ref: 167ea748f8b20a5940108ef5b23132310213e77e
dir: /sys/src/cmd/7l/asm.c/
#include "l.h" #define LPUT(c)\ {\ cbp[0] = (c);\ cbp[1] = (c)>>8;\ cbp[2] = (c)>>16;\ cbp[3] = (c)>>24;\ cbp += 4;\ cbc -= 4;\ if(cbc <= 0)\ cflush();\ } #define CPUT(c)\ {\ cbp[0] = (c);\ cbp++;\ cbc--;\ if(cbc <= 0)\ cflush();\ } #define VLPUT(c)\ {\ cbp[0] = (c);\ cbp[1] = (c)>>8;\ cbp[2] = (c)>>16;\ cbp[3] = (c)>>24;\ cbp[4] = (c)>>32;\ cbp[5] = (c)>>40;\ cbp[6] = (c)>>48;\ cbp[7] = (c)>>56;\ cbp += 8;\ cbc -= 8;\ if(cbc <= 0)\ cflush();\ } #define LPUTBE(c)\ {\ cbp[0] = (c)>>24;\ cbp[1] = (c)>>16;\ cbp[2] = (c)>>8;\ cbp[3] = (c);\ cbp += 4;\ cbc -= 4;\ if(cbc <= 0)\ cflush();\ } long entryvalue(void) { char *a; Sym *s; a = INITENTRY; if(*a >= '0' && *a <= '9') return atolwhex(a); s = lookup(a, 0); if(s->type == 0) return INITTEXT; if(s->type != STEXT && s->type != SLEAF) diag("entry not text: %s", s->name); return s->value; } void asmb(void) { Prog *p; vlong t; Optab *o; if(debug['v']) Bprint(&bso, "%5.2f asm\n", cputime()); Bflush(&bso); seek(cout, HEADR, 0); pc = INITTEXT; for(p = firstp; p != P; p = p->link) { if(p->as == ATEXT) { curtext = p; autosize = p->to.offset + 8; } if(p->pc != pc) { diag("phase error %lux sb %lux", p->pc, pc); if(!debug['a']) prasm(curp); pc = p->pc; } if (p->as == AMOVQ || p->as == AMOVT) { if ((p->from.reg == REGSP) && (p->from.offset&7) != 0 || (p->to.reg == REGSP) && (p->to.offset&7) != 0) diag("bad stack alignment: %P", p); if ((p->from.reg == REGSB) && (p->from.offset&7) != 0 || (p->to.reg == REGSB) && (p->to.offset&7) != 0) diag("bad global alignment: %P", p); } curp = p; o = oplook(p); /* could probably avoid this call */ if(asmout(p, o)) { p = p->link; pc += 4; } pc += o->size; } if(debug['a']) Bprint(&bso, "\n"); Bflush(&bso); cflush(); curtext = P; switch(HEADTYPE) { case 0: seek(cout, rnd(HEADR+textsize, 8192), 0); break; case 1: case 2: case 3: seek(cout, HEADR+textsize, 0); break; } for(t = 0; t < datsize; t += sizeof(buf)-100) { if(datsize-t > sizeof(buf)-100) datblk(t, sizeof(buf)-100); else datblk(t, datsize-t); } symsize = 0; lcsize = 0; if(!debug['s']) { if(debug['v']) Bprint(&bso, "%5.2f sym\n", cputime()); Bflush(&bso); switch(HEADTYPE) { case 0: seek(cout, rnd(HEADR+textsize, 8192)+datsize, 0); break; case 2: case 1: case 3: seek(cout, HEADR+textsize+datsize, 0); break; } if(!debug['s']) asmsym(); if(debug['v']) Bprint(&bso, "%5.2f pc\n", cputime()); Bflush(&bso); if(!debug['s']) asmlc(); cflush(); } if(debug['v']) Bprint(&bso, "%5.2f header\n", cputime()); Bflush(&bso); seek(cout, 0L, 0); switch(HEADTYPE) { case 0: lput(0x0183L); /* magic and sections */ lput(0L); /* time and date */ vlput(rnd(HEADR+textsize, 8192)+datsize); lput(symsize); /* nsyms */ lput(0x50L|(7L<<16)); /* size of optional hdr and flags */ lput(0413|(0x101L<<16)); /* magic and version */ lput(-1); /* pad for alignment */ vlput(rnd(HEADR+textsize, 8192)); /* sizes */ vlput(datsize); vlput(bsssize); vlput(entryvalue()); /* va of entry */ vlput(INITTEXT-HEADR); /* va of base of text */ vlput(INITDAT); /* va of base of data */ vlput(INITDAT+datsize); /* va of base of bss */ lput(~0L); /* gp reg mask */ /* dubious stuff starts here */ lput(0L); lput(0L); lput(0L); lput(0L); lput(~0L); /* gp value ?? */ break; case 1: lput(0x0183L); /* magic and sections */ lput(0L); /* time and date */ vlput(HEADR+textsize+datsize); lput(symsize); /* nsyms */ lput(0x54L|(7L<<16)); /* size of optional hdr and flags */ lput(0407|(0x101L<<16)); /* magic and version */ lput(-1); /* pad for alignment */ vlput(textsize); /* sizes */ vlput(datsize); vlput(bsssize); vlput(entryvalue()); /* va of entry */ vlput(INITTEXT); /* va of base of text */ vlput(INITDAT); /* va of base of data */ vlput(INITDAT+datsize); /* va of base of bss */ lput(~0L); /* gp reg mask */ /* dubious stuff starts here */ lput(lcsize); lput(0L); lput(0L); lput(0L); lput(~0L); /* gp value ?? */ lput(0L); /* complete mystery */ break; case 2: lputbe(0x84b); /* magic */ lputbe(textsize); /* sizes */ lputbe(datsize); lputbe(bsssize); lputbe(symsize); /* nsyms */ lputbe(entryvalue()); /* va of entry */ lputbe(0L); lputbe(lcsize); break; case 3: /* ``headerless'' boot image -- magic no is a branch */ lput(0xc3e00007); /* magic (branch) */ lputbe(textsize); /* sizes */ lputbe(datsize); lputbe(bsssize); lputbe(symsize); /* nsyms */ lputbe(entryvalue()); /* va of entry */ lputbe(0L); lputbe(lcsize); break; } cflush(); } void lput(long l) { LPUT(l); } void lputbe(long l) { LPUTBE(l); } void vlput(vlong l) { VLPUT(l); } void cflush(void) { int n; n = sizeof(buf.cbuf) - cbc; if(n) write(cout, buf.cbuf, n); cbp = buf.cbuf; cbc = sizeof(buf.cbuf); } void asmsym(void) { Prog *p; Auto *a; Sym *s; int h; s = lookup("etext", 0); if(s->type == STEXT) putsymb(s->name, 'T', s->value, s->version); for(h=0; h<NHASH; h++) for(s=hash[h]; s!=S; s=s->link) switch(s->type) { case SCONST: putsymb(s->name, 'D', s->value, s->version); continue; case SDATA: putsymb(s->name, 'D', s->value+INITDAT, s->version); continue; case SBSS: putsymb(s->name, 'B', s->value+INITDAT, s->version); continue; case SFILE: putsymb(s->name, 'f', s->value, s->version); continue; } for(p=textp; p!=P; p=p->cond) { s = p->from.sym; if(s->type != STEXT && s->type != SLEAF) continue; /* filenames first */ for(a=p->to.autom; a; a=a->link) if(a->type == D_FILE) putsymb(a->sym->name, 'z', a->offset, 0); else if(a->type == D_FILE1) putsymb(a->sym->name, 'Z', a->offset, 0); if(s->type == STEXT) putsymb(s->name, 'T', s->value, s->version); else putsymb(s->name, 'L', s->value, s->version); /* frame, auto and param after */ putsymb(".frame", 'm', p->to.offset+8, 0); for(a=p->to.autom; a; a=a->link) if(a->type == D_AUTO) putsymb(a->sym->name, 'a', -a->offset, 0); else if(a->type == D_PARAM) putsymb(a->sym->name, 'p', a->offset, 0); } if(debug['v'] || debug['n']) Bprint(&bso, "symsize = %lud\n", symsize); Bflush(&bso); } void putsymb(char *s, int t, long v, int ver) { int i, f; if(t == 'f') s++; LPUTBE(v); if(ver) t += 'a' - 'A'; CPUT(t+0x80); /* 0x80 is variable length */ if(t == 'Z' || t == 'z') { CPUT(s[0]); for(i=1; s[i] != 0 || s[i+1] != 0; i += 2) { CPUT(s[i]); CPUT(s[i+1]); } CPUT(0); CPUT(0); i++; } else { for(i=0; s[i]; i++) CPUT(s[i]); CPUT(0); } symsize += 4 + 1 + i + 1; if(debug['n']) { if(t == 'z' || t == 'Z') { Bprint(&bso, "%c %.8lux ", t, v); for(i=1; s[i] != 0 || s[i+1] != 0; i+=2) { f = ((s[i]&0xff) << 8) | (s[i+1]&0xff); Bprint(&bso, "/%x", f); } Bprint(&bso, "\n"); return; } if(ver) Bprint(&bso, "%c %.8lux %s<%d>\n", t, v, s, ver); else Bprint(&bso, "%c %.8lux %s\n", t, v, s); } } #define MINLC 4 void asmlc(void) { long oldpc, oldlc; Prog *p; long v, s; oldpc = INITTEXT; oldlc = 0; for(p = firstp; p != P; p = p->link) { if(p->line == oldlc || p->as == ATEXT || p->as == ANOP) { if(p->as == ATEXT) curtext = p; if(debug['L']) Bprint(&bso, "%6lux %P\n", p->pc, p); continue; } if(debug['L']) Bprint(&bso, "\t\t%6ld", lcsize); v = (p->pc - oldpc) / MINLC; while(v) { s = 127; if(v < 127) s = v; CPUT(s+128); /* 129-255 +pc */ if(debug['L']) Bprint(&bso, " pc+%ld*%d(%ld)", s, MINLC, s+128); v -= s; lcsize++; } s = p->line - oldlc; oldlc = p->line; oldpc = p->pc + MINLC; if(s > 64 || s < -64) { CPUT(0); /* 0 vv +lc */ CPUT(s>>24); CPUT(s>>16); CPUT(s>>8); CPUT(s); if(debug['L']) { if(s > 0) Bprint(&bso, " lc+%ld(%d,%ld)\n", s, 0, s); else Bprint(&bso, " lc%ld(%d,%ld)\n", s, 0, s); Bprint(&bso, "%6lux %P\n", p->pc, p); } lcsize += 5; continue; } if(s > 0) { CPUT(0+s); /* 1-64 +lc */ if(debug['L']) { Bprint(&bso, " lc+%ld(%ld)\n", s, 0+s); Bprint(&bso, "%6lux %P\n", p->pc, p); } } else { CPUT(64-s); /* 65-128 -lc */ if(debug['L']) { Bprint(&bso, " lc%ld(%ld)\n", s, 64-s); Bprint(&bso, "%6lux %P\n", p->pc, p); } } lcsize++; } while(lcsize & 1) { s = 129; CPUT(s); lcsize++; } if(debug['v'] || debug['L']) Bprint(&bso, "lcsize = %ld\n", lcsize); Bflush(&bso); } void datblk(long s, long n) { Prog *p; char *cast; long l, fl, j, d; int i, c; memset(buf.dbuf, 0, n+100); for(p = datap; p != P; p = p->link) { curp = p; l = p->from.sym->value + p->from.offset - s; c = p->reg; i = 0; if(l < 0) { if(l+c <= 0) continue; while(l < 0) { l++; i++; } } if(l >= n) continue; if(p->as != AINIT && p->as != ADYNT) { for(j=l+(c-i)-1; j>=l; j--) if(buf.dbuf[j]) { print("%P\n", p); diag("multiple initialization"); break; } } switch(p->to.type) { default: diag("unknown mode in initialization\n%P", p); break; case D_FCONST: switch(c) { default: case 4: fl = ieeedtof(p->to.ieee); cast = (char*)&fl; for(; i<c; i++) { buf.dbuf[l] = cast[fnuxi8[i]]; l++; } break; case 8: cast = (char*)p->to.ieee; for(; i<c; i++) { buf.dbuf[l] = cast[fnuxi8[i]]; l++; } break; } break; case D_SCONST: for(; i<c; i++) { buf.dbuf[l] = p->to.sval[i]; l++; } break; case D_CONST: d = p->to.offset; if(p->to.sym) { if(p->to.sym->type == STEXT || p->to.sym->type == SLEAF) d += p->to.sym->value; if(p->to.sym->type == SDATA) d += p->to.sym->value + INITDAT; if(p->to.sym->type == SBSS) d += p->to.sym->value + INITDAT; } cast = (char*)&d; switch(c) { default: diag("bad nuxi %d %d\n%P", c, i, curp); break; case 1: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi1[i]]; l++; } break; case 2: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi2[i]]; l++; } break; case 4: for(; i<c; i++) { buf.dbuf[l] = cast[inuxi4[i]]; l++; } break; case 8: for(; i<4; i++) { buf.dbuf[l] = cast[inuxi4[i]]; l++; } d = p->to.offset >> 32; for(; i<c; i++) { buf.dbuf[l] = cast[inuxi4[i-4]]; l++; } break; } break; } } write(cout, buf.dbuf, n); } #define OP_RRR(op,r1,r2,r3)\ (op|(((r1)&31L)<<16)|(((r2)&31L)<<21)|((r3)&31L)) #define OP_IRR(op,i,r2,r3)\ (op|(((i)&255L)<<13)|0x1000|(((r2)&31L)<<21)|((r3)&31L)) #define OP_MEM(op,d,r1,r2)\ (op|(((r1)&31L)<<16)|(((r2)&31L)<<21)|((d)&0xffff)) #define OP_BR(op,d,r1)\ (op|((d)&0x1fffff)|(((r1)&31L)<<21)) int asmout(Prog *p, Optab *o) { long o1, o2, o3, o4, o5, o6; vlong v; int r, a; o1 = 0; o2 = 0; o3 = 0; o4 = 0; o5 = 0; o6 = 0; switch(o->type) { default: diag("unknown type %d", o->type); if(!debug['a']) prasm(p); break; case 0: /* pseudo ops */ break; case 1: /* register-register moves */ if(p->as == AMOVB || p->as == AMOVW) /* noop should rewrite */ diag("forbidden SEX: %P", p); if(p->as == AMOVBU || p->as == AMOVWU) { v = 1; if (p->as == AMOVWU) v = 3; o1 = OP_IRR(opcode(AZAPNOT), v, p->from.reg, p->to.reg); } else { a = AOR; if(p->as == AMOVL) a = AADDL; if(p->as == AMOVLU) a = AEXTLL; o1 = OP_RRR(opcode(a), REGZERO, p->from.reg, p->to.reg); } break; case 2: /* <operate> r1,[r2],r3 */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_RRR(opcode(p->as), p->from.reg, r, p->to.reg); break; case 3: /* <operate> $n,[r2],r3 */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_IRR(opcode(p->as), v, r, p->to.reg); break; case 4: /* beq r1,sbra */ if(p->cond == P) v = -4 >> 2; else v = (p->cond->pc - pc-4) >> 2; o1 = OP_BR(opcode(p->as), v, p->from.reg); break; case 5: /* jmp [r1],0(r2) */ r = p->reg; a = p->as; if(r == NREG) { r = o->param; /* if(a == AJMP && p->to.reg == REGLINK) a = ARET; /* this breaks the kernel -- maybe we need to clear prediction stack on each context switch... */ } o1 = OP_MEM(opcode(a), 0, p->to.reg, r); break; case 6: /* movq $n,r1 and movq $soreg,r1 */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); o1 = OP_MEM(opcode(AMOVA), v, r, p->to.reg); break; case 7: /* movbu r1, r2 */ v = 1; if (p->as == AMOVWU) v = 3; o1 = OP_IRR(opcode(AZAPNOT), v, p->from.reg, p->to.reg); break; case 8: /* mov r, soreg ==> stq o(r) */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if (p->as == AMOVQ || p->as == AMOVT) if ((r == REGSP || r == REGSB) && (v&7) != 0) diag("bad alignment: %P", p); o1 = OP_MEM(opcode(p->as+AEND), v, r, p->from.reg); break; case 9: /* mov soreg, r ==> ldq o(r) */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if (p->as == AMOVQ || p->as == AMOVT) if ((r == REGSP || r == REGSB) && (v&7) != 0) diag("bad alignment: %P", p); o1 = OP_MEM(opcode(p->as), v, r, p->to.reg); break; case 10: /* movb r1,r2 */ v = 64 - 8; if (p->as == AMOVW) v = 64 - 16; o1 = OP_IRR(opcode(ASLLQ), v, p->from.reg, p->to.reg); o2 = OP_IRR(opcode(ASRAQ), v, p->to.reg, p->to.reg); break; case 11: /* jmp lbra */ if(p->cond == P) v = -4 >> 2; else v = (p->cond->pc - pc-4) >> 2; a = ABR; r = REGZERO; if (p->as == AJSR) { a = ABSR; r = REGLINK; } o1 = OP_BR(opcode(a), v, r); break; case 12: /* addq $n,[r2],r3 ==> lda */ v = regoff(&p->from); if (p->as == ASUBQ) v = -v; r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_MEM(opcode(AMOVA), v, r, p->to.reg); break; case 13: /* <op> $scon,[r2],r3 */ v = regoff(&p->from); if(p->to.reg == REGTMP || p->reg == REGTMP) diag("cant synthesize large constant\n%P", p); r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_MEM(opcode(AMOVA), v, REGZERO, REGTMP); o2 = OP_RRR(opcode(p->as), REGTMP, r, p->to.reg); break; case 14: /* <op> $lcon,[r2],r3 */ v = regoff(&p->from); if(v & 0x8000) v += 0x10000; if(p->to.reg == REGTMP || p->reg == REGTMP) diag("cant synthesize large constant\n%P", p); r = p->reg; if(r == NREG) r = p->to.reg; o1 = OP_MEM(opcode(AMOVA), v, REGZERO, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, REGTMP); o3 = OP_RRR(opcode(p->as), REGTMP, r, p->to.reg); break; case 15: /* mov $lcon,r1 */ v = regoff(&p->from); if(v & 0x8000) v += 0x10000; o1 = OP_MEM(opcode(AMOVA), v, o->param, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, p->to.reg); break; case 16: /* mov $qcon,r1 */ v = regoff(&p->from); if(v & 0x8000) v += 0x10000; if((v>>31)&1) v += (1LL<<32); if((v>>47)&1) v += (1LL<<48); o1 = OP_MEM(opcode(AMOVA), v>>32, o->param, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>48, REGTMP, REGTMP); o3 = OP_IRR(opcode(ASLLQ), 32, REGTMP, REGTMP); o4 = OP_MEM(opcode(AMOVA), v, REGTMP, REGTMP); o5 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, p->to.reg); break; case 17: /* mov f1,f2 ==> fcpys f1,f1,f2 */ o1 = OP_RRR(opcode(ACPYS), p->from.reg, p->from.reg, p->to.reg); break; case 18: /* call_pal imm */ v = regoff(&p->from); o1 = OP_MEM(opcode(ACALL_PAL), v, 0, 0); break; case 19: /* mov r, loreg ==> ldah,stq */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if (p->as == AMOVQ || p->as == AMOVT) if ((r == REGSP || r == REGSB) && (v&7) != 0) diag("bad alignment: %P", p); if(v & 0x8000) v += 0x10000; o1 = OP_MEM(opcode(AMOVAH), v>>16, r, REGTMP); o2 = OP_MEM(opcode(p->as+AEND), v, REGTMP, p->from.reg); break; case 20: /* mov loreg, r ==> ldah,ldq */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if (p->as == AMOVQ || p->as == AMOVT) if ((r == REGSP || r == REGSB) && (v&7) != 0) diag("bad alignment: %P", p); if(v & 0x8000) v += 0x10000; o1 = OP_MEM(opcode(AMOVAH), v>>16, r, REGTMP); o2 = OP_MEM(opcode(p->as), v, REGTMP, p->to.reg); break; #ifdef NEVER case 21: /* mov r1,$qoreg */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if(v & 0x8000) v += 0x10000; if((v>>31)&1) v += (1LL<<32); if((v>>47)&1) v += (1LL<<48); o1 = OP_MEM(opcode(AMOVA), v>>32, r, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>48, REGTMP, REGTMP); o3 = OP_IRR(opcode(ASLLQ), 32, REGTMP, REGTMP); o4 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, REGTMP); o5 = OP_MEM(opcode(p->as+AEND), v, REGTMP, p->from.reg); break; case 22: /* mov $qoreg,r1 */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if(v & 0x8000) v += 0x10000; if((v>>31)&1) v += (1LL<<32); if((v>>47)&1) v += (1LL<<48); o1 = OP_MEM(opcode(AMOVA), v>>32, r, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>48, REGTMP, REGTMP); o3 = OP_IRR(opcode(ASLLQ), 32, REGTMP, REGTMP); o4 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, REGTMP); o5 = OP_MEM(opcode(p->as), v, REGTMP, p->to.reg); break; #endif case 23: /* <op> $qcon,r1 */ if(p->to.reg == REGTMP || p->reg == REGTMP) diag("cant synthesize large constant\n%P", p); v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; if(v & 0x8000) v += 0x10000; if((v>>31)&1) v += (1LL<<32); if((v>>47)&1) v += (1LL<<48); o1 = OP_MEM(opcode(AMOVA), v>>32, REGZERO, REGTMP); o2 = OP_MEM(opcode(AMOVAH), v>>48, REGTMP, REGTMP); o3 = OP_IRR(opcode(ASLLQ), 32, REGTMP, REGTMP); o4 = OP_MEM(opcode(AMOVA), v, REGTMP, REGTMP); o5 = OP_MEM(opcode(AMOVAH), v>>16, REGTMP, REGTMP); o6 = OP_RRR(opcode(p->as), REGTMP, r, p->to.reg); break; case 24: /* movq Fn, FPCR */ r = p->from.reg; o1 = OP_RRR(opcode(AADDT+AEND), r, r, r); break; case 25: /* movq FPCR, Fn */ r = p->to.reg; o1 = OP_RRR(opcode(AADDS+AEND), r, r, r); break; case 26: /* movq Rn, C_PREG */ r = p->from.reg; o1 = OP_RRR(opcode(ASUBQ+AEND), r, r, 0) | p->to.reg & 255; break; case 27: /* movq C_PREG, Rn */ r = p->to.reg; o1 = OP_RRR(opcode(AADDQ+AEND), r, r, 0) | p->from.reg & 255; break; case 28: /* cvttq r1,r3 */ r = p->from.reg; o1 = OP_RRR(opcode(p->as), r, REGZERO, p->to.reg); break; case 29: /* movq pcc, rpcc -> Rn */ o1 = OP_MEM(opcode(ARPCC), 0, REGZERO, p->to.reg); break; case 30: /* rei/mb/trapb */ o1 = OP_MEM(opcode(p->as), 0, REGZERO, REGZERO); break; case 31: /* fetch (Rn) */ o1 = OP_MEM(opcode(p->as), 0, REGZERO, p->from.reg); break; case 32: /* movqp r, soreg ==> stqp o(r) */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(&p->to); if (v < -0x800 || v >= 0x800) diag("physical store out of range\n%P", p); v &= 0xfff; o1 = OP_MEM(opcode(p->as+AEND), v, r, p->from.reg); break; case 33: /* movqp soreg, r ==> ldqp o(r) */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(&p->from); if (v < -0x800 || v >= 0x800) diag("physical load out of range\n%P", p); v &= 0xfff; o1 = OP_MEM(opcode(p->as), v, r, p->to.reg); break; case 34: /* <operate> $-n,[r2],r3 */ v = regoff(&p->from); r = p->reg; if(r == NREG) r = p->to.reg; switch (a = p->as) { case AAND: a = AANDNOT; break; case AANDNOT: a = AAND; break; case AOR: a = AORNOT; break; case AORNOT: a = AOR; break; case AXOR: a = AXORNOT; break; case AXORNOT: a = AXOR; break; default: diag("bad in NCON case: %P", p); } v = ~v; o1 = OP_IRR(opcode(a), v, r, p->to.reg); break; case 40: /* word */ o1 = regoff(&p->to); break; } switch(o->size) { default: if(debug['a']) Bprint(&bso, " %.8lux:\t\t%P\n", p->pc, p); break; case 4: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux\t%P\n", p->pc, o1, p); LPUT(o1); break; case 8: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %P\n", p->pc, o1, o2, p); LPUT(o1); LPUT(o2); break; case 12: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %P\n", p->pc, o1, o2, o3, p); LPUT(o1); LPUT(o2); LPUT(o3); break; case 16: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %P\n", p->pc, o1, o2, o3, o4, p); LPUT(o1); LPUT(o2); LPUT(o3); LPUT(o4); break; case 20: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %.8lux %P\n", p->pc, o1, o2, o3, o4, o5, p); LPUT(o1); LPUT(o2); LPUT(o3); LPUT(o4); LPUT(o5); break; case 24: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %.8lux %.8lux %P\n", p->pc, o1, o2, o3, o4, o5, o6, p); LPUT(o1); LPUT(o2); LPUT(o3); LPUT(o4); LPUT(o5); LPUT(o6); break; } return 0; } #define OP(x,y) (((x)<<26)|((y)<<5)) #define FP(x) OP(22, (x)|0xc0) /* note: this sets round/trap modes (dynamic, software?). not used for cvtxx? */ #define FP2(x) OP(22, (x) /*|0x080*/) /* note: this sets round/trap modes (chopped, software?). used for cvtxx? */ #define FP3(x) OP(22, (x)|0x080) /* note: this sets round/trap modes (dynamic, software?). not used for cvtxx? */ long opcode(int a) { switch (a) { /* loads */ case AMOVB: /* misnomer; pretend it's ok for now */ diag("opcode(AMOVB)"); case AMOVBU: return OP(10, 0); /* v 3 */ case AMOVW: /* misnomer; pretend it's ok for now */ diag("opcode(AMOVW)"); case AMOVWU: return OP(12, 0); /* v 3 */ case AMOVL: return OP(40, 0); case AMOVQ: return OP(41, 0); case AMOVQU: return OP(11, 0); case AMOVS: return OP(34, 0); case AMOVT: return OP(35, 0); /* stores */ case AMOVB+AEND: /* misnomer; pretend it's ok for now */ case AMOVBU+AEND: return OP(14, 0); /* v 3 */ case AMOVW+AEND: /* misnomer; pretend it's ok for now */ case AMOVWU+AEND: return OP(13, 0); /* v 3 */ case AMOVL+AEND: return OP(44, 0); case AMOVQ+AEND: return OP(45, 0); case AMOVQU+AEND: return OP(15, 0); case AMOVS+AEND: return OP(38, 0); case AMOVT+AEND: return OP(39, 0); /* physical */ case AMOVLP+AEND: return OP(31, 0)|0x8000; case AMOVQP+AEND: return OP(31, 0)|0x9000; case AMOVLP: return OP(27, 0)|0x8000; case AMOVQP: return OP(27, 0)|0x9000; /* load address */ case AMOVA: return OP(8, 0); case AMOVAH: return OP(9, 0); /* locking */ case AMOVLL: return OP(42, 0); /* load locked */ case AMOVQL: return OP(43, 0); /* load locked */ case AMOVLC+AEND: return OP(46, 0); /* store cond */ case AMOVQC+AEND: return OP(47, 0); /* store cond */ case AADDL: return OP(16, 0); case AADDLV: return OP(16, 64); case AADDQ: return OP(16, 32); case AADDQV: return OP(16, 96); case AS4ADDL: return OP(16, 2); case AS4ADDQ: return OP(16, 34); case AS8ADDL: return OP(16, 18); case AS8ADDQ: return OP(16, 50); case AS4SUBL: return OP(16, 11); case AS4SUBQ: return OP(16, 43); case AS8SUBL: return OP(16, 27); case AS8SUBQ: return OP(16, 59); case ASUBL: return OP(16, 9); case ASUBLV: return OP(16, 73); case ASUBQ: return OP(16, 41); case ASUBQV: return OP(16, 105); case ACMPEQ: return OP(16, 45); case ACMPGT: return OP(16, 77); case ACMPGE: return OP(16, 109); case ACMPUGT: return OP(16, 29); case ACMPUGE: return OP(16, 61); case ACMPBLE: return OP(16, 15); case AAND: return OP(17, 0); case AANDNOT: return OP(17, 8); case AOR: return OP(17, 32); case AORNOT: return OP(17, 40); case AXOR: return OP(17, 64); case AXORNOT: return OP(17, 72); case ACMOVEQ: return OP(17, 36); case ACMOVNE: return OP(17, 38); case ACMOVLT: return OP(17, 68); case ACMOVGE: return OP(17, 70); case ACMOVLE: return OP(17, 100); case ACMOVGT: return OP(17, 102); case ACMOVLBS: return OP(17, 20); case ACMOVLBC: return OP(17, 22); case AMULL: return OP(19, 0); case AMULQ: return OP(19, 32); case AMULLV: return OP(19, 64); case AMULQV: return OP(19, 96); case AUMULH: return OP(19, 48); case ASLLQ: return OP(18, 57); case ASRLQ: return OP(18, 52); case ASRAQ: return OP(18, 60); case AEXTBL: return OP(18, 6); case AEXTWL: return OP(18, 22); case AEXTLL: return OP(18, 38); case AEXTQL: return OP(18, 54); case AEXTWH: return OP(18, 90); case AEXTLH: return OP(18, 106); case AEXTQH: return OP(18, 122); case AINSBL: return OP(18, 11); case AINSWL: return OP(18, 27); case AINSLL: return OP(18, 43); case AINSQL: return OP(18, 59); case AINSWH: return OP(18, 87); case AINSLH: return OP(18, 103); case AINSQH: return OP(18, 119); case AMSKBL: return OP(18, 2); case AMSKWL: return OP(18, 18); case AMSKLL: return OP(18, 34); case AMSKQL: return OP(18, 50); case AMSKWH: return OP(18, 82); case AMSKLH: return OP(18, 98); case AMSKQH: return OP(18, 114); case AZAP: return OP(18, 48); case AZAPNOT: return OP(18, 49); case AJMP: return OP(26, 0); case AJSR: return OP(26, 512); case ARET: return OP(26, 1024); case ABR: return OP(48, 0); case ABSR: return OP(52, 0); case ABEQ: return OP(57, 0); case ABNE: return OP(61, 0); case ABLT: return OP(58, 0); case ABGE: return OP(62, 0); case ABLE: return OP(59, 0); case ABGT: return OP(63, 0); case ABLBC: return OP(56, 0); case ABLBS: return OP(60, 0); case AFBEQ: return OP(49, 0); case AFBNE: return OP(53, 0); case AFBLT: return OP(50, 0); case AFBGE: return OP(54, 0); case AFBLE: return OP(51, 0); case AFBGT: return OP(55, 0); case ATRAPB: return OP(24, 0); case AMB: return OP(24, 0x200); case AFETCH: return OP(24, 0x400); case AFETCHM: return OP(24, 0x500); case ARPCC: return OP(24, 0x600); case ACPYS: return OP(23, 32); case ACPYSN: return OP(23, 33); case ACPYSE: return OP(23, 34); case AADDS+AEND: return OP(23, 37); /* MF_FPCR */ case AADDT+AEND: return OP(23, 36); /* MT_FPCR */ case ACVTLQ: return OP(23, 16); case ACVTQL: return OP(23, 48); /* XXX trap mode */ case AFCMOVEQ: return OP(23, 42); case AFCMOVNE: return OP(23, 43); case AFCMOVLT: return OP(23, 44); case AFCMOVGE: return OP(23, 45); case AFCMOVLE: return OP(23, 46); case AFCMOVGT: return OP(23, 47); case AADDS: return FP(0); case AADDT: return FP(32); case ACMPTEQ: return FP3(37); case ACMPTGT: return FP3(38); case ACMPTGE: return FP3(39); case ACMPTUN: return FP3(36); case ACVTQS: return FP2(60); case ACVTQT: return FP2(62); case ACVTTS: return FP2(44); case ACVTTQ: return FP2(47); case ADIVS: return FP(3); case ADIVT: return FP(35); case AMULS: return FP(2); case AMULT: return FP(34); case ASUBS: return FP(1); case ASUBT: return FP(33); case ACALL_PAL: return 0; case AREI: return OP(30, 0x400); /* HW_REI */ case AADDQ+AEND: return OP(25,0); /* HW_MFPR */ case ASUBQ+AEND: return OP(29,0); /* HW_MTPR */ } diag("bad op %A(%d)", a, a); return 0; }