src/libmach/symdwarf.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include <bio.h>
 #include <mach.h>
 #include "elf.h"
 #include "dwarf.h"

 static void	dwarfsymclose(Fhdr*);
 static int	dwarfpc2file(Fhdr*, u64int, char*, uint, ulong*);
 static int	dwarfline2pc(Fhdr*, u64int, ulong, u64int*);
 static int	dwarflookuplsym(Fhdr*, Symbol*, char*, Symbol*);
 static int	dwarfindexlsym(Fhdr*, Symbol*, uint, Symbol*);
 static int	dwarffindlsym(Fhdr*, Symbol*, Loc, Symbol*);
 static void	dwarfsyminit(Fhdr*);
 static int	dwarftosym(Fhdr*, Dwarf*, DwarfSym*, Symbol*, int);
 static int	_dwarfunwind(Fhdr *fhdr, Map *map, Regs *regs, u64int *next, Symbol*);

 int
 symdwarf(Fhdr *hdr)
 {
 	if(hdr->dwarf == nil){
 		werrstr("no dwarf debugging symbols");
 		return -1;
 	}

 	hdr->symclose = dwarfsymclose;
 	hdr->pc2file = dwarfpc2file;
 	hdr->line2pc = dwarfline2pc;
 	hdr->lookuplsym = dwarflookuplsym;
 	hdr->indexlsym = dwarfindexlsym;
 	hdr->findlsym = dwarffindlsym;
 	hdr->unwind = _dwarfunwind;
 	dwarfsyminit(hdr);

 	return 0;
 }

 static void
 dwarfsymclose(Fhdr *hdr)
 {
 	dwarfclose(hdr->dwarf);
 	hdr->dwarf = nil;
 }

 static int
 dwarfpc2file(Fhdr *fhdr, u64int pc, char *buf, uint nbuf, ulong *line)
 {
 	char *cdir, *dir, *file;

 	if(dwarfpctoline(fhdr->dwarf, pc, &cdir, &dir, &file, line, nil, nil) < 0)
 		return -1;

 	if(file[0] == '/' || (dir==nil && cdir==nil))
 		strecpy(buf, buf+nbuf, file);
 	else if((dir && dir[0] == '/') || cdir==nil)
 		snprint(buf, nbuf, "%s/%s", dir, file);
 	else
 		snprint(buf, nbuf, "%s/%s/%s", cdir, dir ? dir : "", file);
 	cleanname(buf);
 	return 0;;
 }

 static int
 dwarfline2pc(Fhdr *fhdr, u64int basepc, ulong line, u64int *pc)
 {
 	werrstr("dwarf line2pc not implemented");
 	return -1;
 }

 static uint
 typesize(Dwarf *dwarf, ulong unit, ulong tref, char *name)
 {
 	DwarfSym ds;

 top:
 	if(dwarfseeksym(dwarf, unit, tref-unit, &ds) < 0){
 	cannot:
 		fprint(2, "warning: cannot compute size of parameter %s (%lud %lud: %r)\n",
 			name, unit, tref);
 		return 0;
 	}

 	if(ds.attrs.have.bytesize)
 		return ds.attrs.bytesize;

 	switch(ds.attrs.tag){
 	case TagVolatileType:
 	case TagRestrictType:
 	case TagTypedef:
 		if(ds.attrs.have.type != TReference)
 			goto cannot;
 		tref = ds.attrs.type;
 		goto top;
 	}

 	goto cannot;
 }

 static int
 roundup(int s, int n)
 {
 	return (s+n-1)&~(n-1);
 }

 static int
 dwarflenum(Fhdr *fhdr, Symbol *p, char *name, uint j, Loc l, Symbol *s)
 {
 	int depth, bpoff;
 	DwarfSym ds;
 	Symbol s1;

 	if(p == nil)
 		return -1;

 	if(p->u.dwarf.unit == 0 && p->u.dwarf.uoff == 0)
 		return -1;

 	if(dwarfseeksym(fhdr->dwarf, p->u.dwarf.unit, p->u.dwarf.uoff, &ds) < 0)
 		return -1;

 	ds.depth = 1;
 	depth = 1;

 	bpoff = 8;
 	while(dwarfnextsym(fhdr->dwarf, &ds) == 1 && depth < ds.depth){
 		if(ds.attrs.tag != TagVariable){
 			if(ds.attrs.tag != TagFormalParameter
 			&& ds.attrs.tag != TagUnspecifiedParameters)
 				continue;
 			if(ds.depth != depth+1)
 				continue;
 		}
 		if(dwarftosym(fhdr, fhdr->dwarf, &ds, &s1, 1) < 0)
 			continue;
 		/* XXX move this out once there is another architecture */
 		/*
 		 * gcc tells us the registers where the parameters might be
 		 * held for an instruction or two.  use the parameter list to
 		 * recompute the actual stack locations.
 		 */
 		if(fhdr->mtype == M386)
 		if(ds.attrs.tag==TagFormalParameter || ds.attrs.tag==TagUnspecifiedParameters){
 			if(s1.loc.type==LOFFSET
 			&& strcmp(s1.loc.reg, "BP")==0
 			&& s1.loc.offset >= 8)
 				bpoff = s1.loc.offset;
 			else{
 				s1.loc.type = LOFFSET;
 				s1.loc.reg = "BP";
 				s1.loc.offset = bpoff;
 			}
 			if(ds.attrs.tag == TagFormalParameter){
 				if(ds.attrs.have.type)
 					bpoff += roundup(typesize(fhdr->dwarf, p->u.dwarf.unit, ds.attrs.type, s1.name), 4);
 				else
 					fprint(2, "warning: cannot compute size of parameter %s\n", s1.name);
 			}
 		}
 		if(name){
 			if(strcmp(ds.attrs.name, name) != 0)
 				continue;
 		}else if(l.type){
 			if(loccmp(&s1.loc, &l) != 0)
 				continue;
 		}else{
 			if(j-- > 0)
 				continue;
 		}
 		*s = s1;
 		return 0;
 	}
 	return -1;
 }

 static Loc zl;

 static int
 dwarflookuplsym(Fhdr *fhdr, Symbol *p, char *name, Symbol *s)
 {
 	return dwarflenum(fhdr, p, name, 0, zl, s);
 }

 static int
 dwarfindexlsym(Fhdr *fhdr, Symbol *p, uint i, Symbol *s)
 {
 	return dwarflenum(fhdr, p, nil, i, zl, s);
 }

 static int
 dwarffindlsym(Fhdr *fhdr, Symbol *p, Loc l, Symbol *s)
 {
 	return dwarflenum(fhdr, p, nil, 0, l, s);
 }

 static void
 dwarfsyminit(Fhdr *fp)
 {
 	Dwarf *d;
 	DwarfSym s;
 	Symbol sym;

 	d = fp->dwarf;
 	if(dwarfenum(d, &s) < 0)
 		return;

 	while(dwarfnextsymat(d, &s, 0) == 1)
 	while(dwarfnextsymat(d, &s, 1) == 1){
 		if(s.attrs.name == nil)
 			continue;
 		switch(s.attrs.tag){
 		case TagSubprogram:
 		case TagVariable:
 			if(dwarftosym(fp, d, &s, &sym, 0) < 0)
 				continue;
 			_addsym(fp, &sym);
 		}
 	}
 }

 static char*
 regname(Dwarf *d, int i)
 {
 	if(i < 0 || i >= d->nreg)
 		return nil;
 	return d->reg[i];
 }

 static int
 dwarftosym(Fhdr *fp, Dwarf *d, DwarfSym *ds, Symbol *s, int infn)
 {
 	DwarfBuf buf;
 	DwarfBlock b;

 	memset(s, 0, sizeof *s);
 	s->u.dwarf.uoff = ds->uoff;
 	s->u.dwarf.unit = ds->unit;
 	switch(ds->attrs.tag){
 	default:
 		return -1;
 	case TagUnspecifiedParameters:
 		ds->attrs.name = "...";
 		s->type = 'p';
 		goto sym;
 	case TagFormalParameter:
 		s->type = 'p';
 		s->class = CPARAM;
 		goto sym;
 	case TagSubprogram:
 		s->type = 't';
 		s->class = CTEXT;
 		goto sym;
 	case TagVariable:
 		if(infn){
 			s->type = 'a';
 			s->class = CAUTO;
 		}else{
 			s->type = 'd';
 			s->class = CDATA;
 		}
 	sym:
 		s->name = ds->attrs.name;
 		if(ds->attrs.have.lowpc){
 			s->loc.type = LADDR;
 			s->loc.addr = ds->attrs.lowpc;
 			if(ds->attrs.have.highpc){
 				s->hiloc.type = LADDR;
 				s->hiloc.addr = ds->attrs.highpc;
 			}
 		}else if(ds->attrs.have.location == TConstant){
 			s->loc.type = LADDR;
 			s->loc.addr = ds->attrs.location.c;
 		}else if(ds->attrs.have.location == TBlock){
 			b = ds->attrs.location.b;
 			if(b.len == 0)
 				return -1;
 			buf.p = b.data+1;
 			buf.ep = b.data+b.len;
 			buf.d = d;
 			buf.addrsize = 0;
 			if(b.data[0]==OpAddr){
 				if(b.len != 5)
 					return -1;
 				s->loc.type = LADDR;
 				s->loc.addr = dwarfgetaddr(&buf);
 			}else if(OpReg0 <= b.data[0] && b.data[0] < OpReg0+0x20){
 				if(b.len != 1 || (s->loc.reg = regname(d, b.data[0]-OpReg0)) == nil)
 					return -1;
 				s->loc.type = LREG;
 			}else if(OpBreg0 <= b.data[0] && b.data[0] < OpBreg0+0x20){
 				s->loc.type = LOFFSET;
 				s->loc.reg = regname(d, b.data[0]-0x70);
 				s->loc.offset = dwarfget128s(&buf);
 				if(s->loc.reg == nil)
 					return -1;
 			}else if(b.data[0] == OpRegx){
 				s->loc.type = LREG;
 				s->loc.reg = regname(d, dwarfget128(&buf));
 				if(s->loc.reg == nil)
 					return -1;
 			}else if(b.data[0] == OpFbreg){
 				s->loc.type = LOFFSET;
 				s->loc.reg = mach->fp;
 				s->loc.offset = dwarfget128s(&buf);
 			}else if(b.data[0] == OpBregx){
 				s->loc.type = LOFFSET;
 				s->loc.reg = regname(d, dwarfget128(&buf));
 				s->loc.offset = dwarfget128s(&buf);
 				if(s->loc.reg == nil)
 					return -1;
 			}else
 				s->loc.type = LNONE;
 			if(buf.p != buf.ep)
 				s->loc.type = LNONE;
 		}else
 			return -1;
 		if(ds->attrs.isexternal)
 			s->type += 'A' - 'a';
 		if(ds->attrs.tag==TagVariable && s->loc.type==LADDR && s->loc.addr>=fp->dataddr+fp->datsz)
 			s->type += 'b' - 'd';
 		s->fhdr = fp;
 		return 0;
 	}
 }

 static int
 dwarfeval(Dwarf *d, Map *map, Regs *regs, ulong cfa, int rno, DwarfExpr e, u64int *u)
 {
 	int i;
 	u32int u4;
 	u64int uu;

 	switch(e.type){
 	case RuleUndef:
 		*u = 0;
 		return 0;
 	case RuleSame:
 		if(rno == -1){
 			werrstr("pc cannot be `same'");
 			return -1;
 		}
 		return rget(regs, regname(d, rno), u);
 	case RuleRegister:
 		if((i = windindex(regname(d, e.reg))) < 0)
 			return -1;
 		return rget(regs, regname(d, i), u);
 	case RuleCfaOffset:
 		if(cfa == 0){
 			werrstr("unknown cfa");
 			return -1;
 		}
 		if(get4(map, cfa + e.offset, &u4) < 0)
 			return -1;
 		*u = u4;
 		return 0;
 	case RuleRegOff:
 		if(rget(regs, regname(d, e.reg), &uu) < 0)
 			return -1;
 		if(get4(map, uu+e.offset, &u4) < 0)
 			return -1;
 		*u = u4;
 		return 0;
 	case RuleLocation:
 		werrstr("not evaluating dwarf loc expressions");
 		return -1;
 	}
 	werrstr("not reached in dwarfeval");
 	return -1;
 }

 #if 0
 static int
 dwarfexprfmt(Fmt *fmt)
 {
 	DwarfExpr *e;

 	if((e = va_arg(fmt->args, DwarfExpr*)) == nil)
 		return fmtstrcpy(fmt, "<nil>");

 	switch(e->type){
 	case RuleUndef:
 		return fmtstrcpy(fmt, "undef");
 	case RuleSame:
 		return fmtstrcpy(fmt, "same");
 	case RuleCfaOffset:
 		return fmtprint(fmt, "%ld(cfa)", e->offset);
 	case RuleRegister:
 		return fmtprint(fmt, "r%ld", e->reg);
 	case RuleRegOff:
 		return fmtprint(fmt, "%ld(r%ld)", e->offset, e->reg);
 	case RuleLocation:
 		return fmtprint(fmt, "l.%.*H", e->loc.len, e->loc.data);
 	default:
 		return fmtprint(fmt, "?%d", e->type);
 	}
 }
 #endif

 static int
 _dwarfunwind(Fhdr *fhdr, Map *map, Regs *regs, u64int *next, Symbol *sym)
 {
 	char *name;
 	int i, j;
 	u64int cfa, pc, u;
 	Dwarf *d;
 	DwarfExpr *e, epc, ecfa;


 	/*
 	 * Use dwarfunwind to tell us what to do.
 	 */
 	d = fhdr->dwarf;
 	e = malloc(d->nreg*sizeof(e[0]));
 	if(e == nil)
 		return -1;
 	if(rget(regs, mach->pc, &pc) < 0)
 		goto err;
 	if(dwarfunwind(d, pc, &ecfa, &epc, e, d->nreg) < 0)
 		goto err;

 	/*
 	 * Compute CFA.
 	 */
 	switch(ecfa.type){
 	default:
 		werrstr("invalid call-frame-address in _dwarfunwind");
 		goto err;
 	case RuleRegister:
 		ecfa.offset = 0;
 	case RuleRegOff:
 		if((name = regname(d, ecfa.reg)) == nil){
 			werrstr("invalid call-frame-address register %d", (int)ecfa.reg);
 			goto err;
 		}
 		if(rget(regs, name, &cfa) < 0){
 			werrstr("fetching %s for call-frame-address: %r", name);
 			goto err;
 		}
 		cfa += ecfa.offset;
 	}

 	/*
 	 * Compute registers.
 	 */
 	for(i=0; i<d->nreg; i++){
 		j = windindex(d->reg[i]);
 		if(j == -1)
 			continue;
 		if(dwarfeval(d, map, regs, cfa, i, e[i], &u) < 0)
 			u = ~(ulong)0;
 		next[j] = u;
 	}

 	/*
 	 * Compute caller pc
 	 */
 	if(dwarfeval(d, map, regs, cfa, -1, epc, &u) < 0){
 		werrstr("computing caller %s: %r", mach->pc);
 		goto err;
 	}
 	next[windindex(mach->pc)] = u;
 	free(e);
 	return 0;

 err:
 	free(e);
 	return -1;
 }
	#include <u.h>
	#include <libc.h>
	#include <bio.h>
	#include <mach.h>
	#include "elf.h"
	#include "dwarf.h"

	static void dwarfsymclose(Fhdr*);
	static int dwarfpc2file(Fhdr, u64int, char, uint, ulong*);
	static int dwarfline2pc(Fhdr, u64int, ulong, u64int);
	static int dwarflookuplsym(Fhdr, Symbol, char, Symbol);
	static int dwarfindexlsym(Fhdr, Symbol, uint, Symbol*);
	static int dwarffindlsym(Fhdr, Symbol, Loc, Symbol*);
	static void dwarfsyminit(Fhdr*);
	static int dwarftosym(Fhdr, Dwarf, DwarfSym, Symbol, int);
	static int _dwarfunwind(Fhdr fhdr, Map map, Regs regs, u64int next, Symbol*);

	int
	symdwarf(Fhdr *hdr)
	{
	if(hdr->dwarf == nil){
	werrstr("no dwarf debugging symbols");
	return -1;
	}

	hdr->symclose = dwarfsymclose;
	hdr->pc2file = dwarfpc2file;
	hdr->line2pc = dwarfline2pc;
	hdr->lookuplsym = dwarflookuplsym;
	hdr->indexlsym = dwarfindexlsym;
	hdr->findlsym = dwarffindlsym;
	hdr->unwind = _dwarfunwind;
	dwarfsyminit(hdr);

	return 0;
	}

	static void
	dwarfsymclose(Fhdr *hdr)
	{
	dwarfclose(hdr->dwarf);
	hdr->dwarf = nil;
	}

	static int
	dwarfpc2file(Fhdr fhdr, u64int pc, char buf, uint nbuf, ulong *line)
	{
	char cdir, dir, *file;

	if(dwarfpctoline(fhdr->dwarf, pc, &cdir, &dir, &file, line, nil, nil) < 0)
	return -1;

	if(file[0] == '/' \|\| (dir==nil && cdir==nil))
	strecpy(buf, buf+nbuf, file);
	else if((dir && dir[0] == '/') \|\| cdir==nil)
	snprint(buf, nbuf, "%s/%s", dir, file);
	else
	snprint(buf, nbuf, "%s/%s/%s", cdir, dir ? dir : "", file);
	cleanname(buf);
	return 0;;
	}

	static int
	dwarfline2pc(Fhdr fhdr, u64int basepc, ulong line, u64int pc)
	{
	werrstr("dwarf line2pc not implemented");
	return -1;
	}

	static uint
	typesize(Dwarf dwarf, ulong unit, ulong tref, char name)
	{
	DwarfSym ds;

	top:
	if(dwarfseeksym(dwarf, unit, tref-unit, &ds) < 0){
	cannot:
	fprint(2, "warning: cannot compute size of parameter %s (%lud %lud: %r)\n",
	name, unit, tref);
	return 0;
	}

	if(ds.attrs.have.bytesize)
	return ds.attrs.bytesize;

	switch(ds.attrs.tag){
	case TagVolatileType:
	case TagRestrictType:
	case TagTypedef:
	if(ds.attrs.have.type != TReference)
	goto cannot;
	tref = ds.attrs.type;
	goto top;
	}

	goto cannot;
	}

	static int
	roundup(int s, int n)
	{
	return (s+n-1)&~(n-1);
	}

	static int
	dwarflenum(Fhdr fhdr, Symbol p, char name, uint j, Loc l, Symbol s)
	{
	int depth, bpoff;
	DwarfSym ds;
	Symbol s1;

	if(p == nil)
	return -1;

	if(p->u.dwarf.unit == 0 && p->u.dwarf.uoff == 0)
	return -1;

	if(dwarfseeksym(fhdr->dwarf, p->u.dwarf.unit, p->u.dwarf.uoff, &ds) < 0)
	return -1;

	ds.depth = 1;
	depth = 1;

	bpoff = 8;
	while(dwarfnextsym(fhdr->dwarf, &ds) == 1 && depth < ds.depth){
	if(ds.attrs.tag != TagVariable){
	if(ds.attrs.tag != TagFormalParameter
	&& ds.attrs.tag != TagUnspecifiedParameters)
	continue;
	if(ds.depth != depth+1)
	continue;
	}
	if(dwarftosym(fhdr, fhdr->dwarf, &ds, &s1, 1) < 0)
	continue;
	/* XXX move this out once there is another architecture */
	/*
	* gcc tells us the registers where the parameters might be
	* held for an instruction or two. use the parameter list to
	* recompute the actual stack locations.
	*/
	if(fhdr->mtype == M386)
	if(ds.attrs.tag==TagFormalParameter \|\| ds.attrs.tag==TagUnspecifiedParameters){
	if(s1.loc.type==LOFFSET
	&& strcmp(s1.loc.reg, "BP")==0
	&& s1.loc.offset >= 8)
	bpoff = s1.loc.offset;
	else{
	s1.loc.type = LOFFSET;
	s1.loc.reg = "BP";
	s1.loc.offset = bpoff;
	}
	if(ds.attrs.tag == TagFormalParameter){
	if(ds.attrs.have.type)
	bpoff += roundup(typesize(fhdr->dwarf, p->u.dwarf.unit, ds.attrs.type, s1.name), 4);
	else
	fprint(2, "warning: cannot compute size of parameter %s\n", s1.name);
	}
	}
	if(name){
	if(strcmp(ds.attrs.name, name) != 0)
	continue;
	}else if(l.type){
	if(loccmp(&s1.loc, &l) != 0)
	continue;
	}else{
	if(j-- > 0)
	continue;
	}
	*s = s1;
	return 0;
	}
	return -1;
	}

	static Loc zl;

	static int
	dwarflookuplsym(Fhdr fhdr, Symbol p, char name, Symbol s)
	{
	return dwarflenum(fhdr, p, name, 0, zl, s);
	}

	static int
	dwarfindexlsym(Fhdr fhdr, Symbol p, uint i, Symbol *s)
	{
	return dwarflenum(fhdr, p, nil, i, zl, s);
	}

	static int
	dwarffindlsym(Fhdr fhdr, Symbol p, Loc l, Symbol *s)
	{
	return dwarflenum(fhdr, p, nil, 0, l, s);
	}

	static void
	dwarfsyminit(Fhdr *fp)
	{
	Dwarf *d;
	DwarfSym s;
	Symbol sym;

	d = fp->dwarf;
	if(dwarfenum(d, &s) < 0)
	return;

	while(dwarfnextsymat(d, &s, 0) == 1)
	while(dwarfnextsymat(d, &s, 1) == 1){
	if(s.attrs.name == nil)
	continue;
	switch(s.attrs.tag){
	case TagSubprogram:
	case TagVariable:
	if(dwarftosym(fp, d, &s, &sym, 0) < 0)
	continue;
	_addsym(fp, &sym);
	}
	}
	}

	static char*
	regname(Dwarf *d, int i)
	{
	if(i < 0 \|\| i >= d->nreg)
	return nil;
	return d->reg[i];
	}

	static int
	dwarftosym(Fhdr fp, Dwarf d, DwarfSym ds, Symbol s, int infn)
	{
	DwarfBuf buf;
	DwarfBlock b;

	memset(s, 0, sizeof *s);
	s->u.dwarf.uoff = ds->uoff;
	s->u.dwarf.unit = ds->unit;
	switch(ds->attrs.tag){
	default:
	return -1;
	case TagUnspecifiedParameters:
	ds->attrs.name = "...";
	s->type = 'p';
	goto sym;
	case TagFormalParameter:
	s->type = 'p';
	s->class = CPARAM;
	goto sym;
	case TagSubprogram:
	s->type = 't';
	s->class = CTEXT;
	goto sym;
	case TagVariable:
	if(infn){
	s->type = 'a';
	s->class = CAUTO;
	}else{
	s->type = 'd';
	s->class = CDATA;
	}
	sym:
	s->name = ds->attrs.name;
	if(ds->attrs.have.lowpc){
	s->loc.type = LADDR;
	s->loc.addr = ds->attrs.lowpc;
	if(ds->attrs.have.highpc){
	s->hiloc.type = LADDR;
	s->hiloc.addr = ds->attrs.highpc;
	}
	}else if(ds->attrs.have.location == TConstant){
	s->loc.type = LADDR;
	s->loc.addr = ds->attrs.location.c;
	}else if(ds->attrs.have.location == TBlock){
	b = ds->attrs.location.b;
	if(b.len == 0)
	return -1;
	buf.p = b.data+1;
	buf.ep = b.data+b.len;
	buf.d = d;
	buf.addrsize = 0;
	if(b.data[0]==OpAddr){
	if(b.len != 5)
	return -1;
	s->loc.type = LADDR;
	s->loc.addr = dwarfgetaddr(&buf);
	}else if(OpReg0 <= b.data[0] && b.data[0] < OpReg0+0x20){
	if(b.len != 1 \|\| (s->loc.reg = regname(d, b.data[0]-OpReg0)) == nil)
	return -1;
	s->loc.type = LREG;
	}else if(OpBreg0 <= b.data[0] && b.data[0] < OpBreg0+0x20){
	s->loc.type = LOFFSET;
	s->loc.reg = regname(d, b.data[0]-0x70);
	s->loc.offset = dwarfget128s(&buf);
	if(s->loc.reg == nil)
	return -1;
	}else if(b.data[0] == OpRegx){
	s->loc.type = LREG;
	s->loc.reg = regname(d, dwarfget128(&buf));
	if(s->loc.reg == nil)
	return -1;
	}else if(b.data[0] == OpFbreg){
	s->loc.type = LOFFSET;
	s->loc.reg = mach->fp;
	s->loc.offset = dwarfget128s(&buf);
	}else if(b.data[0] == OpBregx){
	s->loc.type = LOFFSET;
	s->loc.reg = regname(d, dwarfget128(&buf));
	s->loc.offset = dwarfget128s(&buf);
	if(s->loc.reg == nil)
	return -1;
	}else
	s->loc.type = LNONE;
	if(buf.p != buf.ep)
	s->loc.type = LNONE;
	}else
	return -1;
	if(ds->attrs.isexternal)
	s->type += 'A' - 'a';
	if(ds->attrs.tag==TagVariable && s->loc.type==LADDR && s->loc.addr>=fp->dataddr+fp->datsz)
	s->type += 'b' - 'd';
	s->fhdr = fp;
	return 0;
	}
	}

	static int
	dwarfeval(Dwarf d, Map map, Regs regs, ulong cfa, int rno, DwarfExpr e, u64int u)
	{
	int i;
	u32int u4;
	u64int uu;

	switch(e.type){
	case RuleUndef:
	*u = 0;
	return 0;
	case RuleSame:
	if(rno == -1){
	werrstr("pc cannot be `same'");
	return -1;
	}
	return rget(regs, regname(d, rno), u);
	case RuleRegister:
	if((i = windindex(regname(d, e.reg))) < 0)
	return -1;
	return rget(regs, regname(d, i), u);
	case RuleCfaOffset:
	if(cfa == 0){
	werrstr("unknown cfa");
	return -1;
	}
	if(get4(map, cfa + e.offset, &u4) < 0)
	return -1;
	*u = u4;
	return 0;
	case RuleRegOff:
	if(rget(regs, regname(d, e.reg), &uu) < 0)
	return -1;
	if(get4(map, uu+e.offset, &u4) < 0)
	return -1;
	*u = u4;
	return 0;
	case RuleLocation:
	werrstr("not evaluating dwarf loc expressions");
	return -1;
	}
	werrstr("not reached in dwarfeval");
	return -1;
	}

	#if 0
	static int
	dwarfexprfmt(Fmt *fmt)
	{
	DwarfExpr *e;

	if((e = va_arg(fmt->args, DwarfExpr*)) == nil)
	return fmtstrcpy(fmt, "<nil>");

	switch(e->type){
	case RuleUndef:
	return fmtstrcpy(fmt, "undef");
	case RuleSame:
	return fmtstrcpy(fmt, "same");
	case RuleCfaOffset:
	return fmtprint(fmt, "%ld(cfa)", e->offset);
	case RuleRegister:
	return fmtprint(fmt, "r%ld", e->reg);
	case RuleRegOff:
	return fmtprint(fmt, "%ld(r%ld)", e->offset, e->reg);
	case RuleLocation:
	return fmtprint(fmt, "l.%.*H", e->loc.len, e->loc.data);
	default:
	return fmtprint(fmt, "?%d", e->type);
	}
	}
	#endif

	static int
	_dwarfunwind(Fhdr fhdr, Map map, Regs regs, u64int next, Symbol *sym)
	{
	char *name;
	int i, j;
	u64int cfa, pc, u;
	Dwarf *d;
	DwarfExpr *e, epc, ecfa;


	/*
	* Use dwarfunwind to tell us what to do.
	*/
	d = fhdr->dwarf;
	e = malloc(d->nreg*sizeof(e[0]));
	if(e == nil)
	return -1;
	if(rget(regs, mach->pc, &pc) < 0)
	goto err;
	if(dwarfunwind(d, pc, &ecfa, &epc, e, d->nreg) < 0)
	goto err;

	/*
	* Compute CFA.
	*/
	switch(ecfa.type){
	default:
	werrstr("invalid call-frame-address in _dwarfunwind");
	goto err;
	case RuleRegister:
	ecfa.offset = 0;
	case RuleRegOff:
	if((name = regname(d, ecfa.reg)) == nil){
	werrstr("invalid call-frame-address register %d", (int)ecfa.reg);
	goto err;
	}
	if(rget(regs, name, &cfa) < 0){
	werrstr("fetching %s for call-frame-address: %r", name);
	goto err;
	}
	cfa += ecfa.offset;
	}

	/*
	* Compute registers.
	*/
	for(i=0; i<d->nreg; i++){
	j = windindex(d->reg[i]);
	if(j == -1)
	continue;
	if(dwarfeval(d, map, regs, cfa, i, e[i], &u) < 0)
	u = ~(ulong)0;
	next[j] = u;
	}

	/*
	* Compute caller pc
	*/
	if(dwarfeval(d, map, regs, cfa, -1, epc, &u) < 0){
	werrstr("computing caller %s: %r", mach->pc);
	goto err;
	}
	next[windindex(mach->pc)] = u;
	free(e);
	return 0;

	err:
	free(e);
	return -1;
	}