/*++ BUILD Version: 0000 Increment this if a change has global effects Copyright (c) 1993 Digital Euipment Corporation Module Name: axp21066.h Abstract: This module defines the DECchip 21066-specific structures that are defined in the PAL but must be visible to the HAL. Revision History: --*/ #ifndef _AXP21066_ #define _AXP21066_ #ifndef CORE_21064 #define CORE_21064 // // Define the "special" processor bus used by all machines that run a // DECchip 21064. The processor bus is used to access the internal // performance counters. // #define PROCESSOR_BUS_21064 21064 // // Define the number of entries for repeated internal processor registers. // #define ITB_ENTRIES_21064 12 #define DTB_ENTRIES_21064 32 #define PAL_TEMPS_21064 32 // // Define an interrupt enable table entry. // typedef struct _IETEntry_21064{ ULONG ApcEnable: 1; ULONG DispatchEnable: 1; ULONG PerformanceCounter0Enable: 1; ULONG PerformanceCounter1Enable: 1; ULONG CorrectableReadEnable: 1; ULONG Irq0Enable: 1; ULONG Irq1Enable: 1; ULONG Irq2Enable: 1; ULONG Irq3Enable: 1; ULONG Irq4Enable: 1; ULONG Irq5Enable: 1; ULONG Reserved: 21; } IETEntry_21064, *PIETEntry_21064; // // Define the offsets and sizes of the mask sub-tables within the interrupt // mask table in the PCR. // #define IRQLMASK_HDW_SUBTABLE_21064 (8) #define IRQLMASK_HDW_SUBTABLE_21064_ENTRIES (64) #define IRQLMASK_SFW_SUBTABLE_21064 (0) #define IRQLMASK_SFW_SUBTABLE_21064_ENTRIES (4) #define IRQLMASK_PC_SUBTABLE_21064 (4) #define IRQLMASK_PC_SUBTABLE_21064_ENTRIES (4) // // PALcode Event Counters for the 21064 // This is the structure of the data returned by the rdcounters call pal. // typedef struct _COUNTERS_21064{ LARGE_INTEGER MachineCheckCount; LARGE_INTEGER ArithmeticExceptionCount; LARGE_INTEGER InterruptCount; LARGE_INTEGER ItbMissCount; LARGE_INTEGER NativeDtbMissCount; LARGE_INTEGER PalDtbMissCount; LARGE_INTEGER ItbAcvCount; LARGE_INTEGER DtbAcvCount; LARGE_INTEGER UnalignedCount; LARGE_INTEGER OpcdecCount; LARGE_INTEGER FenCount; LARGE_INTEGER ItbTnvCount; LARGE_INTEGER DtbTnvCount; LARGE_INTEGER PteMissCount; LARGE_INTEGER KspMissCount; LARGE_INTEGER PdeTnvCount; LARGE_INTEGER HaltCount; LARGE_INTEGER RestartCount; LARGE_INTEGER DrainaCount; LARGE_INTEGER InitpalCount; LARGE_INTEGER WrentryCount; LARGE_INTEGER SwpirqlCount; LARGE_INTEGER RdirqlCount; LARGE_INTEGER DiCount; LARGE_INTEGER EiCount; LARGE_INTEGER SwppalCount; LARGE_INTEGER SsirCount; LARGE_INTEGER CsirCount; LARGE_INTEGER RfeCount; LARGE_INTEGER RetsysCount; LARGE_INTEGER SwpctxCount; LARGE_INTEGER SwpprocessCount; LARGE_INTEGER RdmcesCount; LARGE_INTEGER WrmcesCount; LARGE_INTEGER TbiaCount; LARGE_INTEGER TbisCount; LARGE_INTEGER DtbisCount; LARGE_INTEGER RdkspCount; LARGE_INTEGER SwpkspCount; LARGE_INTEGER RdpsrCount; LARGE_INTEGER RdpcrCount; LARGE_INTEGER RdthreadCount; LARGE_INTEGER RdcountersCount; LARGE_INTEGER RdstateCount; LARGE_INTEGER WrperfmonCount; LARGE_INTEGER InitpcrCount; LARGE_INTEGER BptCount; LARGE_INTEGER CallsysCount; LARGE_INTEGER ImbCount; LARGE_INTEGER GentrapCount; LARGE_INTEGER RdtebCount; LARGE_INTEGER KbptCount; LARGE_INTEGER CallkdCount; LARGE_INTEGER TbisasnCount; LARGE_INTEGER Misc1Count; LARGE_INTEGER Misc2Count; LARGE_INTEGER Misc3Count; } COUNTERS_21064, *PCOUNTERS_21064; typedef enum _AXP21064_PCCOUNTER{ Ev4PerformanceCounter0 = 0, Ev4PerformanceCounter1 = 1 } AXP21064_PCCOUNTER, *PAXP21064_PCCOUNTER; typedef enum _AXP21064_PCMUXCONTROL{ Ev4TotalIssues = 0x0, Ev4PipelineDry = 0x2, Ev4LoadInstruction = 0x4, Ev4PipelineFrozen = 0x6, Ev4BranchInstructions = 0x8, Ev4PalMode = 0xb, Ev4TotalCycles = 0xa, Ev4TotalNonIssues = 0xc, Ev4ExternalCounter0 = 0xe, Ev4DcacheMiss = 0x0, Ev4IcacheMiss = 0x1, Ev4DualIssues = 0x2, Ev4BranchMispredicts = 0x3, Ev4FPInstructions = 0x4, Ev4IntegerOperate = 0x5, Ev4StoreInstructions = 0x6, Ev4ExternalCounter1 = 0x7 } AXP21064_PCMUXCONTROL, *PAXP21064_PCMUXCONTROL; typedef enum _AXP21064_PCEVENTCOUNT{ Ev4CountEvents2xx8 = 0x100, Ev4CountEvents2xx12 = 0x1000, Ev4CountEvents2xx16 = 0x10000 } AXP21064_PCEVENTCOUNT, *PAXP21064_PCEVENTCOUNT; typedef enum _AXP21064_EVENTCOUNT{ Ev4EventCountHigh = 1, Ev4EventCountLow = 0 } AXP21064_EVENTCOUNT, *PAXP21064_EVENTCOUNT; // // Internal Processor Register definitions (read format). // // // Pte formats // typedef LARGE_INTEGER ITB_PTE_21064; typedef ITB_PTE_21064 *PITB_PTE_21064; typedef LARGE_INTEGER DTB_PTE_21064; typedef DTB_PTE_21064 *PDTB_PTE_21064; #define PTE_FOR_21064_SHIFT 3 #define PTE_FOW_21064_SHIFT 4 #define PTE_KWE_21064_SHIFT 5 #define PTE_EWE_21064_SHIFT 6 #define PTE_SWE_21064_SHIFT 7 #define PTE_UWE_21064_SHIFT 8 #define PTE_KRE_21064_SHIFT 9 #define PTE_ERE_21064_SHIFT 10 #define PTE_SRE_21064_SHIFT 11 #define PTE_URE_21064_SHIFT 12 #define PTE_PFN_21064_SHIFT 13 #define PTE_PFN_21064_SHIFTMASK 0x1FFFF #define PTE_ASM_21064_SHIFT 34 #define PTE_ALL_21064(itbpte) (itbpte) #define PTE_FOR_21064(itbpte) ( (itbpte.LowPart >> PTE_FOR_21064_SHIFT) & 1) #define PTE_FOW_21064(itbpte) ( (itbpte.LowPart >> PTE_FOW_21064_SHIFT) & 1) #define PTE_KWE_21064(itbpte) ( (itbpte.LowPart >> PTE_KWE_21064_SHIFT) & 1) #define PTE_EWE_21064(itbpte) ( (itbpte.LowPart >> PTE_EWE_21064_SHIFT) & 1) #define PTE_SWE_21064(itbpte) ( (itbpte.LowPart >> PTE_SWE_21064_SHIFT) & 1) #define PTE_UWE_21064(itbpte) ( (itbpte.LowPart >> PTE_UWE_21064_SHIFT) & 1) #define PTE_KRE_21064(itbpte) ( (itbpte.LowPart >> PTE_KRE_21064_SHIFT) & 1) #define PTE_ERE_21064(itbpte) ( (itbpte.LowPart >> PTE_ERE_21064_SHIFT) & 1) #define PTE_SRE_21064(itbpte) ( (itbpte.LowPart >> PTE_SRE_21064_SHIFT) & 1) #define PTE_URE_21064(itbpte) ( (itbpte.LowPart >> PTE_URE_21064_SHIFT) & 1) #define PTE_ASM_21064(itbpte) ( (itbpte.LowPart >> PTE_ASM_21064_SHIFT) & 1) #define PTE_PFN_21064(itbpte) ( (itbpte.LowPart >> PTE_PFN_21064_SHIFT) & PTE_PFN_21064_SHIFTMASK) // // Instruction Cache Control and Status Register format // typedef LARGE_INTEGER ICCSR_21064; typedef ICCSR_21064 *PICCSR_21064; #define ICCSR_PC0_21064_SHIFT 1 #define ICCSR_PC1_21064_SHIFT 2 #define ICCSR_PCMUX0_21064_SHIFT 9 #define ICCSR_PCMUX0_21064_SHIFTMASK 0xF #define ICCSR_PCMUX1_21064_SHIFT 13 #define ICCSR_PCMUX1_21064_SHIFTMASK 0x7 #define ICCSR_PIPE_21064_SHIFT 16 #define ICCSR_BPE_21064_SHIFT 17 #define ICCSR_JSE_21064_SHIFT 18 #define ICCSR_BHE_21064_SHIFT 19 #define ICCSR_DI_21064_SHIFT 20 #define ICCSR_HWE_21064_SHIFT 21 #define ICCSR_MAP_21064_SHIFT 22 #define ICCSR_FPE_21064_SHIFT 23 #define ICCSR_ASN_21064_SHIFT 28 #define ICCSR_ASN_21064_SHIFTMASK 0x3F #define ICCSR_ALL_21064(iccsr) (iccsr) #define ICCSR_PC0_21064(iccsr) ( (iccsr.LowPart >> ICCSR_PC0_21064_SHIFT) & 1) #define ICCSR_PC1_21064(iccsr) ( (iccsr.LowPart >> ICCSR_PC1_21064_SHIFT) & 1) #define ICCSR_PCMUX0_21064(iccsr) \ ( (iccsr.LowPart >> ICCSR_PCMUX0_21064_SHIFT) & ICCSR_PCMUX0_21064_SHIFTMASK) #define ICCSR_PCMUX1_21064(iccsr) \ ( (iccsr.LowPart >> ICCSR_PCMUX1_21064_SHIFT) & ICCSR_PCMUX1_21064_SHIFTMASK) #define ICCSR_PIPE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_PIPE_21064_SHIFT) & 1) #define ICCSR_BPE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_BPE_21064_SHIFT) & 1) #define ICCSR_JSE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_JSE_21064_SHIFT) & 1) #define ICCSR_BHE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_BHE_21064_SHIFT) & 1) #define ICCSR_DI_21064(iccsr) ( (iccsr.LowPart >> ICCSR_DI_21064_SHIFT) & 1) #define ICCSR_HWE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_HWE_21064_SHIFT) & 1) #define ICCSR_MAP_21064(iccsr) ( (iccsr.LowPart >> ICCSR_MAP_21064_SHIFT) & 1) #define ICCSR_FPE_21064(iccsr) ( (iccsr.LowPart >> ICCSR_FPE_21064_SHIFT) & 1) #define ICCSR_ASN_21064(iccsr) \ (ULONG)( (iccsr.LowPart >> ICCSR_ASN_21064_SHIFT) & ICCSR_ASN_21064_SHIFTMASK) // // Processor Status (PS) format. // typedef LARGE_INTEGER PS_21064; typedef PS_21064 *PPS_21064; #define PS_CM0_21064_SHIFT 1 #define PS_CM1_21064_SHIFT 34 #define PS_ALL_21064(ps) (ps) #define PS_CM_21064(ps) \ ( (((ps).LowPart >> PS_CM0_21064_SHIFT) & 1) || \ (((ps).LowPart >> (PS_CM1_21064_SHIFT-1)) & 1) ) // // Exception Summary (EXC_SUM) format. // typedef LARGE_INTEGER EXC_SUM_21064; typedef EXC_SUM_21064 *PEXC_SUM_21064; #define EXCSUM_SWC_21064_SHIFT 2 #define EXCSUM_INV_21064_SHIFT 3 #define EXCSUM_DZE_21064_SHIFT 4 #define EXCSUM_FOV_21064_SHIFT 5 #define EXCSUM_UNF_21064_SHIFT 6 #define EXCSUM_INE_21064_SHIFT 7 #define EXCSUM_IOV_21064_SHIFT 8 #define EXCSUM_MSK_21064_SHIFT 33 #define EXCSUM_ALL_21064(excsum) (excsum) #define EXCSUM_SWC_21064(excsum) ((excsum.LowPart >> EXCSUM_SWC_21064_SHIFT) & 0x1) #define EXCSUM_INV_21064(excsum) ( (excsum.LowPart >> EXCSUM_INV_21064_SHIFT) & 0x1) #define EXCSUM_DZE_21064(excsum) ( (excsum.LowPart >> EXCSUM_DZE_21064_SHIFT) & 0x1) #define EXCSUM_FOV_21064(excsum) ( (excsum.LowPart >> EXCSUM_FOV_21064_SHIFT) & 0x1) #define EXCSUM_UNF_21064(excsum) ( (excsum.LowPart >> EXCSUM_UNF_21064_SHIFT) & 0x1) #define EXCSUM_INE_21064(excsum) ( (excsum.LowPart >> EXCSUM_INE_21064_SHIFT) & 0x1) #define EXCSUM_IOV_21064(excsum) ( (excsum.LowPart >> EXCSUM_IOV_21064_SHIFT) & 0x1) #define EXCSUM_MSK_21064(excsum) ( (excsum.LowPart >> EXCSUM_MSK_21064_SHIFT) & 0x1) // // Interrupt Request (HIRR, SIRR, ASTRR) format. // typedef LARGE_INTEGER IRR_21064; typedef IRR_21064 *PIRR_21064; #define IRR_HWR_21064_SHIFT 1 #define IRR_SWR_21064_SHIFT 2 #define IRR_ATR_21064_SHIFT 3 #define IRR_CRR_21064_SHIFT 4 #define IRR_HIRR53_21064_SHIFT 5 #define IRR_HIRR53_21064_SHIFTMASK 0x7 #define IRR_PC1_21064_SHIFT 8 #define IRR_PC0_21064_SHIFT 9 #define IRR_HIRR20_21064_SHIFT 10 #define IRR_HIRR20_21064_SHIFTMASK 0x7 #define IRR_SLR_21064_SHIFT 13 #define IRR_SIRR_21064_SHIFT 14 #define IRR_SIRR_21064_SHIFTMASK 0x7FFF #define IRR_ASTRR_21064_SHIFT 29 #define IRR_ASTRR_21064_SHIFTMASK 0xF #define IRR_ALL_21064(irr) (irr) #define IRR_HWR_21064(irr) ( (irr.LowPart >> IRR_HWR_21064_SHIFT) & 0x1) #define IRR_SWR_21064(irr) ( (irr.LowPart >> IRR_SWR_21064_SHIFT) & 0x1) #define IRR_ATR_21064(irr) ( (irr.LowPart >> IRR_ATR_21064_SHIFT) & 0x1) #define IRR_CRR_21064(irr) ( (irr.LowPart >> IRR_CRR_21064_SHIFT) & 0x1) #define IRR_HIRR_21064(irr) \ ( ((irr.LowPart >> (IRR_HIRR53_21064_SHIFT-3)) & IRR_HIRR53_21064_SHIFTMASK) || \ ( (irr.LowPart >> IRR_HIRR20_21064_SHIFT) & IRR_HIRR20_21064_SHIFTMASK) ) #define IRR_PC1_21064(irr) ( (irr.LowPart >> IRR_PC1_21064_SHIFT) & 0x1) #define IRR_PC0_21064(irr) ( (irr.LowPart >> IRR_PC0_21064_SHIFT) & 0x1) #define IRR_SLR_21064(irr) ( (irr.LowPart >> IRR_SLR_21064_SHIFT) & 0x1) #define IRR_SIRR_21064(irr) \ ( (irr.LowPart >> IRR_SIRR_21064_SHIFT) & IRR_SIRR_21064_SHIFTMASK) #define IRR_ASTRR_21064(irr) \ ( (irr.LowPart >> IRR_ASTRR_21064_SHIFT) & IRR_ASTRR_21064_SHIFTMASK) // // Interrupt Enable (HIER, SIER, ASTER) format. // typedef LARGE_INTEGER IER_21064; typedef IER_21064 *PIER_21064; #define IER_CRR_21064_SHIFT 4 #define IER_HIER53_21064_SHIFT 5 #define IER_HIER53_21064_SHIFTMASK 0x7 #define IER_PC1_21064_SHIFT 8 #define IER_PC0_21064_SHIFT 9 #define IER_HIER20_21064_SHIFT 10 #define IER_HIER20_21064_SHIFTMASK 0x7 #define IER_SLR_21064_SHIFT 13 #define IER_SIER_21064_SHIFT 14 #define IER_SIER_21064_SHIFTMASK 0x7FFF #define IER_ASTER_21064_SHIFT 29 #define IER_ASTER_21064_SHIFTMASK 0xF #define IER_ALL_21064(ier) (ier) #define IER_CRR_21064(ier) ( (ier.LowPart >> IER_CRR_21064_SHIFT) & 0x1) #define IER_HIER_21064(ier) \ ( ( (ier.LowPart >> (IER_HIER53_21064_SHIFT-3)) & IER_HIER53_21064_SHIFTMASK) || \ ( (ier.LowPart >> IER_HIER20_21064_SHIFT) & IER_HIER20_21064_SHIFTMASK) ) #define IER_PC1_21064(ier) ( (ier.LowPart >> IER_PC1_21064_SHIFT) & 0x1) #define IER_PC0_21064(ier) ( (ier.LowPart >> IER_PC0_21064_SHIFT) & 0x1) #define IER_SLR_21064(ier) ( (ier.LowPart >> IER_SLR_21064_SHIFT) & 0x1) #define IER_SIER_21064(ier) \ ( (ier.LowPart >> IER_SIER_21064_SHIFT) & IER_SIER_21064_SHIFTMASK) #define IER_ASTER_21064(ier) \ ( (ier.LowPart >> IER_ASTER_21064_SHIFT) & IER_ASTER_21064_SHIFTMASK) // // Abox Control Register (ABOX_CTL) format. // typedef union _ABOX_CTL_21064{ struct { ULONG wb_dis: 1; ULONG mchk_en: 1; ULONG crd_en: 1; ULONG ic_sbuf_en: 1; ULONG spe_1: 1; ULONG spe_2: 1; ULONG emd_en: 1; ULONG mbz1: 3; ULONG dc_ena: 1; ULONG dc_fhit: 1; } bits; LARGE_INTEGER all; } ABOX_CTL_21064, *PABOX_CTL_21064; #define ABOXCTL_ALL_21064(aboxctl) ((aboxctl).all) #define ABOXCTL_WBDIS_21064(aboxctl) ((aboxctl).bits.wb_dis) #define ABOXCTL_MCHKEN_21064(aboxctl) ((aboxctl).bits.mchk_en) #define ABOXCTL_CRDEN_21064(aboxctl) ((aboxctl).bits.crd_en) #define ABOXCTL_ICSBUFEN_21064(aboxctl) ((aboxctl).bits.ic_sbuf_en) #define ABOXCTL_SPE1_21064(aboxctl) ((aboxctl).bits.spe_1) #define ABOXCTL_SPE2_21064(aboxctl) ((aboxctl).bits.spe_2) #define ABOXCTL_EMDEN_21064(aboxctl) ((aboxctl).bits.emd_en) #define ABOXCTL_DCENA_21064(aboxctl) ((aboxctl).bits.dc_ena) #define ABOXCTL_DCFHIT_21064(aboxctl) ((aboxctl).bits.dc_fhit) // // Memory Management Control and Status Register (MMCSR) format. // typedef union _MMCSR_21064{ struct { ULONG Wr: 1; ULONG Acv: 1; ULONG For: 1; ULONG Fow: 1; ULONG Ra: 5; ULONG Opcode: 6; } bits; LARGE_INTEGER all; } MMCSR_21064, *PMMCSR_21064; #define MMCSR_ALL_21064(mmcsr) ((mmcsr).all) #define MMCSR_WR_21064(mmcsr) ((mmcsr).bits.Wr) #define MMCSR_ACV_21064(mmcsr) ((mmcsr).bits.Acv) #define MMCSR_FOR_21064(mmcsr) ((mmcsr).bits.For) #define MMCSR_FOW_21064(mmcsr) ((mmcsr).bits.Fow) #define MMCSR_RA_21064(mmcsr) ((mmcsr).bits.Ra) #define MMCSR_OPCODE_21064(mmcsr) ((mmcsr).bits.Opcode) // // Dcache Status (DC_STAT) format. // typedef union _DC_STAT_21064{ struct { ULONG Reserved: 3; ULONG DcHit: 1; ULONG DCacheParityError: 1; ULONG ICacheParityError: 1; } bits; LARGE_INTEGER all; } DC_STAT_21064, *PDC_STAT_21064; #define DCSTAT_ALL_21064(dcstat) ((dcstat).all) #define DCSTAT_DCHIT_21064(dcstat) ((dcstat).bits.DcHit) #define DCSTAT_DCPARITY_ERROR_21064(dcstat) ((dcstat).bits.DCacheParityError) #define DCSTAT_ICPARITY_ERROR_21064(dcstat) ((dcstat).bits.ICacheParityError) #endif //!CORE_21064 //end_axp21064 // // Define the number of banks in the memory controller. // #define MEMORY_BANKS_21066 (4) // // Define the base physical addresses for the integrated // memory and I/O controllers. // #define MEMORY_CONTROLLER_PHYSICAL_21066 (0x120000000) #define IO_CONTROLLER_PHYSICAL_21066 (0x180000000) // // Define the memory controller CSR structure. // typedef struct _MEMC_CSRS_21066{ LARGE_INTEGER Bcr0; LARGE_INTEGER Bcr1; LARGE_INTEGER Bcr2; LARGE_INTEGER Bcr3; LARGE_INTEGER Bmr0; LARGE_INTEGER Bmr1; LARGE_INTEGER Bmr2; LARGE_INTEGER Bmr3; LARGE_INTEGER Btr0; LARGE_INTEGER Btr1; LARGE_INTEGER Btr2; LARGE_INTEGER Btr3; LARGE_INTEGER Gtr; LARGE_INTEGER Esr; LARGE_INTEGER Ear; LARGE_INTEGER Car; LARGE_INTEGER Vgr; LARGE_INTEGER Plm; LARGE_INTEGER For; } MEMC_CSRS_21066, *PMEMC_CSRS_21066; // // Define the i/o controller CSR structure. // typedef struct _IOC_CSRS_21066{ LARGE_INTEGER Hae; LARGE_INTEGER Filler1[3]; LARGE_INTEGER Cct; LARGE_INTEGER Filler2[3]; LARGE_INTEGER IoStat0; LARGE_INTEGER Filler3[3]; LARGE_INTEGER IoStat1; LARGE_INTEGER Filler4[3]; LARGE_INTEGER Tbia; LARGE_INTEGER Filler5[3]; LARGE_INTEGER Tben; LARGE_INTEGER Filler6[3]; LARGE_INTEGER PciSoftReset; LARGE_INTEGER Filler7[3]; LARGE_INTEGER PciParityDisable; LARGE_INTEGER Filler8[3]; LARGE_INTEGER Wbase0; LARGE_INTEGER Filler9[3]; LARGE_INTEGER Wbase1; LARGE_INTEGER Filler10[3]; LARGE_INTEGER Wmask0; LARGE_INTEGER Filler11[3]; LARGE_INTEGER Wmask1; LARGE_INTEGER Filler12[3]; LARGE_INTEGER Tbase0; LARGE_INTEGER Filler13[3]; LARGE_INTEGER Tbase1; LARGE_INTEGER Filler14[3]; } IOC_CSRS_21066, *PIOC_CSRS_21066; // // Bank Configuration Registers (BCR0 - BCR3) // typedef union _BCR_21066{ struct { ULONG Reserved1: 6; ULONG Ras: 4; ULONG Erm: 1; ULONG Wrm: 1; ULONG Bwe: 1; ULONG Sbe: 1; ULONG Bav: 1; ULONG Reserved2: 5; ULONG BankBase: 9; ULONG Reserved3: 3; } ; LARGE_INTEGER all; } BCR_21066, *PBCR_21066; // // Bank Address Mask Registers (BMR0 - BMR3) // typedef union _BMR_21066{ struct { ULONG Reserved1: 20; ULONG BankAddressMask: 9; ULONG Reserved2: 3; } ; LARGE_INTEGER all; } BMR_21066, *PBMR_21066; // // Global Timing Register (GTR) // typedef union _GTR_21066{ struct { ULONG Precharge: 5; ULONG MinimumRas: 5; ULONG MaximumRas: 8; ULONG RefreshEnable: 1; ULONG RefreshInterval: 8; ULONG RefreshDivideSelect: 1; ULONG Setup: 4; } ; LARGE_INTEGER all; } GTR_21066, *PGTR_21066; // // Error Status Register (ESR) // typedef union _ESR_21066{ struct { ULONG Eav: 1; ULONG Cee: 1; ULONG Uee: 1; ULONG Wre: 1; ULONG Sor: 1; ULONG Reserved1: 2; ULONG Cte: 1; ULONG Reserved2: 1; ULONG Mse: 1; ULONG Mhe: 1; ULONG Ice: 1; ULONG Nxm: 1; ULONG Reserved3: 19; ULONG Ecc0: 1; ULONG Wec6: 1; ULONG Wec3: 1; ULONG Reserved4: 1; ULONG Ecc1: 1; ULONG Reserved5: 3; ULONG Wec7: 1; ULONG Ecc2: 1; ULONG Wec2: 1; ULONG Reserved6: 2; ULONG Ecc3: 1; ULONG Reserved7: 2; ULONG Wec4: 1; ULONG Wec1: 1; ULONG Ecc4: 1; ULONG Wec0: 1; ULONG Reserved8: 2; ULONG Ecc5: 1; ULONG Reserved9: 4; ULONG Ecc6: 1; ULONG Wec5: 1; ULONG Reserved10: 2; ULONG Ecc7: 1; } ; LARGE_INTEGER all; } ESR_21066, *PESR_21066; // // Error Address Register (EAR) // typedef union _EAR_21066{ struct { ULONG PerfCntMux0: 3; ULONG ErrorAddress: 26; ULONG PerfCntMux1: 3; } ; LARGE_INTEGER all; } EAR_21066, *PEAR_21066; // // Cache Register (CAR) // typedef union _CAR_21066{ struct { ULONG Bce: 1; ULONG Reserved1: 1; ULONG Etp: 1; ULONG Wwp: 1; ULONG Ece: 1; ULONG BCacheSize: 3; ULONG ReadCycles: 3; ULONG WriteCycles: 3; ULONG Whd: 1; ULONG Pwr: 1; ULONG Tag: 15; ULONG Hit: 1; } ; LARGE_INTEGER all; } CAR_21066, *PCAR_21066; // // IOC Status 0 Registers (IOC_STAT0) // typedef union _IOC_STAT0_21066{ struct { ULONG Cmd: 4; ULONG Err: 1; ULONG Lost: 1; ULONG Thit: 1; ULONG Tref: 1; ULONG Code: 3; ULONG Reserved1: 2; ULONG PageNumber: 19; } ; LARGE_INTEGER all; } IOC_STAT0_21066, *PIOC_STAT0_21066; // // IOC Status 1 Register (IOC_STAT1) // typedef union _IOC_STAT1_21066{ struct { ULONG Address: 32; } ; LARGE_INTEGER all; } IOC_STAT1_21066, *PIOC_STAT1_21066; // // Internal Processor State record. // This is the structure of the data returned by the rdstate call pal. // typedef struct _PROCESSOR_STATE_21066{ ABOX_CTL_21064 AboxCtl; IER_21064 Aster; IRR_21064 Astrr; BCR_21066 BankConfig[ MEMORY_BANKS_21066 ]; BMR_21066 BankMask[ MEMORY_BANKS_21066 ]; DC_STAT_21064 DcStat; DTB_PTE_21064 DtbPte[ DTB_ENTRIES_21064 ]; EXC_SUM_21064 ExcSum; IER_21064 Hier; IRR_21064 Hirr; ICCSR_21064 Iccsr; ITB_PTE_21064 ItbPte[ ITB_ENTRIES_21064 ]; MMCSR_21064 MmCsr; LARGE_INTEGER PalBase; LARGE_INTEGER PalTemp[ PAL_TEMPS_21064 ]; PS_21064 Ps; IER_21064 Sier; IRR_21064 Sirr; LARGE_INTEGER Va; } PROCESSOR_STATE_21066, *PPROCESSOR_STATE_21066; // // Machine-check logout frame. // typedef struct _LOGOUT_FRAME_21066{ ABOX_CTL_21064 AboxCtl; BCR_21066 BankConfig[ MEMORY_BANKS_21066 ]; BMR_21066 BankMask[ MEMORY_BANKS_21066 ]; DC_STAT_21064 DcStat; LARGE_INTEGER ExcAddr; EXC_SUM_21064 ExcSum; IER_21064 Hier; IRR_21064 Hirr; ICCSR_21064 Iccsr; MMCSR_21064 MmCsr; LARGE_INTEGER PalBase; LARGE_INTEGER PalTemp[ PAL_TEMPS_21064 ]; PS_21064 Ps; LARGE_INTEGER Va; } LOGOUT_FRAME_21066, *PLOGOUT_FRAME_21066; // // Correctable Machine-check logout frame. // typedef struct _CORRECTABLE_FRAME_21066{ BCR_21066 BankConfig[ MEMORY_BANKS_21066 ]; BMR_21066 BankMask[ MEMORY_BANKS_21066 ]; DC_STAT_21064 DcStat; } CORRECTABLE_FRAME_21066; // // Define the physical and virtual address bits // #define LCA_PHYSICAL_ADDRESS_BITS 34 #define LCA_VIRTUAL_ADDRESS_BITS 43 #endif //!_AXP21066_