src/cmd/godefs/stabs.c - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // Parse stabs debug info.

 #include "a.h"

 int stabsdebug = 1;

 // Hash table for type lookup by number.
 Type *hash[1024];

 // Look up type by number pair.
 // TODO(rsc): Iant points out that n1 and n2 are always small and dense,
 // so an array of arrays would be a better representation.
 Type*
 typebynum(uint n1, uint n2)
 {
 	uint h;
 	Type *t;

 	h = (n1*53+n2) % nelem(hash);
 	for(t=hash[h]; t; t=t->next)
 		if(t->n1 == n1 && t->n2 == n2)
 			return t;
 	t = emalloc(sizeof *t);
 	t->next = hash[h];
 	hash[h] = t;
 	t->n1 = n1;
 	t->n2 = n2;
 	return t;
 }

 // Parse name and colon from *pp, leaving copy in *sp.
 static int
 parsename(char **pp, char **sp)
 {
 	char *p;
 	char *s;

 	p = *pp;
 	while(*p != '\0' && *p != ':')
 		p++;
 	if(*p == '\0') {
 		fprint(2, "parsename expected colon\n");
 		return -1;
 	}
 	s = emalloc(p - *pp + 1);
 	memmove(s, *pp, p - *pp);
 	*sp = s;
 	*pp = p+1;
 	return 0;
 }

 // Parse single number from *pp.
 static int
 parsenum1(char **pp, vlong *np)
 {
 	char *p;

 	p = *pp;
 	if(*p != '-' && (*p < '0' || *p > '9')) {
 		fprint(2, "parsenum expected minus or digit\n");
 		return -1;
 	}
 	*np = strtoll(p, pp, 10);
 	return 0;
 }

 // Parse type number - either single number or (n1, n2).
 static int
 parsetypenum(char **pp, vlong *n1p, vlong *n2p)
 {
 	char *p;

 	p = *pp;
 	if(*p == '(') {
 		p++;
 		if(parsenum1(&p, n1p) < 0)
 			return -1;
 		if(*p++ != ',') {
 			if(stabsdebug)
 				fprint(2, "parsetypenum expected comma\n");
 			return -1;
 		}
 		if(parsenum1(&p, n2p) < 0)
 			return -1;
 		if(*p++ != ')') {
 			if(stabsdebug)
 				fprint(2, "parsetypenum expected right paren\n");
 			return -1;
 		}
 		*pp = p;
 		return 0;
 	}

 	if(parsenum1(&p, n1p) < 0)
 		return -1;
 	*n2p = 0;
 	*pp = p;
 	return 0;
 }

 // Written to parse max/min of vlong correctly.
 static vlong
 parseoctal(char **pp)
 {
 	char *p;
 	vlong n;

 	p = *pp;
 	if(*p++ != '0')
 		return 0;
 	n = 0;
 	while(*p >= '0' && *p <= '9')
 		n = n << 3 | *p++ - '0';
 	*pp = p;
 	return n;
 }

 // Integer types are represented in stabs as a "range"
 // type with a lo and a hi value.  The lo and hi used to
 // be lo and hi for the type, but there are now odd
 // extensions for floating point and 64-bit numbers.
 //
 // Have to keep signs separate from values because
 // Int64's lo is -0.
 typedef struct Intrange Intrange;
 struct Intrange
 {
 	vlong lo;
 	vlong hi;
 	int kind;
 };

 Intrange intranges[] = {
 	0, 127, Int8,		// char
 	-128, 127, Int8,	// signed char
 	0, 255, Uint8,
 	-32768, 32767, Int16,
 	0, 65535, Uint16,
 	-2147483648LL, 2147483647LL, Int32,
 	0, 4294967295LL, Uint32,
 	1LL << 63, ~(1LL << 63), Int64,
 	0, -1, Uint64,
 	4, 0, Float32,
 	8, 0, Float64,
 	16, 0, Void,
 };

 int kindsize[] = {
 	0,
 	0,
 	8,
 	8,
 	16,
 	16,
 	32,
 	32,
 	64,
 	64,
 };

 // Parse a single type definition from *pp.
 static Type*
 parsedef(char **pp, char *name)
 {
 	char *p;
 	Type *t, *tt;
 	int i;
 	vlong n1, n2, lo, hi;
 	Field *f;
 	Intrange *r;

 	p = *pp;

 	// reference to another type?
 	if(isdigit(*p) || *p == '(') {
 		if(parsetypenum(&p, &n1, &n2) < 0)
 			return nil;
 		t = typebynum(n1, n2);
 		if(name && t->name == nil) {
 			t->name = name;
 			// save definitions of names beginning with $
 			if(name[0] == '$' && !t->saved) {
 				typ = erealloc(typ, (ntyp+1)*sizeof typ[0]);
 				typ[ntyp] = t;
 				ntyp++;
 			}
 		}

 		// is there an =def suffix?
 		if(*p == '=') {
 			p++;
 			tt = parsedef(&p, name);
 			if(tt == nil)
 				return nil;

 			if(tt == t) {
 				tt->kind = Void;
 			} else {
 				t->type = tt;
 				t->kind = Typedef;
 			}

 			// assign given name, but do not record in typ.
 			// assume the name came from a typedef
 			// which will be recorded.
 			if(name)
 				tt->name = name;
 		}

 		*pp = p;
 		return t;
 	}

 	// otherwise a type literal.  first letter identifies kind
 	t = emalloc(sizeof *t);
 	switch(*p) {
 	default:
 		fprint(2, "unknown type char %c in %s\n", *p, p);
 		*pp = "";
 		return t;

 	case '@':	// type attribute
 		while (*++p != ';');
 		*pp = ++p;
 		return parsedef(pp, nil);

 	case '*':	// pointer
 		p++;
 		t->kind = Ptr;
 		tt = parsedef(&p, nil);
 		if(tt == nil)
 			return nil;
 		t->type = tt;
 		break;

 	case 'a':	// array
 		p++;
 		t->kind = Array;
 		// index type
 		tt = parsedef(&p, nil);
 		if(tt == nil)
 			return nil;
 		t->size = tt->size;
 		// element type
 		tt = parsedef(&p, nil);
 		if(tt == nil)
 			return nil;
 		t->type = tt;
 		break;

 	case 'e':	// enum type - record $names in con array.
 		p++;
 		for(;;) {
 			if(*p == '\0')
 				return nil;
 			if(*p == ';') {
 				p++;
 				break;
 			}
 			if(parsename(&p, &name) < 0)
 				return nil;
 			if(parsenum1(&p, &n1) < 0)
 				return nil;
 			if(name[0] == '$') {
 				con = erealloc(con, (ncon+1)*sizeof con[0]);
 				name++;
 				con[ncon].name = name;
 				con[ncon].value = n1;
 				ncon++;
 			}
 			if(*p != ',')
 				return nil;
 			p++;
 		}
 		break;

 	case 'f':	// function
 		p++;
 		if(parsedef(&p, nil) == nil)
 			return nil;
 		break;

 	case 'B':	// volatile
 	case 'k':	// const
 		++*pp;
 		return parsedef(pp, nil);

 	case 'r':	// sub-range (used for integers)
 		p++;
 		if(parsedef(&p, nil) == nil)
 			return nil;
 		// usually, the return from parsedef == t, but not always.

 		if(*p != ';' || *++p == ';') {
 			if(stabsdebug)
 				fprint(2, "range expected number: %s\n", p);
 			return nil;
 		}
 		if(*p == '0')
 			lo = parseoctal(&p);
 		else
 			lo = strtoll(p, &p, 10);
 		if(*p != ';' || *++p == ';') {
 			if(stabsdebug)
 				fprint(2, "range expected number: %s\n", p);
 			return nil;
 		}
 		if(*p == '0')
 			hi = parseoctal(&p);
 		else
 			hi = strtoll(p, &p, 10);
 		if(*p != ';') {
 			if(stabsdebug)
 				fprint(2, "range expected trailing semi: %s\n", p);
 			return nil;
 		}
 		p++;
 		t->size = hi+1;	// might be array size
 		for(i=0; i<nelem(intranges); i++) {
 			r = &intranges[i];
 			if(r->lo == lo && r->hi == hi) {
 				t->kind = r->kind;
 				break;
 			}
 		}
 		break;

 	case 's':	// struct
 	case 'u':	// union
 		t->kind = Struct;
 		if(*p == 'u')
 			t->kind = Union;

 		// assign given name, but do not record in typ.
 		// assume the name came from a typedef
 		// which will be recorded.
 		if(name)
 			t->name = name;
 		p++;
 		if(parsenum1(&p, &n1) < 0)
 			return nil;
 		t->size = n1;
 		for(;;) {
 			if(*p == '\0')
 				return nil;
 			if(*p == ';') {
 				p++;
 				break;
 			}
 			t->f = erealloc(t->f, (t->nf+1)*sizeof t->f[0]);
 			f = &t->f[t->nf];
 			if(parsename(&p, &f->name) < 0)
 				return nil;
 			f->type = parsedef(&p, nil);
 			if(f->type == nil)
 				return nil;
 			if(*p != ',') {
 				fprint(2, "expected comma after def of %s:\n%s\n", f->name, p);
 				return nil;
 			}
 			p++;
 			if(parsenum1(&p, &n1) < 0)
 				return nil;
 			f->offset = n1;
 			if(*p != ',') {
 				fprint(2, "expected comma after offset of %s:\n%s\n", f->name, p);
 				return nil;
 			}
 			p++;
 			if(parsenum1(&p, &n1) < 0)
 				return nil;
 			f->size = n1;
 			if(*p != ';') {
 				fprint(2, "expected semi after size of %s:\n%s\n", f->name, p);
 				return nil;
 			}

 			while(f->type->kind == Typedef)
 				f->type = f->type->type;

 			// rewrite
 			//	uint32 x : 8;
 			// into
 			//	uint8 x;
 			// hooray for bitfields.
 			while(Int16 <= f->type->kind && f->type->kind <= Uint64 && kindsize[f->type->kind] > f->size) {
 				tt = emalloc(sizeof *tt);
 				*tt = *f->type;
 				f->type = tt;
 				f->type->kind -= 2;
 			}
 			p++;
 			t->nf++;
 		}
 		break;

 	case 'x':
 		// reference to struct, union not yet defined.
 		p++;
 		switch(*p) {
 		case 's':
 			t->kind = Struct;
 			break;
 		case 'u':
 			t->kind = Union;
 			break;
 		default:
 			fprint(2, "unknown x type char x%c", *p);
 			*pp = "";
 			return t;
 		}
 		if(parsename(&p, &t->name) < 0)
 			return nil;
 		break;
 	}
 	*pp = p;
 	return t;
 }


 // Parse a stab type in p, saving info in the type hash table
 // and also in the list of recorded types if appropriate.
 void
 parsestabtype(char *p)
 {
 	char *p0, *name;

 	p0 = p;

 	// p is the quoted string output from gcc -gstabs on a .stabs line.
 	//	name:t(1,2)
 	//	name:t(1,2)=def
 	if(parsename(&p, &name) < 0) {
 	Bad:
 		// Use fprint instead of sysfatal to avoid
 		// sysfatal's internal buffer size limit.
 		fprint(2, "cannot parse stabs type:\n%s\n(at %s)\n", p0, p);
 		sysfatal("stabs parse");
 	}
 	if(*p != 't' && *p != 'T')
 		goto Bad;
 	p++;

 	// parse the definition.
 	if(name[0] == '\0')
 		name = nil;
 	if(parsedef(&p, name) == nil)
 		goto Bad;
 	if(*p != '\0')
 		goto Bad;
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// Parse stabs debug info.

	#include "a.h"

	int stabsdebug = 1;

	// Hash table for type lookup by number.
	Type *hash[1024];

	// Look up type by number pair.
	// TODO(rsc): Iant points out that n1 and n2 are always small and dense,
	// so an array of arrays would be a better representation.
	Type*
	typebynum(uint n1, uint n2)
	{
	uint h;
	Type *t;

	h = (n1*53+n2) % nelem(hash);
	for(t=hash[h]; t; t=t->next)
	if(t->n1 == n1 && t->n2 == n2)
	return t;
	t = emalloc(sizeof *t);
	t->next = hash[h];
	hash[h] = t;
	t->n1 = n1;
	t->n2 = n2;
	return t;
	}

	// Parse name and colon from pp, leaving copy in sp.
	static int
	parsename(char pp, char sp)
	{
	char *p;
	char *s;

	p = *pp;
	while(p != '\0' && p != ':')
	p++;
	if(*p == '\0') {
	fprint(2, "parsename expected colon\n");
	return -1;
	}
	s = emalloc(p - *pp + 1);
	memmove(s, pp, p - pp);
	*sp = s;
	*pp = p+1;
	return 0;
	}

	// Parse single number from *pp.
	static int
	parsenum1(char *pp, vlong np)
	{
	char *p;

	p = *pp;
	if(p != '-' && (p < '0' \|\| *p > '9')) {
	fprint(2, "parsenum expected minus or digit\n");
	return -1;
	}
	*np = strtoll(p, pp, 10);
	return 0;
	}

	// Parse type number - either single number or (n1, n2).
	static int
	parsetypenum(char *pp, vlong n1p, vlong *n2p)
	{
	char *p;

	p = *pp;
	if(*p == '(') {
	p++;
	if(parsenum1(&p, n1p) < 0)
	return -1;
	if(*p++ != ',') {
	if(stabsdebug)
	fprint(2, "parsetypenum expected comma\n");
	return -1;
	}
	if(parsenum1(&p, n2p) < 0)
	return -1;
	if(*p++ != ')') {
	if(stabsdebug)
	fprint(2, "parsetypenum expected right paren\n");
	return -1;
	}
	*pp = p;
	return 0;
	}

	if(parsenum1(&p, n1p) < 0)
	return -1;
	*n2p = 0;
	*pp = p;
	return 0;
	}

	// Written to parse max/min of vlong correctly.
	static vlong
	parseoctal(char **pp)
	{
	char *p;
	vlong n;

	p = *pp;
	if(*p++ != '0')
	return 0;
	n = 0;
	while(p >= '0' && p <= '9')
	n = n << 3 \| *p++ - '0';
	*pp = p;
	return n;
	}

	// Integer types are represented in stabs as a "range"
	// type with a lo and a hi value. The lo and hi used to
	// be lo and hi for the type, but there are now odd
	// extensions for floating point and 64-bit numbers.
	//
	// Have to keep signs separate from values because
	// Int64's lo is -0.
	typedef struct Intrange Intrange;
	struct Intrange
	{
	vlong lo;
	vlong hi;
	int kind;
	};

	Intrange intranges[] = {
	0, 127, Int8, // char
	-128, 127, Int8, // signed char
	0, 255, Uint8,
	-32768, 32767, Int16,
	0, 65535, Uint16,
	-2147483648LL, 2147483647LL, Int32,
	0, 4294967295LL, Uint32,
	1LL << 63, ~(1LL << 63), Int64,
	0, -1, Uint64,
	4, 0, Float32,
	8, 0, Float64,
	16, 0, Void,
	};

	int kindsize[] = {
	0,
	0,
	8,
	8,
	16,
	16,
	32,
	32,
	64,
	64,
	};

	// Parse a single type definition from *pp.
	static Type*
	parsedef(char *pp, char name)
	{
	char *p;
	Type t, tt;
	int i;
	vlong n1, n2, lo, hi;
	Field *f;
	Intrange *r;

	p = *pp;

	// reference to another type?
	if(isdigit(p) \|\| p == '(') {
	if(parsetypenum(&p, &n1, &n2) < 0)
	return nil;
	t = typebynum(n1, n2);
	if(name && t->name == nil) {
	t->name = name;
	// save definitions of names beginning with $
	if(name[0] == '$' && !t->saved) {
	typ = erealloc(typ, (ntyp+1)*sizeof typ[0]);
	typ[ntyp] = t;
	ntyp++;
	}
	}

	// is there an =def suffix?
	if(*p == '=') {
	p++;
	tt = parsedef(&p, name);
	if(tt == nil)
	return nil;

	if(tt == t) {
	tt->kind = Void;
	} else {
	t->type = tt;
	t->kind = Typedef;
	}

	// assign given name, but do not record in typ.
	// assume the name came from a typedef
	// which will be recorded.
	if(name)
	tt->name = name;
	}

	*pp = p;
	return t;
	}

	// otherwise a type literal. first letter identifies kind
	t = emalloc(sizeof *t);
	switch(*p) {
	default:
	fprint(2, "unknown type char %c in %s\n", *p, p);
	*pp = "";
	return t;

	case '@': // type attribute
	while (*++p != ';');
	*pp = ++p;
	return parsedef(pp, nil);

	case '*': // pointer
	p++;
	t->kind = Ptr;
	tt = parsedef(&p, nil);
	if(tt == nil)
	return nil;
	t->type = tt;
	break;

	case 'a': // array
	p++;
	t->kind = Array;
	// index type
	tt = parsedef(&p, nil);
	if(tt == nil)
	return nil;
	t->size = tt->size;
	// element type
	tt = parsedef(&p, nil);
	if(tt == nil)
	return nil;
	t->type = tt;
	break;

	case 'e': // enum type - record $names in con array.
	p++;
	for(;;) {
	if(*p == '\0')
	return nil;
	if(*p == ';') {
	p++;
	break;
	}
	if(parsename(&p, &name) < 0)
	return nil;
	if(parsenum1(&p, &n1) < 0)
	return nil;
	if(name[0] == '$') {
	con = erealloc(con, (ncon+1)*sizeof con[0]);
	name++;
	con[ncon].name = name;
	con[ncon].value = n1;
	ncon++;
	}
	if(*p != ',')
	return nil;
	p++;
	}
	break;

	case 'f': // function
	p++;
	if(parsedef(&p, nil) == nil)
	return nil;
	break;

	case 'B': // volatile
	case 'k': // const
	++*pp;
	return parsedef(pp, nil);

	case 'r': // sub-range (used for integers)
	p++;
	if(parsedef(&p, nil) == nil)
	return nil;
	// usually, the return from parsedef == t, but not always.

	if(p != ';' \|\| ++p == ';') {
	if(stabsdebug)
	fprint(2, "range expected number: %s\n", p);
	return nil;
	}
	if(*p == '0')
	lo = parseoctal(&p);
	else
	lo = strtoll(p, &p, 10);
	if(p != ';' \|\| ++p == ';') {
	if(stabsdebug)
	fprint(2, "range expected number: %s\n", p);
	return nil;
	}
	if(*p == '0')
	hi = parseoctal(&p);
	else
	hi = strtoll(p, &p, 10);
	if(*p != ';') {
	if(stabsdebug)
	fprint(2, "range expected trailing semi: %s\n", p);
	return nil;
	}
	p++;
	t->size = hi+1; // might be array size
	for(i=0; i<nelem(intranges); i++) {
	r = &intranges[i];
	if(r->lo == lo && r->hi == hi) {
	t->kind = r->kind;
	break;
	}
	}
	break;

	case 's': // struct
	case 'u': // union
	t->kind = Struct;
	if(*p == 'u')
	t->kind = Union;

	// assign given name, but do not record in typ.
	// assume the name came from a typedef
	// which will be recorded.
	if(name)
	t->name = name;
	p++;
	if(parsenum1(&p, &n1) < 0)
	return nil;
	t->size = n1;
	for(;;) {
	if(*p == '\0')
	return nil;
	if(*p == ';') {
	p++;
	break;
	}
	t->f = erealloc(t->f, (t->nf+1)*sizeof t->f[0]);
	f = &t->f[t->nf];
	if(parsename(&p, &f->name) < 0)
	return nil;
	f->type = parsedef(&p, nil);
	if(f->type == nil)
	return nil;
	if(*p != ',') {
	fprint(2, "expected comma after def of %s:\n%s\n", f->name, p);
	return nil;
	}
	p++;
	if(parsenum1(&p, &n1) < 0)
	return nil;
	f->offset = n1;
	if(*p != ',') {
	fprint(2, "expected comma after offset of %s:\n%s\n", f->name, p);
	return nil;
	}
	p++;
	if(parsenum1(&p, &n1) < 0)
	return nil;
	f->size = n1;
	if(*p != ';') {
	fprint(2, "expected semi after size of %s:\n%s\n", f->name, p);
	return nil;
	}

	while(f->type->kind == Typedef)
	f->type = f->type->type;

	// rewrite
	// uint32 x : 8;
	// into
	// uint8 x;
	// hooray for bitfields.
	while(Int16 <= f->type->kind && f->type->kind <= Uint64 && kindsize[f->type->kind] > f->size) {
	tt = emalloc(sizeof *tt);
	tt = f->type;
	f->type = tt;
	f->type->kind -= 2;
	}
	p++;
	t->nf++;
	}
	break;

	case 'x':
	// reference to struct, union not yet defined.
	p++;
	switch(*p) {
	case 's':
	t->kind = Struct;
	break;
	case 'u':
	t->kind = Union;
	break;
	default:
	fprint(2, "unknown x type char x%c", *p);
	*pp = "";
	return t;
	}
	if(parsename(&p, &t->name) < 0)
	return nil;
	break;
	}
	*pp = p;
	return t;
	}


	// Parse a stab type in p, saving info in the type hash table
	// and also in the list of recorded types if appropriate.
	void
	parsestabtype(char *p)
	{
	char p0, name;

	p0 = p;

	// p is the quoted string output from gcc -gstabs on a .stabs line.
	// name:t(1,2)
	// name:t(1,2)=def
	if(parsename(&p, &name) < 0) {
	Bad:
	// Use fprint instead of sysfatal to avoid
	// sysfatal's internal buffer size limit.
	fprint(2, "cannot parse stabs type:\n%s\n(at %s)\n", p0, p);
	sysfatal("stabs parse");
	}
	if(p != 't' && p != 'T')
	goto Bad;
	p++;

	// parse the definition.
	if(name[0] == '\0')
	name = nil;
	if(parsedef(&p, name) == nil)
	goto Bad;
	if(*p != '\0')
	goto Bad;
	}