/* id32_cpu.c: Interdata 32b CPU simulator | |
Copyright (c) 2000-2003, 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 register state for an Interdata 32b CPU is: | |
REG[0:F][2]<0:31> general register sets | |
F[0:7]<0:31> single precision floating point registers | |
D[0:7]<0:63> double precision floating point registers | |
PSW<0:63> processor status word, including | |
STAT<0:11> status flags | |
CC<0:3> condition codes | |
PC<0:31> program counter | |
int_req[n]<0:31> interrupt requests | |
int_enb[n]<0:31> interrupt enables | |
The Interdata 32b systems have seven instruction formats: register to | |
register, short format, register and memory (three formats), and register | |
and immediate (two formats). The formats are: | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | R2 | register-register | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | N | short format | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | RX | register-memory 1 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ (absolute 14b) | |
| 0| 0| address | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | RX | register-memory 2 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ (relative) | |
| 1| address | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | RX | register-memory 3 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ (double index) | |
| 0| 1| 0| 0| RX2 | address hi | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| address lo | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | RX | register-immediate 1 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| immediate | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| op | R1 | RX | register-immediate 2 | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| immediate hi | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| immediate lo | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
For register-memory 1 and register-immediate 1 and 2 an instructions, an | |
effective address is calculated as follows: | |
effective addr = address + RX (if RX > 0) | |
For register-memory 2, an effective address is calculated as follows: | |
effective addr = address + PC + RX (if RX > 0) | |
For register-memory 3, an effective address is calculated as follows: | |
effective addr = address + RX (if RX > 0) + RX2 (if RX2 > 0) | |
Register-memory instructions can access an address space of 16M bytes. | |
*/ | |
/* This routine is the instruction decode routine for the Interdata CPU. | |
It is called from the simulator control program to execute | |
instructions in simulated memory, starting at the simulated PC. | |
It runs until 'reason' is set non-zero. | |
General notes: | |
1. Reasons to stop. The simulator can be stopped by: | |
HALT instruction | |
breakpoint encountered | |
wait state and no I/O outstanding | |
invalid instruction | |
I/O error in I/O simulator | |
2. Interrupts. Each device has an interrupt armed flag, an interrupt | |
request flag, and an interrupt enabled flag. To facilitate evaluation, | |
all interrupt requests are kept in int_req, and all enables in int_enb. | |
Interrupt armed flags are local to devices. If external interrupts are | |
enabled in the PSW, and a request is pending, an interrupt occurs. | |
3. Non-existent memory. On the Interdata 32b, reads to non-existent | |
memory return zero, and writes are ignored. In the simulator, the | |
largest possible memory is instantiated and initialized to zero. | |
Thus, only writes need be checked against actual memory size. | |
4. Adding I/O devices. These modules must be modified: | |
id_defs.h add device interrupt definitions | |
id32_sys.c add sim_devices table entry | |
*/ | |
#include "id_defs.h" | |
#include <setjmp.h> | |
#define PCQ_SIZE 64 /* must be 2**n */ | |
#define PCQ_MASK (PCQ_SIZE - 1) | |
#define PCQ_ENTRY pcq[pcq_p = (pcq_p - 1) & PCQ_MASK] = oPC | |
#define VAMASK VAMASK32 | |
#define NRSETS 2 /* 2 gen reg sets */ | |
#define PSW_MASK PSW_x32 | |
#define ABORT(val) longjmp (save_env, (val)) | |
#define MPRO (-1) | |
#define UNIT_V_MSIZE (UNIT_V_UF + 0) /* dummy mask */ | |
#define UNIT_V_DPFP (UNIT_V_UF + 1) | |
#define UNIT_V_832 (UNIT_V_UF + 2) | |
#define UNIT_MSIZE (1 << UNIT_V_MSIZE) | |
#define UNIT_DPFP (1 << UNIT_V_DPFP) | |
#define UNIT_832 (1 << UNIT_V_832) | |
#define UNIT_TYPE (UNIT_DPFP | UNIT_832) | |
#define SEXT32(x) (((x) & SIGN32)? ((int32) ((x) | ~0x7FFFFFFF)): \ | |
((int32) ((x) & 0x7FFFFFFF))) | |
#define SEXT16(x) (((x) & SIGN16)? ((int32) ((x) | ~0x7FFF)): \ | |
((int32) ((x) & 0x7FFF))) | |
#define SEXT15(x) (((x) & 0x4000)? ((int32) ((x) | ~0x3FFF)): \ | |
((int32) ((x) & 0x3FFF))) | |
#define CC_GL_16(x) if ((x) & SIGN16) cc = CC_L; \ | |
else if (x) cc = CC_G; \ | |
else cc = 0 | |
#define CC_GL_32(x) if ((x) & SIGN32) cc = CC_L; \ | |
else if (x) cc = CC_G; \ | |
else cc = 0 | |
#define BUILD_PSW(x) (((PSW & ~CC_MASK) | (x)) & PSW_MASK) | |
#define NEG(x) ((~(x) + 1) & DMASK32) | |
#define ABS(x) (((x) & SIGN32)? NEG (x): (x)) | |
#define DNEG(x,y) y = NEG (y); \ | |
x = (~(x) + (y == 0)) & DMASK32 | |
uint32 GREG[16 * NRSETS] = { 0 }; /* general registers */ | |
uint32 *M = NULL; /* memory */ | |
uint32 *R = &GREG[0]; /* working reg set */ | |
uint32 F[8] = { 0 }; /* sp fp registers */ | |
dpr_t D[8] = { 0 }; /* dp fp registers */ | |
uint32 PSW = 0; /* processor status word */ | |
uint32 PC = 0; /* program counter */ | |
uint32 oPC = 0; /* PC at inst start */ | |
uint32 SR = 0; /* switch register */ | |
uint32 DR = 0; /* display register */ | |
uint32 DRX = 0; /* display extension */ | |
uint32 drmod = 0; /* mode */ | |
uint32 srpos = 0; /* switch register pos */ | |
uint32 drpos = 0; /* display register pos */ | |
uint32 mac_reg[MAC_LNT] = { 0 }; /* mac registers */ | |
uint32 mac_sta = 0; /* mac status */ | |
uint32 int_req[INTSZ] = { 0 }; /* interrupt requests */ | |
uint32 int_enb[INTSZ] = { 0 }; /* interrupt enables */ | |
uint32 qevent = 0; /* events */ | |
uint32 stop_inst = 0; /* stop on ill inst */ | |
uint32 stop_wait = 0; /* stop on wait */ | |
uint32 pcq[PCQ_SIZE] = { 0 }; /* PC queue */ | |
int32 pcq_p = 0; /* PC queue ptr */ | |
REG *pcq_r = NULL; /* PC queue reg ptr */ | |
uint32 dec_flgs = 0; /* decode flags */ | |
uint32 fp_in_hwre = 0; /* ucode vs hwre fp */ | |
uint32 pawidth = PAWIDTH32; /* addr mask */ | |
uint32 cpu_log = 0; /* debug logging */ | |
jmp_buf save_env; /* abort handler */ | |
struct BlockIO blk_io; /* block I/O status */ | |
uint32 (*dev_tab[DEVNO])(uint32 dev, uint32 op, uint32 datout) = { NULL }; | |
extern int32 sim_interval; | |
extern int32 sim_int_char; | |
extern int32 sim_brk_types, sim_brk_dflt, sim_brk_summ; /* breakpoint info */ | |
extern UNIT pic_unit, lfc_unit, pas_unit; /* timers */ | |
extern FILE *sim_log; | |
uint32 ReadB (uint32 loc, uint32 rel); | |
uint32 ReadH (uint32 loc, uint32 rel); | |
void WriteB (uint32 loc, uint32 val, uint32 rel); | |
void WriteH (uint32 loc, uint32 val, uint32 rel); | |
uint32 RelocT (uint32 va, uint32 base, uint32 rel, uint32 *pa); | |
uint32 int_auto (uint32 dev, uint32 cc); | |
uint32 addtoq (uint32 ea, uint32 val, uint32 flg); | |
uint32 remfmq (uint32 ea, uint32 r1, uint32 flg); | |
uint32 exception (uint32 loc, uint32 cc, uint32 flg); | |
uint32 newPSW (uint32 val); | |
uint32 testsysq (uint32 cc); | |
uint32 display (uint32 dev, uint32 op, uint32 dat); | |
t_stat cpu_ex (t_value *vptr, t_addr addr, UNIT *uptr, int32 sw); | |
t_stat cpu_dep (t_value val, t_addr addr, UNIT *uptr, int32 sw); | |
t_stat cpu_reset (DEVICE *dptr); | |
t_stat cpu_set_size (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat cpu_set_consint (UNIT *uptr, int32 val, char *cptr, void *desc); | |
void set_r_display (uint32 *rbase); | |
extern t_bool devtab_init (void); | |
extern void int_eval (void); | |
extern uint32 int_getdev (void); | |
extern void sch_cycle (uint32 ch); | |
extern t_bool sch_blk (uint32 dev); | |
extern uint32 f_l (uint32 op, uint32 r1, uint32 r2, uint32 ea); | |
extern uint32 f_c (uint32 op, uint32 r1, uint32 r2, uint32 ea); | |
extern uint32 f_as (uint32 op, uint32 r1, uint32 r2, uint32 ea); | |
extern uint32 f_m (uint32 op, uint32 r1, uint32 r2, uint32 ea); | |
extern uint32 f_d (uint32 op, uint32 r1, uint32 r2, uint32 ea); | |
extern uint32 f_fix32 (uint32 op, uint32 r1, uint32 r2); | |
extern uint32 f_flt32 (uint32 op, uint32 r1, uint32 r2); | |
/* Instruction decoding table */ | |
const uint16 decrom[256] = { | |
0, /* 00 */ | |
OP_RR, /* BALR */ | |
OP_RR, /* BTCR */ | |
OP_RR, /* BFCR */ | |
OP_RR, /* NR */ | |
OP_RR, /* CLR */ | |
OP_RR, /* OR */ | |
OP_RR, /* XR */ | |
OP_RR, /* LR */ | |
OP_RR, /* CR */ | |
OP_RR, /* AR */ | |
OP_RR, /* SR */ | |
OP_RR, /* MHR */ | |
OP_RR, /* DHR */ | |
0, 0, /* 0E:0F */ | |
OP_NO, /* SRLS */ | |
OP_NO, /* SLLS */ | |
OP_RR, /* CHVR */ | |
0, 0, 0, 0, 0, /* 13:17 */ | |
OP_RR | OP_PRV, /* LPSWR */ | |
0, 0, 0, /* 19:1B */ | |
OP_RR, /* MR */ | |
OP_RR, /* DR */ | |
0, 0, /* 1E:1F */ | |
OP_NO, /* BTBS */ | |
OP_NO, /* BTFS */ | |
OP_NO, /* BFBS */ | |
OP_NO, /* BFFS */ | |
OP_NO, /* LIS */ | |
OP_NO, /* LCS */ | |
OP_NO, /* AIS */ | |
OP_NO, /* SIS */ | |
OP_NO, /* LER */ | |
OP_NO, /* CER */ | |
OP_NO, /* AER */ | |
OP_NO, /* SER */ | |
OP_NO, /* MER */ | |
OP_NO, /* DER */ | |
OP_NO, /* FXR */ | |
OP_NO, /* FLR */ | |
0, /* MPBSR - 8/32C */ | |
0, /* 31 */ | |
0, /* PBR - 8/32C */ | |
0, /* 33 */ | |
OP_RR, /* EXHR */ | |
0, 0, 0, /* 35:37 */ | |
OP_NO | OP_DPF, /* LDR */ | |
OP_NO | OP_DPF, /* CDR */ | |
OP_NO | OP_DPF, /* ADR */ | |
OP_NO | OP_DPF, /* SDR */ | |
OP_NO | OP_DPF, /* MDR */ | |
OP_NO | OP_DPF, /* DDR */ | |
OP_NO | OP_DPF, /* FXDR */ | |
OP_NO | OP_DPF, /* FLDR */ | |
OP_RX, /* STH */ | |
OP_RX, /* BAL */ | |
OP_RX, /* BTC */ | |
OP_RX, /* BFC */ | |
OP_RXH, /* NH */ | |
OP_RXH, /* CLH */ | |
OP_RXH, /* OH */ | |
OP_RXH, /* XH */ | |
OP_RXH, /* LH */ | |
OP_RXH, /* CH */ | |
OP_RXH, /* AH */ | |
OP_RXH, /* SH */ | |
OP_RXH, /* MH */ | |
OP_RXH, /* DH */ | |
0, 0, /* 4E:4F */ | |
OP_RX, /* ST */ | |
OP_RXF, /* AM */ | |
0, 0, /* 52:53 */ | |
OP_RXF, /* N */ | |
OP_RXF, /* CL */ | |
OP_RXF, /* O */ | |
OP_RXF, /* X */ | |
OP_RXF, /* L */ | |
OP_RXF, /* C */ | |
OP_RXF, /* A */ | |
OP_RXF, /* S */ | |
OP_RXF, /* M */ | |
OP_RXF, /* D */ | |
OP_RX, /* CRC12 */ | |
OP_RX, /* CRC16 */ | |
OP_RX, /* STE */ | |
OP_RXH, /* AHM */ | |
0, /* PB - 8/32C */ | |
OP_RX, /* LRA */ | |
OP_RX, /* ATL */ | |
OP_RX, /* ABL */ | |
OP_RX, /* RTL */ | |
OP_RX, /* RBL */ | |
OP_RX, /* LE */ | |
OP_RX, /* CE */ | |
OP_RX, /* AE */ | |
OP_RX, /* SE */ | |
OP_RX, /* ME */ | |
OP_RX, /* DE */ | |
0, 0, /* 6E:6F */ | |
OP_RX | OP_DPF, /* STD */ | |
OP_RX, /* SME */ | |
OP_RX, /* LME */ | |
OP_RX, /* LHL */ | |
OP_RX, /* TBT */ | |
OP_RX, /* SBT */ | |
OP_RX, /* RBT */ | |
OP_RX, /* CBT */ | |
OP_RX | OP_DPF, /* LD */ | |
OP_RX | OP_DPF, /* CD */ | |
OP_RX | OP_DPF, /* AD */ | |
OP_RX | OP_DPF, /* SD */ | |
OP_RX | OP_DPF, /* MD */ | |
OP_RX | OP_DPF, /* DD */ | |
OP_RX | OP_DPF, /* STMD */ | |
OP_RX | OP_DPF, /* LMD */ | |
0, 0, 0, 0, 0, 0, 0, 0, /* 80:8F */ | |
0, 0, 0, 0, 0, 0, 0, 0, | |
OP_NO, /* SRHLS */ | |
OP_NO, /* SLHLS */ | |
OP_NO, /* STBR */ | |
OP_NO, /* LDBR */ | |
OP_NO, /* EXBR */ | |
OP_NO | OP_PRV, /* EPSR */ | |
OP_RR | OP_PRV, /* WBR */ | |
OP_RR | OP_PRV, /* RBR */ | |
OP_RR | OP_PRV, /* WHR */ | |
OP_RR | OP_PRV, /* RHR */ | |
OP_RR | OP_PRV, /* WDR */ | |
OP_RR | OP_PRV, /* RDR */ | |
0, /* 9C */ | |
OP_RR | OP_PRV, /* SSR */ | |
OP_RR | OP_PRV, /* OCR */ | |
0, /* 9F */ | |
0, 0, 0, 0, 0, 0, 0, 0, /* A0:AF */ | |
0, 0, 0, 0, 0, 0, 0, 0, | |
0, 0, 0, 0, 0, 0, 0, 0, /* B0:BF */ | |
0, 0, 0, 0, 0, 0, 0, 0, | |
OP_RX, /* BXH */ | |
OP_RX, /* BXLE */ | |
OP_RXF | OP_PRV, /* LPSW */ | |
OP_RI1, /* THI */ | |
OP_RI1, /* NHI */ | |
OP_RI1, /* CLHI */ | |
OP_RI1, /* OHI */ | |
OP_RI1, /* XHI */ | |
OP_RI1, /* LHI */ | |
OP_RI1, /* CHI */ | |
OP_RI1, /* AHI */ | |
OP_RI1, /* SHI */ | |
OP_RI1, /* SRHL */ | |
OP_RI1, /* SLHL */ | |
OP_RI1, /* SRHA */ | |
OP_RI1, /* SLHA */ | |
OP_RX, /* STM */ | |
OP_RX, /* LM */ | |
OP_RX, /* STB */ | |
OP_RX, /* LDB */ | |
OP_RX, /* CLB */ | |
OP_RX | OP_PRV, /* AL */ | |
OP_RXF | OP_PRV, /* WB */ | |
OP_RXF | OP_PRV, /* RB */ | |
OP_RX | OP_PRV, /* WH */ | |
OP_RX | OP_PRV, /* RH */ | |
OP_RX | OP_PRV, /* WD */ | |
OP_RX | OP_PRV, /* RD */ | |
0, /* DC */ | |
OP_RX | OP_PRV, /* SS */ | |
OP_RX | OP_PRV, /* OC */ | |
0, /* DF */ | |
OP_RXH, /* TS */ | |
OP_RX, /* SVC */ | |
OP_RI1 | OP_PRV, /* SINT */ | |
OP_RX | OP_PRV, /* SCP */ | |
0, 0, /* E4:E5 */ | |
OP_RX, /* LA */ | |
OP_RXF, /* TLATE */ | |
0, 0, /* E8:E9 */ | |
OP_RI1, /* RRL */ | |
OP_RI1, /* RLL */ | |
OP_RI1, /* SRL */ | |
OP_RI1, /* SLL */ | |
OP_RI1, /* SRA */ | |
OP_RI1, /* SLA */ | |
0, 0, 0, /* F0:F2 */ | |
OP_RI2, /* TI */ | |
OP_RI2, /* NI */ | |
OP_RI2, /* CLI */ | |
OP_RI2, /* OI */ | |
OP_RI2, /* XI */ | |
OP_RI2, /* LI */ | |
OP_RI2, /* CI */ | |
OP_RI2, /* AI */ | |
OP_RI2, /* SI */ | |
0, 0, 0, 0 }; /* FC:FF */ | |
/* CPU data structures | |
cpu_dev CPU device descriptor | |
cpu_unit CPU unit descriptor | |
cpu_reg CPU register list | |
cpu_mod CPU modifiers list | |
*/ | |
DIB cpu_dib = { d_DS, -1, v_DS, NULL, &display }; | |
UNIT cpu_unit = { UDATA (NULL, UNIT_FIX | UNIT_BINK, MAXMEMSIZE32) }; | |
REG cpu_reg[] = { | |
{ HRDATA (PC, PC, 20) }, | |
{ HRDATA (OPC, oPC, 20), REG_HRO }, | |
{ HRDATA (R0, GREG[0], 32) }, | |
{ HRDATA (R1, GREG[1], 32) }, | |
{ HRDATA (R2, GREG[2], 32) }, | |
{ HRDATA (R3, GREG[3], 32) }, | |
{ HRDATA (R4, GREG[4], 32) }, | |
{ HRDATA (R5, GREG[5], 32) }, | |
{ HRDATA (R6, GREG[6], 32) }, | |
{ HRDATA (R7, GREG[7], 32) }, | |
{ HRDATA (R8, GREG[8], 32) }, | |
{ HRDATA (R9, GREG[9], 32) }, | |
{ HRDATA (R10, GREG[10], 32) }, | |
{ HRDATA (R11, GREG[11], 32) }, | |
{ HRDATA (R12, GREG[12], 32) }, | |
{ HRDATA (R13, GREG[13], 32) }, | |
{ HRDATA (R14, GREG[14], 32) }, | |
{ HRDATA (R15, GREG[15], 32) }, | |
{ HRDATA (FR0, F[0], 32) }, | |
{ HRDATA (FR2, F[1], 32) }, | |
{ HRDATA (FR4, F[2], 32) }, | |
{ HRDATA (FR6, F[3], 32) }, | |
{ HRDATA (FR8, F[4], 32) }, | |
{ HRDATA (FR10, F[5], 32) }, | |
{ HRDATA (FR12, F[6], 32) }, | |
{ HRDATA (FR14, F[7], 32) }, | |
{ HRDATA (D0H, D[0].h, 32) }, | |
{ HRDATA (D0L, D[0].l, 32) }, | |
{ HRDATA (D2H, D[1].h, 32) }, | |
{ HRDATA (D2L, D[1].l, 32) }, | |
{ HRDATA (D4H, D[2].h, 32) }, | |
{ HRDATA (D4L, D[2].l, 32) }, | |
{ HRDATA (D6H, D[3].h, 32) }, | |
{ HRDATA (D6L, D[3].l, 32) }, | |
{ HRDATA (D8H, D[4].h, 32) }, | |
{ HRDATA (D8L, D[4].l, 32) }, | |
{ HRDATA (D10H, D[5].h, 32) }, | |
{ HRDATA (D10L, D[5].l, 32) }, | |
{ HRDATA (D12L, D[6].l, 32) }, | |
{ HRDATA (D12H, D[6].h, 32) }, | |
{ HRDATA (D14H, D[7].h, 32) }, | |
{ HRDATA (D14L, D[7].l, 32) }, | |
{ HRDATA (PSW, PSW, 16) }, | |
{ HRDATA (CC, PSW, 4) }, | |
{ HRDATA (SR, SR, 32) }, | |
{ HRDATA (DR, DR, 32) }, | |
{ HRDATA (DRX, DRX, 8) }, | |
{ FLDATA (DRMOD, drmod, 0) }, | |
{ FLDATA (SRPOS, srpos, 0) }, | |
{ HRDATA (DRPOS, drpos, 3) }, | |
{ BRDATA (IRQ, int_req, 16, 32, INTSZ) }, | |
{ BRDATA (IEN, int_enb, 16, 32, INTSZ) }, | |
{ BRDATA (MACREG, mac_reg, 16, 32, MAC_LNT) }, | |
{ HRDATA (MACSTA, mac_sta, 5) }, | |
{ HRDATA (QEVENT, qevent, 4), REG_HRO }, | |
{ FLDATA (STOP_INST, stop_inst, 0) }, | |
{ FLDATA (STOP_WAIT, stop_wait, 0) }, | |
{ BRDATA (PCQ, pcq, 16, 20, PCQ_SIZE), REG_RO+REG_CIRC }, | |
{ HRDATA (PCQP, pcq_p, 6), REG_HRO }, | |
{ HRDATA (WRU, sim_int_char, 8) }, | |
{ HRDATA (DBGLOG, cpu_log, 16), REG_HIDDEN }, | |
{ HRDATA (BLKIOD, blk_io.dfl, 16), REG_HRO }, | |
{ HRDATA (BLKIOC, blk_io.cur, 20), REG_HRO }, | |
{ HRDATA (BLKIOE, blk_io.end, 20), REG_HRO }, | |
{ BRDATA (GREG, GREG, 16, 32, 16 * NRSETS) }, | |
{ NULL } }; | |
MTAB cpu_mod[] = { | |
{ UNIT_MSIZE, 65536, NULL, "64K", &cpu_set_size }, | |
{ UNIT_MSIZE, 131072, NULL, "128K", &cpu_set_size }, | |
{ UNIT_MSIZE, 262144, NULL, "256K", &cpu_set_size }, | |
{ UNIT_MSIZE, 524288, NULL, "512K", &cpu_set_size }, | |
{ UNIT_MSIZE, 1048756, NULL, "1M", &cpu_set_size }, | |
{ UNIT_TYPE, 0, "7/32, single precision fp", "732", NULL }, | |
{ UNIT_DPFP, UNIT_DPFP, NULL, "DPFP", NULL }, | |
{ UNIT_TYPE, UNIT_DPFP, "7/32, double precision fp", NULL, NULL }, | |
{ UNIT_TYPE, UNIT_DPFP | UNIT_832, "8/32", "832", NULL }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, NULL, "CONSINT", | |
&cpu_set_consint, NULL, NULL }, | |
{ 0 } }; | |
DEVICE cpu_dev = { | |
"CPU", &cpu_unit, cpu_reg, cpu_mod, | |
1, 16, 20, 1, 16, 8, | |
&cpu_ex, &cpu_dep, &cpu_reset, | |
NULL, NULL, NULL, | |
&cpu_dib, 0 }; | |
t_stat sim_instr (void) | |
{ | |
volatile uint32 cc; /* set before setjmp */ | |
t_stat reason; /* set after setjmp */ | |
int abortval; | |
/* Restore register state */ | |
if (devtab_init ()) return SCPE_STOP; /* check conflicts */ | |
if (cpu_unit.flags & (UNIT_DPFP | UNIT_832)) { | |
fp_in_hwre = 1; /* fp in hwre */ | |
dec_flgs = 0; } /* all instr ok */ | |
else { fp_in_hwre = 0; /* fp in ucode */ | |
dec_flgs = OP_DPF; } /* sp only */ | |
int_eval (); /* eval interrupts */ | |
cc = newPSW (PSW & PSW_MASK); /* split PSW, eval wait */ | |
sim_rtcn_init (lfc_unit.wait, TMR_LFC); /* init clock */ | |
sim_rtcn_init (pic_unit.wait, TMR_PIC); /* init timer */ | |
sim_rtcn_init (pas_unit.wait, TMR_PAS); /* init pas */ | |
reason = 0; | |
/* Abort handling | |
If an abort occurs in memory protection, the relocation routine | |
executes a longjmp to this area OUTSIDE the main simulation loop. | |
Memory protection errors are the only sources of aborts in the | |
Interdata 32b systems. All referenced variables must be globals, | |
and all sim_instr scoped automatic variables must be volatile or | |
set after the call on setjmp. | |
*/ | |
abortval = setjmp (save_env); /* set abort hdlr */ | |
if (abortval != 0) { /* mem mgt abort? */ | |
qevent = qevent | EV_MAC; /* set MAC intr */ | |
if (cpu_unit.flags & UNIT_832) PC = oPC; } /* 832? restore PC */ | |
/* Event handling */ | |
while (reason == 0) { /* loop until halted */ | |
uint32 dev, drom, opnd, inc, lim, bufa; | |
uint32 op, r1, r1p1, r2, rx2, ea; | |
uint32 mpy, mpc, dvr; | |
uint32 i, rslt, rlo, t; | |
int32 sr, st; | |
if (sim_interval <= 0) { /* check clock queue */ | |
if (reason = sim_process_event ()) break; | |
int_eval (); } | |
if (qevent) { /* any events? */ | |
if (qevent & EV_MAC) { /* MAC interrupt? */ | |
qevent = 0; /* clr all events */ | |
cc = exception (MPRPSW, cc, 0); /* take exception */ | |
int_eval (); /* re-eval intr */ | |
continue; } | |
if (qevent & EV_BLK) { /* block I/O in prog? */ | |
dev = blk_io.dfl & DEV_MAX; /* get device */ | |
cc = dev_tab[dev] (dev, IO_SS, 0) & 0xF; /* sense status */ | |
if (cc == STA_BSY) { /* just busy? */ | |
sim_interval = 0; /* force I/O event */ | |
continue; } | |
else if (cc == 0) { /* ready, no err? */ | |
if (blk_io.dfl & BL_RD) { /* read? */ | |
t = dev_tab[dev] (dev, IO_RD, 0); /* get byte */ | |
if ((t == 0) && (blk_io.dfl & BL_LZ)) continue; | |
blk_io.dfl = blk_io.dfl & ~BL_LZ; /* non-zero seen */ | |
WriteB (blk_io.cur, t, VW); } /* write mem */ | |
else { /* write */ | |
t = ReadB (blk_io.cur, VR); /* read mem */ | |
dev_tab[dev] (dev, IO_WD, t); } /* put byte */ | |
if (blk_io.cur != blk_io.end) { /* more to do? */ | |
blk_io.cur = (blk_io.cur + 1) & VAMASK; /* incr addr */ | |
continue; } } | |
qevent = qevent & ~EV_BLK; /* clr blk I/O flag */ | |
int_eval (); /* re-eval intr */ | |
continue; } | |
if ((qevent & EV_INT) && (PSW & PSW_EXI)) { /* interrupt? */ | |
dev = int_getdev (); /* get int dev */ | |
cc = int_auto (dev, cc); /* do auto intr */ | |
int_eval (); /* re-eval intr */ | |
continue; } | |
if (PSW & PSW_WAIT) { /* wait state? */ | |
t = sim_qcount (); /* events in queue */ | |
if ((t == 0) || ((t == 1) && stop_wait)) /* empty, or kbd only? */ | |
reason = STOP_WAIT; /* then stop */ | |
else sim_interval = 0; /* force check */ | |
continue; } | |
qevent = 0; } /* no events */ | |
/* Instruction fetch and decode */ | |
if (sim_brk_summ && sim_brk_test (PC, SWMASK ('E'))) { /* breakpoint? */ | |
reason = STOP_IBKPT; /* stop simulation */ | |
break; } | |
sim_interval = sim_interval - 1; | |
t = ReadH (oPC = PC, VE); /* fetch instr */ | |
op = (t >> 8) & 0xFF; /* extract op,R1,R2 */ | |
r1 = (t >> 4) & 0xF; | |
r2 = t & 0xF; | |
drom = decrom[op]; /* get decode flags */ | |
if ((drom == 0) || (drom & dec_flgs)) { /* not in model? */ | |
if (stop_inst) reason = STOP_RSRV; /* stop or */ | |
else cc = exception (ILOPSW, cc, 0); /* exception */ | |
continue; } | |
if ((drom & OP_PRV) && (PSW & PSW_PRO)) { /* priv & protected? */ | |
cc = exception (ILOPSW, cc, 0); /* exception */ | |
continue; } | |
switch (drom & OP_MASK) { /* decode instruction */ | |
case OP_NO: /* no operand */ | |
opnd = r2; /* assume short */ | |
PC = (PC + 2) & VAMASK; /* increment PC */ | |
break; | |
case OP_RR: /* reg-reg */ | |
ea = opnd = R[r2]; /* operand is R2 */ | |
PC = (PC + 2) & VAMASK; /* increment PC */ | |
break; | |
case OP_RI1: /* reg-imm 1 */ | |
t = ReadH ((PC + 2) & VAMASK, VE); /* fetch immed */ | |
opnd = SEXT16 (t); /* sign extend */ | |
if (r2) opnd = (opnd + R[r2]) & DMASK32; /* index calculation */ | |
PC = (PC + 4) & VAMASK; /* increment PC */ | |
break; | |
case OP_RI2: /* reg-imm 2 */ | |
t = ReadH ((PC + 2) & VAMASK, VE); /* fetch imm hi */ | |
opnd = t << 16; /* shift to place */ | |
t = ReadH ((PC + 4) & VAMASK, VE); /* fetch imm lo */ | |
opnd = opnd | t; /* complete imm */ | |
if (r2) opnd = (opnd + R[r2]) & DMASK32; /* index calculation */ | |
PC = (PC + 6) & VAMASK; /* increment PC */ | |
break; | |
case OP_RX: case OP_RXH: case OP_RXF: /* reg-mem */ | |
t = ReadH ((PC + 2) & VAMASK, VE); /* fetch addr */ | |
if ((t & 0xC000) == 0) { /* displacement? */ | |
PC = (PC + 4) & VAMASK; /* increment PC */ | |
ea = t; } /* abs 14b displ */ | |
else if (t & 0x8000) { /* relative? */ | |
PC = (PC + 4) & VAMASK; /* increment PC */ | |
ea = PC + SEXT15 (t); } /* add to incr PC */ | |
else { /* absolute */ | |
rx2 = (t >> 8) & 0xF; /* get second index */ | |
ea = (t & 0xFF) << 16; /* shift to place */ | |
t = ReadH ((PC + 4) & VAMASK, VE); /* fetch addr lo */ | |
ea = ea | t; /* finish addr */ | |
if (rx2) ea = ea + R[rx2]; /* index calc 2 */ | |
PC = (PC + 6) & VAMASK; } /* increment PC */ | |
if (r2) ea = ea + R[r2]; /* index calculation */ | |
ea = ea & VAMASK; | |
if ((drom & OP_MASK) == OP_RXF) /* get fw operand? */ | |
opnd = ReadF (ea, VR); /* read fullword */ | |
else if ((drom & OP_MASK) == OP_RXH) { /* get hw operand? */ | |
t = ReadH (ea, VR); /* read halfword */ | |
opnd = SEXT16 (t); } /* sign extend */ | |
else opnd = ea; /* for sloppy code */ | |
break; | |
case OP_UNDEF: | |
return SCPE_IERR; } | |
if (qevent & EV_MAC) continue; /* MAC abort on fetch? */ | |
switch (op) { /* case on opcode */ | |
/* Load/store instructions */ | |
case 0x08: /* LR - RR */ | |
case 0x24: /* LIS - NO */ | |
case 0x48: /* LH - RXH */ | |
case 0x58: /* L - RXF */ | |
case 0xC8: /* LHI - RI1 */ | |
case 0xF8: /* LI - RI2 */ | |
R[r1] = opnd; /* load operand */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0x73: /* LHL - RX */ | |
R[r1] = ReadH (ea, VR); /* get op, zero ext */ | |
CC_GL_32 (R[r1]); /* set G, L */ | |
break; | |
case 0x25: /* LCS - NO */ | |
R[r1] = NEG (opnd); /* load complement */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0xE6: /* LA - RX */ | |
R[r1] = ea; /* load addr */ | |
break; | |
case 0x63: /* LRA - RX */ | |
cc = RelocT (R[r1] & VAMASK, ea, VR, &R[r1]); /* test reloc */ | |
break; | |
case 0x40: /* STH - RX */ | |
WriteH (ea, R[r1], VW); /* store register */ | |
break; | |
case 0x50: /* ST - RX */ | |
WriteF (ea, R[r1], VW); /* store register */ | |
break; | |
case 0xD1: /* LM - RX */ | |
for ( ; r1 <= 0xF; r1++) { /* loop thru reg */ | |
R[r1] = ReadF (ea, VR); /* load register */ | |
ea = (ea + 4) & VAMASK; } /* incr mem addr */ | |
break; | |
case 0xD0: /* STM - RX */ | |
for ( ; r1 <= 0xF; r1++) { /* loop thru reg */ | |
WriteF (ea, R[r1], VW); /* store register */ | |
ea = (ea + 4) & VAMASK; } /* incr mem addr */ | |
break; | |
case 0xE0: /* TS - RXH */ | |
CC_GL_16 (opnd); /* set cc's */ | |
WriteH (ea, opnd | SIGN16, VW); /* set MSB */ | |
break; | |
case 0x93: /* LDBR - NO */ | |
R[r1] = R[r2] & DMASK8; /* load byte */ | |
break; | |
case 0xD3: /* LDB - RX */ | |
R[r1] = ReadB (ea, VR); /* load byte */ | |
break; | |
case 0x92: /* STBR - NO */ | |
R[r2] = (R[r2] & ~DMASK8) | (R[r1] & DMASK8); /* store byte */ | |
break; | |
case 0xD2: /* STB - RX */ | |
WriteB (ea, R[r1], VW); /* store byte */ | |
break; | |
case 0x34: /* EXHR - NO */ | |
R[r1] = ((R[r2] >> 16) & DMASK16) | ((R[r2] & DMASK16) << 16); | |
break; | |
case 0x94: /* EXBR - NO */ | |
R[r1] = (R[r1] & ~DMASK16) | | |
((R[r2] >> 8) & DMASK8) | ((R[r2] & DMASK8) << 8); | |
break; | |
/* Control instructions */ | |
case 0x01: /* BALR - RR */ | |
case 0x41: /* BAL - RX */ | |
PCQ_ENTRY; /* save old PC */ | |
R[r1] = PC; /* save cur PC */ | |
PC = ea; /* branch */ | |
break; | |
case 0x02: /* BTCR - RR */ | |
case 0x42: /* BTC - RX */ | |
if (cc & r1) { /* test CC's */ | |
PCQ_ENTRY; /* branch if true */ | |
PC = ea; } | |
break; | |
case 0x20: /* BTBS - NO */ | |
if (cc & r1) { /* test CC's */ | |
PCQ_ENTRY; /* branch if true */ | |
PC = (oPC - r2 - r2) & VAMASK; } | |
break; | |
case 0x21: /* BTFS - NO */ | |
if (cc & r1) { /* test CC's */ | |
PCQ_ENTRY; /* branch if true */ | |
PC = (oPC + r2 + r2) & VAMASK; } | |
break; | |
case 0x03: /* BFCR - RR */ | |
case 0x43: /* BFC - RX */ | |
if ((cc & r1) == 0) { /* test CC's */ | |
PCQ_ENTRY; /* branch if false */ | |
PC = ea; } | |
break; | |
case 0x22: /* BFBS - NO */ | |
if ((cc & r1) == 0) { /* test CC's */ | |
PCQ_ENTRY; /* branch if false */ | |
PC = (oPC - r2 - r2) & VAMASK; } | |
break; | |
case 0x23: /* BFFS - NO */ | |
if ((cc & r1) == 0) { /* test CC's */ | |
PCQ_ENTRY; /* branch if false */ | |
PC = (oPC + r2 + r2) & VAMASK; } | |
break; | |
case 0xC0: /* BXH - RX */ | |
inc = R[(r1 + 1) & 0xF]; /* inc = R1 + 1 */ | |
lim = R[(r1 + 2) & 0xF]; /* lim = R1 + 2 */ | |
R[r1] = (R[r1] + inc) & DMASK32; /* R1 = R1 + inc */ | |
if (R[r1] > lim) { /* if R1 > lim */ | |
PCQ_ENTRY; /* branch */ | |
PC = ea; } | |
break; | |
case 0xC1: /* BXLE - RS */ | |
inc = R[(r1 + 1) & 0xF]; /* inc = R1 + 1 */ | |
lim = R[(r1 + 2) & 0xF]; /* lim = R1 + 2 */ | |
R[r1] = (R[r1] + inc) & DMASK32; /* R1 = R1 + inc */ | |
if (R[r1] <= lim) { /* if R1 <= lim */ | |
PCQ_ENTRY; /* branch */ | |
PC = ea; } | |
break; | |
/* Logical instructions */ | |
case 0x04: /* NR - RR */ | |
case 0x44: /* NH - RXH */ | |
case 0x54: /* N - RXF */ | |
case 0xC4: /* NHI - RI1 */ | |
case 0xF4: /* NI - RI2 */ | |
R[r1] = R[r1] & opnd; /* result */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0x06: /* OR - RR */ | |
case 0x46: /* OH - RXH */ | |
case 0x56: /* O - RXF */ | |
case 0xC6: /* OHI - RI1 */ | |
case 0xF6: /* OI - RI2 */ | |
R[r1] = R[r1] | opnd; /* result */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0x07: /* XR - RR */ | |
case 0x47: /* XH - RXH */ | |
case 0x57: /* X - RXF */ | |
case 0xC7: /* XHI - RI1 */ | |
case 0xF7: /* XI - RI2 */ | |
R[r1] = R[r1] ^ opnd; /* result */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0xC3: /* THI - RI1 */ | |
case 0xF3: /* TI - RI2 */ | |
rslt = R[r1] & opnd; /* result */ | |
CC_GL_32 (rslt); /* set G, L */ | |
break; | |
case 0x05: /* CLR - RR */ | |
case 0x45: /* CLH - RXH */ | |
case 0x55: /* CL - RXF */ | |
case 0xC5: /* CLHI - RI1 */ | |
case 0xF5: /* CI - RI2 */ | |
rslt = (R[r1] - opnd) & DMASK32; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (R[r1] < opnd) cc = cc | CC_C; /* set C if borrow */ | |
if (((R[r1] ^ opnd) & (~opnd ^ rslt)) & SIGN32) cc = cc | CC_V; | |
break; | |
case 0xD4: /* CLB - RX */ | |
opnd = ReadB (ea, VR); /* get operand */ | |
t = R[r1] & DMASK8; | |
rslt = (t - opnd) & DMASK16; /* result */ | |
CC_GL_16 (rslt); /* set G,L 16b */ | |
if (t < opnd) cc = cc | CC_C; /* set C if borrow */ | |
break; | |
case 0x12: /* CHVR - RR */ | |
t = cc & CC_C; /* save C */ | |
R[r1] = (SEXT16 (opnd & DMASK16)) & DMASK32; /* result */ | |
CC_GL_32 (R[r1]); /* set G, L */ | |
if (R[r1] != opnd) cc = cc | CC_V; /* wont fit? set V */ | |
cc = cc | t; /* restore C */ | |
break; | |
/* Shift instructions */ | |
case 0xCC: /* SRHL - RI1 */ | |
opnd = opnd & 0xF; /* shift count */ | |
case 0x90: /* SRHLS - NO */ | |
rslt = (R[r1] & DMASK16) >> opnd; /* result */ | |
CC_GL_16 (rslt); /* set G,L 16b */ | |
if (opnd && (((R[r1] & DMASK16) >> (opnd - 1)) & 1)) cc = cc | CC_C; | |
R[r1] = (R[r1] & ~DMASK16) | rslt; /* store result */ | |
break; | |
case 0xCD: /* SLHL - RI1 */ | |
opnd = opnd & 0xF; /* shift count */ | |
case 0x91: /* SLHLS - NO */ | |
rslt = R[r1] << opnd; /* result */ | |
CC_GL_16 (rslt & DMASK16); /* set G,L 16b */ | |
if (opnd && (rslt & 0x10000)) cc = cc | CC_C; /* set C if shft out */ | |
R[r1] = (R[r1] & ~DMASK16) | (rslt & DMASK16); /* store result */ | |
break; | |
case 0xCE: /* SRHA - RI1 */ | |
opnd = opnd & 0xF; /* shift count */ | |
rslt = (SEXT16 (R[r1]) >> opnd) & DMASK16; /* result */ | |
CC_GL_16 (rslt); /* set G,L 16b */ | |
if (opnd && ((R[r1] >> (opnd - 1)) & 1)) cc = cc | CC_C; | |
R[r1] = (R[r1] & ~DMASK16) | rslt; /* store result */ | |
break; | |
case 0xCF: /* SLHA - RI1 */ | |
opnd = opnd & 0xF; /* shift count */ | |
rslt = R[r1] << opnd; /* raw result */ | |
R[r1] = (R[r1] & ~MMASK16) | (rslt & MMASK16); | |
CC_GL_16 (R[r1] & DMASK16); /* set G,L 16b */ | |
if (opnd && (rslt & SIGN16)) cc = cc | CC_C; /* set C if shft out */ | |
break; | |
case 0xEC: /* SRL - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
case 0x10: /* SRLS - NO */ | |
rslt = R[r1] >> opnd; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (opnd && ((R[r1] >> (opnd - 1)) & 1)) cc = cc | CC_C; | |
R[r1] = rslt; /* store result */ | |
break; | |
case 0xED: /* SLL - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
case 0x11: /* SLLS - NO */ | |
rslt = (R[r1] << opnd) & DMASK32; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (opnd && ((R[r1] << (opnd - 1)) & SIGN32)) cc = cc | CC_C; | |
R[r1] = rslt; /* store result */ | |
break; | |
case 0xEE: /* SRA - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
rslt = (SEXT32 (R[r1]) >> opnd) & DMASK32; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (opnd && ((R[r1] >> (opnd - 1)) & 1)) cc = cc | CC_C; | |
R[r1] = rslt; /* store result */ | |
break; | |
case 0xEF: /* SLA - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
rslt = (R[r1] << opnd) & DMASK32; /* raw result */ | |
R[r1] = (R[r1] & SIGN32) | (rslt & MMASK32); /* arith result */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
if (opnd && (rslt & SIGN32)) cc = cc | CC_C; /* set C if shft out */ | |
break; | |
case 0xEA: /* RRL - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
if (opnd) R[r1] = (R[r1] >> opnd) | /* if cnt > 0 */ | |
((R[r1] << (32 - opnd)) & DMASK32); /* rotate */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
case 0xEB: /* RLL - RI1 */ | |
opnd = opnd & 0x1F; /* shift count */ | |
if (opnd) R[r1] = ((R[r1] << opnd) & DMASK32) | /* if cnt > 0 */ | |
(R[r1] >> (32 - opnd)); /* rotate */ | |
CC_GL_32 (R[r1]); /* set G,L */ | |
break; | |
/* Bit instructions */ | |
case 0x74: /* TBT - RX */ | |
t = 1u << (15 - (R[r1] & 0xF)); /* bit mask in HW */ | |
ea = (ea + ((R[r1] >> 3) & ~1)) & VAMASK; /* HW location */ | |
opnd = ReadH (ea, VR); /* read HW */ | |
if (opnd & t) cc = CC_G; /* test bit */ | |
else cc = 0; | |
break; | |
case 0x75: /* SBT - RX */ | |
t = 1u << (15 - (R[r1] & 0xF)); /* bit mask in HW */ | |
ea = (ea + ((R[r1] >> 3) & ~1)) & VAMASK; /* HW location */ | |
opnd = ReadH (ea, VR); /* read HW */ | |
WriteH (ea, opnd | t, VW); /* set bit, rewr */ | |
if (opnd & t) cc = CC_G; /* test bit */ | |
else cc = 0; | |
break; | |
case 0x76: /* RBT - RX */ | |
t = 1u << (15 - (R[r1] & 0xF)); /* bit mask in HW */ | |
ea = (ea + ((R[r1] >> 3) & ~1)) & VAMASK; /* HW location */ | |
opnd = ReadH (ea, VR); /* read HW */ | |
WriteH (ea, opnd & ~t, VW); /* clr bit, rewr */ | |
if (opnd & t) cc = CC_G; /* test bit */ | |
else cc = 0; | |
break; | |
case 0x77: /* CBT - RX */ | |
t = 1u << (15 - (R[r1] & 0xF)); /* bit mask in HW */ | |
ea = (ea + ((R[r1] >> 3) & ~1)) & VAMASK; /* HW location */ | |
opnd = ReadH (ea, VR); /* read HW */ | |
WriteH (ea, opnd ^ t, VW); /* com bit, rewr */ | |
if (opnd & t) cc = CC_G; /* test bit */ | |
else cc = 0; | |
break; | |
/* Arithmetic instructions */ | |
case 0x0A: /* AR - RR */ | |
case 0x26: /* AIS - NO */ | |
case 0x4A: /* AH - RXH */ | |
case 0x5A: /* A - RXF */ | |
case 0xCA: /* AHI - RI1 */ | |
case 0xFA: /* AI - RI2 */ | |
rslt = (R[r1] + opnd) & DMASK32; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (rslt < opnd) cc = cc | CC_C; /* set C if carry */ | |
if (((~R[r1] ^ opnd) & (R[r1] ^ rslt)) & SIGN32) cc = cc | CC_V; | |
R[r1] = rslt; | |
break; | |
case 0x51: /* AM - RXF */ | |
rslt = (R[r1] + opnd) & DMASK32; /* result */ | |
WriteF (ea, rslt, VW); /* write result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (rslt < opnd) cc = cc | CC_C; /* set C if carry */ | |
if (((~R[r1] ^ opnd) & (R[r1] ^ rslt)) & SIGN32) cc = cc | CC_V; | |
break; | |
case 0x61: /* AHM - RXH */ | |
rslt = (R[r1] + opnd) & DMASK16; /* result */ | |
WriteH (ea, rslt, VW); /* write result */ | |
CC_GL_16 (rslt); /* set G,L 16b */ | |
if (rslt < (opnd & DMASK16)) cc = cc | CC_C; /* set C if carry */ | |
if (((~R[r1] ^ opnd) & (R[r1] ^ rslt)) & SIGN16) cc = cc | CC_V; | |
break; | |
case 0x0B: /* SR - RR */ | |
case 0x27: /* SIS - NO */ | |
case 0x4B: /* SH - RXH */ | |
case 0x5B: /* S - RXF */ | |
case 0xCB: /* SHI - RI1 */ | |
case 0xFB: /* SI - RI2 */ | |
rslt = (R[r1] - opnd) & DMASK32; /* result */ | |
CC_GL_32 (rslt); /* set G,L */ | |
if (R[r1] < opnd) cc = cc | CC_C; /* set C if borrow */ | |
if (((R[r1] ^ opnd) & (~opnd ^ rslt)) & SIGN32) cc = cc | CC_V; | |
R[r1] = rslt; | |
break; | |
case 0x09: /* CR - RR */ | |
case 0x49: /* CH - RXH */ | |
case 0x59: /* C - RXF */ | |
case 0xC9: /* CHI - RI1 */ | |
case 0xF9: /* CI - RI2 */ | |
if (R[r1] == opnd) cc = 0; /* =? */ | |
else if ((R[r1] ^ opnd) & SIGN32) /* unlike signs? */ | |
cc = (R[r1] & SIGN32)? (CC_C | CC_L): CC_G; | |
else cc = (R[r1] > opnd)? CC_G: (CC_C | CC_L); /* like signs */ | |
if (((R[r1] ^ opnd) & (~opnd ^ (R[r1] - opnd))) & SIGN32) | |
cc = cc | CC_V; | |
break; | |
case 0x0C: /* MHR - RR */ | |
case 0x4C: /* MH - RXH */ | |
R[r1] = (SEXT16 (R[r1]) * SEXT16 (opnd)) & DMASK32; /* multiply */ | |
break; | |
case 0x1C: /* MR - RR */ | |
case 0x5C: /* M - RXF */ | |
r1p1 = (r1 + 1) & 0xF; | |
mpc = ABS (opnd); /* |mpcnd| */ | |
mpy = ABS (R[r1p1]); /* |mplyr| */ | |
rslt = rlo = 0; /* clr result */ | |
for (i = 0; i < 32; i++) { /* develop 32b */ | |
t = 0; /* no cout */ | |
if (mpy & 1) { /* cond add */ | |
rslt = (rslt + mpc) & DMASK32; | |
if (rslt < mpc) t = SIGN32; } | |
rlo = (rlo >> 1) | ((rslt & 1) << 31); /* shift result */ | |
rslt = (rslt >> 1) | t; | |
mpy = mpy >> 1; } /* shift mpylr */ | |
if ((opnd ^ R[r1p1]) & SIGN32) { | |
DNEG (rslt, rlo); } | |
R[r1] = rslt; /* store result */ | |
R[r1p1] = rlo; | |
break; | |
case 0x0D: /* DHR - RR */ | |
case 0x4D: /* DH - RXH */ | |
r1p1 = (r1 + 1) & 0xF; | |
opnd = opnd & DMASK16; /* force HW opnd */ | |
if (opnd) { /* if divisor != 0 */ | |
st = SEXT32 (R[r1]) / SEXT16 (opnd); /* quotient */ | |
sr = SEXT32 (R[r1]) % SEXT16 (opnd); } /* remainder */ | |
if (opnd && (st < 0x8000) && (st >= -0x8000)) { /* if quo fits */ | |
R[r1] = sr & DMASK32; /* store remainder */ | |
R[r1p1] = st & DMASK32; } /* store quotient */ | |
else if (PSW & PSW_AFI) /* div fault enabled? */ | |
cc = exception (AFIPSW, cc, 0); /* exception */ | |
break; | |
case 0x1D: /* DR - RR */ | |
case 0x5D: /* D - RXF */ | |
r1p1 = (r1 + 1) & 0xF; | |
rslt = R[r1]; /* get dividend */ | |
rlo = R[r1p1]; | |
if (R[r1] & SIGN32) { DNEG (rslt, rlo); } /* |divd| */ | |
dvr = ABS (opnd); /* |divr| */ | |
if (rslt < dvr) { /* will div work? */ | |
uint32 quos = R[r1] ^ opnd; /* expected sign */ | |
for (i = t = 0; i < 32; i++) { /* 32 iterations */ | |
rslt = ((rslt << 1) & DMASK32) | /* shift divd */ | |
((rlo >> 31) & 1); | |
rlo = (rlo << 1) & DMASK32; | |
t = (t << 1) & DMASK32; /* shift quo */ | |
if (rslt >= dvr) { /* subtract work? */ | |
rslt = rslt - dvr; /* divd -= divr */ | |
t = t | 1; } } /* set quo bit */ | |
if (quos & SIGN32) t = NEG (t); /* res -? neg quo */ | |
if (R[r1] & SIGN32) rslt = NEG (rslt); /* adj rem sign */ | |
if (t && ((t ^ quos) & SIGN32)) { /* res sign wrong? */ | |
if (PSW & PSW_AFI) /* if enabled, */ | |
cc = exception (AFIPSW, cc, 0); /* exception */ | |
break; } | |
R[r1] = rslt; /* store rem */ | |
R[r1p1] = t; } /* store quo */ | |
else if (PSW & PSW_AFI) /* div fault enabled? */ | |
cc = exception (AFIPSW, cc, 0); /* exception */ | |
break; | |
/* Floating point instructions */ | |
case 0x28: /* LER - NO */ | |
case 0x38: /* LDR - NO */ | |
case 0x68: /* LE - RX */ | |
case 0x78: /* LD - RX */ | |
cc = f_l (op, r1, r2, ea); /* load */ | |
if ((cc & CC_V) && (PSW & PSW_AFI)) /* V set? */ | |
cc = exception (AFIPSW, cc, 1); | |
break; | |
case 0x29: /* CER - NO */ | |
case 0x39: /* CDR - NO */ | |
case 0x69: /* CE - RX */ | |
case 0x79: /* CD - RX */ | |
cc = f_c (op, r1, r2, ea); /* compare */ | |
break; | |
case 0x2A: /* AER - NO */ | |
case 0x2B: /* SER - NO */ | |
case 0x3A: /* ADR - NO */ | |
case 0x3B: /* SDR - NO */ | |
case 0x6A: /* AE - RX */ | |
case 0x6B: /* SE - RX */ | |
case 0x7A: /* AD - RX */ | |
case 0x7B: /* SD - RX */ | |
cc = f_as (op, r1, r2, ea); /* add/sub */ | |
if ((cc & CC_V) && (PSW & PSW_AFI)) /* V set? */ | |
cc = exception (AFIPSW, cc, 1); | |
break; | |
case 0x2C: /* MER - NO */ | |
case 0x3C: /* MDR - NO */ | |
case 0x6C: /* ME - RX */ | |
case 0x7C: /* MD - RX */ | |
cc = f_m (op, r1, r2, ea); /* multiply */ | |
if ((cc & CC_V) && (PSW & PSW_AFI)) /* V set? */ | |
cc = exception (AFIPSW, cc, 1); | |
break; | |
case 0x2D: /* DER - NO */ | |
case 0x3D: /* DDR - NO */ | |
case 0x6D: /* DE - RX */ | |
case 0x7D: /* DD - RX */ | |
cc = f_d (op, r1, r2, ea); /* perform divide */ | |
if ((cc & CC_V) && (PSW & PSW_AFI)) /* V set? */ | |
cc = exception (AFIPSW, cc, 1); | |
break; | |
case 0x2E: /* FXR - NO */ | |
case 0x3E: /* FXDR - NO */ | |
cc = f_fix32 (op, r1, r2); /* cvt to integer */ | |
break; | |
case 0x2F: /* FLR - NO */ | |
case 0x3F: /* FLDR - NO */ | |
cc = f_flt32 (op, r1, r2); /* cvt to floating */ | |
break; | |
case 0x60: /* STE - RX */ | |
t = ReadFReg (r1); /* get sp reg */ | |
WriteF (ea, t, VW); /* write */ | |
break; | |
case 0x70: /* STD - RX */ | |
WriteF (ea, D[r1 >> 1].h, VW); /* write hi */ | |
WriteF ((ea + 4) & VAMASK, D[r1 >> 1].l, VW); /* write lo */ | |
break; | |
case 0x71: /* STME - RX */ | |
for ( ; r1 <= 0xE; r1 = r1 + 2) { /* loop thru reg */ | |
t = ReadFReg (r1); /* get sp reg */ | |
WriteF (ea, t, VW); /* write */ | |
ea = (ea + 4) & VAMASK; } /* incr mem addr */ | |
break; | |
case 0x72: /* LME - RX */ | |
for ( ; r1 <= 0xE; r1 = r1 + 2) { /* loop thru reg */ | |
t = ReadF (ea, VR); /* get value */ | |
WriteFReg (r1, t); /* write reg */ | |
ea = (ea + 4) & VAMASK; } /* incr mem addr */ | |
break; | |
case 0x7E: /* STMD - RX */ | |
for ( ; r1 <= 0xE; r1 = r1 + 2) { /* loop thru reg */ | |
WriteF (ea, D[r1 >> 1].h, VW); /* write register */ | |
WriteF ((ea + 4) & VAMASK, D[r1 >> 1].l, VW); | |
ea = (ea + 8) & VAMASK; } /* incr mem addr */ | |
break; | |
case 0x7F: /* LMD - RX */ | |
for ( ; r1 <= 0xE; r1 = r1 + 2) { /* loop thru reg */ | |
D[r1 >> 1].h = ReadF (ea, VR); /* load register */ | |
D[r1 >> 1].l = ReadF ((ea + 4) & VAMASK, VR); | |
ea = (ea + 8) & VAMASK; } /* incr mem addr */ | |
break; | |
/* Miscellaneous */ | |
case 0xE1: /* SVC - RX */ | |
PCQ_ENTRY; /* effective branch */ | |
t = BUILD_PSW (cc); /* save PSW */ | |
cc = newPSW (ReadF (SVNPS32, P)); /* get new PSW */ | |
R[13] = ea & 0xFFFFFF; /* parameter */ | |
R[14] = t; /* old PSW */ | |
R[15] = PC; /* old PC */ | |
PC = ReadH (SVNPC + r1 + r1, P); /* new PC */ | |
if (DBG_LOG (LOG_CPU_C)) fprintf (sim_log, | |
">>SVC: oPC = %X, oPSW = %X, nPC = %X, nPSW = %X\n", | |
pcq[pcq_p], t, PC, PSW); | |
break; | |
case 0xE2: /* SINT - RI1 */ | |
dev = opnd & DEV_MAX; /* get dev */ | |
cc = int_auto (dev, cc); /* auto int */ | |
int_eval (); | |
break; | |
case 0xE3: /* SCP - RX */ | |
opnd = ReadH (ea, VR); /* zero ext operand */ | |
if (opnd & CCW32_B1) t = ea + CCB32_B1C; /* point to buf */ | |
else t = ea + CCB32_B0C; | |
sr = ReadH (t & VAMASK, VR); /* get count */ | |
sr = SEXT16 (sr); /* sign extend */ | |
if (sr <= 0) { /* <= 0? */ | |
bufa = ReadF ((t + 2) & VAMASK, VR); /* get buf end */ | |
if (opnd & CCW32_WR) /* write? */ | |
R[r1] = ReadB ((bufa + sr) & VAMASK, VR); /* R1 gets mem */ | |
else WriteB ((bufa + sr) & VAMASK, R[r1], VW); /* read, R1 to mem */ | |
sr = sr + 1; /* inc count */ | |
CC_GL_32 (sr & DMASK32); /* set cc's */ | |
WriteH (t & VAMASK, sr, VW); /* rewrite */ | |
if ((sr > 0) && !(opnd & CCW32_FST)) /* buf switch? */ | |
WriteH (ea, opnd ^ CCW32_B1, VW); /* flip CCW bit */ | |
} /* end if */ | |
else cc = CC_V; | |
break; | |
case 0x18: /* LPSWR - RR */ | |
PCQ_ENTRY; /* effective branch */ | |
PC = R[(r2 + 1) & 0xF] & VAMASK; /* new PC (old reg set) */ | |
if (DBG_LOG (LOG_CPU_C)) fprintf (sim_log, | |
">>LPSWR: oPC = %X, oPSW = %X, nPC = %X, nPSW = %X\n", | |
pcq[pcq_p], BUILD_PSW (cc), PC, opnd); | |
cc = newPSW (opnd); /* new PSW */ | |
if (PSW & PSW_SQI) cc = testsysq (cc); /* test for q */ | |
break; | |
case 0xC2: /* LPSW - RXF */ | |
PCQ_ENTRY; /* effective branch */ | |
PC = ReadF ((ea + 4) & VAMASK, VR) & VAMASK; /* new PC */ | |
if (DBG_LOG (LOG_CPU_C)) fprintf (sim_log, | |
">>LPSW: oPC = %X, oPSW = %X, nPC = %X, nPSW = %X\n", | |
pcq[pcq_p], BUILD_PSW (cc), PC, opnd); | |
cc = newPSW (opnd); /* new PSW */ | |
if (PSW & PSW_SQI) cc = testsysq (cc); /* test for q */ | |
break; | |
case 0x95: /* EPSR - NO */ | |
R[r1] = BUILD_PSW (cc); /* save PSW */ | |
cc = newPSW (R[r2]); /* load new PSW */ | |
if (PSW & PSW_SQI) cc = testsysq (cc); /* test for q */ | |
break; | |
case 0x64: /* ATL - RX */ | |
case 0x65: /* ABL - RX */ | |
cc = addtoq (ea, R[r1], op & 1); /* add to q */ | |
break; | |
case 0x66: /* RTL - RX */ | |
case 0x67: /* RBL - RX */ | |
cc = remfmq (ea, r1, op & 1); /* rem from q */ | |
break; | |
case 0x5E: /* CRC12 - RXH */ | |
opnd = ReadH (ea, VR); /* zero ext opnd */ | |
t = (R[r1] & 0x3F) ^ opnd; | |
for (i = 0; i < 6; i++) { | |
if (t & 1) t = (t >> 1) ^ 0x0F01; | |
else t = t >> 1; } | |
WriteH (ea, t, VW); | |
break; | |
case 0x5F: /* CRC16 - RXH */ | |
opnd = ReadH (ea, VR); /* zero ext opnd */ | |
t = (R[r1] & 0xFF) ^ opnd; | |
for (i = 0; i < 8; i++) { | |
if (t & 1) t = (t >> 1) ^ 0xA001; | |
else t = t >> 1; } | |
WriteH (ea, t, VW); | |
break; | |
case 0xE7: /* TLATE - RXF */ | |
t = (opnd + ((R[r1] & DMASK8) << 1)) & VAMASK; /* table entry */ | |
rslt = ReadH (t, VR); /* get entry */ | |
if (rslt & SIGN16) R[r1] = rslt & DMASK8; /* direct xlate? */ | |
else { PCQ_ENTRY; /* branch */ | |
PC = rslt << 1; } | |
break; | |
/* I/O instructions */ | |
case 0xDE: /* OC - RX */ | |
opnd = ReadB (ea, VR); /* fetch operand */ | |
case 0x9E: /* OCR - RR */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { | |
dev_tab[dev] (dev, IO_ADR, 0); /* select */ | |
dev_tab[dev] (dev, IO_OC, opnd & DMASK8); /* send command */ | |
cc = 0; } | |
else cc = CC_V; | |
int_eval (); /* re-eval intr */ | |
break; | |
case 0xDA: /* WD - RX */ | |
opnd = ReadB (ea, VR); /* fetch operand */ | |
case 0x9A: /* WDR - RR */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { | |
dev_tab[dev] (dev, IO_ADR, 0); /* select */ | |
dev_tab[dev] (dev, IO_WD, opnd & DMASK8); /* send data */ | |
cc = 0; } | |
else cc = CC_V; | |
int_eval (); /* re-eval intr */ | |
break; | |
case 0xD8: /* WH - RX */ | |
opnd = ReadH (ea, VR); /* fetch operand */ | |
case 0x98: /* WHR - RR */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { | |
if (dev_tab[dev] (dev, IO_ADR, 0)) /* select; hw ok? */ | |
dev_tab[dev] (dev, IO_WH, opnd & DMASK16); /* send data */ | |
else { /* byte only */ | |
dev_tab[dev] (dev, IO_WD, (opnd >> 8) & DMASK8); /* hi */ | |
dev_tab[dev] (dev, IO_WD, opnd & DMASK8); } /* send lo byte */ | |
cc = 0; } | |
else cc = CC_V; | |
int_eval (); /* re-eval intr */ | |
break; | |
case 0x9B: /* RDR - RR */ | |
case 0xDB: /* RD - RX */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
dev_tab[dev] (dev, IO_ADR, 0); /* select */ | |
t = dev_tab[dev] (dev, IO_RD, 0); /* get data */ | |
cc = 0; } | |
else { /* no */ | |
t = 0; | |
cc = CC_V; } | |
if (OP_TYPE (op) != OP_RR) WriteB (ea, t, VW); /* RX or RR? */ | |
else R[r2] = t & DMASK8; | |
int_eval (); /* re-eval intr */ | |
break; | |
case 0x99: /* RHR - RR */ | |
case 0xD9: /* RH - RS */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
if (dev_tab[dev] (dev, IO_ADR, 0)) /* select, hw ok? */ | |
t = dev_tab[dev] (dev, IO_RH, 0); /* get data */ | |
else { /* byte only */ | |
rslt = dev_tab[dev] (dev, IO_RD, 0); /* get byte */ | |
t = dev_tab[dev] (dev, IO_RD, 0); /* get byte */ | |
t = (rslt << 8) | t; } /* merge */ | |
cc = 0; } | |
else { /* no */ | |
t = 0; | |
cc = CC_V; } | |
if (OP_TYPE (op) != OP_RR) WriteH (ea, t, VW); /* RX or RR? */ | |
else R[r2] = t & DMASK16; | |
int_eval (); /* re-eval intr */ | |
break; | |
case 0x9D: /* SSR - RR */ | |
case 0xDD: /* SS - RS */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
dev_tab[dev] (dev, IO_ADR, 0); /* select */ | |
t = dev_tab[dev] (dev, IO_SS, 0); } /* get status */ | |
else t = STA_EX; /* no */ | |
if (OP_TYPE (op) != OP_RR) WriteB (ea, t, VW); /* RX or RR? */ | |
else R[r2] = t & DMASK8; | |
cc = t & 0xF; | |
int_eval (); /* re-eval intr */ | |
break; | |
/* Block I/O instructions | |
On a real Interdata system, the block I/O instructions can't be | |
interrupted or stopped. To model this behavior, while allowing | |
the instructions to go back through fetch for I/O processing and | |
WRU testing, the simulator implements a 'block I/O in progress' | |
flag and status block. If a block I/O is in progress, normal | |
interrupts and fetches are suppressed until the block I/O is done. | |
*/ | |
case 0x96: /* WBR - RR */ | |
case 0xD6: /* WB - RXF */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
if (OP_TYPE (op) != OP_RR) | |
lim = ReadF ((ea + 4) & VAMASK, VR); | |
else lim = R[(r2 + 1) & 0xF]; | |
if (opnd > lim) cc = 0; /* start > end? */ | |
else { /* no, start I/O */ | |
dev_tab[dev] (dev, IO_ADR, 0); /* select dev */ | |
blk_io.dfl = dev; /* set status block */ | |
blk_io.cur = opnd; | |
blk_io.end = lim; | |
qevent = qevent | EV_BLK; } } /* I/O in prog */ | |
else cc = CC_V; /* nx dev */ | |
break; | |
case 0x97: /* RBR - RR */ | |
case 0xD7: /* RB - RXF */ | |
dev = R[r1] & DEV_MAX; | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
if (OP_TYPE (op) != OP_RR) | |
lim = ReadF ((ea + 4) & VAMASK, VR); | |
else lim = R[(r2 + 1) & 0xF]; | |
if (opnd > lim) cc = 0; /* start > end? */ | |
else { /* no, start I/O */ | |
dev_tab[dev] (dev, IO_ADR, 0); /* select dev */ | |
blk_io.dfl = dev | BL_RD; /* set status block */ | |
blk_io.cur = opnd; | |
blk_io.end = lim; | |
qevent = qevent | EV_BLK; } } /* I/O in prog */ | |
else cc = CC_V; /* nx dev */ | |
break; | |
case 0xD5: /* AL - RX */ | |
dev = ReadB (AL_DEV, P); /* get device */ | |
t = ReadB (AL_IOC, P); /* get command */ | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
if (AL_BUF > ea) cc = 0; /* start > end? */ | |
else { /* no, start I/O */ | |
dev_tab[dev] (dev, IO_ADR, 0); /* select dev */ | |
dev_tab[dev] (dev, IO_OC, t); /* start dev */ | |
blk_io.dfl = dev | BL_RD | BL_LZ; /* set status block */ | |
blk_io.cur = AL_BUF; | |
blk_io.end = ea; | |
qevent = qevent | EV_BLK; } } /* I/O in prog */ | |
else cc = CC_V; /* nx dev */ | |
break; } /* end switch */ | |
} /* end while */ | |
/* Simulation halted */ | |
PSW = BUILD_PSW (cc); | |
PC = PC & VAMASK; | |
set_r_display (R); | |
pcq_r->qptr = pcq_p; /* update pc q ptr */ | |
return reason; | |
} | |
/* Load new PSW */ | |
uint32 newPSW (uint32 val) | |
{ | |
uint32 rs = PSW_GETREG (val); /* register set */ | |
R = &GREG[rs * 16]; /* set register set */ | |
PSW = val & PSW_MASK; /* store PSW */ | |
int_eval (); /* update intreq */ | |
if (PSW & PSW_WAIT) qevent = qevent | EV_WAIT; /* wait state? */ | |
else qevent = qevent & ~EV_WAIT; | |
if (PSW & PSW_EXI) SET_ENB (v_DS); /* enable/disable */ | |
else CLR_ENB (v_DS); /* console intr */ | |
return PSW & CC_MASK; | |
} | |
/* Exception handler - 7/32 always uses register set 0 */ | |
uint32 exception (uint32 loc, uint32 cc, uint32 flg) | |
{ | |
int32 oldPSW = BUILD_PSW (cc); /* save old PSW */ | |
int32 oldPC = PC; /* save old PC */ | |
cc = newPSW (ReadF (loc, P)); /* new PSW */ | |
PC = ReadF (loc + 4, P) & VAMASK; /* new PC */ | |
if (cpu_unit.flags & UNIT_832) { /* 8/32? */ | |
R[14] = oldPSW; /* PSW to new 14 */ | |
R[15] = oldPC; } /* PC to new 15 */ | |
else { GREG[14] = oldPSW; /* 7/32, PSW to set 0 14 */ | |
GREG[15] = oldPC; } /* PC to set 0 15 */ | |
if (DBG_LOG (LOG_CPU_C)) fprintf (sim_log, | |
">>Exc %X: oPC = %X, oPSW = %X, nPC = %X, nPSW = %X\n", | |
loc, oldPC, oldPSW, PC, PSW | cc | flg); | |
return cc | flg; /* return CC */ | |
} | |
/* Test for queue interrupts - system queue addresses are physical */ | |
uint32 testsysq (uint32 cc) | |
{ | |
int32 qb = ReadF (SQP, P); /* get sys q addr */ | |
int32 usd = ReadH (qb + Q32_USD, P); /* get use count */ | |
if (usd) { /* entries? */ | |
cc = exception (SQTPSW, cc, 0); /* take sysq exc */ | |
if (cpu_unit.flags & UNIT_832) R[13] = qb; /* R13 = sys q addr */ | |
else GREG[13] = qb; } | |
return cc; | |
} | |
/* Add to queue */ | |
uint32 addtoq (uint32 ea, uint32 val, uint32 flg) | |
{ | |
uint32 slt, usd, wra, t; | |
t = ReadF (ea, VR); /* slots/used */ | |
slt = (t >> 16) & DMASK16; /* # slots */ | |
usd = t & DMASK16; /* # used */ | |
if (usd >= slt) return CC_V; /* list full? */ | |
usd = (usd + 1) & DMASK16; /* inc # used */ | |
WriteH (ea + Q32_USD, usd, VW); /* rewrite */ | |
if (flg) { /* ABL? */ | |
wra = ReadH ((ea + Q32_BOT) & VAMASK, VR); /* get bottom */ | |
t = wra + 1; /* adv bottom */ | |
if (t >= slt) t = 0; /* wrap if necc */ | |
WriteH ((ea + Q32_BOT) & VAMASK, t, VW); } /* rewrite bottom */ | |
else { wra = ReadH ((ea + Q32_TOP) & VAMASK, VR); /* ATL, get top */ | |
if (wra == 0) wra = (slt - 1) & DMASK16; /* wrap if necc */ | |
else wra = wra - 1; /* dec top */ | |
WriteH ((ea + Q32_TOP) & VAMASK, wra, VW); } /* rewrite top */ | |
WriteF ((ea + Q32_BASE + (wra * Q32_SLNT)) & VAMASK, val, VW); /* write slot */ | |
return 0; | |
} | |
/* Remove from queue */ | |
uint32 remfmq (uint32 ea, uint32 r1, uint32 flg) | |
{ | |
uint32 slt, usd, rda, t; | |
t = ReadF (ea, VR); /* get slots/used */ | |
slt = (t >> 16) & DMASK16; /* # slots */ | |
usd = t & DMASK16; /* # used */ | |
if (usd == 0) return CC_V; /* empty? */ | |
usd = usd - 1; /* dec used */ | |
WriteH (ea + Q32_USD, usd, VW); /* rewrite */ | |
if (flg) { /* RBL? */ | |
rda = ReadH ((ea + Q32_BOT) & VAMASK, VR); /* get bottom */ | |
if (rda == 0) rda = (slt - 1) & DMASK16; /* wrap if necc */ | |
else rda = rda - 1; /* dec bottom */ | |
WriteH ((ea + Q32_BOT) & VAMASK, rda, VW); } /* rewrite bottom */ | |
else { rda = ReadH ((ea + Q32_TOP) & VAMASK, VR); /* RTL, get top */ | |
t = rda + 1; /* adv top */ | |
if (t >= slt) t = 0; /* wrap if necc */ | |
WriteH ((ea + Q32_TOP) & VAMASK, t, VW); } /* rewrite top */ | |
R[r1] = ReadF ((ea + Q32_BASE + (rda * Q32_SLNT)) & VAMASK, VR); /* read slot */ | |
if (usd) return CC_G; | |
else return 0; | |
} | |
/* Automatic interrupt processing */ | |
uint32 int_auto (uint32 dev, uint32 cc) | |
{ | |
uint32 addr, vec, by, ccw, ccwa, ccwb; | |
uint32 i, hw, tblad, tblen, bufe, st, t; | |
int32 bufc; | |
uint32 oldPSW = BUILD_PSW (cc); | |
vec = ReadH (INTSVT + dev + dev, P); /* get vector */ | |
newPSW (0x2800); /* new PSW */ | |
R[0] = oldPSW; /* save old PSW */ | |
R[1] = PC; /* save PC */ | |
R[2] = dev; /* set dev # */ | |
if (DBG_LOG (LOG_CPU_C)) fprintf (sim_log, | |
">>Int %X: oPC = %X, oPSW = %X, nPC = %X, nPSW = %X\n", | |
dev, PC, oldPSW, vec, 0x2800); | |
if (DEV_ACC (dev)) { /* dev exist? */ | |
hw = dev_tab[dev] (dev, IO_ADR, 0); /* select, get hw */ | |
R[3] = st = dev_tab[dev] (dev, IO_SS, 0); } /* sense status */ | |
else { hw = 0; | |
R[3] = CC_V; } | |
if ((vec & 1) == 0) { /* immed int? */ | |
PC = vec; /* new PC */ | |
return PSW & CC_MASK; } /* exit */ | |
R[4] = ccwa = vec & ~1; /* save CCW addr */ | |
ccw = ReadH (ccwa, VR); /* read CCW */ | |
if ((ccw & CCW32_EXE) == 0) { /* exec clr? */ | |
PC = ReadH (ccwa + CCB32_SUB, VR); /* get subr */ | |
return 0; } /* CC = 0 */ | |
if (!DEV_ACC (dev) || (st & CCW32_STA (ccw))) { /* bad status? */ | |
PC = ReadH (ccwa + CCB32_SUB, VR); /* get subr */ | |
return CC_L; } /* CC = L */ | |
if (ccw & CCW32_FST) { /* fast mode? */ | |
t = ReadH (ccwa + CCB32_B0C, VR); /* get count */ | |
bufc = SEXT16 (t); /* sign ext */ | |
if (bufc <= 0) { /* still valid? */ | |
bufe = ReadF (ccwa + CCB32_B0E, VR); /* get end addr */ | |
addr = (bufe + bufc) & VAMASK; | |
if (hw) { /* halfword? */ | |
if (ccw & CCW32_WR) { /* write? */ | |
t = ReadH (addr, VR); /* get hw */ | |
dev_tab[dev] (dev, IO_WH, t); } /* send to dev */ | |
else { /* read */ | |
t = dev_tab[dev] (dev, IO_RH, 0); /* get hw */ | |
WriteH (addr, t, VW); } /* write to mem */ | |
bufc = bufc + 2; } /* adv buf cnt */ | |
else { /* byte */ | |
if (ccw & CCW32_WR) { /* write? */ | |
t = ReadB (addr, VR); /* get byte */ | |
dev_tab[dev] (dev, IO_WD, t); } /* send to dev */ | |
else { /* read */ | |
t = dev_tab[dev] (dev, IO_RD, 0); /* get byte */ | |
WriteB (addr, t, VW); } /* write to mem */ | |
bufc = bufc + 1; } /* adv buf cnt */ | |
WriteH (ccwa + CCB32_B0C, bufc, VW); /* rewrite cnt */ | |
if (bufc > 0) { | |
PC = ReadH (ccwa + CCB32_SUB, VR); /* get subr */ | |
return CC_G; } /* CC = G */ | |
} /* end if bufc <= 0 */ | |
} /* end fast */ | |
else { /* slow mode */ | |
if (ccw & CCW32_B1) ccwb = ccwa + CCB32_B1C; /* which buf? */ | |
else ccwb = ccwa + CCB32_B0C; | |
t = ReadH (ccwb, VR); /* get count */ | |
bufc = SEXT16 (t); /* sign ext */ | |
if (bufc <= 0) { /* still valid? */ | |
bufe = ReadF (ccwb + 2, VR); /* get end addr */ | |
addr = (bufe + bufc) & VAMASK; | |
if (ccw & CCW32_WR) { /* write? */ | |
by = ReadB (addr, VR); /* byte fm mem */ | |
if (ccw & CCW32_TL) { /* translate? */ | |
tblad = ReadF (ccwa + CCB32_TAB, VR);/* get tbl addr */ | |
tblen = (tblad + (by << 1)) & VAMASK; /* tbl entry addr */ | |
t = ReadH (tblen, VR); /* get tbl entry */ | |
if ((t & SIGN16) == 0) { /* special xlate? */ | |
PC = t << 1; /* change PC */ | |
R[3] = by; /* untrans char */ | |
return 0; } /* CC = 0 */ | |
by = t & DMASK8; } /* replace */ | |
dev_tab[dev] (dev, IO_WD, by); } /* write to dev */ | |
else { /* read */ | |
by = dev_tab[dev] (dev, IO_RD, 0); /* get from dev */ | |
if (ccw & CCW32_TL) { /* translate? */ | |
tblad = ReadF (ccwa + CCB32_TAB, VR);/* get tbl addr */ | |
tblen = (tblad + (by << 1)) & VAMASK; /* tbl entry addr */ | |
t = ReadH (tblen, VR); /* get tbl entry */ | |
if ((t & SIGN16) == 0) { /* special xlate? */ | |
PC = t << 1; /* change PC */ | |
R[3] = by; /* untrans char */ | |
return 0; } /* CC = 0 */ | |
WriteB (addr, t, VW); } /* wr trans */ | |
else WriteB (addr, by, VW); } /* wr orig */ | |
t = ReadH (ccwa + CCB32_CHK, VR); /* get check wd */ | |
t = t ^ by; /* start LRC */ | |
if (ccw & CCW32_CRC) { /* CRC? */ | |
for (i = 0; i < 8; i++) { | |
if (t & 1) t = (t >> 1) ^ 0xA001; | |
else t = t >> 1; } } | |
WriteH (ccwa + CCB32_CHK, t, VW); /* rewrite chk wd */ | |
bufc = bufc + 1; /* adv buf cnt */ | |
WriteH (ccwb, bufc, VW); /* rewrite cnt */ | |
if (bufc > 0) { /* cnt pos? */ | |
ccw = ccw ^ CCW32_B1; /* flip buf */ | |
WriteH (ccwa, ccw, VW); /* rewrite */ | |
PC = ReadH (ccwa + CCB32_SUB, VR); /* get subr */ | |
return CC_G; } /* CC = G */ | |
} /* end if bufc */ | |
} /* end slow */ | |
PC = R[1]; /* restore PC */ | |
return newPSW (R[0]); /* restore PSW, CC */ | |
} | |
/* Display register device */ | |
uint32 display (uint32 dev, uint32 op, uint32 dat) | |
{ | |
int t; | |
switch (op) { | |
case IO_ADR: /* select */ | |
if (!drmod) drpos = srpos = 0; /* norm mode? clr */ | |
return BY; /* byte only */ | |
case IO_OC: /* command */ | |
op = op & 0xC0; | |
if (op == 0x40) { /* x40 = inc */ | |
drmod = 1; | |
drpos = srpos = 0; } /* init cntrs */ | |
else if (op == 0x80) drmod = 0; /* x80 = norm */ | |
break; | |
case IO_WD: /* write */ | |
if (drpos < 4) | |
DR = (DR & ~(DMASK8 << (drpos * 8))) | (dat << (drpos * 8)); | |
else if (drpos == 4) DRX = dat; | |
drpos = (drpos + 1) & 0x7; | |
break; | |
case IO_RD: /* read */ | |
t = (SR >> (srpos * 8)) & DMASK8; | |
srpos = srpos ^ 1; | |
return t; | |
case IO_SS: /* status */ | |
return 0x80; } | |
return 0; | |
} | |
/* Relocation and protection */ | |
uint32 Reloc (uint32 va, uint32 rel) | |
{ | |
uint32 seg, off, mapr, lim; | |
seg = VA_GETSEG (va); /* get seg num */ | |
off = VA_GETOFF (va); /* get offset */ | |
mapr = mac_reg[seg]; /* get seg reg */ | |
lim = GET_SRL (mapr); /* get limit */ | |
if (off >= lim) { /* limit viol? */ | |
mac_sta = MACS_L; /* set status */ | |
ABORT (MPRO); } /* abort */ | |
if ((mapr & SR_PRS) == 0) { /* not present? */ | |
mac_sta = MACS_NP; /* set status */ | |
ABORT (MPRO); } /* abort */ | |
if ((rel == VE) && (mapr & SR_EXP)) { /* exec, prot? */ | |
mac_sta = MACS_EX; /* set status */ | |
qevent = qevent | EV_MAC; } /* req intr */ | |
if ((rel == VW) && (mapr & (SR_WPI | SR_WRP))) { /* write, prot? */ | |
if (mapr & SR_WRP) { /* write abort? */ | |
mac_sta = MACS_WP; /* set status */ | |
ABORT (MPRO); } /* abort */ | |
else { /* write intr */ | |
mac_sta = MACS_WI; /* set status */ | |
qevent = qevent | EV_MAC; } } /* req intr */ | |
return (off + (mapr & SRF_MASK)) & PAMASK32; /* relocate */ | |
} | |
uint32 RelocT (uint32 va, uint32 base, uint32 rel, uint32 *pa) | |
{ | |
uint32 seg, off, mapr, lim; | |
seg = VA_GETSEG (va); /* get seg num */ | |
off = VA_GETOFF (va); /* get offset */ | |
mapr = ReadF ((base + (seg << 2)) & VAMASK, rel); /* get seg reg */ | |
lim = GET_SRL (mapr); /* get limit */ | |
if (off >= lim) return CC_C; /* limit viol? */ | |
if ((mapr & SR_PRS) == 0) return CC_V; /* not present? */ | |
*pa = off + (mapr & SRF_MASK); /* translate */ | |
if (mapr & (SR_WRP | SR_WPI)) return CC_G; /* write prot? */ | |
if (mapr & SR_EXP) return CC_L; /* exec prot? */ | |
return 0; /* ok */ | |
} | |
/* Memory interface routines | |
ReadB read byte (processor) | |
ReadH read halfword (processor) | |
ReadF read fullword (processor) | |
WriteB write byte (processor) | |
WriteH write halfword (processor) | |
WriteF write fullword (processor) | |
IOReadB read byte (IO) | |
IOWriteB write byte (IO) | |
*/ | |
uint32 ReadB (uint32 loc, uint32 rel) | |
{ | |
uint32 val; | |
uint32 sc = (3 - (loc & 3)) << 3; | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
if ((loc & ~03) == MAC_STA) { /* MAC status? */ | |
val = mac_sta; /* read it */ | |
qevent = qevent & ~EV_MAC; } /* clr MAC intr */ | |
else val = M[loc >> 2]; } /* get mem word */ | |
else if (rel == 0) val = M[loc >> 2]; /* phys ref? */ | |
else { uint32 pa = Reloc (loc, rel); /* relocate */ | |
val = M[pa >> 2]; } | |
return (val >> sc) & DMASK8; | |
} | |
uint32 ReadH (uint32 loc, uint32 rel) | |
{ | |
uint32 val; | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
if ((loc & ~03) == MAC_STA) { /* MAC status? */ | |
val = mac_sta; /* read it */ | |
qevent = qevent & ~EV_MAC; } /* clr MAC intr */ | |
else val = M[loc >> 2]; } /* get mem word */ | |
else if (rel == 0) val = M[loc >> 2]; /* phys ref? */ | |
else { uint32 pa = Reloc (loc, rel); /* relocate */ | |
val = M[pa >> 2]; } | |
return (val >> ((loc & 2)? 0: 16)) & DMASK16; | |
} | |
uint32 ReadF (uint32 loc, uint32 rel) | |
{ | |
uint32 val; | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
if ((loc & ~03) == MAC_STA) { /* MAC status? */ | |
val = mac_sta; /* read it */ | |
qevent = qevent & ~EV_MAC; } /* clr MAC intr */ | |
else val = M[loc >> 2]; } /* get mem word */ | |
else if (rel == 0) val = M[loc >> 2]; /* phys ref? */ | |
else { uint32 pa = Reloc (loc, rel); /* relocate */ | |
val = M[pa >> 2]; } | |
return val; | |
} | |
void WriteB (uint32 loc, uint32 val, uint32 rel) | |
{ | |
uint32 pa = loc; | |
uint32 sc = (3 - (loc & 3)) << 3; | |
val = val & DMASK8; | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
uint32 idx = (pa - MAC_BASE) >> 2; /* check for MAC */ | |
if (idx <= MAC_LNT) { | |
if (idx < MAC_LNT) mac_reg[idx] = | |
((mac_reg[idx] & ~(DMASK8 << sc)) | (val << sc)) & SR_MASK; | |
else { | |
mac_sta = 0; | |
qevent = qevent & ~EV_MAC; } } } | |
else if (rel != 0) pa = Reloc (loc, rel); /* !phys? relocate */ | |
if (MEM_ADDR_OK (pa)) M[pa >> 2] = | |
(M[pa >> 2] & ~(DMASK8 << sc)) | (val << sc); | |
return; | |
} | |
void WriteH (uint32 loc, uint32 val, uint32 rel) | |
{ | |
uint32 pa = loc; | |
val = val & DMASK16; | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
uint32 idx = (pa - MAC_BASE) >> 2; /* check for MAC */ | |
if (idx <= MAC_LNT) { | |
if (idx < MAC_LNT) mac_reg[idx] = ((loc & 2)? | |
((mac_reg[idx] & ~DMASK16) | val): | |
((mac_reg[idx] & DMASK16) | (val << 16))) & SR_MASK; | |
else { | |
mac_sta = 0; | |
qevent = qevent & ~EV_MAC; } } } | |
else if (rel != 0) pa = Reloc (loc, rel); /* !phys? relocate */ | |
if (MEM_ADDR_OK (pa)) M[pa >> 2] = (loc & 2)? | |
((M[pa >> 2] & ~DMASK16) | val): | |
((M[pa >> 2] & DMASK16) | (val << 16)); | |
return; | |
} | |
void WriteF (uint32 loc, uint32 val, uint32 rel) | |
{ | |
uint32 pa = loc; | |
val = val & DMASK32; | |
if (loc & 2) { | |
WriteH (loc & VAMASK, (val >> 16) & DMASK16, rel); | |
WriteH ((loc + 2) & VAMASK, val & DMASK16, rel); | |
return; } | |
if ((PSW & PSW_REL) == 0) { /* reloc off? */ | |
uint32 idx = (pa - MAC_BASE) >> 2; /* check for MAC */ | |
if (idx <= MAC_LNT) { | |
if (idx < MAC_LNT) mac_reg[idx] = val & SR_MASK; | |
else { | |
mac_sta = 0; | |
qevent = qevent & ~EV_MAC; } } } | |
else if (rel != 0) pa = Reloc (loc, rel); /* !phys? relocate */ | |
if (MEM_ADDR_OK (pa)) M[pa >> 2] = val & DMASK32; | |
return; | |
} | |
uint32 IOReadB (uint32 loc) | |
{ | |
uint32 sc = (3 - (loc & 3)) << 3; | |
return (M[loc >> 2] >> sc) & DMASK8; | |
} | |
void IOWriteB (uint32 loc, uint32 val) | |
{ | |
uint32 sc = (3 - (loc & 3)) << 3; | |
val = val & DMASK8; | |
M[loc >> 2] = (M[loc >> 2] & ~(DMASK8 << sc)) | (val << sc); | |
return; | |
} | |
/* Reset routine */ | |
t_stat cpu_reset (DEVICE *dptr) | |
{ | |
qevent = 0; /* no events */ | |
mac_sta = 0; /* clear MAC */ | |
newPSW (0); /* PSW = 0 */ | |
set_r_display (R); | |
DR = 0; /* clear display */ | |
drmod = 0; | |
blk_io.dfl = blk_io.cur = blk_io.end = 0; /* no block I/O */ | |
sim_brk_types = sim_brk_dflt = SWMASK ('E'); /* init bkpts */ | |
if (M == NULL) M = calloc (MAXMEMSIZE32 >> 1, sizeof (uint16)); | |
if (M == NULL) return SCPE_MEM; | |
pcq_r = find_reg ("PCQ", NULL, dptr); /* init PCQ */ | |
if (pcq_r) pcq_r->qptr = 0; | |
else return SCPE_IERR; | |
return SCPE_OK; | |
} | |
/* Memory examine */ | |
t_stat cpu_ex (t_value *vptr, t_addr addr, UNIT *uptr, int32 sw) | |
{ | |
if ((sw & SWMASK ('V')) && (PSW & PSW_REL)) { | |
int32 cc = RelocT (addr, MAC_BASE, P, &addr); | |
if (cc & (CC_C | CC_V)) return SCPE_NXM; } | |
if (addr >= MEMSIZE) return SCPE_NXM; | |
if (vptr != NULL) *vptr = IOReadB (addr); | |
return SCPE_OK; | |
} | |
/* Memory deposit */ | |
t_stat cpu_dep (t_value val, t_addr addr, UNIT *uptr, int32 sw) | |
{ | |
if ((sw & SWMASK ('V')) && (PSW & PSW_REL)) { | |
int32 cc = RelocT (addr, MAC_BASE, P, &addr); | |
if (cc & (CC_C | CC_V)) return SCPE_NXM; } | |
if (addr >= MEMSIZE) return SCPE_NXM; | |
IOWriteB (addr, val & 0xFF); | |
return SCPE_OK; | |
} | |
/* Change memory size */ | |
t_stat cpu_set_size (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
uint32 mc = 0; | |
uint32 i; | |
if ((val <= 0) || (val > MAXMEMSIZE32) || ((val & 0xFFFF) != 0)) | |
return SCPE_ARG; | |
for (i = val; i < MEMSIZE; i = i + 4) mc = mc | M[i >> 2]; | |
if ((mc != 0) && (!get_yn ("Really truncate memory [N]?", FALSE))) | |
return SCPE_OK; | |
MEMSIZE = val; | |
for (i = MEMSIZE; i < MAXMEMSIZE32; i = i + 4) M[i >> 2] = 0; | |
return SCPE_OK; | |
} | |
/* Set current R pointers for SCP */ | |
void set_r_display (uint32 *rbase) | |
{ | |
extern REG *find_reg (char *cptr, char **optr, DEVICE *dptr); | |
REG *rptr; | |
int32 i; | |
rptr = find_reg ("R0", NULL, &cpu_dev); | |
if (rptr == NULL) return; | |
for (i = 0; i < 16; i++, rptr++) rptr->loc = (void *) (rbase + i); | |
return; | |
} | |
/* Set console interrupt */ | |
t_stat cpu_set_consint (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
if (PSW & PSW_EXI) SET_INT (v_DS); | |
return SCPE_OK; | |
} |