2 #define TM_SQUARE_WAVE 3 #define TM_SOFTWARE_STROBE 4 #define TM_HARDWARE_STROBE 5 // // Define SelectByte values // #define SB_COUNTER_LATCH 0 #define SB_LSB_BYTE 1 #define SB_MSB_BYTE 2 #define SB_LSB_THEN_MSB 3 // // Define SelectCounter values. // #define SELECT_COUNTER_0 0 #define SELECT_COUNTER_1 1 #define SELECT_COUNTER_2 2 #define SELECT_READ_BACK 3 // // Define Timer clock for speaker. // #define TIMER_CLOCK_IN 1193167 // 1.193Mhz // // Define NMI Status/Control register structure. // typedef struct _NMI_STATUS { UCHAR SpeakerGate : 1; UCHAR SpeakerData : 1; UCHAR DisableEisaParity : 1; UCHAR DisableNmi : 1; UCHAR RefreshToggle : 1; UCHAR SpeakerTimer : 1; UCHAR IochkNmi : 1; UCHAR ParityNmi : 1; }NMI_STATUS, *PNMI_STATUS; // // Define NMI Enable register structure. // typedef struct _NMI_ENABLE { UCHAR RtClockAddress : 7; UCHAR NmiDisable : 1; }NMI_ENABLE, *PNMI_ENABLE; // // Define the NMI extended status and control register structure. // typedef struct _NMI_EXTENDED_CONTROL { UCHAR BusReset : 1; UCHAR EnableNmiPort : 1; UCHAR EnableFailSafeNmi : 1; UCHAR EnableBusMasterTimeout : 1; UCHAR Reserved1 : 1; UCHAR PendingPortNmi : 1; UCHAR PendingBusMasterTimeout : 1; UCHAR PendingFailSafeNmi : 1; }NMI_EXTENDED_CONTROL, *PNMI_EXTENDED_CONTROL; // // Define 82357 register structure. // typedef struct _EISA_CONTROL { union { DMA1_CONTROL Dma1BasePort; // Offset 0x00 struct { UCHAR Interrupt1ControlPort0; // Offset 0x00 UCHAR Reserved1; UCHAR Interrupt1ControlPort1; // Offset 0x02 UCHAR Reserved2[5]; UCHAR Interrupt2ControlPort0; // Offset 0x08 UCHAR Reserved3; UCHAR Interrupt2ControlPort1; // Offset 0x0A UCHAR Reserved4[sizeof(DMA1_CONTROL)-11]; }; }; union { DMA_PAGE DmaPageLowPort; // Offset 0x20 DMA2_CONTROL Dma2BasePort; // Offset 0x20 struct { UCHAR Reserved20[9]; // Offset 0x20 UCHAR PageIncrementMode; // Offset 0x29 UCHAR Reserved21; UCHAR InDirectAddress; // Offset 0x2b UCHAR Reserved22; UCHAR InDirectData; // Offset 0x2d UCHAR Reserved23[0x7f - 0x2e]; UCHAR PageIncrementMode2; // Offset 0x7f UCHAR Reserved24[0x129 - 0x80]; UCHAR DMA2PageIncrementMode; // Offset 0x129 }; }; UCHAR Reserved25[0xfffc - 0x130]; // Offset 0x130 // // No NEC PC98 have 2nd DMA controller. But PC/AT has one. Therefore there are some valuable // refer to 2nd DMA in ixisasup.c. // I add it following valuable so that HAL builds. HAL of NEC PC98 doesn't use it. // UCHAR Dma1ExtendedModePort; UCHAR Dma2ExtendedModePort; UCHAR DmaPageHighPort; UCHAR Interrupt1EdgeLevel; UCHAR Interrupt2EdgeLevel; } EISA_CONTROL, *PEISA_CONTROL; // // Define initialization command word 1 structure. // typedef struct _INITIALIZATION_COMMAND_1 { UCHAR Icw4Needed : 1; UCHAR CascadeMode : 1; UCHAR Unused1 : 2; UCHAR InitializationFlag : 1; UCHAR Unused2 : 3; }INITIALIZATION_COMMAND_1, *PINITIALIZATION_COMMAND_1; // // Define initialization command word 4 structure. // typedef struct _INITIALIZATION_COMMAND_4 { UCHAR I80x86Mode : 1; UCHAR AutoEndOfInterruptMode : 1; UCHAR Unused1 : 2; UCHAR SpecialFullyNested : 1; UCHAR Unused2 : 3; }INITIALIZATION_COMMAND_4, *PINITIALIZATION_COMMAND_4; // // Define EISA interrupt controller operational command values. // Define operation control word 2 commands. // #define NONSPECIFIC_END_OF_INTERRUPT 0x20 #define SPECIFIC_END_OF_INTERRUPT 0x60 // // Define external EISA interupts // #define EISA_EXTERNAL_INTERRUPTS_1 0xf8 #define EISA_EXTERNAL_INTERRUPTS_2 0xbe // // Define the DMA mode register structure. // typedef struct _DMA_EISA_MODE { UCHAR Channel : 2; UCHAR TransferType : 2; UCHAR AutoInitialize : 1; UCHAR AddressDecrement : 1; UCHAR RequestMode : 2; }DMA_EISA_MODE, *PDMA_EISA_MODE; // // Define TransferType values. // #define VERIFY_TRANSFER 0x00 #define READ_TRANSFER 0x01 // Read from the device. #define WRITE_TRANSFER 0x02 // Write to the device. // // Define RequestMode values. // #define DEMAND_REQUEST_MODE 0x00 #define SINGLE_REQUEST_MODE 0x01 #define BLOCK_REQUEST_MODE 0x02 #define CASCADE_REQUEST_MODE 0x03 // // Define the DMA extended mode register structure. // typedef struct _DMA_EXTENDED_MODE { UCHAR ChannelNumber : 2; UCHAR TransferSize : 2; UCHAR TimingMode : 2; UCHAR EndOfPacketInput : 1; UCHAR StopRegisterEnabled : 1; }DMA_EXTENDED_MODE, *PDMA_EXTENDED_MODE; // // Define the DMA extended mode register transfer size values. // #define BY_BYTE_8_BITS 0 #define BY_WORD_16_BITS 1 #define BY_BYTE_32_BITS 2 #define BY_BYTE_16_BITS 3 // // Define the DMA extended mode timing mode values. // #define COMPATIBLITY_TIMING 0 #define TYPE_A_TIMING 1 #define TYPE_B_TIMING 2 #define BURST_TIMING 3 #ifndef DMA1_COMMAND_STATUS // // Define constants used by Intel 8237A DMA chip // #define DMA_SETMASK 4 #define DMA_CLEARMASK 0 #define DMA_READ 4 // These two appear backwards, but I think #define DMA_WRITE 8 // the DMA docs have them mixed up #define DMA_SINGLE_TRANSFER 0x40 #define DMA_AUTO_INIT 0x10 // Auto initialization mode #endif // // This structure is drive layout and partition information // for NEC PC-98xx series. // typedef struct _PARTITION_INFORMATION_NEC { UCHAR PartitionType; BOOLEAN RecognizedPartition; BOOLEAN RewritePartition; ULONG PartitionNumber; LARGE_INTEGER IplStartOffset; LARGE_INTEGER StartingOffset; LARGE_INTEGER PartitionLength; UCHAR BootableFlag; UCHAR PartitionName[16]; } PARTITION_INFORMATION_NEC, *PPARTITION_INFORMATION_NEC; typedef struct _DRIVE_LAYOUT_INFORMATION_NEC { ULONG PartitionCount; ULONG Signature; UCHAR BootRecordNec[8]; PARTITION_INFORMATION_NEC PartitionEntry[1]; } DRIVE_LAYOUT_INFORMATION_NEC, *PDRIVE_LAYOUT_INFORMATION_NEC; // // The system has memory over 16MB ? // extern UCHAR Over16MBMemoryFlag; // // We can't use DMA between 15MB and 16MB. // #define NOTDMA_MINIMUM_PHYSICAL_ADDRESS 0x0f00000 // // // VOID FASTCALL xHalExamineMBR( IN PDEVICE_OBJECT DeviceObject, IN ULONG SectorSize, IN ULONG MBRTypeIdentifier, OUT PVOID *Buffer ); VOID FASTCALL xHalIoAssignDriveLetters( IN struct _LOADER_PARAMETER_BLOCK *LoaderBlock, IN PSTRING NtDeviceName, OUT PUCHAR NtSystemPath, OUT PSTRING NtSystemPathString ); NTSTATUS FASTCALL xHalIoReadPartitionTable( IN PDEVICE_OBJECT DeviceObject, IN ULONG SectorSize, IN BOOLEAN ReturnRecognizedPartitions, OUT struct _DRIVE_LAYOUT_INFORMATION **PartitionBuffer ); NTSTATUS FASTCALL xHalIoSetPartitionInformation( IN PDEVICE_OBJECT DeviceObject, IN ULONG SectorSize, IN ULONG PartitionNumber, IN ULONG PartitionType ); NTSTATUS FASTCALL xHalIoWritePartitionTable( IN PDEVICE_OBJECT DeviceObject, IN ULONG SectorSize, IN ULONG SectorsPerTrack, IN ULONG NumberOfHeads, IN struct _DRIVE_LAYOUT_INFORMATION *PartitionBuffer ); #endif //_EISA_