// Inferno utils/5l/asm.c // http://code.google.com/p/inferno-os/source/browse/utils/5l/asm.c // // Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved. // Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net) // Portions Copyright © 1997-1999 Vita Nuova Limited // Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com) // Portions Copyright © 2004,2006 Bruce Ellis // Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net) // Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others // Portions Copyright © 2009 The Go Authors. All rights reserved. // // 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 THE // AUTHORS OR COPYRIGHT HOLDERS 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. #include "l.h" #include "../ld/lib.h" #include "../ld/elf.h" int32 OFFSET; static Prog *PP; char linuxdynld[] = "/lib/ld-linux.so.2"; int32 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; switch(s->type) { case STEXT: case SLEAF: break; case SDATA: if(dlm) return s->value+INITDAT; default: diag("entry not text: %s", s->name); } return s->value; } vlong addstring(Sym *s, char *str) { int n, m; vlong r; Prog *p; if(s->type == 0) s->type = SDATA; s->reachable = 1; r = s->value; n = strlen(str)+1; while(n > 0) { m = n; if(m > NSNAME) m = NSNAME; p = newdata(s, s->value, m, D_EXTERN); p->to.type = D_SCONST; p->to.sval = mal(NSNAME); memmove(p->to.sval, str, m); s->value += m; str += m; n -= m; } return r; } vlong adduintxx(Sym *s, uint64 v, int wid) { vlong r; Prog *p; if(s->type == 0) s->type = SDATA; s->reachable = 1; r = s->value; p = newdata(s, s->value, wid, D_EXTERN); s->value += wid; p->to.type = D_CONST; p->to.offset = v; return r; } vlong adduint8(Sym *s, uint8 v) { return adduintxx(s, v, 1); } vlong adduint16(Sym *s, uint16 v) { return adduintxx(s, v, 2); } vlong adduint32(Sym *s, uint32 v) { return adduintxx(s, v, 4); } vlong adduint64(Sym *s, uint64 v) { return adduintxx(s, v, 8); } vlong addaddr(Sym *s, Sym *t) { vlong r; Prog *p; enum { Ptrsize = 4 }; if(s->type == 0) s->type = SDATA; s->reachable = 1; r = s->value; p = newdata(s, s->value, Ptrsize, D_EXTERN); s->value += Ptrsize; p->to.type = D_ADDR; p->to.index = D_EXTERN; p->to.offset = 0; p->to.sym = t; return r; } vlong addsize(Sym *s, Sym *t) { vlong r; Prog *p; enum { Ptrsize = 4 }; if(s->type == 0) s->type = SDATA; s->reachable = 1; r = s->value; p = newdata(s, s->value, Ptrsize, D_EXTERN); s->value += Ptrsize; p->to.type = D_SIZE; p->to.index = D_EXTERN; p->to.offset = 0; p->to.sym = t; return r; } enum { ElfStrEmpty, ElfStrInterp, ElfStrHash, ElfStrGot, ElfStrGotPlt, ElfStrDynamic, ElfStrDynsym, ElfStrDynstr, ElfStrRel, ElfStrText, ElfStrData, ElfStrBss, ElfStrGosymtab, ElfStrGopclntab, ElfStrShstrtab, NElfStr }; vlong elfstr[NElfStr]; void doelf(void) { Sym *s, *shstrtab, *dynamic, *dynstr, *d; int h, nsym, t; if(!iself) return; /* predefine strings we need for section headers */ shstrtab = lookup(".shstrtab", 0); shstrtab->reachable = 1; elfstr[ElfStrEmpty] = addstring(shstrtab, ""); elfstr[ElfStrText] = addstring(shstrtab, ".text"); elfstr[ElfStrData] = addstring(shstrtab, ".data"); elfstr[ElfStrBss] = addstring(shstrtab, ".bss"); if(!debug['s']) { elfstr[ElfStrGosymtab] = addstring(shstrtab, ".gosymtab"); elfstr[ElfStrGopclntab] = addstring(shstrtab, ".gopclntab"); } elfstr[ElfStrShstrtab] = addstring(shstrtab, ".shstrtab"); if(!debug['d']) { /* -d suppresses dynamic loader format */ elfstr[ElfStrInterp] = addstring(shstrtab, ".interp"); elfstr[ElfStrHash] = addstring(shstrtab, ".hash"); elfstr[ElfStrGot] = addstring(shstrtab, ".got"); elfstr[ElfStrGotPlt] = addstring(shstrtab, ".got.plt"); elfstr[ElfStrDynamic] = addstring(shstrtab, ".dynamic"); elfstr[ElfStrDynsym] = addstring(shstrtab, ".dynsym"); elfstr[ElfStrDynstr] = addstring(shstrtab, ".dynstr"); elfstr[ElfStrRel] = addstring(shstrtab, ".rel"); /* interpreter string */ s = lookup(".interp", 0); s->reachable = 1; s->type = SDATA; // TODO: rodata /* dynamic symbol table - first entry all zeros */ s = lookup(".dynsym", 0); s->type = SDATA; s->reachable = 1; s->value += ELF32SYMSIZE; /* dynamic string table */ s = lookup(".dynstr", 0); addstring(s, ""); dynstr = s; /* relocation table */ s = lookup(".rel", 0); s->reachable = 1; s->type = SDATA; /* global offset table */ s = lookup(".got", 0); s->reachable = 1; s->type = SDATA; /* got.plt - ??? */ s = lookup(".got.plt", 0); s->reachable = 1; s->type = SDATA; /* define dynamic elf table */ s = lookup(".dynamic", 0); dynamic = s; /* * relocation entries for dynld symbols */ nsym = 1; // sym 0 is reserved for(h=0; hlink) { if(!s->reachable || (s->type != SDATA && s->type != SBSS) || s->dynldname == nil) continue; #if 0 d = lookup(".rel", 0); addaddr(d, s); adduint32(d, ELF32_R_INFO(nsym, R_386_32)); nsym++; d = lookup(".dynsym", 0); adduint32(d, addstring(lookup(".dynstr", 0), s->dynldname)); adduint32(d, 0); /* value */ adduint32(d, 0); /* size of object */ t = STB_GLOBAL << 4; t |= STT_OBJECT; // works for func too, empirically adduint8(d, t); adduint8(d, 0); /* reserved */ adduint16(d, SHN_UNDEF); /* section where symbol is defined */ if(needlib(s->dynldlib)) elfwritedynent(dynamic, DT_NEEDED, addstring(dynstr, s->dynldlib)); #endif } } /* * hash table. * only entries that other objects need to find when * linking us need to be in the table. right now that is * no entries. * * freebsd insists on having chains enough for all * the local symbols, though. for now, we just lay * down a trivial hash table with 1 bucket and a long chain, * because no one is actually looking for our symbols. */ s = lookup(".hash", 0); s->type = SDATA; // TODO: rodata s->reachable = 1; adduint32(s, 1); // nbucket adduint32(s, nsym); // nchain adduint32(s, nsym-1); // bucket 0 adduint32(s, 0); // chain 0 for(h=1; h nsym-2 -> ... -> 2 -> 1 -> 0 adduint32(s, h-1); /* * .dynamic table */ s = dynamic; elfwritedynentsym(s, DT_HASH, lookup(".hash", 0)); elfwritedynentsym(s, DT_SYMTAB, lookup(".dynsym", 0)); elfwritedynent(s, DT_SYMENT, ELF32SYMSIZE); elfwritedynentsym(s, DT_STRTAB, lookup(".dynstr", 0)); elfwritedynentsymsize(s, DT_STRSZ, lookup(".dynstr", 0)); elfwritedynentsym(s, DT_REL, lookup(".rel", 0)); elfwritedynentsymsize(s, DT_RELSZ, lookup(".rel", 0)); elfwritedynent(s, DT_RELENT, ELF32RELSIZE); elfwritedynent(s, DT_NULL, 0); } } vlong datoff(vlong addr) { if(addr >= INITDAT) return addr - INITDAT + rnd(HEADR+textsize, INITRND); diag("datoff %#llx", addr); return 0; } void shsym(Elf64_Shdr *sh, Sym *s) { sh->addr = s->value + INITDAT; sh->off = datoff(sh->addr); sh->size = s->size; } void phsh(Elf64_Phdr *ph, Elf64_Shdr *sh) { ph->vaddr = sh->addr; ph->paddr = ph->vaddr; ph->off = sh->off; ph->filesz = sh->size; ph->memsz = sh->size; ph->align = sh->addralign; } void asmb(void) { Prog *p; int32 t, etext; int a, dynsym; uint32 va, fo, w, symo, startva; int strtabsize; vlong symdatva = SYMDATVA; Optab *o; ElfEhdr *eh; ElfPhdr *ph, *pph; ElfShdr *sh; strtabsize = 0; symo = 0; if(debug['v']) Bprint(&bso, "%5.2f asm\n", cputime()); Bflush(&bso); OFFSET = HEADR; seek(cout, OFFSET, 0); pc = INITTEXT; for(p = firstp; p != P; p = p->link) { setarch(p); if(p->as == ATEXT) { curtext = p; autosize = p->to.offset + 4; } if(p->pc != pc) { diag("phase error %lux sb %lux", p->pc, pc); if(!debug['a']) prasm(curp); pc = p->pc; } curp = p; o = oplook(p); /* could probably avoid this call */ if(thumb) thumbasmout(p, o); else asmout(p, o); pc += o->size; } while(pc-INITTEXT < textsize) { cput(0); pc++; } if(debug['a']) Bprint(&bso, "\n"); Bflush(&bso); cflush(); /* output strings in text segment */ etext = INITTEXT + textsize; for(t = pc; t < etext; t += sizeof(buf)-100) { if(etext-t > sizeof(buf)-100) datblk(t, sizeof(buf)-100, 1); else datblk(t, etext-t, 1); } /* output section header strings */ curtext = P; switch(HEADTYPE) { case 0: case 1: case 2: case 5: OFFSET = HEADR+textsize; seek(cout, OFFSET, 0); break; case 3: OFFSET = rnd(HEADR+textsize, 4096); seek(cout, OFFSET, 0); break; case 6: OFFSET = rnd(HEADR+textsize, INITRND); seek(cout, OFFSET, 0); break; } if(dlm){ char buf[8]; write(cout, buf, INITDAT-textsize); textsize = INITDAT; } for(t = 0; t < datsize; t += sizeof(buf)-100) { if(datsize-t > sizeof(buf)-100) datblk(t, sizeof(buf)-100, 0); else datblk(t, datsize-t, 0); } cflush(); /* output symbol table */ symsize = 0; lcsize = 0; if(!debug['s']) { if(debug['v']) Bprint(&bso, "%5.2f sym\n", cputime()); Bflush(&bso); switch(HEADTYPE) { case 0: case 1: case 4: case 5: debug['s'] = 1; break; case 2: OFFSET = HEADR+textsize+datsize; seek(cout, OFFSET, 0); break; case 3: OFFSET += rnd(datsize, 4096); seek(cout, OFFSET, 0); break; case 6: symo = rnd(HEADR+textsize, INITRND)+datsize+strtabsize; symo = rnd(symo, INITRND); seek(cout, symo + 8, 0); break; } if(!debug['s']) asmsym(); if(debug['v']) Bprint(&bso, "%5.2f pc\n", cputime()); Bflush(&bso); if(!debug['s']) asmlc(); if(!debug['s']) asmthumbmap(); if(dlm) asmdyn(); cflush(); } else if(dlm){ seek(cout, HEADR+textsize+datsize, 0); asmdyn(); cflush(); } curtext = P; if(debug['v']) Bprint(&bso, "%5.2f header\n", cputime()); Bflush(&bso); OFFSET = 0; seek(cout, OFFSET, 0); switch(HEADTYPE) { case 0: /* no header */ break; case 1: /* aif for risc os */ lputl(0xe1a00000); /* NOP - decompress code */ lputl(0xe1a00000); /* NOP - relocation code */ lputl(0xeb000000 + 12); /* BL - zero init code */ lputl(0xeb000000 + (entryvalue() - INITTEXT + HEADR - 12 - 8) / 4); /* BL - entry code */ lputl(0xef000011); /* SWI - exit code */ lputl(textsize+HEADR); /* text size */ lputl(datsize); /* data size */ lputl(0); /* sym size */ lputl(bsssize); /* bss size */ lputl(0); /* sym type */ lputl(INITTEXT-HEADR); /* text addr */ lputl(0); /* workspace - ignored */ lputl(32); /* addr mode / data addr flag */ lputl(0); /* data addr */ for(t=0; t<2; t++) lputl(0); /* reserved */ for(t=0; t<15; t++) lputl(0xe1a00000); /* NOP - zero init code */ lputl(0xe1a0f00e); /* B (R14) - zero init return */ break; case 2: /* plan 9 */ if(dlm) lput(0x80000000|0x647); /* magic */ else lput(0x647); /* magic */ lput(textsize); /* sizes */ lput(datsize); lput(bsssize); lput(symsize); /* nsyms */ lput(entryvalue()); /* va of entry */ lput(0L); lput(lcsize); break; case 3: /* boot for NetBSD */ lput((143<<16)|0413); /* magic */ lputl(rnd(HEADR+textsize, 4096)); lputl(rnd(datsize, 4096)); lputl(bsssize); lputl(symsize); /* nsyms */ lputl(entryvalue()); /* va of entry */ lputl(0L); lputl(0L); break; case 4: /* boot for IXP1200 */ break; case 5: /* boot for ipaq */ lputl(0xe3300000); /* nop */ lputl(0xe3300000); /* nop */ lputl(0xe3300000); /* nop */ lputl(0xe3300000); /* nop */ break; case 6: /* elf arm */ eh = getElfEhdr(); fo = HEADR; va = INITTEXT; startva = INITTEXT - fo; /* va of byte 0 of file */ w = textsize; /* This null SHdr must appear before all others */ sh = newElfShdr(elfstr[ElfStrEmpty]); /* program header info */ pph = newElfPhdr(); pph->type = PT_PHDR; pph->flags = PF_R + PF_X; pph->off = eh->ehsize; pph->vaddr = INITTEXT - HEADR + pph->off; pph->paddr = INITTEXT - HEADR + pph->off; pph->align = INITRND; if(!debug['d']) { /* interpreter for dynamic linking */ sh = newElfShdr(elfstr[ElfStrInterp]); sh->type = SHT_PROGBITS; sh->flags = SHF_ALLOC; sh->addralign = 1; elfinterp(sh, startva, linuxdynld); ph = newElfPhdr(); ph->type = PT_INTERP; ph->flags = PF_R; phsh(ph, sh); } ph = newElfPhdr(); ph->type = PT_LOAD; ph->flags = PF_X+PF_R; ph->vaddr = va; ph->paddr = va; ph->off = fo; ph->filesz = w; ph->memsz = w; ph->align = INITRND; fo = rnd(fo+w, INITRND); va = rnd(va+w, INITRND); w = datsize; ph = newElfPhdr(); ph->type = PT_LOAD; ph->flags = PF_W+PF_R; ph->off = fo; ph->vaddr = va; ph->paddr = va; ph->filesz = w; ph->memsz = w+bsssize; ph->align = INITRND; if(!debug['s']) { ph = newElfPhdr(); ph->type = PT_LOAD; ph->flags = PF_W+PF_R; ph->off = symo; ph->vaddr = symdatva; ph->paddr = symdatva; ph->filesz = 8+symsize+lcsize; ph->memsz = 8+symsize+lcsize; ph->align = INITRND; } /* Dynamic linking sections */ if (!debug['d']) { /* -d suppresses dynamic loader format */ /* S headers for dynamic linking */ sh = newElfShdr(elfstr[ElfStrGot]); sh->type = SHT_PROGBITS; sh->flags = SHF_ALLOC+SHF_WRITE; sh->entsize = 4; sh->addralign = 4; shsym(sh, lookup(".got", 0)); sh = newElfShdr(elfstr[ElfStrGotPlt]); sh->type = SHT_PROGBITS; sh->flags = SHF_ALLOC+SHF_WRITE; sh->entsize = 4; sh->addralign = 4; shsym(sh, lookup(".got.plt", 0)); dynsym = eh->shnum; sh = newElfShdr(elfstr[ElfStrDynsym]); sh->type = SHT_DYNSYM; sh->flags = SHF_ALLOC; sh->entsize = ELF32SYMSIZE; sh->addralign = 4; sh->link = dynsym+1; // dynstr // sh->info = index of first non-local symbol (number of local symbols) shsym(sh, lookup(".dynsym", 0)); sh = newElfShdr(elfstr[ElfStrDynstr]); sh->type = SHT_STRTAB; sh->flags = SHF_ALLOC; sh->addralign = 1; shsym(sh, lookup(".dynstr", 0)); sh = newElfShdr(elfstr[ElfStrHash]); sh->type = SHT_HASH; sh->flags = SHF_ALLOC; sh->entsize = 4; sh->addralign = 4; sh->link = dynsym; shsym(sh, lookup(".hash", 0)); sh = newElfShdr(elfstr[ElfStrRel]); sh->type = SHT_REL; sh->flags = SHF_ALLOC; sh->entsize = ELF32RELSIZE; sh->addralign = 4; sh->link = dynsym; shsym(sh, lookup(".rel", 0)); /* sh and PT_DYNAMIC for .dynamic section */ sh = newElfShdr(elfstr[ElfStrDynamic]); sh->type = SHT_DYNAMIC; sh->flags = SHF_ALLOC+SHF_WRITE; sh->entsize = 8; sh->addralign = 4; sh->link = dynsym+1; // dynstr shsym(sh, lookup(".dynamic", 0)); ph = newElfPhdr(); ph->type = PT_DYNAMIC; ph->flags = PF_R + PF_W; phsh(ph, sh); /* * Thread-local storage segment (really just size). if(tlsoffset != 0) { ph = newElfPhdr(); ph->type = PT_TLS; ph->flags = PF_R; ph->memsz = -tlsoffset; ph->align = 4; } */ } ph = newElfPhdr(); ph->type = PT_GNU_STACK; ph->flags = PF_W+PF_R; ph->align = 4; fo = ELFRESERVE; va = startva + fo; w = textsize; sh = newElfShdr(elfstr[ElfStrText]); sh->type = SHT_PROGBITS; sh->flags = SHF_ALLOC+SHF_EXECINSTR; sh->addr = va; sh->off = fo; sh->size = w; sh->addralign = 4; fo = rnd(fo+w, INITRND); va = rnd(va+w, INITRND); w = datsize; sh = newElfShdr(elfstr[ElfStrData]); sh->type = SHT_PROGBITS; sh->flags = SHF_WRITE+SHF_ALLOC; sh->addr = va; sh->off = fo; sh->size = w; sh->addralign = 4; fo += w; va += w; w = bsssize; sh = newElfShdr(elfstr[ElfStrBss]); sh->type = SHT_NOBITS; sh->flags = SHF_WRITE+SHF_ALLOC; sh->addr = va; sh->off = fo; sh->size = w; sh->addralign = 4; if (!debug['s']) { fo = symo+8; w = symsize; sh = newElfShdr(elfstr[ElfStrGosymtab]); sh->type = SHT_PROGBITS; sh->off = fo; sh->size = w; sh->addralign = 1; fo += w; w = lcsize; sh = newElfShdr(elfstr[ElfStrGopclntab]); sh->type = SHT_PROGBITS; sh->off = fo; sh->size = w; sh->addralign = 1; } sh = newElfShstrtab(elfstr[ElfStrShstrtab]); sh->type = SHT_STRTAB; sh->addralign = 1; shsym(sh, lookup(".shstrtab", 0)); /* Main header */ eh->ident[EI_MAG0] = '\177'; eh->ident[EI_MAG1] = 'E'; eh->ident[EI_MAG2] = 'L'; eh->ident[EI_MAG3] = 'F'; eh->ident[EI_CLASS] = ELFCLASS32; eh->ident[EI_DATA] = ELFDATA2LSB; eh->ident[EI_VERSION] = EV_CURRENT; eh->type = ET_EXEC; eh->machine = EM_ARM; eh->version = EV_CURRENT; eh->entry = entryvalue(); if(pph != nil) { pph->filesz = eh->phnum * eh->phentsize; pph->memsz = pph->filesz; } seek(cout, 0, 0); a = 0; a += elfwritehdr(); a += elfwritephdrs(); a += elfwriteshdrs(); cflush(); if(a+elfwriteinterp() > ELFRESERVE) diag("ELFRESERVE too small: %d > %d", a, ELFRESERVE); break; } cflush(); if(debug['c']){ print("textsize=%ld\n", textsize); print("datsize=%ld\n", datsize); print("bsssize=%ld\n", bsssize); print("symsize=%ld\n", symsize); print("lcsize=%ld\n", lcsize); print("total=%ld\n", textsize+datsize+bsssize+symsize+lcsize); } } void strnput(char *s, int n) { for(; *s; s++){ cput(*s); n--; } for(; n > 0; n--) cput(0); } void cput(int c) { cbp[0] = c; cbp++; cbc--; if(cbc <= 0) cflush(); } /* void cput(int32 c) { *cbp++ = c; if(--cbc <= 0) cflush(); } */ void wput(int32 l) { cbp[0] = l>>8; cbp[1] = l; cbp += 2; cbc -= 2; if(cbc <= 0) cflush(); } void wputl(ushort w) { cput(w); cput(w>>8); } void hput(int32 l) { cbp[0] = l>>8; cbp[1] = l; cbp += 2; cbc -= 2; if(cbc <= 0) cflush(); } void lput(int32 l) { cbp[0] = l>>24; cbp[1] = l>>16; cbp[2] = l>>8; cbp[3] = l; cbp += 4; cbc -= 4; if(cbc <= 0) cflush(); } void lputl(int32 l) { cbp[3] = l>>24; cbp[2] = l>>16; cbp[1] = l>>8; cbp[0] = l; cbp += 4; cbc -= 4; if(cbc <= 0) cflush(); } void cflush(void) { int n; /* no bug if cbc < 0 since obuf(cbuf) followed by ibuf in buf! */ n = sizeof(buf.cbuf) - cbc; if(n) write(cout, buf.cbuf, n); cbp = buf.cbuf; cbc = sizeof(buf.cbuf); } void nopstat(char *f, Count *c) { if(c->outof) Bprint(&bso, "%s delay %ld/%ld (%.2f)\n", f, c->outof - c->count, c->outof, (double)(c->outof - c->count)/c->outof); } 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; hlink) 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 SSTRING: putsymb(s->name, 'T', s->value, 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->asym->name, 'z', a->aoffset, 0); else if(a->type == D_FILE1) putsymb(a->asym->name, 'Z', a->aoffset, 0); if(!s->reachable) continue; 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+4, 0); for(a=p->to.autom; a; a=a->link) if(a->type == D_AUTO) putsymb(a->asym->name, 'a', -a->aoffset, 0); else if(a->type == D_PARAM) putsymb(a->asym->name, 'p', a->aoffset, 0); } if(debug['v'] || debug['n']) Bprint(&bso, "symsize = %lud\n", symsize); Bflush(&bso); } void putsymb(char *s, int t, int32 v, int ver) { int i, f; if(t == 'f') s++; lput(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); } // TODO(rsc): handle go parameter lput(0); symsize += 4 + 1 + i + 1 + 4; 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) { int32 oldpc, oldlc; Prog *p; int32 v, s; oldpc = INITTEXT; oldlc = 0; for(p = firstp; p != P; p = p->link) { setarch(p); 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); } static void outt(int32 f, int32 l) { if(debug['L']) Bprint(&bso, "tmap: %lux-%lux\n", f, l); lput(f); lput(l); } void asmthumbmap(void) { int32 pc, lastt; Prog *p; if(!seenthumb) return; pc = 0; lastt = -1; for(p = firstp; p != P; p = p->link){ pc = p->pc - INITTEXT; if(p->as == ATEXT){ setarch(p); if(thumb){ if(p->from.sym->foreign){ // 8 bytes of ARM first if(lastt >= 0){ outt(lastt, pc-1); lastt = -1; } pc += 8; } if(lastt < 0) lastt = pc; } else{ if(p->from.sym->foreign){ // 4 bytes of THUMB first if(lastt < 0) lastt = pc; pc += 4; } if(lastt >= 0){ outt(lastt, pc-1); lastt = -1; } } } } if(lastt >= 0) outt(lastt, pc+1); } void datblk(int32 s, int32 n, int str) { Sym *v; Prog *p; char *cast; int32 a, l, fl, j, d; int i, c; memset(buf.dbuf, 0, n+100); for(p = datap; p != P; p = p->link) { if(str != (p->from.sym->type == SSTRING)) continue; curp = p; a = p->from.sym->value + p->from.offset; l = a - 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%P", p); break; case D_FCONST: switch(c) { default: case 4: fl = ieeedtof(p->to.ieee); cast = (char*)&fl; for(; ito.ieee; for(; ito.sval[i]; l++; } break; case D_CONST: d = p->to.offset; v = p->to.sym; if(v) { switch(v->type) { case SUNDEF: ckoff(v, d); d += v->value; break; case STEXT: case SLEAF: d += v->value; #ifdef CALLEEBX d += fnpinc(v); #else if(v->thumb) d++; // T bit #endif break; case SSTRING: d += v->value; break; case SDATA: case SBSS: if(p->to.type == D_SIZE) d += v->size; else d += v->value + INITDAT; break; } if(dlm) dynreloc(v, a+INITDAT, 1); } cast = (char*)&d; switch(c) { default: diag("bad nuxi %d %d%P", c, i, curp); break; case 1: for(; ito.sbig[i]; l++; } break; } } write(cout, buf.dbuf, n); } void asmout(Prog *p, Optab *o) { int32 o1, o2, o3, o4, o5, o6, v; int r, rf, rt, rt2; Sym *s; PP = p; o1 = 0; o2 = 0; o3 = 0; o4 = 0; o5 = 0; o6 = 0; armsize += o->size; if(debug['P']) print("%ulx: %P type %d\n", (uint32)(p->pc), p, o->type); switch(o->type) { default: diag("unknown asm %d", o->type); prasm(p); break; case 0: /* pseudo ops */ if(debug['G']) print("%ulx: %s: arm %d %d %d %d\n", (uint32)(p->pc), p->from.sym->name, p->from.sym->thumb, p->from.sym->foreign, p->from.sym->fnptr, p->from.sym->used); break; case 1: /* op R,[R],R */ o1 = oprrr(p->as, p->scond); rf = p->from.reg; rt = p->to.reg; r = p->reg; if(p->to.type == D_NONE) rt = 0; if(p->as == AMOVW || p->as == AMVN) r = 0; else if(r == NREG) r = rt; o1 |= rf | (r<<16) | (rt<<12); break; case 2: /* movbu $I,[R],R */ aclass(&p->from); o1 = oprrr(p->as, p->scond); o1 |= immrot(instoffset); rt = p->to.reg; r = p->reg; if(p->to.type == D_NONE) rt = 0; if(p->as == AMOVW || p->as == AMVN) r = 0; else if(r == NREG) r = rt; o1 |= (r<<16) | (rt<<12); break; case 3: /* add R<<[IR],[R],R */ mov: aclass(&p->from); o1 = oprrr(p->as, p->scond); o1 |= p->from.offset; rt = p->to.reg; r = p->reg; if(p->to.type == D_NONE) rt = 0; if(p->as == AMOVW || p->as == AMVN) r = 0; else if(r == NREG) r = rt; o1 |= (r<<16) | (rt<<12); break; case 4: /* add $I,[R],R */ aclass(&p->from); o1 = oprrr(AADD, p->scond); o1 |= immrot(instoffset); r = p->from.reg; if(r == NREG) r = o->param; o1 |= r << 16; o1 |= p->to.reg << 12; break; case 5: /* bra s */ v = -8; if(p->cond == UP) { s = p->to.sym; if(s->type != SUNDEF) diag("bad branch sym type"); v = (uint32)s->value >> (Roffset-2); dynreloc(s, p->pc, 0); } else if(p->cond != P) v = (p->cond->pc - pc) - 8; #ifdef CALLEEBX if(p->as == ABL) v += fninc(p->to.sym); #endif o1 = opbra(p->as, p->scond); o1 |= (v >> 2) & 0xffffff; break; case 6: /* b ,O(R) -> add $O,R,PC */ aclass(&p->to); o1 = oprrr(AADD, p->scond); o1 |= immrot(instoffset); o1 |= p->to.reg << 16; o1 |= REGPC << 12; break; case 7: /* bl ,O(R) -> mov PC,link; add $O,R,PC */ aclass(&p->to); o1 = oprrr(AADD, p->scond); o1 |= immrot(0); o1 |= REGPC << 16; o1 |= REGLINK << 12; o2 = oprrr(AADD, p->scond); o2 |= immrot(instoffset); o2 |= p->to.reg << 16; o2 |= REGPC << 12; break; case 8: /* sll $c,[R],R -> mov (R<<$c),R */ aclass(&p->from); o1 = oprrr(p->as, p->scond); r = p->reg; if(r == NREG) r = p->to.reg; o1 |= r; o1 |= (instoffset&31) << 7; o1 |= p->to.reg << 12; break; case 9: /* sll R,[R],R -> mov (R<as, p->scond); r = p->reg; if(r == NREG) r = p->to.reg; o1 |= r; o1 |= (p->from.reg << 8) | (1<<4); o1 |= p->to.reg << 12; break; case 10: /* swi [$con] */ o1 = oprrr(p->as, p->scond); if(p->to.type != D_NONE) { aclass(&p->to); o1 |= instoffset & 0xffffff; } break; case 11: /* word */ switch(aclass(&p->to)) { case C_LCON: if(!dlm) break; if(p->to.name != D_EXTERN && p->to.name != D_STATIC) break; case C_ADDR: if(p->to.sym->type == SUNDEF) ckoff(p->to.sym, p->to.offset); dynreloc(p->to.sym, p->pc, 1); } o1 = instoffset; break; case 12: /* movw $lcon, reg */ o1 = omvl(p, &p->from, p->to.reg); break; case 13: /* op $lcon, [R], R */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; o2 = oprrr(p->as, p->scond); o2 |= REGTMP; r = p->reg; if(p->as == AMOVW || p->as == AMVN) r = 0; else if(r == NREG) r = p->to.reg; o2 |= r << 16; if(p->to.type != D_NONE) o2 |= p->to.reg << 12; break; case 14: /* movb/movbu/movh/movhu R,R */ o1 = oprrr(ASLL, p->scond); if(p->as == AMOVBU || p->as == AMOVHU) o2 = oprrr(ASRL, p->scond); else o2 = oprrr(ASRA, p->scond); r = p->to.reg; o1 |= (p->from.reg)|(r<<12); o2 |= (r)|(r<<12); if(p->as == AMOVB || p->as == AMOVBU) { o1 |= (24<<7); o2 |= (24<<7); } else { o1 |= (16<<7); o2 |= (16<<7); } break; case 15: /* mul r,[r,]r */ o1 = oprrr(p->as, p->scond); rf = p->from.reg; rt = p->to.reg; r = p->reg; if(r == NREG) r = rt; if(rt == r) { r = rf; rf = rt; } if(0) if(rt == r || rf == REGPC || r == REGPC || rt == REGPC) { diag("bad registers in MUL"); prasm(p); } o1 |= (rf<<8) | r | (rt<<16); break; case 16: /* div r,[r,]r */ o1 = 0xf << 28; o2 = 0; break; case 17: o1 = oprrr(p->as, p->scond); rf = p->from.reg; rt = p->to.reg; rt2 = p->to.offset; r = p->reg; o1 |= (rf<<8) | r | (rt<<16) | (rt2<<12); break; case 20: /* mov/movb/movbu R,O(R) */ aclass(&p->to); r = p->to.reg; if(r == NREG) r = o->param; o1 = osr(p->as, p->from.reg, instoffset, r, p->scond); break; case 21: /* mov/movbu O(R),R -> lr */ aclass(&p->from); r = p->from.reg; if(r == NREG) r = o->param; o1 = olr(instoffset, r, p->to.reg, p->scond); if(p->as != AMOVW) o1 |= 1<<22; break; case 22: /* movb/movh/movhu O(R),R -> lr,shl,shr */ aclass(&p->from); r = p->from.reg; if(r == NREG) r = o->param; o1 = olr(instoffset, r, p->to.reg, p->scond); o2 = oprrr(ASLL, p->scond); o3 = oprrr(ASRA, p->scond); r = p->to.reg; if(p->as == AMOVB) { o2 |= (24<<7)|(r)|(r<<12); o3 |= (24<<7)|(r)|(r<<12); } else { o2 |= (16<<7)|(r)|(r<<12); if(p->as == AMOVHU) o3 = oprrr(ASRL, p->scond); o3 |= (16<<7)|(r)|(r<<12); } break; case 23: /* movh/movhu R,O(R) -> sb,sb */ aclass(&p->to); r = p->to.reg; if(r == NREG) r = o->param; o1 = osr(AMOVH, p->from.reg, instoffset, r, p->scond); o2 = oprrr(ASRL, p->scond); o2 |= (8<<7)|(p->from.reg)|(REGTMP<<12); o3 = osr(AMOVH, REGTMP, instoffset+1, r, p->scond); break; case 30: /* mov/movb/movbu R,L(R) */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; r = p->to.reg; if(r == NREG) r = o->param; o2 = osrr(p->from.reg, REGTMP,r, p->scond); if(p->as != AMOVW) o2 |= 1<<22; break; case 31: /* mov/movbu L(R),R -> lr[b] */ case 32: /* movh/movb L(R),R -> lr[b] */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; r = p->from.reg; if(r == NREG) r = o->param; o2 = olrr(REGTMP,r, p->to.reg, p->scond); if(p->as == AMOVBU || p->as == AMOVB) o2 |= 1<<22; if(o->type == 31) break; o3 = oprrr(ASLL, p->scond); if(p->as == AMOVBU || p->as == AMOVHU) o4 = oprrr(ASRL, p->scond); else o4 = oprrr(ASRA, p->scond); r = p->to.reg; o3 |= (r)|(r<<12); o4 |= (r)|(r<<12); if(p->as == AMOVB || p->as == AMOVBU) { o3 |= (24<<7); o4 |= (24<<7); } else { o3 |= (16<<7); o4 |= (16<<7); } break; case 33: /* movh/movhu R,L(R) -> sb, sb */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; r = p->to.reg; if(r == NREG) r = o->param; o2 = osrr(p->from.reg, REGTMP, r, p->scond); o2 |= (1<<22) ; o3 = oprrr(ASRL, p->scond); o3 |= (8<<7)|(p->from.reg)|(p->from.reg<<12); o3 |= (1<<6); /* ROR 8 */ o4 = oprrr(AADD, p->scond); o4 |= (REGTMP << 12) | (REGTMP << 16); o4 |= immrot(1); o5 = osrr(p->from.reg, REGTMP,r,p->scond); o5 |= (1<<22); o6 = oprrr(ASRL, p->scond); o6 |= (24<<7)|(p->from.reg)|(p->from.reg<<12); o6 |= (1<<6); /* ROL 8 */ break; case 34: /* mov $lacon,R */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; o2 = oprrr(AADD, p->scond); o2 |= REGTMP; r = p->from.reg; if(r == NREG) r = o->param; o2 |= r << 16; if(p->to.type != D_NONE) o2 |= p->to.reg << 12; break; case 35: /* mov PSR,R */ o1 = (2<<23) | (0xf<<16) | (0<<0); o1 |= (p->scond & C_SCOND) << 28; o1 |= (p->from.reg & 1) << 22; o1 |= p->to.reg << 12; break; case 36: /* mov R,PSR */ o1 = (2<<23) | (0x29f<<12) | (0<<4); if(p->scond & C_FBIT) o1 ^= 0x010 << 12; o1 |= (p->scond & C_SCOND) << 28; o1 |= (p->to.reg & 1) << 22; o1 |= p->from.reg << 0; break; case 37: /* mov $con,PSR */ aclass(&p->from); o1 = (2<<23) | (0x29f<<12) | (0<<4); if(p->scond & C_FBIT) o1 ^= 0x010 << 12; o1 |= (p->scond & C_SCOND) << 28; o1 |= immrot(instoffset); o1 |= (p->to.reg & 1) << 22; o1 |= p->from.reg << 0; break; case 38: /* movm $con,oreg -> stm */ o1 = (0x4 << 25); o1 |= p->from.offset & 0xffff; o1 |= p->to.reg << 16; aclass(&p->to); goto movm; case 39: /* movm oreg,$con -> ldm */ o1 = (0x4 << 25) | (1 << 20); o1 |= p->to.offset & 0xffff; o1 |= p->from.reg << 16; aclass(&p->from); movm: if(instoffset != 0) diag("offset must be zero in MOVM"); o1 |= (p->scond & C_SCOND) << 28; if(p->scond & C_PBIT) o1 |= 1 << 24; if(p->scond & C_UBIT) o1 |= 1 << 23; if(p->scond & C_SBIT) o1 |= 1 << 22; if(p->scond & C_WBIT) o1 |= 1 << 21; break; case 40: /* swp oreg,reg,reg */ aclass(&p->from); if(instoffset != 0) diag("offset must be zero in SWP"); o1 = (0x2<<23) | (0x9<<4); if(p->as != ASWPW) o1 |= 1 << 22; o1 |= p->from.reg << 16; o1 |= p->reg << 0; o1 |= p->to.reg << 12; o1 |= (p->scond & C_SCOND) << 28; break; case 41: /* rfe -> movm.s.w.u 0(r13),[r15] */ o1 = 0xe8fd8000; break; case 50: /* floating point store */ v = regoff(&p->to); r = p->to.reg; if(r == NREG) r = o->param; o1 = ofsr(p->as, p->from.reg, v, r, p->scond, p); break; case 51: /* floating point load */ v = regoff(&p->from); r = p->from.reg; if(r == NREG) r = o->param; o1 = ofsr(p->as, p->to.reg, v, r, p->scond, p) | (1<<20); break; case 52: /* floating point store, int32 offset UGLY */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; r = p->to.reg; if(r == NREG) r = o->param; o2 = oprrr(AADD, p->scond) | (REGTMP << 12) | (REGTMP << 16) | r; o3 = ofsr(p->as, p->from.reg, 0, REGTMP, p->scond, p); break; case 53: /* floating point load, int32 offset UGLY */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; r = p->from.reg; if(r == NREG) r = o->param; o2 = oprrr(AADD, p->scond) | (REGTMP << 12) | (REGTMP << 16) | r; o3 = ofsr(p->as, p->to.reg, 0, REGTMP, p->scond, p) | (1<<20); break; case 54: /* floating point arith */ o1 = oprrr(p->as, p->scond); if(p->from.type == D_FCONST) { rf = chipfloat(p->from.ieee); if(rf < 0){ diag("invalid floating-point immediate\n%P", p); rf = 0; } rf |= (1<<3); } else rf = p->from.reg; rt = p->to.reg; r = p->reg; if(p->to.type == D_NONE) rt = 0; /* CMP[FD] */ else if(o1 & (1<<15)) r = 0; /* monadic */ else if(r == NREG) r = rt; o1 |= rf | (r<<16) | (rt<<12); break; case 55: /* floating point fix and float */ o1 = oprrr(p->as, p->scond); rf = p->from.reg; rt = p->to.reg; if(p->to.type == D_NONE){ rt = 0; diag("to.type==D_NONE (asm/fp)"); } if(p->from.type == D_REG) o1 |= (rf<<12) | (rt<<16); else o1 |= rf | (rt<<12); break; case 56: /* move to FP[CS]R */ o1 = ((p->scond & C_SCOND) << 28) | (0xe << 24) | (1<<8) | (1<<4); o1 |= ((p->to.reg+1)<<21) | (p->from.reg << 12); break; case 57: /* move from FP[CS]R */ o1 = ((p->scond & C_SCOND) << 28) | (0xe << 24) | (1<<8) | (1<<4); o1 |= ((p->from.reg+1)<<21) | (p->to.reg<<12) | (1<<20); break; case 58: /* movbu R,R */ o1 = oprrr(AAND, p->scond); o1 |= immrot(0xff); rt = p->to.reg; r = p->from.reg; if(p->to.type == D_NONE) rt = 0; if(r == NREG) r = rt; o1 |= (r<<16) | (rt<<12); break; case 59: /* movw/bu R< ldr indexed */ if(p->from.reg == NREG) { if(p->as != AMOVW) diag("byte MOV from shifter operand"); goto mov; } if(p->from.offset&(1<<4)) diag("bad shift in LDR"); o1 = olrr(p->from.offset, p->from.reg, p->to.reg, p->scond); if(p->as == AMOVBU) o1 |= 1<<22; break; case 60: /* movb R(R),R -> ldrsb indexed */ if(p->from.reg == NREG) { diag("byte MOV from shifter operand"); goto mov; } if(p->from.offset&(~0xf)) diag("bad shift in LDRSB"); o1 = olhrr(p->from.offset, p->from.reg, p->to.reg, p->scond); o1 ^= (1<<5)|(1<<6); break; case 61: /* movw/b/bu R,R<<[IR](R) -> str indexed */ if(p->to.reg == NREG) diag("MOV to shifter operand"); o1 = osrr(p->from.reg, p->to.offset, p->to.reg, p->scond); if(p->as == AMOVB || p->as == AMOVBU) o1 |= 1<<22; break; case 62: /* case R -> movw R<<2(PC),PC */ o1 = olrr(p->from.reg, REGPC, REGPC, p->scond); o1 |= 2<<7; break; case 63: /* bcase */ if(p->cond != P) { o1 = p->cond->pc; if(dlm) dynreloc(S, p->pc, 1); } break; /* reloc ops */ case 64: /* mov/movb/movbu R,addr */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; o2 = osr(p->as, p->from.reg, 0, REGTMP, p->scond); break; case 65: /* mov/movbu addr,R */ case 66: /* movh/movhu/movb addr,R */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; o2 = olr(0, REGTMP, p->to.reg, p->scond); if(p->as == AMOVBU || p->as == AMOVB) o2 |= 1<<22; if(o->type == 65) break; o3 = oprrr(ASLL, p->scond); if(p->as == AMOVBU || p->as == AMOVHU) o4 = oprrr(ASRL, p->scond); else o4 = oprrr(ASRA, p->scond); r = p->to.reg; o3 |= (r)|(r<<12); o4 |= (r)|(r<<12); if(p->as == AMOVB || p->as == AMOVBU) { o3 |= (24<<7); o4 |= (24<<7); } else { o3 |= (16<<7); o4 |= (16<<7); } break; case 67: /* movh/movhu R,addr -> sb, sb */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; o2 = osr(p->as, p->from.reg, 0, REGTMP, p->scond); o3 = oprrr(ASRL, p->scond); o3 |= (8<<7)|(p->from.reg)|(p->from.reg<<12); o3 |= (1<<6); /* ROR 8 */ o4 = oprrr(AADD, p->scond); o4 |= (REGTMP << 12) | (REGTMP << 16); o4 |= immrot(1); o5 = osr(p->as, p->from.reg, 0, REGTMP, p->scond); o6 = oprrr(ASRL, p->scond); o6 |= (24<<7)|(p->from.reg)|(p->from.reg<<12); o6 |= (1<<6); /* ROL 8 */ break; case 68: /* floating point store -> ADDR */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; o2 = ofsr(p->as, p->from.reg, 0, REGTMP, p->scond, p); break; case 69: /* floating point load <- ADDR */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; o2 = ofsr(p->as, p->to.reg, 0, REGTMP, p->scond, p) | (1<<20); break; /* ArmV4 ops: */ case 70: /* movh/movhu R,O(R) -> strh */ aclass(&p->to); r = p->to.reg; if(r == NREG) r = o->param; o1 = oshr(p->from.reg, instoffset, r, p->scond); break; case 71: /* movb/movh/movhu O(R),R -> ldrsb/ldrsh/ldrh */ aclass(&p->from); r = p->from.reg; if(r == NREG) r = o->param; o1 = olhr(instoffset, r, p->to.reg, p->scond); if(p->as == AMOVB) o1 ^= (1<<5)|(1<<6); else if(p->as == AMOVH) o1 ^= (1<<6); break; case 72: /* movh/movhu R,L(R) -> strh */ o1 = omvl(p, &p->to, REGTMP); if(!o1) break; r = p->to.reg; if(r == NREG) r = o->param; o2 = oshrr(p->from.reg, REGTMP,r, p->scond); break; case 73: /* movb/movh/movhu L(R),R -> ldrsb/ldrsh/ldrh */ o1 = omvl(p, &p->from, REGTMP); if(!o1) break; r = p->from.reg; if(r == NREG) r = o->param; o2 = olhrr(REGTMP, r, p->to.reg, p->scond); if(p->as == AMOVB) o2 ^= (1<<5)|(1<<6); else if(p->as == AMOVH) o2 ^= (1<<6); break; case 74: /* bx $I */ #ifdef CALLEEBX diag("bx $i case (arm)"); #endif if(!seenthumb) diag("ABX $I and seenthumb==0"); v = p->cond->pc; if(p->to.sym->thumb) v |= 1; // T bit o1 = olr(8, REGPC, REGTMP, p->scond&C_SCOND); // mov 8(PC), Rtmp o2 = oprrr(AADD, p->scond) | immrot(8) | (REGPC<<16) | (REGLINK<<12); // add 8,PC, LR o3 = ((p->scond&C_SCOND)<<28) | (0x12fff<<8) | (1<<4) | REGTMP; // bx Rtmp o4 = opbra(AB, 14); // B over o6 o5 = v; break; case 75: /* bx O(R) */ aclass(&p->to); if(instoffset != 0) diag("non-zero offset in ABX"); /* o1 = oprrr(AADD, p->scond) | immrot(0) | (REGPC<<16) | (REGLINK<<12); // mov PC, LR o2 = ((p->scond&C_SCOND)<<28) | (0x12fff<<8) | (1<<4) | p->to.reg; // BX R */ // p->to.reg may be REGLINK o1 = oprrr(AADD, p->scond); o1 |= immrot(instoffset); o1 |= p->to.reg << 16; o1 |= REGTMP << 12; o2 = oprrr(AADD, p->scond) | immrot(0) | (REGPC<<16) | (REGLINK<<12); // mov PC, LR o3 = ((p->scond&C_SCOND)<<28) | (0x12fff<<8) | (1<<4) | REGTMP; // BX Rtmp break; case 76: /* bx O(R) when returning from fn*/ if(!seenthumb) diag("ABXRET and seenthumb==0"); aclass(&p->to); // print("ARM BXRET %d(R%d)\n", instoffset, p->to.reg); if(instoffset != 0) diag("non-zero offset in ABXRET"); // o1 = olr(instoffset, p->to.reg, REGTMP, p->scond); // mov O(R), Rtmp o1 = ((p->scond&C_SCOND)<<28) | (0x12fff<<8) | (1<<4) | p->to.reg; // BX R break; case 77: /* ldrex oreg,reg */ aclass(&p->from); if(instoffset != 0) diag("offset must be zero in LDREX"); o1 = (0x19<<20) | (0xf9f); o1 |= p->from.reg << 16; o1 |= p->to.reg << 12; o1 |= (p->scond & C_SCOND) << 28; break; case 78: /* strex reg,oreg,reg */ aclass(&p->from); if(instoffset != 0) diag("offset must be zero in STREX"); o1 = (0x3<<23) | (0xf9<<4); o1 |= p->from.reg << 16; o1 |= p->reg << 0; o1 |= p->to.reg << 12; o1 |= (p->scond & C_SCOND) << 28; break; } v = p->pc; switch(o->size) { default: if(debug['a']) Bprint(&bso, " %.8lux:\t\t%P\n", v, p); break; case 4: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux\t%P\n", v, o1, p); lputl(o1); break; case 8: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux%P\n", v, o1, o2, p); lputl(o1); lputl(o2); break; case 12: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, p); lputl(o1); lputl(o2); lputl(o3); break; case 16: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, o4, p); lputl(o1); lputl(o2); lputl(o3); lputl(o4); break; case 20: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, o4, o5, p); lputl(o1); lputl(o2); lputl(o3); lputl(o4); lputl(o5); break; case 24: if(debug['a']) Bprint(&bso, " %.8lux: %.8lux %.8lux %.8lux %.8lux %.8lux %.8lux%P\n", v, o1, o2, o3, o4, o5, o6, p); lputl(o1); lputl(o2); lputl(o3); lputl(o4); lputl(o5); lputl(o6); break; } } int32 oprrr(int a, int sc) { int32 o; o = (sc & C_SCOND) << 28; if(sc & C_SBIT) o |= 1 << 20; if(sc & (C_PBIT|C_WBIT)) diag(".P/.W on dp instruction"); switch(a) { case AMULU: case AMUL: return o | (0x0<<21) | (0x9<<4); case AMULA: return o | (0x1<<21) | (0x9<<4); case AMULLU: return o | (0x4<<21) | (0x9<<4); case AMULL: return o | (0x6<<21) | (0x9<<4); case AMULALU: return o | (0x5<<21) | (0x9<<4); case AMULAL: return o | (0x7<<21) | (0x9<<4); case AAND: return o | (0x0<<21); case AEOR: return o | (0x1<<21); case ASUB: return o | (0x2<<21); case ARSB: return o | (0x3<<21); case AADD: return o | (0x4<<21); case AADC: return o | (0x5<<21); case ASBC: return o | (0x6<<21); case ARSC: return o | (0x7<<21); case ATST: return o | (0x8<<21) | (1<<20); case ATEQ: return o | (0x9<<21) | (1<<20); case ACMP: return o | (0xa<<21) | (1<<20); case ACMN: return o | (0xb<<21) | (1<<20); case AORR: return o | (0xc<<21); case AMOVW: return o | (0xd<<21); case ABIC: return o | (0xe<<21); case AMVN: return o | (0xf<<21); case ASLL: return o | (0xd<<21) | (0<<5); case ASRL: return o | (0xd<<21) | (1<<5); case ASRA: return o | (0xd<<21) | (2<<5); case ASWI: return o | (0xf<<24); case AADDD: return o | (0xe<<24) | (0x0<<20) | (1<<8) | (1<<7); case AADDF: return o | (0xe<<24) | (0x0<<20) | (1<<8); case AMULD: return o | (0xe<<24) | (0x1<<20) | (1<<8) | (1<<7); case AMULF: return o | (0xe<<24) | (0x1<<20) | (1<<8); case ASUBD: return o | (0xe<<24) | (0x2<<20) | (1<<8) | (1<<7); case ASUBF: return o | (0xe<<24) | (0x2<<20) | (1<<8); case ADIVD: return o | (0xe<<24) | (0x4<<20) | (1<<8) | (1<<7); case ADIVF: return o | (0xe<<24) | (0x4<<20) | (1<<8); case ACMPD: case ACMPF: return o | (0xe<<24) | (0x9<<20) | (0xF<<12) | (1<<8) | (1<<4); /* arguably, ACMPF should expand to RNDF, CMPD */ case AMOVF: case AMOVDF: return o | (0xe<<24) | (0x0<<20) | (1<<15) | (1<<8); case AMOVD: case AMOVFD: return o | (0xe<<24) | (0x0<<20) | (1<<15) | (1<<8) | (1<<7); case AMOVWF: return o | (0xe<<24) | (0<<20) | (1<<8) | (1<<4); case AMOVWD: return o | (0xe<<24) | (0<<20) | (1<<8) | (1<<4) | (1<<7); case AMOVFW: return o | (0xe<<24) | (1<<20) | (1<<8) | (1<<4); case AMOVDW: return o | (0xe<<24) | (1<<20) | (1<<8) | (1<<4) | (1<<7); } diag("bad rrr %d", a); prasm(curp); return 0; } int32 opbra(int a, int sc) { if(sc & (C_SBIT|C_PBIT|C_WBIT)) diag(".S/.P/.W on bra instruction"); sc &= C_SCOND; if(a == ABL) return (sc<<28)|(0x5<<25)|(0x1<<24); if(sc != 0xe) diag(".COND on bcond instruction"); switch(a) { case ABEQ: return (0x0<<28)|(0x5<<25); case ABNE: return (0x1<<28)|(0x5<<25); case ABCS: return (0x2<<28)|(0x5<<25); case ABHS: return (0x2<<28)|(0x5<<25); case ABCC: return (0x3<<28)|(0x5<<25); case ABLO: return (0x3<<28)|(0x5<<25); case ABMI: return (0x4<<28)|(0x5<<25); case ABPL: return (0x5<<28)|(0x5<<25); case ABVS: return (0x6<<28)|(0x5<<25); case ABVC: return (0x7<<28)|(0x5<<25); case ABHI: return (0x8<<28)|(0x5<<25); case ABLS: return (0x9<<28)|(0x5<<25); case ABGE: return (0xa<<28)|(0x5<<25); case ABLT: return (0xb<<28)|(0x5<<25); case ABGT: return (0xc<<28)|(0x5<<25); case ABLE: return (0xd<<28)|(0x5<<25); case AB: return (0xe<<28)|(0x5<<25); } diag("bad bra %A", a); prasm(curp); return 0; } int32 olr(int32 v, int b, int r, int sc) { int32 o; if(sc & C_SBIT) diag(".S on LDR/STR instruction"); o = (sc & C_SCOND) << 28; if(!(sc & C_PBIT)) o |= 1 << 24; if(!(sc & C_UBIT)) o |= 1 << 23; if(sc & C_WBIT) o |= 1 << 21; o |= (0x1<<26) | (1<<20); if(v < 0) { v = -v; o ^= 1 << 23; } if(v >= (1<<12)) diag("literal span too large: %d (R%d)\n%P", v, b, PP); o |= v; o |= b << 16; o |= r << 12; return o; } int32 olhr(int32 v, int b, int r, int sc) { int32 o; if(sc & C_SBIT) diag(".S on LDRH/STRH instruction"); o = (sc & C_SCOND) << 28; if(!(sc & C_PBIT)) o |= 1 << 24; if(sc & C_WBIT) o |= 1 << 21; o |= (1<<23) | (1<<20)|(0xb<<4); if(v < 0) { v = -v; o ^= 1 << 23; } if(v >= (1<<8)) diag("literal span too large: %d (R%d)\n%P", v, b, PP); o |= (v&0xf)|((v>>4)<<8)|(1<<22); o |= b << 16; o |= r << 12; return o; } int32 osr(int a, int r, int32 v, int b, int sc) { int32 o; o = olr(v, b, r, sc) ^ (1<<20); if(a != AMOVW) o |= 1<<22; return o; } int32 oshr(int r, int32 v, int b, int sc) { int32 o; o = olhr(v, b, r, sc) ^ (1<<20); return o; } int32 osrr(int r, int i, int b, int sc) { return olr(i, b, r, sc) ^ ((1<<25) | (1<<20)); } int32 oshrr(int r, int i, int b, int sc) { return olhr(i, b, r, sc) ^ ((1<<22) | (1<<20)); } int32 olrr(int i, int b, int r, int sc) { return olr(i, b, r, sc) ^ (1<<25); } int32 olhrr(int i, int b, int r, int sc) { return olhr(i, b, r, sc) ^ (1<<22); } int32 ofsr(int a, int r, int32 v, int b, int sc, Prog *p) { int32 o; if(sc & C_SBIT) diag(".S on FLDR/FSTR instruction"); o = (sc & C_SCOND) << 28; if(!(sc & C_PBIT)) o |= 1 << 24; if(sc & C_WBIT) o |= 1 << 21; o |= (6<<25) | (1<<24) | (1<<23); if(v < 0) { v = -v; o ^= 1 << 23; } if(v & 3) diag("odd offset for floating point op: %d\n%P", v, p); else if(v >= (1<<10)) diag("literal span too large: %d\n%P", v, p); o |= (v>>2) & 0xFF; o |= b << 16; o |= r << 12; o |= 1 << 8; switch(a) { default: diag("bad fst %A", a); case AMOVD: o |= 1<<15; case AMOVF: break; } return o; } int32 omvl(Prog *p, Adr *a, int dr) { int32 v, o1; if(!p->cond) { aclass(a); v = immrot(~instoffset); if(v == 0) { diag("missing literal"); prasm(p); return 0; } o1 = oprrr(AMVN, p->scond&C_SCOND); o1 |= v; o1 |= dr << 12; } else { v = p->cond->pc - p->pc - 8; o1 = olr(v, REGPC, dr, p->scond&C_SCOND); } return o1; } static Ieee chipfloats[] = { {0x00000000, 0x00000000}, /* 0 */ {0x00000000, 0x3ff00000}, /* 1 */ {0x00000000, 0x40000000}, /* 2 */ {0x00000000, 0x40080000}, /* 3 */ {0x00000000, 0x40100000}, /* 4 */ {0x00000000, 0x40140000}, /* 5 */ {0x00000000, 0x3fe00000}, /* .5 */ {0x00000000, 0x40240000}, /* 10 */ }; int chipfloat(Ieee *e) { Ieee *p; int n; for(n = sizeof(chipfloats)/sizeof(chipfloats[0]); --n >= 0;){ p = &chipfloats[n]; if(p->l == e->l && p->h == e->h) return n; } return -1; }