blob: 1202e5cb4cfb6a3dbebbec0b14bdc665184c95bb [file] [log] [blame] [raw]
/* sds_defs.h: SDS 940 simulator definitions
Copyright (c) 2001-2010, 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.
22-May-10 RMS Added check for 64b definitions
25-Apr-03 RMS Revised for extended file support
*/
#ifndef SDS_DEFS_H_
#define SDS_DEFS_H_ 0
#include "sim_defs.h" /* simulator defns */
#if defined(USE_INT64) || defined(USE_ADDR64)
#error "SDS 940 does not support 64b values!"
#endif
/* Simulator stop codes */
#define STOP_IONRDY 1 /* I/O dev not ready */
#define STOP_HALT 2 /* HALT */
#define STOP_IBKPT 3 /* breakpoint */
#define STOP_INVDEV 4 /* invalid dev */
#define STOP_INVINS 5 /* invalid instr */
#define STOP_INVIOP 6 /* invalid I/O op */
#define STOP_INDLIM 7 /* indirect limit */
#define STOP_EXULIM 8 /* EXU limit */
#define STOP_MMINT 9 /* mm in intr */
#define STOP_MMTRP 10 /* mm in trap */
#define STOP_TRPINS 11 /* trap inst not BRM or BRU */
#define STOP_RTCINS 12 /* rtc inst not MIN or SKR */
#define STOP_ILLVEC 13 /* zero vector */
#define STOP_CCT 14 /* runaway CCT */
#define STOP_MBKPT 15 /* monitor-mode breakpoint */
#define STOP_NBKPT 16 /* normal-mode breakpoint */
#define STOP_UBKPT 17 /* user-mode breakpoint */
#define STOP_DBKPT 18 /* step-over (dynamic) breakpoint */
/* Trap codes */
#define MM_PRVINS -040 /* privileged */
#define MM_NOACC -041 /* no access */
#define MM_WRITE -043 /* write protect */
#define MM_MONUSR -044 /* mon to user */
/* Conditional error returns */
#define CRETINS return ((stop_invins)? STOP_INVINS: SCPE_OK)
#define CRETDEV return ((stop_invdev)? STOP_INVDEV: SCPE_OK)
#define CRETIOP return ((stop_inviop)? STOP_INVIOP: SCPE_OK)
#define CRETIOE(f,c) return ((f)? c: SCPE_OK)
/* Architectural constants */
#define SIGN 040000000 /* sign */
#define DMASK 077777777 /* data mask */
#define EXPS 0400 /* exp sign */
#define EXPMASK 0777 /* exp mask */
#define SXT(x) ((int32) (((x) & SIGN)? ((x) | ~DMASK): \
((x) & DMASK)))
#define SXT_EXP(x) ((int32) (((x) & EXPS)? ((x) | ~EXPMASK): \
((x) & EXPMASK)))
/* CPU modes */
#define NML_MODE 0
#define MON_MODE 1
#define USR_MODE 2
#define BAD_MODE 3
/* Memory */
#define MAXMEMSIZE (1 << 16) /* max memory size */
#define PAMASK (MAXMEMSIZE - 1) /* physical addr mask */
#define MEMSIZE (cpu_unit.capac) /* actual memory size */
#define MEM_ADDR_OK(x) (((uint32) (x)) < MEMSIZE)
#define ReadP(x) M[x]
#define WriteP(x,y) if (MEM_ADDR_OK (x)) M[x] = y
/* Virtual addressing */
#define VA_SIZE (1 << 14) /* virtual addr size */
#define VA_MASK (VA_SIZE - 1) /* virtual addr mask */
#define VA_V_PN 11 /* page number */
#define VA_M_PN 07
#define VA_GETPN(x) (((x) >> VA_V_PN) & VA_M_PN)
#define VA_POFF ((1 << VA_V_PN) - 1) /* offset */
#define VA_USR (I_USR) /* user flag in addr */
#define XVA_MASK (VA_USR | VA_MASK)
/* Arithmetic */
#define TSTS(x) ((x) & SIGN)
#define NEG(x) (-((int32) (x)) & DMASK)
#define ABS(x) (TSTS (x)? NEG(x): (x))
/* Memory map */
#define MAP_PROT (040 << VA_V_PN) /* protected */
#define MAP_PAGE (037 << VA_V_PN) /* phys page number */
/* Instruction format */
#define I_USR (1 << 23) /* user */
#define I_IDX (1 << 22) /* indexed */
#define I_POP (1 << 21) /* programmed op */
#define I_V_TAG 21 /* tag */
#define I_V_OP 15 /* opcode */
#define I_M_OP 077
#define I_GETOP(x) (((x) >> I_V_OP) & I_M_OP)
#define I_IND (1 << 14) /* indirect */
#define I_V_SHFOP 11 /* shift op */
#define I_M_SHFOP 07
#define I_GETSHFOP(x) (((x) >> I_V_SHFOP) & I_M_SHFOP)
#define I_SHFMSK 0777 /* shift count */
#define I_V_IOMD 12 /* IO inst mode */
#define I_M_IOMD 03
#define I_GETIOMD(x) (((x) >> I_V_IOMD) & I_M_IOMD)
#define I_V_SKCND 7 /* SKS skip cond */
#define I_M_SKCND 037
#define I_GETSKCND(x) (((x) >> I_V_SKCND) & I_M_SKCND)
#define I_EOB2 000400000 /* chan# bit 2 */
#define I_SKB2 000040000 /* skschan# bit 2 */
#define I_EOB1 020000000 /* chan# bit 1 */
#define I_EOB0 000000100 /* chan# bit 0 */
#define I_GETEOCH(x) ((((x) & I_EOB2)? 4: 0) | \
(((x) & I_EOB1)? 2: 0) | \
(((x) & I_EOB0)? 1: 0))
#define I_SETEOCH(x) ((((x) & 4)? I_EOB2: 0) | \
(((x) & 2)? I_EOB1: 0) | \
(((x) & 1)? I_EOB0: 0))
#define I_GETSKCH(x) ((((x) & I_SKB2)? 4: 0) | \
(((x) & I_EOB1)? 2: 0) | \
(((x) & I_EOB0)? 1: 0))
#define I_SETSKCH(x) ((((x) & 4)? I_SKB2: 0) | \
(((x) & 2)? I_EOB1: 0) | \
(((x) & 1)? I_EOB0: 0))
/* Globally visible flags */
#define UNIT_V_GENIE (UNIT_V_UF + 0)
#define UNIT_GENIE (1 << UNIT_V_GENIE)
/* Timers */
#define TMR_RTC 0 /* clock */
#define TMR_MUX 1 /* mux */
/* I/O routine functions */
#define IO_CONN 0 /* connect */
#define IO_EOM1 1 /* EOM mode 1 */
#define IO_DISC 2 /* disconnect */
#define IO_READ 3 /* read */
#define IO_WRITE 4 /* write */
#define IO_WREOR 5 /* write eor */
#define IO_SKS 6 /* skip signal */
/* Dispatch template */
struct sdsdspt {
uint32 num; /* # entries */
uint32 off; /* offset from base */
};
typedef struct sdsdspt DSPT;
/* Device information block */
struct sdsdib {
int32 chan; /* channel */
int32 dev; /* base dev no */
int32 xfr; /* xfer flag */
DSPT *tplt; /* dispatch templates */
t_stat (*iop) (uint32 fnc, uint32 dev, uint32 *dat);
};
typedef struct sdsdib DIB;
/* Channels */
#define NUM_CHAN 8 /* max num chan */
#define CHAN_W 0 /* TMCC */
#define CHAN_Y 1
#define CHAN_C 2
#define CHAN_D 3
#define CHAN_E 4 /* DACC */
#define CHAN_F 5
#define CHAN_G 6
#define CHAN_H 7
/* I/O control EOM */
#define CHC_REV 04000 /* reverse */
#define CHC_NLDR 02000 /* no leader */
#define CHC_BIN 01000 /* binary */
#define CHC_V_CPW 7 /* char/word */
#define CHC_M_CPW 03
#define CHC_GETCPW(x) (((x) >> CHC_V_CPW) & CHC_M_CPW)
/* Buffer control (extended) EOM */
#define CHM_CE 04000 /* compat/ext */
#define CHM_ER 02000 /* end rec int */
#define CHM_ZC 01000 /* zero wc int */
#define CHM_V_FNC 7 /* term func */
#define CHM_M_FNC 03
#define CHM_GETFNC(x) (((x) & CHM_CE)? (((x) >> CHM_V_FNC) & CHM_M_FNC): CHM_COMP)
#define CHM_IORD 0 /* record, disc */
#define CHM_IOSD 1 /* signal, disc */
#define CHM_IORP 2 /* record, proc */
#define CHM_IOSP 3 /* signal, proc */
#define CHM_COMP 5 /* compatible */
#define CHM_SGNL 1 /* signal bit */
#define CHM_PROC 2 /* proceed bit */
#define CHM_V_HMA 5 /* hi mem addr */
#define CHM_M_HMA 03
#define CHM_GETHMA(x) (((x) >> CHM_V_HMA) & CHM_M_HMA)
#define CHM_V_HWC 0 /* hi word count */
#define CHM_M_HWC 037
#define CHM_GETHWC(x) (((x) >> CHM_V_HWC) & CHM_M_HWC)
/* Channel flags word */
#define CHF_ERR 00001 /* error */
#define CHF_IREC 00002 /* interrecord */
#define CHF_ILCE 00004 /* interlace */
#define CHF_DCHN 00010 /* data chain */
#define CHF_EOR 00020 /* end of record */
#define CHF_12B 00040 /* 12 bit mode */
#define CHF_24B 00100 /* 24 bit mode */
#define CHF_OWAK 00200 /* output wake */
#define CHF_SCAN 00400 /* scan */
#define CHF_TOP 01000 /* TOP pending */
#define CHF_N_FLG 9 /* <= 16 */
/* Interrupts and vectors (0 is reserved), highest bit is highest priority */
#define INT_V_PWRO 31 /* power on */
#define INT_V_PWRF 30 /* power off */
#define INT_V_CPAR 29 /* CPU parity err */
#define INT_V_IPAR 28 /* IO parity err */
#define INT_V_RTCS 27 /* clock sync */
#define INT_V_RTCP 26 /* clock pulse */
#define INT_V_YZWC 25 /* chan Y zero wc */
#define INT_V_WZWC 24 /* chan W zero wc */
#define INT_V_YEOR 23 /* chan Y end rec */
#define INT_V_WEOR 22 /* chan W end rec */
#define INT_V_CZWC 21 /* chan C */
#define INT_V_CEOR 20
#define INT_V_DZWC 19 /* chan D */
#define INT_V_DEOR 18
#define INT_V_EZWC 17 /* chan E */
#define INT_V_EEOR 16
#define INT_V_FZWC 15 /* chan F */
#define INT_V_FEOR 14
#define INT_V_GZWC 13 /* chan G */
#define INT_V_GEOR 12
#define INT_V_HZWC 11 /* chan H */
#define INT_V_HEOR 10
#define INT_V_MUXR 9 /* mux receive */
#define INT_V_MUXT 8 /* mux transmit */
#define INT_V_MUXCO 7 /* SDS carrier on */
#define INT_V_MUXCF 6 /* SDS carrier off */
#define INT_V_DRM 5 /* Genie drum */
#define INT_V_FORK 4 /* fork */
#define INT_PWRO (1 << INT_V_PWRO)
#define INT_PWRF (1 << INT_V_PWRF)
#define INT_CPAR (1 << INT_V_CPAR)
#define INT_IPAR (1 << INT_V_IPAR)
#define INT_RTCS (1 << INT_V_RTCS)
#define INT_RTCP (1 << INT_V_RTCP)
#define INT_YZWC (1 << INT_V_YZWC)
#define INT_WZWC (1 << INT_V_WZWC)
#define INT_YEOR (1 << INT_V_YEOR)
#define INT_WEOR (1 << INT_V_WEOR)
#define INT_CZWC (1 << INT_V_CZWC)
#define INT_CEOR (1 << INT_V_CEOR)
#define INT_DZWC (1 << INT_V_DZWC)
#define INT_DEOR (1 << INT_V_DEOR)
#define INT_EZWC (1 << INT_V_EZWC)
#define INT_EEOR (1 << INT_V_EEOR)
#define INT_FZWC (1 << INT_V_FZWC)
#define INT_FEOR (1 << INT_V_FEOR)
#define INT_GZWC (1 << INT_V_GZWC)
#define INT_GEOR (1 << INT_V_GEOR)
#define INT_HZWC (1 << INT_V_HZWC)
#define INT_HEOR (1 << INT_V_HEOR)
#define INT_MUXR (1 << INT_V_MUXR)
#define INT_MUXT (1 << INT_V_MUXT)
#define INT_MUXCO (1 << INT_V_MUXCO)
#define INT_MUXCF (1 << INT_V_MUXCF)
#define INT_DRM (1 << INT_V_DRM)
#define INT_FORK (1 << INT_V_FORK)
#define VEC_PWRO 0036
#define VEC_PWRF 0037
#define VEC_CPAR 0056
#define VEC_IPAR 0057
#define VEC_RTCS 0074
#define VEC_RTCP 0075
#define VEC_YZWC 0030
#define VEC_WZWC 0031
#define VEC_YEOR 0032
#define VEC_WEOR 0033
#define VEC_CZWC 0060
#define VEC_CEOR 0061
#define VEC_DZWC 0062
#define VEC_DEOR 0063
#define VEC_EZWC 0064
#define VEC_EEOR 0065
#define VEC_FZWC 0066
#define VEC_FEOR 0067
#define VEC_GZWC 0070
#define VEC_GEOR 0071
#define VEC_HZWC 0072
#define VEC_HEOR 0073
#define VEC_MUXR 0200 /* term mux rcv */
#define VEC_MUXT 0201 /* term mux xmt */
#define VEC_MUXCO 0202 /* SDS: mux carrier on */
#define VEC_MUXCF 0203 /* SDS: mux carrier off */
#define VEC_DRM 0202 /* Genie: drum */
#define VEC_FORK 0216 /* "fork" */
/* Device constants */
#define DEV_MASK 077 /* device mask */
#define DEV_TTI 001 /* teletype */
#define DEV_PTR 004 /* paper tape rdr */
#define DEV_MT 010 /* magtape */
#define DEV_RAD 026 /* fixed head disk */
#define DEV_DSK 026 /* moving head disk */
#define DEV_TTO 041 /* teletype */
#define DEV_PTP 044 /* paper tape punch */
#define DEV_LPT 060 /* line printer */
#define DEV_MTS 020 /* MT scan/erase */
#define DEV_OUT 040 /* output flag */
#define DEV3_GDRM 004 /* Genie drum */
#define DEV3_GMUX 001 /* Genie mux */
#define DEV3_SMUX (DEV_MASK) /* standard mux */
#define LPT_WIDTH 132 /* line print width */
#define CCT_LNT 132 /* car ctrl length */
/* Transfer request flags for devices (0 is reserved) */
#define XFR_V_TTI 1 /* console */
#define XFR_V_TTO 2
#define XFR_V_PTR 3 /* paper tape */
#define XFR_V_PTP 4
#define XFR_V_LPT 5 /* line printer */
#define XFR_V_RAD 6 /* fixed hd disk */
#define XFR_V_DSK 7 /* mving hd disk */
#define XFR_V_MT0 8 /* magtape */
#define XFR_TTI (1 << XFR_V_TTI)
#define XFR_TTO (1 << XFR_V_TTO)
#define XFR_PTR (1 << XFR_V_PTR)
#define XFR_PTP (1 << XFR_V_PTP)
#define XFR_LPT (1 << XFR_V_LPT)
#define XFR_RAD (1 << XFR_V_RAD)
#define XFR_DSK (1 << XFR_V_DSK)
#define XFR_MT0 (1 << XFR_V_MT0)
/* PIN/POT ordinals (0 is reserved) */
#define POT_ILCY 1 /* interlace */
#define POT_DCRY (POT_ILCY + NUM_CHAN) /* data chain */
#define POT_ADRY (POT_DCRY + NUM_CHAN) /* address reg */
#define POT_RL1 (POT_ADRY + NUM_CHAN) /* RL1 */
#define POT_RL2 (POT_RL1 + 1) /* RL2 */
#define POT_RL4 (POT_RL2 + 1) /* RL4 */
#define POT_RADS (POT_RL4 + 1) /* fhd sector */
#define POT_RADA (POT_RADS + 1) /* fhd addr */
#define POT_DSK (POT_RADA + 1) /* mhd sec/addr */
#define POT_SYSI (POT_DSK + 1) /* sys intr */
#define POT_MUX (POT_SYSI + 1) /* multiplexor */
/* Opcodes */
enum opcodes {
HLT, BRU, EOM, EOD = 006,
MIY = 010, BRI, MIW, POT, ETR, MRG = 016, EOR,
NOP, OVF = 022, EXU,
YIM = 030, WIM = 032, PIN, STA = 035, STB, STX,
SKS, BRX, BRM = 043, RCH = 046,
SKE = 050, BRR, SKB, SKN, SUB, ADD, SUC, ADC,
SKR, MIN, XMA, ADM, MUL, DIV, RSH, LSH,
SKM, LDX, SKA, SKG, SKD, LDB, LDA, EAX
};
/* Channel function prototypes */
void chan_set_flag (int32 ch, uint32 fl);
void chan_set_ordy (int32 ch);
void chan_disc (int32 ch);
void chan_set_uar (int32 ch, uint32 dev);
t_stat set_chan (UNIT *uptr, int32 val, CONST char *cptr, void *desc);
t_stat show_chan (FILE *st, UNIT *uptr, int32 val, CONST void *desc);
t_stat chan_process (void);
t_bool chan_testact (void);
/* Translation tables */
extern const int8 odd_par[64];
#endif