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/* pdp11_defs.h: PDP-11 simulator definitions
Copyright (c) 1993-2005, 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
ROBERT M SUPNIK 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 of Robert M Supnik shall not be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
The author gratefully acknowledges the help of Max Burnet, Megan Gentry,
and John Wilson in resolving questions about the PDP-11
30-Sep-04 RMS Added Massbus support
Removed Map_Addr prototype
Removed map argument from Unibus routines
Added framework for model selection
28-May-04 RMS Added DHQ support
25-Jan-04 RMS Removed local debug logging support
22-Dec-03 RMS Added second DEUNA/DELUA support
18-Oct-03 RMS Added DECtape off reel message
19-May-03 RMS Revised for new conditional compilation
05-Apr-03 RMS Fixed bug in MMR1 update (found by Tim Stark)
28-Feb-03 RMS Added TM logging support
19-Jan-03 RMS Changed mode definitions for Apple Dev Kit conflict
11-Nov-02 RMS Changed log definitions to be VAX compatible
10-Oct-02 RMS Added vector information to DIB
Changed DZ11 vector to Unibus standard
Added DEQNA/DELQA, DEUNA/DELUA support
Added multiple RQDX3, autoconfigure support
12-Sep-02 RMS Added TMSCP, KW11P,and RX211 support
28-Apr-02 RMS Clarified PDF ACF mnemonics
22-Apr-02 RMS Added HTRAP, BPOK maint register flags, MT_MAXFR
06-Mar-02 RMS Changed system type to KDJ11A
20-Jan-02 RMS Added multiboard DZ11 support
09-Nov-01 RMS Added bus map support
07-Nov-01 RMS Added RQDX3 support
26-Oct-01 RMS Added symbolic definitions for IO page
19-Oct-01 RMS Added DZ definitions
15-Oct-01 RMS Added logging capabilities
07-Sep-01 RMS Revised for multilevel interrupts
01-Jun-01 RMS Added DZ11 support
23-Apr-01 RMS Added RK611 support
05-Apr-01 RMS Added TS11/TSV05 support
10-Feb-01 RMS Added DECtape support
*/
#ifndef _PDP11_DEFS_H
#define _PDP11_DEFS_H 0
#ifndef VM_PDP11
#define VM_PDP11 0
#endif
#include "sim_defs.h" /* simulator defns */
#include <setjmp.h>
/* Architectural constants */
#define STKL_R 0340 /* stack limit */
#define STKL_Y 0400
#define VASIZE 0200000 /* 2**16 */
#define VAMASK (VASIZE - 1) /* 2**16 - 1 */
#define MEMSIZE64K 0200000 /* 2**16 */
#define INIMEMSIZE 001000000 /* 2**18 */
#define UNIMEMSIZE 001000000 /* 2**18 */
#define UNIMASK (UNIMEMSIZE - 1) /* 2**18 - 1 */
#define IOPAGEBASE 017760000 /* 2**22 - 2**13 */
#define IOPAGESIZE 000020000 /* 2**13 */
#define IOPAGEMASK (IOPAGESIZE - 1) /* 2**13 - 1 */
#define MAXMEMSIZE 020000000 /* 2**22 */
#define PAMASK (MAXMEMSIZE - 1) /* 2**22 - 1 */
#define MEMSIZE (cpu_unit.capac)
#define ADDR_IS_MEM(x) (((t_addr) (x)) < MEMSIZE)
#define DMASK 0177777
/* CPU models */
#define MOD_1103 0
#define MOD_1104 1
#define MOD_1105 2
#define MOD_1120 3
#define MOD_1123 4
#define MOD_1123P 5
#define MOD_1124 6
#define MOD_1134 7
#define MOD_1140 8
#define MOD_1144 9
#define MOD_1145 10
#define MOD_1160 11
#define MOD_1170 12
#define MOD_1173 13
#define MOD_1153 14
#define MOD_1173B 15
#define MOD_1183 16
#define MOD_1184 17
#define MOD_1193 18
#define MOD_1194 19
#define MOD_T 20
#define CPUT_03 (1u << MOD_1103) /* LSI-11 */
#define CPUT_04 (1u << MOD_1104) /* 11/04 */
#define CPUT_05 (1u << MOD_1105) /* 11/05 */
#define CPUT_20 (1u << MOD_1120) /* 11/20 */
#define CPUT_23 (1u << MOD_1123) /* 11/23 */
#define CPUT_23P (1u << MOD_1123P) /* 11/23+ */
#define CPUT_24 (1u << MOD_1124) /* 11/24 */
#define CPUT_34 (1u << MOD_1134) /* 11/34 */
#define CPUT_40 (1u << MOD_1140) /* 11/40 */
#define CPUT_44 (1u << MOD_1144) /* 11/44 */
#define CPUT_45 (1u << MOD_1145) /* 11/45 */
#define CPUT_60 (1u << MOD_1160) /* 11/60 */
#define CPUT_70 (1u << MOD_1170) /* 11/70 */
#define CPUT_73 (1u << MOD_1173) /* 11/73 */
#define CPUT_53 (1u << MOD_1153) /* 11/53 */
#define CPUT_73B (1u << MOD_1173B) /* 11/73B */
#define CPUT_83 (1u << MOD_1183) /* 11/83 */
#define CPUT_84 (1u << MOD_1184) /* 11/84 */
#define CPUT_93 (1u << MOD_1193) /* 11/93 */
#define CPUT_94 (1u << MOD_1194) /* 11/94 */
#define CPUT_T (1u << MOD_T) /* T-11 */
#define CPUT_F (CPUT_23|CPUT_23P|CPUT_24) /* all F11's */
#define CPUT_J (CPUT_53|CPUT_73|CPUT_73B| \
CPUT_83|CPUT_84|CPUT_93|CPUT_94)
#define CPUT_JB (CPUT_73B|CPUT_83|CPUT_84) /* KDJ11B */
#define CPUT_JE (CPUT_93|CPUT_94) /* KDJ11E */
#define CPUT_JU (CPUT_84|CPUT_94) /* KTJ11B UBA */
#define CPUT_ALL 0xFFFFFFFF
/* CPU options */
#define BUS_U (1u << 0) /* Unibus */
#define BUS_Q (0) /* Qbus */
#define OPT_EIS (1u << 1) /* EIS */
#define OPT_FIS (1u << 2) /* FIS */
#define OPT_FPP (1u << 3) /* FPP */
#define OPT_CIS (1u << 4) /* CIS */
#define OPT_MMU (1u << 5) /* MMU */
#define OPT_RH11 (1u << 6) /* RH11 */
#define OPT_PAR (1u << 7) /* parity */
#define OPT_UBM (1u << 8) /* UBM */
#define CPUT(x) ((cpu_type & (x)) != 0)
#define CPUO(x) ((cpu_opt & (x)) != 0)
#define UNIBUS (cpu_opt & BUS_U)
/* Feature sets
SDSD source addr, source fetch, dest addr, dest fetch
SR switch register
DR display register
RTT RTT instruction
SXS SXT, XOR, SOB instructions
MARK MARK instruction
SPL SPL instruction
MXPY MTPI, MTPD, MFPI, MFPD instructions
MXPS MTPS, MFPS instructions
MFPT MFPT instruction
CSM CSM instruction
TSWLK TSTSET, WRLCK instructions
PSW PSW register
EXPT explicit PSW writes can alter T-bit
IOSR general registers readable from programs in IO space
2REG dual register set
MMR3 MMR3 register
MMTR mem mgt traps
STKLR STKLIM register
STKLF fixed stack limit
SID supervisor mode, I/D spaces
ODD odd address trap
HALT4 halt in kernel mode traps to 4
JREG4 JMP/JSR R traps to 4
STKA stop on stack abort
LTCR LTC CSR
LTCM LTC CSR<7>
*/
#define IS_SDSD (CPUT_20|CPUT_F|CPUT_40|CPUT_60|CPUT_J|CPUT_T)
#define HAS_SR (CPUT_04|CPUT_05|CPUT_20|CPUT_34|CPUT_40| \
CPUT_44|CPUT_45|CPUT_60|CPUT_70)
#define HAS_DR (CPUT_04|CPUT_05|CPUT_20|CPUT_24|CPUT_34| \
CPUT_40|CPUT_45|CPUT_60|CPUT_70)
#define HAS_RTT (CPUT_03|CPUT_04|CPUT_F|CPUT_34|CPUT_40| \
CPUT_44|CPUT_45|CPUT_60|CPUT_70|CPUT_J|CPUT_T)
#define HAS_SXS (CPUT_03|CPUT_F|CPUT_34|CPUT_40|CPUT_44| \
CPUT_45|CPUT_60|CPUT_70|CPUT_J|CPUT_T)
#define HAS_MARK (CPUT_03|CPUT_F|CPUT_34|CPUT_40|CPUT_44| \
CPUT_45|CPUT_60|CPUT_70|CPUT_J)
#define HAS_SPL (CPUT_44|CPUT_45|CPUT_70|CPUT_J)
#define HAS_MXPY (CPUT_F|CPUT_34|CPUT_40|CPUT_44|CPUT_45| \
CPUT_60|CPUT_70|CPUT_J)
#define HAS_MXPS (CPUT_03|CPUT_F|CPUT_34|CPUT_J|CPUT_T)
#define HAS_MFPT (CPUT_F|CPUT_44|CPUT_J|CPUT_T)
#define HAS_CSM (CPUT_44|CPUT_J)
#define HAS_TSWLK (CPUT_J)
#define HAS_PSW (CPUT_04|CPUT_05|CPUT_20|CPUT_F|CPUT_34|CPUT_40| \
CPUT_44|CPUT_45|CPUT_60|CPUT_70|CPUT_J)
#define HAS_EXPT (CPUT_04|CPUT_05|CPUT_20)
#define HAS_IOSR (CPUT_04|CPUT_05)
#define HAS_2REG (CPUT_45|CPUT_70|CPUT_J)
#define HAS_MMR3 (CPUT_F|CPUT_44|CPUT_45|CPUT_70|CPUT_J)
#define HAS_MMTR (CPUT_45|CPUT_70)
#define HAS_STKLR (CPUT_45|CPUT_60|CPUT_70)
#define HAS_STKLF (CPUT_04|CPUT_05|CPUT_20|CPUT_F|CPUT_34| \
CPUT_40|CPUT_44|CPUT_J)
#define HAS_SID (CPUT_44|CPUT_45|CPUT_70|CPUT_J)
#define HAS_ODD (CPUT_04|CPUT_05|CPUT_20|CPUT_34|CPUT_40| \
CPUT_44|CPUT_45|CPUT_60|CPUT_70|CPUT_J)
#define HAS_HALT4 (CPUT_44|CPUT_45|CPUT_70|CPUT_J)
#define HAS_JREG4 (CPUT_03|CPUT_04|CPUT_05|CPUT_20|CPUT_F| \
CPUT_34|CPUT_40|CPUT_60|CPUT_T)
#define STOP_STKA (CPUT_03|CPUT_04|CPUT_05|CPUT_20|CPUT_34|CPUT_44)
#define HAS_LTCR (CPUT_04|CPUT_05|CPUT_20|CPUT_23P|CPUT_24| \
CPUT_34|CPUT_40|CPUT_44|CPUT_45|CPUT_60| \
CPUT_70|CPUT_J)
#define HAS_LTCM (CPUT_04|CPUT_05|CPUT_20|CPUT_24|CPUT_34| \
CPUT_40|CPUT_44|CPUT_45|CPUT_60|CPUT_70|CPUT_J)
/* Protection modes */
#define MD_KER 0
#define MD_SUP 1
#define MD_UND 2
#define MD_USR 3
/* I/O access modes */
#define READ 0
#define READC 1 /* read console */
#define WRITE 2
#define WRITEC 3 /* write console */
#define WRITEB 4
/* PSW */
#define PSW_V_C 0 /* condition codes */
#define PSW_V_V 1
#define PSW_V_Z 2
#define PSW_V_N 3
#define PSW_V_TBIT 4 /* trace trap */
#define PSW_V_IPL 5 /* int priority */
#define PSW_V_FPD 8 /* first part done */
#define PSW_V_RS 11 /* register set */
#define PSW_V_PM 12 /* previous mode */
#define PSW_V_CM 14 /* current mode */
#define PSW_CC 017
#define PSW_TBIT (1 << PSW_V_TBIT)
#define PSW_PM (3 << PSW_V_PM)
/* FPS */
#define FPS_V_C 0 /* condition codes */
#define FPS_V_V 1
#define FPS_V_Z 2
#define FPS_V_N 3
#define FPS_V_T 5 /* truncate */
#define FPS_V_L 6 /* long */
#define FPS_V_D 7 /* double */
#define FPS_V_IC 8 /* ic err int */
#define FPS_V_IV 9 /* overflo err int */
#define FPS_V_IU 10 /* underflo err int */
#define FPS_V_IUV 11 /* undef var err int */
#define FPS_V_ID 14 /* int disable */
#define FPS_V_ER 15 /* error */
/* PIRQ */
#define PIRQ_PIR1 0001000
#define PIRQ_PIR2 0002000
#define PIRQ_PIR3 0004000
#define PIRQ_PIR4 0010000
#define PIRQ_PIR5 0020000
#define PIRQ_PIR6 0040000
#define PIRQ_PIR7 0100000
#define PIRQ_IMP 0177356 /* implemented bits */
#define PIRQ_RW 0177000 /* read/write bits */
/* STKLIM */
#define STKLIM_RW 0177400
/* MMR0 */
#define MMR0_MME 0000001 /* mem mgt enable */
#define MMR0_V_PAGE 1 /* offset to pageno */
#define MMR0_M_PAGE 077 /* mask for pageno */
#define MMR0_PAGE (MMR0_M_PAGE << MMR0_V_PAGE)
#define MMR0_IC 0000200 /* instr complete */
#define MMR0_MAINT 0000400 /* maintenance */
#define MMR0_TENB 0001000 /* trap enable */
#define MMR0_TRAP 0010000 /* mem mgt trap */
#define MMR0_RO 0020000 /* read only error */
#define MMR0_PL 0040000 /* page lnt error */
#define MMR0_NR 0100000 /* no access error */
#define MMR0_FREEZE 0160000 /* if set, no update */
#define MMR0_WR 0171401 /* writeable bits */
/* MMR3 */
#define MMR3_UDS 001 /* user dspace enbl */
#define MMR3_SDS 002 /* super dspace enbl */
#define MMR3_KDS 004 /* krnl dspace enbl */
#define MMR3_CSM 010 /* CSM enable */
#define MMR3_M22E 020 /* 22b mem mgt enbl */
#define MMR3_BME 040 /* DMA bus map enbl */
/* PAR */
#define PAR_18B 0007777 /* 18b addressing */
#define PAR_22B 0177777 /* 22b addressing */
/* PDR */
#define PDR_ACF 0000007 /* access control */
#define PDR_ACS 0000006 /* 2b access control */
#define PDR_ED 0000010 /* expansion dir */
#define PDR_W 0000100 /* written flag */
#define PDR_A 0000200 /* access flag */
#define PDR_PLF 0077400 /* page lnt field */
#define PDR_NOC 0100000 /* don't cache */
#define PDR_PRD 0000003 /* page readable if 2 */
/* Virtual address */
#define VA_DF 0017777 /* displacement */
#define VA_BN 0017700 /* block number */
#define VA_V_APF 13 /* offset to APF */
#define VA_V_DS 16 /* offset to space */
#define VA_V_MODE 17 /* offset to mode */
#define VA_DS (1u << VA_V_DS) /* data space flag */
/* Unibus map (if present) */
#define UBM_LNT_LW 32 /* size in LW */
#define UBM_V_PN 13 /* page number */
#define UBM_M_PN 037
#define UBM_V_OFF 0 /* offset */
#define UBM_M_OFF 017777
#define UBM_PAGSIZE (UBM_M_OFF + 1) /* page size */
#define UBM_GETPN(x) (((x) >> UBM_V_PN) & UBM_M_PN)
#define UBM_GETOFF(x) ((x) & UBM_M_OFF)
/* CPUERR */
#define CPUE_RED 0004 /* red stack */
#define CPUE_YEL 0010 /* yellow stack */
#define CPUE_TMO 0020 /* IO page nxm */
#define CPUE_NXM 0040 /* memory nxm */
#define CPUE_ODD 0100 /* odd address */
#define CPUE_HALT 0200 /* HALT not kernel */
#define CPUE_IMP 0374 /* implemented bits */
/* Floating point accumulators */
typedef struct {
uint32 l; /* low 32b */
uint32 h; /* high 32b */
} fpac_t;
/* Device CSRs */
#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)
/* Trap masks, descending priority order, following J-11
An interrupt summary bit is kept with traps, to minimize overhead
*/
#define TRAP_V_RED 0 /* red stk abort 4 */
#define TRAP_V_ODD 1 /* odd address 4 */
#define TRAP_V_MME 2 /* mem mgt 250 */
#define TRAP_V_NXM 3 /* nx memory 4 */
#define TRAP_V_PAR 4 /* parity err 114 */
#define TRAP_V_PRV 5 /* priv inst 4 */
#define TRAP_V_ILL 6 /* illegal inst 10 */
#define TRAP_V_BPT 7 /* BPT 14 */
#define TRAP_V_IOT 8 /* IOT 20 */
#define TRAP_V_EMT 9 /* EMT 30 */
#define TRAP_V_TRAP 10 /* TRAP 34 */
#define TRAP_V_TRC 11 /* T bit 14 */
#define TRAP_V_YEL 12 /* stack 4 */
#define TRAP_V_PWRFL 13 /* power fail 24 */
#define TRAP_V_FPE 14 /* fpe 244 */
#define TRAP_V_MAX 15 /* intr = max trp # */
#define TRAP_RED (1u << TRAP_V_RED)
#define TRAP_ODD (1u << TRAP_V_ODD)
#define TRAP_MME (1u << TRAP_V_MME)
#define TRAP_NXM (1u << TRAP_V_NXM)
#define TRAP_PAR (1u << TRAP_V_PAR)
#define TRAP_PRV (1u << TRAP_V_PRV)
#define TRAP_ILL (1u << TRAP_V_ILL)
#define TRAP_BPT (1u << TRAP_V_BPT)
#define TRAP_IOT (1u << TRAP_V_IOT)
#define TRAP_EMT (1u << TRAP_V_EMT)
#define TRAP_TRAP (1u << TRAP_V_TRAP)
#define TRAP_TRC (1u << TRAP_V_TRC)
#define TRAP_YEL (1u << TRAP_V_YEL)
#define TRAP_PWRFL (1u << TRAP_V_PWRFL)
#define TRAP_FPE (1u << TRAP_V_FPE)
#define TRAP_INT (1u << TRAP_V_MAX)
#define TRAP_ALL ((1u << TRAP_V_MAX) - 1) /* all traps */
#define VEC_RED 0004 /* trap vectors */
#define VEC_ODD 0004
#define VEC_MME 0250
#define VEC_NXM 0004
#define VEC_PAR 0114
#define VEC_PRV 0004
#define VEC_ILL 0010
#define VEC_BPT 0014
#define VEC_IOT 0020
#define VEC_EMT 0030
#define VEC_TRAP 0034
#define VEC_TRC 0014
#define VEC_YEL 0004
#define VEC_PWRFL 0024
#define VEC_FPE 0244
/* Simulator stop codes; codes 1:TRAP_V_MAX correspond to traps 0:TRAPMAX-1 */
#define STOP_HALT (TRAP_V_MAX + 1) /* HALT instruction */
#define STOP_IBKPT (TRAP_V_MAX + 2) /* instruction bkpt */
#define STOP_WAIT (TRAP_V_MAX + 3) /* wait, no events */
#define STOP_VECABORT (TRAP_V_MAX + 4) /* abort vector read */
#define STOP_SPABORT (TRAP_V_MAX + 5) /* abort trap push */
#define STOP_RQ (TRAP_V_MAX + 6) /* RQDX3 panic */
#define STOP_SANITY (TRAP_V_MAX + 7) /* sanity timer exp */
#define STOP_DTOFF (TRAP_V_MAX + 8) /* DECtape off reel */
#define IORETURN(f,v) ((f)? (v): SCPE_OK) /* cond error return */
/* Timers */
#define TMR_CLK 0 /* line clock */
#define TMR_PCLK 1 /* KW11P */
/* IO parameters */
#define DZ_MUXES 4 /* max # of DZ muxes */
#define DZ_LINES 8 /* lines per DZ mux */
#define VH_MUXES 4 /* max # of VH muxes */
#define MT_MAXFR (1 << 16) /* magtape max rec */
#define AUTO_LNT 34 /* autoconfig ranks */
#define DIB_MAX 100 /* max DIBs */
#define DEV_V_UBUS (DEV_V_UF + 0) /* Unibus */
#define DEV_V_QBUS (DEV_V_UF + 1) /* Qbus */
#define DEV_V_Q18 (DEV_V_UF + 2) /* Qbus with <= 256KB */
#define DEV_V_FLTA (DEV_V_UF + 3) /* flt addr */
#define DEV_V_MBUS (DEV_V_UF + 4) /* Massbus */
#define DEV_V_FFUF (DEV_V_UF + 5) /* first free flag */
#define DEV_UBUS (1u << DEV_V_UBUS)
#define DEV_QBUS (1u << DEV_V_QBUS)
#define DEV_Q18 (1u << DEV_V_Q18)
#define DEV_FLTA (1u << DEV_V_FLTA)
#define DEV_MBUS (1u << DEV_V_MBUS)
#define DEV_RDX 8 /* default device radix */
/* Device information block */
#define VEC_DEVMAX 4 /* max device vec */
struct pdp_dib {
uint32 ba; /* base addr */
uint32 lnt; /* length */
t_stat (*rd)(int32 *dat, int32 ad, int32 md);
t_stat (*wr)(int32 dat, int32 ad, int32 md);
int32 vnum; /* vectors: number */
int32 vloc; /* locator */
int32 vec; /* value */
int32 (*ack[VEC_DEVMAX])(void); /* ack routines */
};
typedef struct pdp_dib DIB;
/* I/O page layout - XUB, RQB,RQC,RQD float based on number of DZ's */
#define IOBA_DZ (IOPAGEBASE + 000100) /* DZ11 */
#define IOLN_DZ 010
#define IOBA_XUB (IOPAGEBASE + 000330 + (020 * (DZ_MUXES / 2)))
#define IOLN_XUB 010
#define IOBA_RQB (IOPAGEBASE + 000334 + (020 * (DZ_MUXES / 2)))
#define IOLN_RQB 004
#define IOBA_RQC (IOPAGEBASE + IOBA_RQB + IOLN_RQB)
#define IOLN_RQC 004
#define IOBA_RQD (IOPAGEBASE + IOBA_RQC + IOLN_RQC)
#define IOLN_RQD 004
#define IOBA_VH (IOPAGEBASE + 000440) /* DHQ11 */
#define IOLN_VH 020
#define IOBA_UBM (IOPAGEBASE + 010200) /* Unibus map */
#define IOLN_UBM (UBM_LNT_LW * sizeof (int32))
#define IOBA_RQ (IOPAGEBASE + 012150) /* RQDX3 */
#define IOLN_RQ 004
#define IOBA_SUP (IOPAGEBASE + 012200) /* supervisor APR's */
#define IOLN_SUP 0100
#define IOBA_KIPDR (IOPAGEBASE + 012300) /* kernel APR's */
#define IOLN_KIPDR 020
#define IOBA_KDPDR (IOPAGEBASE + 012320)
#define IOLN_KDPDR 020
#define IOBA_KIPAR (IOPAGEBASE + 012340)
#define IOLN_KIPAR 020
#define IOBA_KDPAR (IOPAGEBASE + 012360)
#define IOLN_KDPAR 020
#define IOBA_TU (IOPAGEBASE + 012440) /* TU */
#define IOLN_TU 040
#define IOBA_MMR3 (IOPAGEBASE + 012516) /* MMR3 */
#define IOLN_MMR3 002
#define IOBA_TM (IOPAGEBASE + 012520) /* TM11 */
#define IOLN_TM 014
#define IOBA_TS (IOPAGEBASE + 012520) /* TS11 */
#define IOLN_TS 004
#define IOBA_PCLK (IOPAGEBASE + 012540) /* KW11P */
#define IOLN_PCLK 006
#define IOBA_RL (IOPAGEBASE + 014400) /* RL11 */
#define IOLN_RL 012
#define IOBA_XQ (IOPAGEBASE + 014440) /* DEQNA/DELQA */
#define IOLN_XQ 020
#define IOBA_XQB (IOPAGEBASE + 014460) /* 2nd DEQNA/DELQA */
#define IOLN_XQB 020
#define IOBA_TQ (IOPAGEBASE + 014500) /* TMSCP */
#define IOLN_TQ 004
#define IOBA_XU (IOPAGEBASE + 014510) /* DEUNA/DELUA */
#define IOLN_XU 010
#define IOBA_RP (IOPAGEBASE + 016700) /* RP/RM */
#define IOLN_RP 054
#define IOBA_RX (IOPAGEBASE + 017170) /* RX11 */
#define IOLN_RX 004
#define IOBA_RY (IOPAGEBASE + 017170) /* RY11 */
#define IOLN_RY 004
#define IOBA_TC (IOPAGEBASE + 017340) /* TC11 */
#define IOLN_TC 012
#define IOBA_RK (IOPAGEBASE + 017400) /* RK11 */
#define IOLN_RK 020
#define IOBA_HK (IOPAGEBASE + 017440) /* RK611 */
#define IOLN_HK 040
#define IOBA_LPT (IOPAGEBASE + 017514) /* LP11 */
#define IOLN_LPT 004
#define IOBA_CTL (IOPAGEBASE + 017520) /* board ctrl */
#define IOLN_CTL 010
#define IOBA_CLK (IOPAGEBASE + 017546) /* KW11L */
#define IOLN_CLK 002
#define IOBA_PTR (IOPAGEBASE + 017550) /* PC11 reader */
#define IOLN_PTR 004
#define IOBA_PTP (IOPAGEBASE + 017554) /* PC11 punch */
#define IOLN_PTP 004
#define IOBA_TTI (IOPAGEBASE + 017560) /* DL11 rcv */
#define IOLN_TTI 004
#define IOBA_TTO (IOPAGEBASE + 017564) /* DL11 xmt */
#define IOLN_TTO 004
#define IOBA_SR (IOPAGEBASE + 017570) /* SR */
#define IOLN_SR 002
#define IOBA_MMR012 (IOPAGEBASE + 017572) /* MMR0-2 */
#define IOLN_MMR012 006
#define IOBA_UIPDR (IOPAGEBASE + 017600) /* user APR's */
#define IOLN_UIPDR 020
#define IOBA_UDPDR (IOPAGEBASE + 017620)
#define IOLN_UDPDR 020
#define IOBA_UIPAR (IOPAGEBASE + 017640)
#define IOLN_UIPAR 020
#define IOBA_UDPAR (IOPAGEBASE + 017660)
#define IOLN_UDPAR 020
#define IOBA_GPR (IOPAGEBASE + 017700) /* GPR's */
#define IOLN_GPR 010
#define IOBA_UCTL (IOPAGEBASE + 017730) /* UBA ctrl */
#define IOLN_UCTL 010
#define IOBA_CPU (IOPAGEBASE + 017740) /* CPU reg */
#define IOLN_CPU 036
#define IOBA_PSW (IOPAGEBASE + 017776) /* PSW */
#define IOLN_PSW 002
/* Interrupt assignments; within each level, priority is right to left */
#define IPL_HLVL 8 /* # int levels */
#define INT_V_PIR7 0 /* BR7 */
#define INT_V_CLK 0 /* BR6 */
#define INT_V_PCLK 1
#define INT_V_DTA 2
#define INT_V_PIR6 3
#define INT_V_RK 0 /* BR5 */
#define INT_V_RL 1
#define INT_V_RX 2
#define INT_V_TM 3
#define INT_V_RP 4
#define INT_V_TS 5
#define INT_V_HK 6
#define INT_V_RQ 7
#define INT_V_DZRX 8
#define INT_V_DZTX 9
#define INT_V_TQ 10
#define INT_V_RY 11
#define INT_V_XQ 12
#define INT_V_XU 13
#define INT_V_TU 14
#define INT_V_PIR5 15
#define INT_V_TTI 0 /* BR4 */
#define INT_V_TTO 1
#define INT_V_PTR 2
#define INT_V_PTP 3
#define INT_V_LPT 4
#define INT_V_VHRX 5
#define INT_V_VHTX 6
#define INT_V_PIR4 7
#define INT_V_PIR3 0 /* BR3 */
#define INT_V_PIR2 0 /* BR2 */
#define INT_V_PIR1 0 /* BR1 */
#define INT_PIR7 (1u << INT_V_PIR7)
#define INT_CLK (1u << INT_V_CLK)
#define INT_PCLK (1u << INT_V_PCLK)
#define INT_DTA (1u << INT_V_DTA)
#define INT_PIR6 (1u << INT_V_PIR6)
#define INT_RK (1u << INT_V_RK)
#define INT_RL (1u << INT_V_RL)
#define INT_RX (1u << INT_V_RX)
#define INT_TM (1u << INT_V_TM)
#define INT_RP (1u << INT_V_RP)
#define INT_TS (1u << INT_V_TS)
#define INT_HK (1u << INT_V_HK)
#define INT_RQ (1u << INT_V_RQ)
#define INT_DZRX (1u << INT_V_DZRX)
#define INT_DZTX (1u << INT_V_DZTX)
#define INT_TQ (1u << INT_V_TQ)
#define INT_RY (1u << INT_V_RY)
#define INT_XQ (1u << INT_V_XQ)
#define INT_XU (1u << INT_V_XU)
#define INT_TU (1u << INT_V_TU)
#define INT_PIR5 (1u << INT_V_PIR5)
#define INT_PTR (1u << INT_V_PTR)
#define INT_PTP (1u << INT_V_PTP)
#define INT_TTI (1u << INT_V_TTI)
#define INT_TTO (1u << INT_V_TTO)
#define INT_LPT (1u << INT_V_LPT)
#define INT_VHRX (1u << INT_V_VHRX)
#define INT_VHTX (1u << INT_V_VHTX)
#define INT_PIR4 (1u << INT_V_PIR4)
#define INT_PIR3 (1u << INT_V_PIR3)
#define INT_PIR2 (1u << INT_V_PIR2)
#define INT_PIR1 (1u << INT_V_PIR1)
#define IPL_CLK 6 /* int pri levels */
#define IPL_PCLK 6
#define IPL_DTA 6
#define IPL_RK 5
#define IPL_RL 5
#define IPL_RX 5
#define IPL_TM 5
#define IPL_RP 5
#define IPL_TS 5
#define IPL_HK 5
#define IPL_RQ 5
#define IPL_DZRX 5
#define IPL_DZTX 5
#define IPL_TQ 5
#define IPL_RY 5
#define IPL_XQ 5
#define IPL_XU 5
#define IPL_TU 5
#define IPL_PTR 4
#define IPL_PTP 4
#define IPL_TTI 4
#define IPL_TTO 4
#define IPL_LPT 4
#define IPL_VHRX 4
#define IPL_VHTX 4
#define IPL_PIR7 7
#define IPL_PIR6 6
#define IPL_PIR5 5
#define IPL_PIR4 4
#define IPL_PIR3 3
#define IPL_PIR2 2
#define IPL_PIR1 1
/* Device vectors */
#define VEC_Q 0000 /* vector base */
#define VEC_PIRQ 0240
#define VEC_TTI 0060
#define VEC_TTO 0064
#define VEC_PTR 0070
#define VEC_PTP 0074
#define VEC_CLK 0100
#define VEC_PCLK 0104
#define VEC_XQ 0120
#define VEC_XU 0120
#define VEC_RQ 0154
#define VEC_RL 0160
#define VEC_LPT 0200
#define VEC_HK 0210
#define VEC_RK 0220
#define VEC_DTA 0214
#define VEC_TM 0224
#define VEC_TS 0224
#define VEC_TU 0224
#define VEC_RP 0254
#define VEC_TQ 0260
#define VEC_RX 0264
#define VEC_RY 0264
#define VEC_DZRX 0300
#define VEC_DZTX 0304
#define VEC_VHRX 0310
#define VEC_VHTX 0314
/* Interrupt macros */
#define IVCL(dv) ((IPL_##dv * 32) + INT_V_##dv)
#define IREQ(dv) int_req[IPL_##dv]
#define SET_INT(dv) int_req[IPL_##dv] = int_req[IPL_##dv] | (INT_##dv)
#define CLR_INT(dv) int_req[IPL_##dv] = int_req[IPL_##dv] & ~(INT_##dv)
/* Massbus definitions */
#define MBA_NUM 2 /* number of MBA's */
#define MBA_RP 0 /* MBA for RP */
#define MBA_TU 1 /* MBA for TU */
#define MBA_RMASK 037 /* max 32 reg */
#define MBE_NXD 1 /* nx drive */
#define MBE_NXR 2 /* nx reg */
#define MBE_GOE 3 /* err on GO */
/* CPU and FPU macros */
#define update_MM ((MMR0 & MMR0_FREEZE) == 0)
#define setTRAP(name) trap_req = trap_req | (name)
#define setCPUERR(name) CPUERR = CPUERR | (name)
#define ABORT(val) longjmp (save_env, (val))
#define SP R[6]
#define PC R[7]
/* Function prototypes */
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);
t_stat set_addr (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat show_addr (FILE *st, UNIT *uptr, int32 val, void *desc);
t_stat set_addr_flt (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat set_vec (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat show_vec (FILE *st, UNIT *uptr, int32 val, void *desc);
t_stat auto_config (char *name, int32 nctrl);
t_stat build_ubus_tab (DEVICE *dptr, DIB *dibp);
int32 mba_rdbufW (uint32 mbus, int32 bc, uint16 *buf);
int32 mba_wrbufW (uint32 mbus, int32 bc, uint16 *buf);
int32 mba_chbufW (uint32 mbus, int32 bc, uint16 *buf);
int32 mba_get_bc (uint32 mbus);
int32 mba_get_csr (uint32 mbus);
void mba_upd_ata (uint32 mbus, uint32 val);
void mba_set_exc (uint32 mbus);
void mba_set_don (uint32 mbus);
t_stat mba_show_num (FILE *st, UNIT *uptr, int32 val, void *desc);
#endif