/ machine language assist / for 11/40 / non-UNIX instructions mfpi = 6500^tst mtpi = 6600^tst halt = 0 wait = 1 reset = 5 rtt = 6 .globl start, _end, _edata, _main, dump dump: start: mov $trap,34 / Set location 0 and 2 to catch traps and jumps to 0 mov $42,0 / illegal instruction if jump mov $777,2 / trace trap at high priority if trap / initialize systems segments mov $KISA0,r0 mov $KISD0,r1 mov $200,r4 clr r2 mov $6,r3 1: mov r2,(r0)+ mov $77406,(r1)+ / 4k rw add r4,r2 sob r3,1b / initialize user segment mov $_end+63.,r2 ash $-6,r2 bic $!1777,r2 mov r2,(r0)+ / ksr6 = sysu mov $usize-1\<8|6,(r1)+ / initialize io segment / set up counts on supervisor segments mov $IO,(r0)+ mov $77406,(r1)+ / rw 4k / get a sp and start segmentation mov $_u+[usize*64.],sp inc SSR0 / test for floating point mov $1f,nofault setd / jumps to 1f if no fpu inc fpp 1: clr nofault / clear bss mov $_edata,r0 1: clr (r0)+ cmp r0,$_end blo 1b / clear user block mov $_u,r0 1: clr (r0)+ cmp r0,$_u+[usize*64.] blo 1b / set up previous mode and call main / on return, enter user mode at 0R mov $30000,PS jsr pc,_main mov $170000,-(sp) clr -(sp) rtt .globl trap, call .globl _trap / all traps and interrupts are / vectored thru this routine. trap: mov PS,saveps tst nofault bne 1f mov SSR0,ssr mov SSR2,ssr+4 mov $1,SSR0 jsr r0,call1; jmp _trap / no return 1: mov $1,SSR0 mov nofault,(sp) rtt .text .globl _runrun call1: mov saveps,-(sp) bic $HIPRI,PS br 1f call: mov PS,-(sp) 1: mov r1,-(sp) mfpi sp mov 4(sp),-(sp) bic $!37,(sp) bit $30000,PS beq 1f jsr pc,(r0)+ tstb _runrun beq 2f mov $12.,(sp) / trap 12 is give up cpu jsr pc,_trap 2: tst (sp)+ mtpi sp br 2f 1: bis $30000,PS jsr pc,(r0)+ cmp (sp)+,(sp)+ 2: mov (sp)+,r1 tst (sp)+ mov (sp)+,r0 rtt .globl _savfp _savfp: tst fpp beq 8f mov 2(sp),r1 stfps (r1)+ setd movf fr0,(r1)+ movf fr1,(r1)+ movf fr2,(r1)+ movf fr3,(r1)+ movf fr4,fr0 movf fr0,(r1)+ movf fr5,fr0 movf fr0,(r1)+ 8: rts pc .globl _restfp _restfp: tst fpp beq 8f mov 2(sp),r1 mov r1,r0 setd add $8.+2.,r1 movf (r1)+,fr1 movf (r1)+,fr2 movf (r1)+,fr3 movf (r1)+,fr0 movf fr0,fr4 movf (r1)+,fr0 movf fr0,fr5 movf 2(r0),fr0 ldfps (r0) 8: rts pc .globl _addupc _addupc: mov r2,-(sp) mov 6(sp),r2 / base of prof with base,leng,off,scale mov 4(sp),r0 / pc sub 4(r2),r0 / offset clc ror r0 mov 6(r2),r1 clc ror r1 mul r1,r0 / scale ashc $-14.,r0 inc r1 bic $1,r1 cmp r1,2(r2) / length bhis 1f add (r2),r1 / base mov nofault,-(sp) mov $2f,nofault mfpi (r1) add 12.(sp),(sp) mtpi (r1) br 3f 2: clr 6(r2) 3: mov (sp)+,nofault 1: mov (sp)+,r2 rts pc .globl _display _display: rts pc / Character list get/put /.globl _getc, _putc /.globl _cfreelist / /_getc: / mov 2(sp),r1 / mov PS,-(sp) / mov r2,-(sp) / bis $HIPRI,PS / bic $40,PS / mov 2(r1),r2 / first ptr / beq 9f / empty / movb (r2)+,r0 / character / bic $!377,r0 / mov r2,2(r1) / dec (r1)+ / count / bne 1f / clr (r1)+ / clr (r1)+ / last block / br 2f /1: / bit $7,r2 / bne 3f / mov -10(r2),(r1) / next block / add $2,(r1) /2: / dec r2 / bic $7,r2 / mov _cfreelist,(r2) / mov r2,_cfreelist /3: / mov (sp)+,r2 / mov (sp)+,PS / rts pc /9: / clr 4(r1) / mov $-1,r0 / mov (sp)+,r2 / mov (sp)+,PS / rts pc / /_putc: / mov 2(sp),r0 / mov 4(sp),r1 / mov PS,-(sp) / mov r2,-(sp) / mov r3,-(sp) / bis $HIPRI,PS / bic $40,PS / mov 4(r1),r2 / last ptr / bne 1f / mov _cfreelist,r2 / beq 9f / mov (r2),_cfreelist / clr (r2)+ / mov r2,2(r1) / first ptr / br 2f /1: / bit $7,r2 / bne 2f / mov _cfreelist,r3 / beq 9f / mov (r3),_cfreelist / mov r3,-10(r2) / mov r3,r2 / clr (r2)+ /2: / movb r0,(r2)+ / mov r2,4(r1) / inc (r1) / count / clr r0 / mov (sp)+,r3 / mov (sp)+,r2 / mov (sp)+,PS / rts pc /9: / mov pc,r0 / mov (sp)+,r3 / mov (sp)+,r2 / mov (sp)+,PS / rts pc .globl _backup .globl _regloc _backup: mov 2(sp),ssr+2 mov r2,-(sp) jsr pc,backup mov r2,ssr+2 mov (sp)+,r2 movb jflg,r0 bne 2f mov 2(sp),r0 movb ssr+2,r1 jsr pc,1f movb ssr+3,r1 jsr pc,1f movb _regloc+7,r1 asl r1 add r0,r1 mov ssr+4,(r1) clr r0 2: rts pc 1: mov r1,-(sp) asr (sp) asr (sp) asr (sp) bic $!7,r1 movb _regloc(r1),r1 asl r1 add r0,r1 sub (sp)+,(r1) rts pc / hard part / simulate the ssr2 register missing on 11/40 backup: clr r2 / backup register ssr1 mov $1,bflg / clrs jflg mov ssr+4,r0 jsr pc,fetch mov r0,r1 ash $-11.,r0 bic $!36,r0 jmp *0f(r0) 0: t00; t01; t02; t03; t04; t05; t06; t07 t10; t11; t12; t13; t14; t15; t16; t17 t00: clrb bflg t10: mov r1,r0 swab r0 bic $!16,r0 jmp *0f(r0) 0: u0; u1; u2; u3; u4; u5; u6; u7 u6: / single op, m[tf]pi, sxt, illegal bit $400,r1 beq u5 / all but m[tf], sxt bit $200,r1 beq 1f / mfpi bit $100,r1 bne u5 / sxt / simulate mtpi with double (sp)+,dd bic $4000,r1 / turn instr into (sp)+ br t01 / simulate mfpi with double ss,-(sp) 1: ash $6,r1 bis $46,r1 / -(sp) br t01 u4: / jsr mov r1,r0 jsr pc,setreg / assume no fault bis $173000,r2 / -2 from sp rts pc t07: / EIS clrb bflg u0: / jmp, swab u5: / single op f5: / movei, movfi ff1: / ldfps ff2: / stfps ff3: / stst mov r1,r0 br setreg t01: / mov t02: / cmp t03: / bit t04: / bic t05: / bis t06: / add t16: / sub clrb bflg t11: / movb t12: / cmpb t13: / bitb t14: / bicb t15: / bisb mov r1,r0 ash $-6,r0 jsr pc,setreg swab r2 mov r1,r0 jsr pc,setreg / if delta(dest) is zero, / no need to fetch source bit $370,r2 beq 1f / if mode(source) is R, / no fault is possible bit $7000,r1 beq 1f / if reg(source) is reg(dest), / too bad. mov r2,-(sp) bic $174370,(sp) cmpb 1(sp),(sp)+ beq u7 / start source cycle / pick up value of reg mov r1,r0 ash $-6,r0 bic $!7,r0 movb _regloc(r0),r0 asl r0 add ssr+2,r0 mov (r0),r0 / if reg has been incremented, / must decrement it before fetch bit $174000,r2 ble 2f dec r0 bit $10000,r2 beq 2f dec r0 2: / if mode is 6,7 fetch and add X(R) to R bit $4000,r1 beq 2f bit $2000,r1 beq 2f mov r0,-(sp) mov ssr+4,r0 add $2,r0 jsr pc,fetch add (sp)+,r0 2: / fetch operand / if mode is 3,5,7 fetch * jsr pc,fetch bit $1000,r1 beq 1f bit $6000,r1 bne fetch 1: rts pc t17: / floating point instructions clrb bflg mov r1,r0 swab r0 bic $!16,r0 jmp *0f(r0) 0: f0; f1; f2; f3; f4; f5; f6; f7 f0: mov r1,r0 ash $-5,r0 bic $!16,r0 jmp *0f(r0) 0: ff0; ff1; ff2; ff3; ff4; ff5; ff6; ff7 f1: / mulf, modf f2: / addf, movf f3: / subf, cmpf f4: / movf, divf ff4: / clrf ff5: / tstf ff6: / absf ff7: / negf inc fflg mov r1,r0 br setreg f6: bit $400,r1 beq f1 / movfo br f5 / movie f7: bit $400,r1 beq f5 / movif br f1 / movof ff0: / cfcc, setf, setd, seti, setl u1: / br u2: / br u3: / br u7: / illegal incb jflg rts pc setreg: mov r0,-(sp) bic $!7,r0 bis r0,r2 mov (sp)+,r0 ash $-3,r0 bic $!7,r0 movb 0f(r0),r0 tstb bflg beq 1f bit $2,r2 beq 2f bit $4,r2 beq 2f 1: cmp r0,$20 beq 2f cmp r0,$-20 beq 2f asl r0 2: tstb fflg beq 3f asl r0 stfps r1 bit $200,r1 beq 3f asl r0 3: bisb r0,r2 rts pc 0: .byte 0,0,10,20,-10,-20,0,0 fetch: bic $1,r0 mov nofault,-(sp) mov $1f,nofault mfpi (r0) mov (sp)+,r0 mov (sp)+,nofault rts pc 1: mov (sp)+,nofault clrb r2 / clear out dest on fault mov $-1,r0 rts pc .bss bflg: .=.+1 jflg: .=.+1 fflg: .=.+1 .text .text .globl _fubyte, _subyte .globl _fuibyte, _suibyte .globl _fuword, _suword .globl _fuiword, _suiword _fuibyte: _fubyte: mov 2(sp),r1 bic $1,r1 jsr pc,gword cmp r1,2(sp) beq 1f swab r0 1: bic $!377,r0 rts pc _suibyte: _subyte: mov 2(sp),r1 bic $1,r1 jsr pc,gword mov r0,-(sp) cmp r1,4(sp) beq 1f movb 6(sp),1(sp) br 2f 1: movb 6(sp),(sp) 2: mov (sp)+,r0 jsr pc,pword clr r0 rts pc _fuiword: _fuword: mov 2(sp),r1 fuword: jsr pc,gword rts pc gword: mov PS,-(sp) bis $HIPRI,PS mov nofault,-(sp) mov $err,nofault mfpi (r1) mov (sp)+,r0 br 1f _suiword: _suword: mov 2(sp),r1 mov 4(sp),r0 suword: jsr pc,pword rts pc pword: mov PS,-(sp) bis $HIPRI,PS mov nofault,-(sp) mov $err,nofault mov r0,-(sp) mtpi (r1) 1: mov (sp)+,nofault mov (sp)+,PS rts pc err: mov (sp)+,nofault mov (sp)+,PS tst (sp)+ mov $-1,r0 rts pc rts pc .globl _copyin, _copyout .globl _copyiin, _copyiout _copyiin: _copyin: jsr pc,copsu 1: mfpi (r0)+ mov (sp)+,(r1)+ sob r2,1b br 2f _copyiout: _copyout: jsr pc,copsu 1: mov (r0)+,-(sp) mtpi (r1)+ sob r2,1b 2: mov (sp)+,nofault mov (sp)+,r2 clr r0 rts pc copsu: mov (sp)+,r0 mov r2,-(sp) mov nofault,-(sp) mov r0,-(sp) mov 10(sp),r0 mov 12(sp),r1 mov 14(sp),r2 asr r2 mov $1f,nofault rts pc 1: mov (sp)+,nofault mov (sp)+,r2 mov $-1,r0 rts pc .globl _idle, _waitloc _idle: mov PS,-(sp) bic $HIPRI,PS wait waitloc: mov (sp)+,PS rts pc .data _waitloc: waitloc .text .globl _save _save: mov (sp)+,r1 mov (sp),r0 mov r2,(r0)+ mov r3,(r0)+ mov r4,(r0)+ mov r5,(r0)+ mov sp,(r0)+ mov r1,(r0)+ clr r0 jmp (r1) .globl _resume _resume: mov 2(sp),r0 / new process mov 4(sp),r1 / new stack bis $HIPRI,PS mov r0,KISA6 / In new process mov (r1)+,r2 mov (r1)+,r3 mov (r1)+,r4 mov (r1)+,r5 mov (r1)+,sp mov $1,r0 bic $HIPRI,PS jmp *(r1)+ .globl _spl0, _spl1, _spl4, _spl5, _spl6, _spl7, _splx _spl0: mov PS,r0 bic $HIPRI,PS rts pc _spl1: mov PS,r0 bis $HIPRI,PS bic $300,PS rts pc _spl4: mov PS,r0 bis $HIPRI,PS bic $140,PS rts pc _spl5: mov PS,r0 bis $HIPRI,PS bic $100,PS rts pc _spl6: mov PS,r0 bis $HIPRI,PS bic $40,PS rts pc _spl7: mov PS,r0 bis $HIPRI,PS rts pc _splx: mov 2(sp),PS rts pc .globl _copyseg _copyseg: mov PS,-(sp) mov UISA0,-(sp) mov UISA1,-(sp) mov $30340,PS mov 10(sp),UISA0 mov 12(sp),UISA1 mov UISD0,-(sp) mov UISD1,-(sp) mov $6,UISD0 mov $6,UISD1 mov r2,-(sp) clr r0 mov $8192.,r1 mov $32.,r2 1: mfpi (r0)+ mtpi (r1)+ sob r2,1b mov (sp)+,r2 mov (sp)+,UISD1 mov (sp)+,UISD0 mov (sp)+,UISA1 mov (sp)+,UISA0 mov (sp)+,PS rts pc .globl _clearseg _clearseg: mov PS,-(sp) mov UISA0,-(sp) mov $30340,PS mov 6(sp),UISA0 mov UISD0,-(sp) mov $6,UISD0 clr r0 mov $32.,r1 1: clr -(sp) mtpi (r0)+ sob r1,1b mov (sp)+,UISD0 mov (sp)+,UISA0 mov (sp)+,PS rts pc .globl _piget, _piput _piget: mov PS,-(sp) jsr pc,2f mfpi (r0) mov (sp)+,r0 1: mov (sp)+,PS rts pc _piput: mov PS,-(sp) jsr pc,2f mov 10(sp),r1 mov r1,-(sp) mtpi (r0) br 1b 2: mov 6(sp),r0 mov 10(sp),r1 ashc $-6,r0 mov HIPRI,PS mov r1,KISA7 mov 10(sp),r0 bic $!77,r0 bis $160000,r0 rts pc / Long quotient .globl ldiv ldiv: jsr r5,csv mov 10.(r5),r3 sxt r4 bpl 1f neg r3 1: cmp r4,8.(r5) bne hardldiv mov 6.(r5),r2 mov 4.(r5),r1 bge 1f neg r1 neg r2 sbc r1 com r4 1: mov r4,-(sp) clr r0 div r3,r0 mov r0,r4 /high quotient mov r1,r0 mov r2,r1 div r3,r0 bvc 1f sub r3,r0 / this is the clever part div r3,r0 tst r1 sxt r1 add r1,r0 / cannot overflow! 1: mov r0,r1 mov r4,r0 tst (sp)+ bpl 9f neg r0 neg r1 sbc r0 9: jmp cret hardldiv: 4 / Long remainder .globl lrem lrem: jsr r5,csv mov 10.(r5),r3 sxt r4 bpl 1f neg r3 1: cmp r4,8.(r5) bne hardlrem mov 6.(r5),r2 mov 4.(r5),r1 mov r1,r4 bge 1f neg r1 neg r2 sbc r1 1: clr r0 div r3,r0 mov r1,r0 mov r2,r1 div r3,r0 bvc 1f sub r3,r0 div r3,r0 tst r1 beq 9f add r3,r1 1: tst r4 bpl 9f neg r1 9: sxt r0 jmp cret / The divisor is known to be >= 2^15. Only 16 cycles are / needed to get a remainder. hardlrem: 4 .globl csv csv: mov r5,r0 mov sp,r5 mov r4,-(sp) mov r3,-(sp) mov r2,-(sp) jsr pc,(r0) .globl cret cret: mov r5,r2 mov -(r2),r4 mov -(r2),r3 mov -(r2),r2 mov r5,sp mov (sp)+,r5 rts pc .globl _u _u = 140000 usize = 16. HIPRI = 340 PS = 177776 SSR0 = 177572 SSR2 = 177576 KISA0 = 172340 KISA6 = 172354 KISA7 = 172356 KISD0 = 172300 MTC = 172522 TUC = 172440 UISA0 = 177640 UISA1 = 177642 UISD0 = 177600 UISD1 = 177602 IO = 7600 .data .globl _ka6 .globl _cputype _ka6: KISA6 _cputype:40. stk: 0 .bss nofault:.=.+2 ssr: .=.+6 saveps: .=.+2 power: .=.+2 fpp: .=.+2 .globl _stst .text .globl _stst stst = 170300^tst _stst: tst fpp beq 9f stst r0 mov r0,*2(sp) 9: rts pc