ref: df03eca7e7cbfadf1cf8c8c5a94390eaa5013a8b
dir: /utils/ka/l.s/
/* * Memory and machine-specific definitions. Used in C and assembler. */ /* * Sizes */ #define BI2BY 8 /* bits per byte */ #define BI2WD 32 /* bits per word */ #define BY2WD 4 /* bytes per word */ #define BY2PG 4096 /* bytes per page */ #define WD2PG (BY2PG/BY2WD) /* words per page */ #define PGSHIFT 12 /* log(BY2PG) */ #define PGROUND(s) (((s)+(BY2PG-1))&~(BY2PG-1)) #define MAXMACH 1 /* max # cpus system can run */ /* * Time */ #define HZ 20 /* clock frequency */ #define MS2HZ (1000/HZ) /* millisec per clock tick */ #define TK2SEC(t) ((t)/HZ) /* ticks to seconds */ #define TK2MS(t) ((((ulong)(t))*1000)/HZ) /* ticks to milliseconds */ #define MS2TK(t) ((((ulong)(t))*HZ)/1000) /* milliseconds to ticks */ /* * PSR bits */ #define PSREC 0x00002000 #define PSREF 0x00001000 #define PSRSUPER 0x00000080 #define PSRPSUPER 0x00000040 #define PSRET 0x00000020 #define SPL(n) (n<<8) /* * Magic registers */ #define MACH 6 /* R6 is m-> */ #define USER 5 /* R5 is u-> */ /* * Fundamental addresses */ #define USERADDR 0xE0000000 #define UREGADDR (USERADDR+BY2PG-((32+6)*BY2WD)) #define BOOTSTACK (KTZERO-0*BY2PG) #define TRAPS (KTZERO-2*BY2PG) /* * MMU */ #define VAMASK 0x3FFFFFFF #define NPMEG (1<<12) #define BY2SEGM (1<<18) #define PG2SEGM (1<<6) #define NTLBPID (1+NCONTEXT) /* TLBPID 0 is unallocated */ #define NCONTEXT 8 #define CONTEXT 0x30000000 /* in ASI 2 */ /* * MMU regions */ #define INVALIDSEGM 0xFFFC0000 /* highest seg of VA reserved as invalid */ #define INVALIDPMEG 0x7F #define SCREENSEGM 0xFFF80000 #define SCREENPMEG 0x7E #define ROMSEGM 0xFFE80000 #define ROMEND 0xFFEA0000 #define PG2ROM ((ROMEND-ROMSEGM)/BY2PG) #define IOSEGM0 ROMSEGM /* see mmuinit() */ #define NIOSEGM ((SCREENSEGM-ROMSEGM)/BY2SEGM) #define IOPMEG0 (SCREENPMEG-NIOSEGM) #define IOSEGM ROMEND #define IOEND SCREENSEGM #define TOPPMEG IOPMEG0 /* * MMU entries */ #define PTEVALID (1<<31) #define PTERONLY (0<<30) #define PTEWRITE (1<<30) #define PTEKERNEL (1<<29) #define PTENOCACHE (1<<28) #define PTEMAINMEM (0<<26) #define PTEIO (1<<26) #define PTEACCESS (1<<25) #define PTEMODIFY (1<<24) #define PTEUNCACHED 0 #define PTEMAPMEM (1024*1024) #define PTEPERTAB (PTEMAPMEM/BY2PG) #define SEGMAPSIZE 16 #define INVALIDPTE 0 #define PPN(pa) ((pa>>12)&0xFFFF) /* * Weird addresses in various ASI's */ #define CACHETAGS 0x80000000 /* ASI 2 */ #define CACHEDATA 0x90000000 /* ASI 2 */ #define SER 0x60000000 /* ASI 2 */ #define SEVAR 0x60000004 /* ASI 2 */ #define ASER 0x60000008 /* ASI 2 */ #define ASEVAR 0x6000000C /* ASI 2 */ #define ENAB 0x40000000 /* ASI 2 */ #define ENABCACHE 0x10 #define ENABRESET 0x04 /* * Virtual addresses */ #define VTAG(va) ((va>>22)&0x03F) #define VPN(va) ((va>>13)&0x1FF) #define PARAM ((char*)0x40500000) #define TLBFLUSH_ 0x01 /* * Address spaces */ #define UZERO 0x00000000 /* base of user address space */ #define UTZERO (UZERO+BY2PG) /* first address in user text */ #define TSTKTOP 0x10000000 /* end of new stack in sysexec */ #define TSTKSIZ 32 #define USTKTOP (TSTKTOP-TSTKSIZ*BY2PG) /* byte just beyond user stack */ #define KZERO 0xE0000000 /* base of kernel address space */ #define KTZERO (KZERO+4*BY2PG) /* first address in kernel text */ #define USTKSIZE (4*1024*1024) /* size of user stack */ #define MACHSIZE 4096 #define isphys(x) (((ulong)(x)&0xF0000000) == KZERO) #define SYSPSR (SPL(0x0)|PSREF|PSRSUPER|0) #define NOOP OR R0, R0; OR R0, R0; OR R0, R0 TEXT start(SB), $-4 /* get virtual, fast */ /* we are executing in segment 0, mapped to pmeg 0. stack is there too */ /* get virtual by mapping segment(KZERO) to pmeg 0., and next to 1 */ MOVW $KZERO, R7 MOVB R0, (R7, 3) MOVW $(KZERO+BY2SEGM), R7 MOVW $1, R8 MOVB R8, (R7, 3) /* now mapped correctly. jmpl to where we want to be */ MOVW $setSB(SB), R2 MOVW $startvirt(SB), R7 JMPL (R7) MOVW $_mul(SB), R0 /* touch _mul etc.; doesn't need to execute */ RETURN /* can't get here */ TEXT startvirt(SB), $-4 MOVW $BOOTSTACK, R1 MOVW $(SPL(0xF)|PSREF|PSRSUPER), R7 MOVW R7, PSR MOVW $(0x35<<22), R7 /* NVM OFM DZM AU */ MOVW R7, fsr+0(SB) MOVW fsr+0(SB), FSR FMOVD $0.5, F26 /* 0.5 -> F26 */ FSUBD F26, F26, F24 /* 0.0 -> F24 */ FADDD F26, F26, F28 /* 1.0 -> F28 */ FADDD F28, F28, F30 /* 2.0 -> F30 */ FMOVD F24, F0 FMOVD F24, F2 FMOVD F24, F4 FMOVD F24, F6 FMOVD F24, F8 FMOVD F24, F10 FMOVD F24, F12 FMOVD F24, F14 FMOVD F24, F16 FMOVD F24, F18 FMOVD F24, F20 FMOVD F24, F22 MOVW $mach0(SB), R(MACH) /* MOVW $0x8, R7 /**/ MOVW R0, WIM JMPL main(SB) MOVW (R0), R0 RETURN TEXT swap1(SB), $0 TAS (R7), R7 /* LDSTUB, thank you ken */ RETURN TEXT swap1_should_work(SB), $0 MOVW R7, R8 MOVW $1, R7 SWAP (R8), R7 RETURN TEXT swap1x(SB), $0 MOVW PSR, R9 MOVW R9, R10 AND $~PSRET, R10 /* BUG: book says this is buggy */ MOVW R10, PSR NOOP MOVW (R7), R7 CMP R7, R0 BNE was1 MOVW $1, R10 MOVW R10, (R8) was1: MOVW R9, PSR RETURN TEXT spllo(SB), $0 MOVW PSR, R7 MOVW R7, R10 OR $PSRET, R10 MOVW R10, PSR NOOP RETURN TEXT splhi(SB), $0 MOVW R15, 4(R(MACH)) /* save PC in m->splpc */ MOVW PSR, R7 MOVW R7, R10 AND $~PSRET, R10 /* BUG: book says this is buggy */ MOVW R10, PSR NOOP RETURN TEXT splx(SB), $0 MOVW R15, 4(R(MACH)) /* save PC in m->splpc */ MOVW R7, PSR /* BUG: book says this is buggy */ NOOP RETURN TEXT spldone(SB), $0 RETURN TEXT touser(SB), $0 MOVW $(SYSPSR&~PSREF), R8 MOVW R8, PSR NOOP MOVW R7, R1 SAVE R0, R0 /* RETT is implicit RESTORE */ MOVW $(UTZERO+32), R7 /* PC; header appears in text */ MOVW $(UTZERO+32+4), R8 /* nPC */ RETT R7, R8 TEXT rfnote(SB), $0 MOVW R7, R1 /* 1st arg is &uregpointer */ ADD $4, R1 /* point at ureg */ JMP restore TEXT traplink(SB), $-4 /* R8 to R23 are free to play with */ /* R17 contains PC, R18 contains nPC */ /* R19 has PSR loaded from vector code */ ANDCC $PSRPSUPER, R19, R0 BE usertrap kerneltrap: /* * Interrupt or fault from kernel */ ANDN $7, R1, R20 /* dbl aligned */ MOVW R1, (0-(4*(32+6))+(4*1))(R20) /* save R1=SP */ /* really clumsy: store these in Ureg so can be restored below */ MOVW R2, (0-(4*(32+6))+(4*2))(R20) /* SB */ MOVW R5, (0-(4*(32+6))+(4*5))(R20) /* USER */ MOVW R6, (0-(4*(32+6))+(4*6))(R20) /* MACH */ SUB $(4*(32+6)), R20, R1 trap1: MOVW Y, R20 MOVW R20, (4*(32+0))(R1) /* Y */ MOVW TBR, R20 MOVW R20, (4*(32+1))(R1) /* TBR */ AND $~0x1F, R19 /* force CWP=0 */ MOVW R19, (4*(32+2))(R1) /* PSR */ MOVW R18, (4*(32+3))(R1) /* nPC */ MOVW R17, (4*(32+4))(R1) /* PC */ MOVW R0, (4*0)(R1) MOVW R3, (4*3)(R1) MOVW R4, (4*4)(R1) MOVW R7, (4*7)(R1) RESTORE R0, R0 /* now our registers R8-R31 are same as before trap */ /* save registers two at a time */ MOVD R8, (4*8)(R1) MOVD R10, (4*10)(R1) MOVD R12, (4*12)(R1) MOVD R14, (4*14)(R1) MOVD R16, (4*16)(R1) MOVD R18, (4*18)(R1) MOVD R20, (4*20)(R1) MOVD R22, (4*22)(R1) MOVD R24, (4*24)(R1) MOVD R26, (4*26)(R1) MOVD R28, (4*28)(R1) MOVD R30, (4*30)(R1) /* SP and SB and u and m are already set; away we go */ MOVW R1, R7 /* pointer to Ureg */ SUB $8, R1 MOVW $SYSPSR, R8 MOVW R8, PSR NOOP JMPL trap(SB) ADD $8, R1 restore: MOVW (4*(32+2))(R1), R8 /* PSR */ MOVW R8, PSR NOOP MOVD (4*30)(R1), R30 MOVD (4*28)(R1), R28 MOVD (4*26)(R1), R26 MOVD (4*24)(R1), R24 MOVD (4*22)(R1), R22 MOVD (4*20)(R1), R20 MOVD (4*18)(R1), R18 MOVD (4*16)(R1), R16 MOVD (4*14)(R1), R14 MOVD (4*12)(R1), R12 MOVD (4*10)(R1), R10 MOVD (4*8)(R1), R8 SAVE R0, R0 MOVD (4*6)(R1), R6 MOVD (4*4)(R1), R4 MOVD (4*2)(R1), R2 MOVW (4*(32+0))(R1), R20 /* Y */ MOVW R20, Y MOVW (4*(32+4))(R1), R17 /* PC */ MOVW (4*(32+3))(R1), R18 /* nPC */ MOVW (4*1)(R1), R1 /* restore R1=SP */ RETT R17, R18 usertrap: /* * Interrupt or fault from user */ MOVW R1, R8 MOVW R2, R9 MOVW $setSB(SB), R2 MOVW $(USERADDR+BY2PG), R1 MOVW R8, (0-(4*(32+6))+(4*1))(R1) /* save R1=SP */ MOVW R9, (0-(4*(32+6))+(4*2))(R1) /* save R2=SB */ MOVW R5, (0-(4*(32+6))+(4*5))(R1) /* save R5=USER */ MOVW R6, (0-(4*(32+6))+(4*6))(R1) /* save R6=MACH */ MOVW $USERADDR, R(USER) MOVW $mach0(SB), R(MACH) SUB $(4*(32+6)), R1 JMP trap1 TEXT syslink(SB), $-4 /* R8 to R23 are free to play with */ /* R17 contains PC, R18 contains nPC */ /* R19 has PSR loaded from vector code */ /* assume user did it; syscall checks */ MOVW R1, R8 MOVW R2, R9 MOVW $setSB(SB), R2 MOVW $(USERADDR+BY2PG), R1 MOVW R8, (0-(4*(32+6))+4)(R1) /* save R1=SP */ SUB $(4*(32+6)), R1 MOVW R9, (4*2)(R1) /* save R2=SB */ MOVW R3, (4*3)(R1) /* global register */ MOVD R4, (4*4)(R1) /* global register, R5=USER */ MOVD R6, (4*6)(R1) /* save R6=MACH, R7=syscall# */ MOVW $USERADDR, R(USER) MOVW $mach0(SB), R(MACH) MOVW TBR, R20 MOVW R20, (4*(32+1))(R1) /* TBR */ AND $~0x1F, R19 MOVW R19, (4*(32+2))(R1) /* PSR */ MOVW R18, (4*(32+3))(R1) /* nPC */ MOVW R17, (4*(32+4))(R1) /* PC */ RESTORE R0, R0 /* now our registers R8-R31 are same as before trap */ MOVW R15, (4*15)(R1) /* SP and SB and u and m are already set; away we go */ MOVW R1, R7 /* pointer to Ureg */ SUB $8, R1 MOVW $SYSPSR, R8 MOVW R8, PSR JMPL syscall(SB) /* R7 contains return value from syscall */ ADD $8, R1 MOVW (4*(32+2))(R1), R8 /* PSR */ MOVW R8, PSR NOOP MOVW (4*15)(R1), R15 SAVE R0, R0 MOVW (4*6)(R1), R6 MOVD (4*4)(R1), R4 MOVD (4*2)(R1), R2 MOVW (4*(32+4))(R1), R17 /* PC */ MOVW (4*(32+3))(R1), R18 /* nPC */ MOVW (4*1)(R1), R1 /* restore R1=SP */ RETT R17, R18 TEXT puttbr(SB), $0 MOVW R7, TBR NOOP RETURN TEXT gettbr(SB), $0 MOVW TBR, R7 RETURN TEXT r1(SB), $0 MOVW R1, R7 RETURN TEXT getwim(SB), $0 MOVW WIM, R7 RETURN TEXT setlabel(SB), $0 MOVW R1, (R7) MOVW R15, 4(R7) MOVW $0, R7 RETURN TEXT gotolabel(SB), $0 MOVW (R7), R1 MOVW 4(R7), R15 MOVW $1, R7 RETURN TEXT putcxsegm(SB), $0 MOVW R7, R8 /* context */ MOVW 4(FP), R9 /* segment addr */ MOVW 8(FP), R10 /* segment value */ MOVW $0xFFE80118, R7 JMPL (R7) RETURN TEXT getpsr(SB), $0 MOVW PSR, R7 RETURN TEXT putcxreg(SB), $0 MOVW $CONTEXT, R8 MOVB R7, (R8, 2) RETURN TEXT putb2(SB), $0 MOVW 4(FP), R8 MOVB R8, (R7, 2) RETURN TEXT getb2(SB), $0 MOVB (R7, 2), R7 RETURN TEXT getw2(SB), $0 MOVW (R7, 2), R7 RETURN TEXT putw2(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 2) RETURN TEXT putw4(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 4) RETURN TEXT getw4(SB), $0 MOVW (R7, 4), R7 RETURN TEXT putwC(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 0xC) RETURN TEXT putwD(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 0xD) RETURN TEXT putwD16(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) ADD $(1<<4), R7 MOVW R8, (R7, 0xD) RETURN TEXT putwE(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 0xE) RETURN TEXT putwE16(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) ADD $(1<<4), R7 MOVW R8, (R7, 0xE) RETURN TEXT putsegm(SB), $0 MOVW 4(FP), R8 MOVW R8, (R7, 3) RETURN /* * in savefpregs and restfpregs, incoming R7 points to doubleword * below where F0 will go; doubleword align in and backfill FSR */ TEXT savefpregs(SB), $0 ADD $8, R7 ANDN $7, R7 /* now MOVD-aligned */ MOVW FSR, -4(R7) MOVD F0, (0*4)(R7) MOVD F2, (2*4)(R7) MOVD F4, (4*4)(R7) MOVD F6, (6*4)(R7) MOVD F8, (8*4)(R7) MOVD F10, (10*4)(R7) MOVD F12, (12*4)(R7) MOVD F14, (14*4)(R7) MOVD F16, (16*4)(R7) MOVD F18, (18*4)(R7) MOVD F20, (20*4)(R7) MOVD F22, (22*4)(R7) MOVD F24, (24*4)(R7) MOVD F26, (26*4)(R7) MOVD F28, (28*4)(R7) MOVD F30, (30*4)(R7) MOVW PSR, R8 ANDN $PSREF, R8 MOVW R8, PSR RETURN TEXT restfpregs(SB), $0 MOVW PSR, R8 OR $PSREF, R8 MOVW R8, PSR ADD $8, R7 ANDN $7, R7 /* now MOVD-aligned */ OR R0, R0 MOVW -4(R7), FSR MOVD (0*4)(R7), F0 MOVD (2*4)(R7), F2 MOVD (4*4)(R7), F4 MOVD (6*4)(R7), F6 MOVD (8*4)(R7), F8 MOVD (10*4)(R7), F10 MOVD (12*4)(R7), F12 MOVD (14*4)(R7), F14 MOVD (16*4)(R7), F16 MOVD (18*4)(R7), F18 MOVD (20*4)(R7), F20 MOVD (22*4)(R7), F22 MOVD (24*4)(R7), F24 MOVD (26*4)(R7), F26 MOVD (28*4)(R7), F28 MOVD (30*4)(R7), F30 ANDN $PSREF, R8 MOVW R8, PSR RETURN TEXT clearfpintr(SB), $0 MOVW $fpq+BY2WD(SB), R7 ANDN $0x7, R7 /* must be D aligned */ MOVW $fsr+0(SB), R9 clrq: MOVD FQ, (R7) MOVW FSR, (R9) MOVW (R9), R8 AND $(1<<13), R8 /* queue not empty? */ BNE clrq RETURN TEXT getfsr(SB), $0 MOVW $fsr+0(SB), R7 MOVW FSR, (R7) MOVW (R7), R7 RETURN GLOBL mach0+0(SB), $MACHSIZE GLOBL fpq+0(SB), $(3*BY2WD) GLOBL fsr+0(SB), $BY2WD