/* vax440_defs.h: MicroVAX 4000 model-specific definitions file Copyright (c) 2019, Matt Burke This module incorporates code from SimH, Copyright (c) 1998-2008, Robert M Supnik Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name(s) of the author(s) shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the author(s). This file covers the KA440 ("PVAX2") systems. System memory map 0000 0000 - 00FF FFFF main memory 0800 0000 - 0803 FFFF secondary cache data store 2000 0000 - 2001 FFFF DMA map 2002 0000 - 2002 0003 configuration/test register 2004 0000 - 2007 FFFF ROM space 2008 0000 - 2008 001F local register space 2009 0000 - 2009 007F network address ROM 200A 0000 - 200A 000F serial line controller 200B 0000 - 200B 00FF watch chip registers 200C 0000 - 200C 00BF scsi controller 200D 0000 - 200D 3FFF ISDN/audio controller 200E 0000 - 200E 0007 ethernet contoller 2010 0000 - 2013 FFFF option ROMs 2010 1800 - 2010 180F memory registers 2010 1A00 - 2010 1FFF invalidate single 2020 0000 - 2021 FFFF invalidate filter 2200 0000 - 2203 FFFF secondary cache tag store 2300 0000 - 2300 0003 secondary cache control registers 3680 0000 - 3680 0003 turbochannel registers */ #ifdef FULL_VAX /* subset VAX */ #undef FULL_VAX #endif #ifndef _VAX_440_DEFS_H_ #define _VAX_440_DEFS_H_ 1 /* Microcode constructs */ #if defined (VAX_46) || defined (VAX_47) #define VAX4X_SID (18 << 24) /* system ID */ #else #define VAX4X_SID (20 << 24) /* system ID */ #endif #define VAX4X_UREV 14 /* ucode revision */ #define CON_HLTPIN 0x0200 /* external CPU halt */ #define CON_PWRUP 0x0300 /* powerup code */ #define CON_HLTINS 0x0600 /* HALT instruction */ #define CON_DBLMCK 0x0500 /* Machine check in machine check */ #define CON_BADPSL 0x4000 /* invalid PSL flag */ #define CON_MAPON 0x8000 /* mapping on flag */ #define MCHK_READ 0x80 /* read check */ #define MCHK_WRITE 0x82 /* write check */ /* Machine specific IPRs */ #define MT_CADR 37 /* Cache disable reg */ #define MT_MCESR 38 /* Machine check error/status reg */ #define MT_CAER 39 /* Cache error reg */ #define MT_ACCS 40 /* FPA control */ #define MT_CONISP 41 /* Console Saved ISP */ #define MT_CONPC 42 /* Console Saved PC */ #define MT_CONPSL 43 /* Console Saved PSL */ #define MT_PCTAG 124 /* Primary cache tag reg */ #define MT_PCIDX 125 /* Primary cache index reg */ #define MT_PCERR 126 /* Primary cache error reg */ #define MT_PCSTS 127 /* Primary cache status reg */ #define MT_MAX 127 /* last valid IPR */ /* Cache disable register */ #define CADR_RW 0xF3 #define CADR_MBO 0x0C /* CPU */ #if defined (VAX_46) || defined (VAX_48) #define CPU_MODEL_MODIFIERS \ { MTAB_XTD|MTAB_VDV, 0, "MODEL", "MODEL={MICROVAX|VAXSTATION}", \ cpu_set_model, &cpu_show_model, NULL, "Set/Show the simulator CPU Model" }, #else #define CPU_MODEL_MODIFIERS #endif /* Memory */ #define MAXMEMWIDTH 25 /* max mem, std KA440 */ #define MAXMEMSIZE (1 << MAXMEMWIDTH) /* max mem size */ #define MAXMEMWIDTH_X 27 /* max mem, KA440 */ #define MAXMEMSIZE_X (1 << MAXMEMWIDTH_X) #define INITMEMSIZE (1 << 24) /* initial memory size */ #define MEMSIZE (cpu_unit.capac) #define ADDR_IS_MEM(x) (((uint32) (x)) < MEMSIZE) #if defined (VAX_46) || defined (VAX_47) #define MEM_MODIFIERS { UNIT_MSIZE, (1u << 23), NULL, "8M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 24), NULL, "16M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 24) + (1u << 23), NULL, "24M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 25), NULL, "32M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 25) + (1u << 23), NULL, "40M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 25) + (1u << 24), NULL, "48M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 25) + (1u << 24) + (1u << 23), NULL, "56M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 26) + (1u << 23), NULL, "72M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 26) + (1u << 24), NULL, "80M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 26) + (1u << 25) + (1u << 23), NULL, "104M", &cpu_set_size } #elif defined (VAX_48) #define MEM_MODIFIERS { UNIT_MSIZE, (1u << 23), NULL, "8M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 24), NULL, "16M", &cpu_set_size }, \ { UNIT_MSIZE, (1u << 24) + (1u << 23), NULL, "24M", &cpu_set_size } #endif /* DMA map */ #define DMAAWIDTH 17 /* DMA addr width */ #define DMASIZE (1u << DMAAWIDTH) /* DMA length */ #define DMAAMASK (DMASIZE - 1) /* DMA addr mask */ #define DMABASE 0x20000000 /* DMA base */ /* Config/test register */ #define CFGSIZE 4 /* CFG length */ #define CFGBASE 0x20020000 /* CFG base */ /* Read only memory */ #define ROMAWIDTH 18 /* ROM addr width */ #define ROMSIZE (1u << ROMAWIDTH) /* ROM length */ #define ROMAMASK (ROMSIZE - 1) /* ROM addr mask */ #define ROMBASE 0x20040000 /* ROM base */ #define ADDR_IS_ROM(x) ((((uint32) (x)) >= ROMBASE) && \ (((uint32) (x)) < (ROMBASE + ROMSIZE))) /* KA440 board registers */ #define KAAWIDTH 5 /* REG addr width */ #define KASIZE (1u << KAAWIDTH) /* REG length */ #define KABASE 0x20080000 /* REG addr base */ /* Network address ROM */ #define NARAWIDTH 5 /* NAR addr width */ #define NARSIZE (1u << NARAWIDTH) /* NAR length */ #define NARAMASK (NARSIZE - 1) /* NAR addr mask */ #define NARBASE 0x20090000 /* NAR base */ /* Serial line controller */ #define DZSIZE 0x10 /* DZ length */ #define DZBASE 0x200A0000 /* DZ base */ /* Non-volatile RAM - 1KB Bytes long */ #define NVRAWIDTH 10 /* NVR addr width */ #define NVRSIZE (1u << NVRAWIDTH) /* NVR length */ #define NVRAMASK (NVRSIZE - 1) /* NVR addr mask */ #define NVRBASE 0x200B0000 /* NVR base */ #define ADDR_IS_NVR(x) ((((uint32) (x)) >= NVRBASE) && \ (((uint32) (x)) < (NVRBASE + NVRSIZE))) /* SCSI disk controller */ #define RZSIZE 0xC0 /* RZ length */ #define RZBASE 0x200C0000 /* RZ base */ /* LANCE Ethernet controller */ #define XSSIZE 0x8 /* XS length */ #define XSBASE 0x200E0000 /* XS base */ /* Option ROMs */ #define ORAWIDTH 20 /* OR addr width */ #define ORSIZE (1u << ORAWIDTH) /* OR length */ #define ORMASK (ORSIZE - 1) /* OR addr mask */ #define ORBASE 0x20100000 /* OR base */ /* Other address spaces */ #define ADDR_IS_IO(x) (0) #define ADDR_IS_CDG(x) (0) /* Machine specific reserved operand tests (mostly NOPs) */ #define ML_PA_TEST(r) #define ML_LR_TEST(r) #define ML_SBR_TEST(r) #define ML_PXBR_TEST(r) #define LP_AST_TEST(r) #define LP_MBZ84_TEST(r) #define LP_MBZ92_TEST(r) #define MT_AST_TEST(r) if ((r) > AST_MAX) RSVD_OPND_FAULT(MT_AST_TEST) /* Common CSI flags */ #define CSR_V_GO 0 /* go */ #define CSR_V_IE 6 /* interrupt enable */ #define CSR_V_DONE 7 /* done */ #define CSR_V_BUSY 11 /* busy */ #define CSR_V_ERR 15 /* error */ #define CSR_GO (1u << CSR_V_GO) #define CSR_IE (1u << CSR_V_IE) #define CSR_DONE (1u << CSR_V_DONE) #define CSR_BUSY (1u << CSR_V_BUSY) #define CSR_ERR (1u << CSR_V_ERR) /* Timers */ #define TMR_CLK 0 /* 100Hz clock */ /* I/O system definitions */ #define MT_MAXFR (1 << 16) /* magtape max rec */ #define DEV_V_4XX (DEV_V_UF + 0) /* KA4xx I/O */ #define DEV_4XX (1u << DEV_V_4XX) #define DEV_RDX 16 /* default device radix */ /* Device information block */ #define VEC_DEVMAX 4 /* max device vec */ typedef struct { int32 rom_index; /* option ROM index */ uint8 *rom_array; /* option ROM code */ t_addr rom_size; /* option ROM size */ } DIB; /* Within each IPL, priority is left to right */ /* IPL 14 */ #define INT_V_SC 0 /* storage controller */ #define INT_V_XS1 1 /* network */ #define INT_V_VC1 2 /* video primary */ #define INT_V_VC2 3 /* video secondary */ #define INT_V_DZTX 4 /* serial transmitter */ #define INT_V_DZRX 5 /* serial receiver */ #define INT_V_SP 6 /* audio/ISDN */ #define INT_V_CO 7 /* sync comm (PV21X-DA) */ #define INT_SC (1u << INT_V_SC) #define INT_XS1 (1u << INT_V_XS1) #define INT_VC1 (1u << INT_V_VC1) #define INT_VC2 (1u << INT_V_VC2) #define INT_DZTX (1u << INT_V_DZTX) #define INT_DZRX (1u << INT_V_DZRX) #define INT_SP (1u << INT_V_SP) #define INT_CO (1u << INT_V_CO) #define IPL_CLK 0x16 #define IPL_HW 0x14 /* hwre level */ #define IPL_SC (0x14 - IPL_HMIN) #define IPL_XS1 (0x14 - IPL_HMIN) #define IPL_DZTX (0x14 - IPL_HMIN) #define IPL_DZRX (0x14 - IPL_HMIN) #define IPL_HMIN IPL_HW #define IPL_HMAX IPL_HW #define IPL_HLVL (IPL_HMAX - IPL_HMIN + 1) /* # hardware levels */ #define IPL_SMAX 0xF /* highest swre level */ /* Device vectors */ #define VEC_QBUS 0 /* Not a Qbus system */ #define VEC_Q 0 /* Interrupt macros */ #define IREQ(dv) int_req[0] #define SET_INT(dv) int_req[0] = int_req[0] | (INT_##dv) #define CLR_INT(dv) int_req[0] = int_req[0] & ~(INT_##dv) #define IORETURN(f,v) ((f)? (v): SCPE_OK) /* cond error return */ /* System model */ extern int32 sys_model; /* Machine specific definitions - DZ */ #define DZ_L3C 1 /* line 3 console */ /* Machine specific definitions - OR */ #define OR_COUNT 4 /* max number of option ROMs */ /* Machine specific definitions - RZ94 */ #define RZ_SCSI_ID 6 /* initiator SCSI id */ #define RZ_READB Map_ReadB #define RZ_READW Map_ReadW #define RZ_WRITEB Map_WriteB #define RZ_WRITEW Map_WriteW /* Machine specific definitions - XS */ #define XS_ROM_INDEX -1 /* no ROM needed */ #define XS_FLAGS 0 #define XS_READB Map_ReadB #define XS_READW Map_ReadW #define XS_WRITEB Map_WriteB #define XS_WRITEW Map_WriteW #define XS_ADRMBO (0) /* Function prototypes for I/O */ int32 Map_ReadB (uint32 ba, int32 bc, uint8 *buf); int32 Map_ReadW (uint32 ba, int32 bc, uint16 *buf); int32 Map_WriteB (uint32 ba, int32 bc, uint8 *buf); int32 Map_WriteW (uint32 ba, int32 bc, uint16 *buf); /* Function prototypes for system-specific unaligned support */ int32 ReadIOU (uint32 pa, int32 lnt); int32 ReadRegU (uint32 pa, int32 lnt); void WriteIOU (uint32 pa, int32 val, int32 lnt); void WriteRegU (uint32 pa, int32 val, int32 lnt); t_stat auto_config (const char *name, int32 nctrl); /* Function prototypes for virtual and physical memory interface (inlined) */ #include "vax_mmu.h" #endif