/ / SCCS id @(#)M.s 1.7 (Berkeley) 7/11/83 / / Startup code for two-stage bootstrap / With support for UCB_AUTOBOOT / Supports 11/40, 11/45, 11/70, 11/23, 11/23+I/O map (11/24) / and similar machines / non-UNIX instructions mfpi = 6500^tst stst = 170300^tst mtpi = 6600^tst mfpd = 106500^tst mtpd = 106600^tst spl = 230 ldfps = 170100^tst stfps = 170200^tst wait = 1 rtt = 6 halt = 0 reset = 5 systrap = 104400 / The boot options and device are placed in the last SZFLAGS bytes / at the end of core by the kernel if this is an autoboot. / The first-stage boot will leave them in registers for us; / we clobber possible old flags so that they don't get re-used. ENDCORE= 160000 / end of core, mem. management off SZFLAGS= 6 / size of boot flags BOOTOPTS= 2 / location of options, bytes below ENDCORE BOOTDEV= 4 CHECKWORD= 6 .globl _end .globl _main,_ubmapset jmp start / / trap vectors / trap;340 / bus error -- grok! trap;341 / illegal instruction trap;342 / BPT trap;343 / IOT trap;344 / POWER FAIL trap;345 / EMT tvec: start;346 / TRAP .=400^. start: reset mov $340,PS mov $140100,sp /save boot options, if present mov r4,_bootopts mov r3,_bootdev mov r2,_checkword /clobber any boot flags left in memory clr ENDCORE-BOOTOPTS clr ENDCORE-BOOTDEV clr ENDCORE-CHECKWORD / / determine what kind of cpu we are running on / first, check switches. if they are 40, 24, 45 or 70 / set appropriately / clrb _sep_id clrb _ubmap clrb _haveCSW mov $2f,nofault / check if we even have switches! tst *$SWREG clr nofault / apparently we do incb _haveCSW mov $40.,r0 cmp *$SWREG,$40 beq gotcha cmp *$SWREG,$24 bne 1f mov $24.,r0 incb _ubmap jbr gotcha 1: cmp *$SWREG,$45 bne 1f mov $45.,r0 incb _sep_id jbr gotcha 1: cmp *$SWREG,$70 bne 2f mov $70.,r0 incb _sep_id incb _ubmap jbr gotcha / / if we can't find out from switches, / explore and see what we find / 2: mov $40.,r0 / assume 11/40 mov $2f,nofault mov *$KDSA6,r1 / then we have sep i/d incb _sep_id mov $45.,r0 mov $1f,nofault mov *$UBMAP,r1 / then we have a unibus map incb _ubmap mov $70.,r0 br 1f 2: mov $1f,nofault mov *$UBMAP,r1 / then we have a unibus map incb _ubmap mov $24.,r0 / unibus map, no sep. I/D = 24 1: clr nofault gotcha: mov r0,_cputype / / Set kernel I space registers to physical 0 and I/O page / clr r1 mov $77406, r2 mov $KISA0, r3 mov $KISD0, r4 jsr pc, setseg mov $IO, -(r3) / / Set user I space registers to physical 128kb and I/O page / mov $6000, r1 / 06000 = 192*1024/64 mov $UISA0, r3 mov $UISD0, r4 jsr pc, setseg mov $IO, -(r3) / / If 11/40 class processor, only need set the I space registers / tstb _sep_id jeq 1f / / Set kernel D space registers to physical 0 and I/O page / clr r1 mov $KDSA0, r3 mov $KDSD0, r4 jsr pc, setseg mov $IO, -(r3) / / Set user D space registers to physical 128kb and I/O page / mov $6000, r1 / 06000 = 192*1024/64 mov $UDSA0, r3 mov $UDSD0, r4 jsr pc, setseg mov $IO, -(r3) 1: / enable map clrb _ksep tstb _ubmap beq 2f jsr pc,_ubmapset tstb _sep_id bne 3f mov $60,SSR3 / 22-bit map, no separation br 1f 3: mov $65,SSR3 / 22-bit map, sep. I/D user and kernel movb $1,_ksep cmp _cputype,$70. jne 1f mov $3,MSCR br 1f 2: tstb _sep_id / no ubmap; sep_id? beq 1f mov $5,SSR3 movb $1,_ksep 1: mov $30340,PS inc SSR0 / copy program to user I space mov $_end,r0 asr r0 clr r1 1: mov (r1),-(sp) mtpi (r1)+ sob r0,1b / continue execution in user space copy mov $140004,sp tstb _sep_id bne 1f clr *$KISA6 br 2f 1: clr *$KDSA6 2: mov $140340,-(sp) mov $user,-(sp) rtt user: / clear bss mov $_edata,r0 mov $_end,r1 sub r0,r1 inc r1 clc ror r1 1: clr (r0)+ sob r1,1b mov $_end+512.,sp mov sp,r5 jsr pc,_main mov _cputype,r0 mov _bootopts,r4 mov r4,r2 com r2 / checkword systrap br user setseg: mov $8,r0 1: mov r1,(r3)+ add $200,r1 mov r2,(r4)+ sob r0,1b rts pc .globl _setseg _setseg: mov 2(sp),r1 mov r2,-(sp) mov r3,-(sp) mov r4,-(sp) mov $77406,r2 mov $KISA0,r3 mov $KISD0,r4 jsr pc,setseg tstb _ksep bne 1f mov $IO,-(r3) 1: mov (sp)+,r4 mov (sp)+,r3 mov (sp)+,r2 rts pc .globl _setnosep _setnosep: bic $4,SSR3 / turn off kernel i/d sep clrb _ksep rts pc .globl _setsep _setsep: bis $4,SSR3 / turn on kernel i/d sep (if not already) movb $1,_ksep rts pc / Relocate higher in memory for large kernel. .globl _reloc, _segflag _reloc: jsr r5, csv mov $2f, nofault / Set Kernel I to point to new area mov $6000, r1 / 192 KB mov $77406,r2 mov $KISA0, r3 mov $KISD0, r4 jsr pc, setseg / Copy to new area clr r0 mov $28.*1024., r1 / 28 K words 1: mov (r0), -(sp) mtpi (r0)+ sob r1, 1b clr nofault / Repoint kernel I at 0. clr -(sp) jsr pc, _setseg tst (sp)+ / Point User D at new area tstb _sep_id beq 1f mov $6000, r1 / 192 KB mov $UDSA0, r3 mov $UDSD0, r4 jsr pc, setseg mov $IO, -(r3) / Now User I-- execution switches to new copy. 1: mov $6000, r1 / 192 KB mov $UISA0, r3 mov $UISD0, r4 mov $7,r0 1: mov r1,(r3)+ add $200,r1 mov r2,(r4)+ sob r0,1b mov $3, _segflag / new extension bits clr r0 / success jmp cret / Trap here on bus error (not enough memory) 2: mov $-1, r0 jmp cret / clrseg(addr,count) .globl _clrseg _clrseg: mov 4(sp),r0 beq 2f asr r0 bic $!77777,r0 mov 2(sp),r1 1: clr -(sp) mtpi (r1)+ sob r0,1b 2: rts pc / mtpd(word,addr) .globl _mtpd _mtpd: mov 4(sp),r0 mov 2(sp),-(sp) mtpd (r0)+ rts pc / mtpi(word,addr) .globl _mtpi _mtpi: mov 4(sp),r0 mov 2(sp),-(sp) mtpi (r0)+ rts pc .globl __rtt __rtt: halt .globl _trap trap: mov *$PS,-(sp) mov r0,-(sp) mov r1,-(sp) tst nofault bne 3f jsr pc,_trap mov (sp)+,r1 mov (sp)+,r0 tst (sp)+ rtt 3: mov (sp)+,r1 mov (sp)+,r0 tst (sp)+ mov nofault,(sp) rtt PS = 177776 SSR0 = 177572 SSR1 = 177574 SSR2 = 177576 SSR3 = 172516 KISA0 = 172340 KISA1 = 172342 KISA6 = 172354 KISA7 = 172356 KISD0 = 172300 KISD7 = 172316 KDSA0 = 172360 KDSA6 = 172374 KDSA7 = 172376 KDSD0 = 172320 KDSD5 = 172332 SISA0 = 172240 SISA1 = 172242 SISD0 = 172200 SISD1 = 172202 UISA0 = 177640 UISD0 = 177600 UDSA0 = 177660 UDSD0 = 177620 MSCR = 017777746 / 11/70 memory control register IO = 177600 SWREG = 177570 UBMAP = 170200 .data .globl _cputype .globl _ksep, _sep_id, _ubmap, _haveCSW .globl _bootopts, _bootdev, _checkword nofault: .=.+2 / where to go on predicted trap _cputype: .=.+2 / cpu type (currently 40,45 or 70) _sep_id: .=.+1 / 1 if we have separate I and D _ubmap: .=.+1 / 1 if we have a unibus map _haveCSW: .=.+1 / 1 if we have a console switch register _ksep: .=.+1 / 1 if kernel mode has sep I/D enabled _bootopts: .=.+2 / flags if an autoboot _bootdev: .=.+2 / device to get unix from, if not RB_ASKNAME _checkword: .=.+2 / saved r2, complement of bootopts if an autoboot