db/flist.c - pub/scm/linux/kernel/git/ebiggers/xfsprogs-dev - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 /*
  * Copyright (c) 2000-2001,2005 Silicon Graphics, Inc.
  * All Rights Reserved.
  */

 #include "libxfs.h"
 #include "type.h"
 #include "faddr.h"
 #include "fprint.h"
 #include "field.h"
 #include "flist.h"
 #include "debug.h"
 #include "output.h"
 #include "malloc.h"

 static void	flist_expand_arrays(flist_t *fl);
 static void	flist_expand_structs(flist_t *fl, void *obj);
 static flist_t	*flist_replicate(flist_t *fl);
 static ftok_t	*flist_split(char *s);
 static void	ftok_free(ftok_t *ft);

 static void
 flist_expand_arrays(
 	flist_t		*fl)
 {
 	const field_t	*f;
 #ifdef DEBUG
 	const ftattr_t	*fa;
 #endif
 	int		high;
 	int		idx;
 	int		low;
 	flist_t		*new;
 	flist_t		*prev;
 	flist_t		*sib;

 	f = fl->fld;
 #ifdef DEBUG
 	fa = &ftattrtab[f->ftyp];
 #endif
 	ASSERT(fa->ftyp == f->ftyp);
 	ASSERT(f->flags & FLD_ARRAY);
 	low = fl->low;
 	high = fl->high;
 	fl->high = fl->low;
 	sib = fl->sibling;
 	for (idx = low + 1, prev = fl; idx <= high; idx++) {
 		new = flist_make(f->name);
 		new->fld = f;
 		new->low = new->high = idx;
 		new->flags |= FL_OKLOW | FL_OKHIGH;
 		new->child = flist_replicate(fl->child);
 		prev->sibling = new;
 		prev = new;
 	}
 	prev->sibling = sib;
 }

 static void
 flist_expand_structs(
 	flist_t		*fl,
 	void		*obj)
 {
 	const field_t	*cf;
 	const field_t	*f;
 	const ftattr_t	*fa;
 	flist_t		*new;
 	flist_t		*prev;

 	f = fl->fld;
 	fa = &ftattrtab[f->ftyp];
 	ASSERT(fa->ftyp == f->ftyp);
 	ASSERT(fa->subfld != NULL);
 	ASSERT(fl->child == NULL);
 	for (cf = fa->subfld, prev = NULL; cf->name != NULL; cf++) {
 		if (fcount(cf, obj, fl->offset) == 0)
 			continue;
 		if (cf->flags & FLD_SKIPALL)
 			continue;
 		new = flist_make(cf->name);
 		new->fld = cf;
 		if (prev)
 			prev->sibling = new;
 		else
 			fl->child = new;
 		prev = new;
 	}
 }

 void
 flist_free(
 	flist_t	*fl)
 {
 	if (fl->child)
 		flist_free(fl->child);
 	if (fl->sibling)
 		flist_free(fl->sibling);
 	if (fl->name)
 		xfree(fl->name);
 	xfree(fl);
 }

 flist_t *
 flist_make(
 	char	*name)
 {
 	flist_t	*fl;

 	fl = xmalloc(sizeof(*fl));
 	fl->name = xstrdup(name);
 	fl->fld = NULL;
 	fl->child = NULL;
 	fl->sibling = NULL;
 	fl->low = 0;
 	fl->high = 0;
 	fl->flags = 0;
 	fl->offset = 0;
 	return fl;
 }

 int
 flist_parse(
 	const field_t	*fields,
 	flist_t		*fl,
 	void		*obj,
 	int		startoff)
 {
 	const field_t	*f;
 	const ftattr_t	*fa;
 	int		high;
 	int		low;

 	while (fl) {
 		f = findfield(fl->name, fields, obj, startoff);
 		if (f == NULL) {
 			dbprintf(_("field %s not found\n"), fl->name);
 			return 0;
 		}
 		fl->fld = f;
 		fa = &ftattrtab[f->ftyp];
 		ASSERT(fa->ftyp == f->ftyp);
 		if (f->flags & FLD_ARRAY) {
 			low = (f->flags & FLD_ABASE1) != 0;
 			high = fcount(f, obj, startoff) + low - 1;
 			if (low > high) {
 				dbprintf(_("no elements in %s\n"), fl->name);
 				return 0;
 			}
 			if (fl->flags & FL_OKHIGH) {
 				if (fl->low < low || fl->low > high ||
 				    fl->high < low || fl->high > high) {
 					dbprintf(_("indices %d-%d for field %s "
 						 "out of range %d-%d\n"),
 						fl->low, fl->high, fl->name,
 						low, high);
 					return 0;
 				}
 			} else if (fl->flags & FL_OKLOW) {
 				if (fl->low < low || fl->low > high) {
 					dbprintf(_("index %d for field %s out of "
 						 "range %d-%d\n"),
 						fl->low, fl->name, low, high);
 					return 0;
 				}
 				fl->high = fl->low;
 				fl->flags |= FL_OKHIGH;
 			} else {
 				fl->low = low;
 				fl->high = high;
 				fl->flags |= FL_OKLOW | FL_OKHIGH;
 			}
 		} else {
 			if (fl->flags & FL_OKLOW) {
 				dbprintf(_("field %s is not an array\n"),
 					fl->name);
 				return 0;
 			}
 		}
 		fl->offset = startoff + bitoffset(f, obj, startoff, fl->low);
 		if ((fl->child != NULL || fa->prfunc == NULL) &&
 		    (f->flags & FLD_ARRAY) && fl->low != fl->high)
 			flist_expand_arrays(fl);
 		if (fa->prfunc == NULL && fl->child == NULL)
 			flist_expand_structs(fl, obj);
 		if (fl->child) {
 			if (fa->subfld == NULL) {
 				dbprintf(_("field %s has no subfields\n"),
 					fl->name);
 				return 0;
 			}
 			if (!flist_parse(fa->subfld, fl->child, obj,
 					fl->offset))
 				return 0;
 		}
 		fl = fl->sibling;
 	}
 	return 1;
 }

 void
 flist_print(
 	flist_t	*fl)
 {
 	if (!(debug_state & DEBUG_FLIST))
 		return;
 	while (fl) {
 		dbprintf(_("fl@%p:\n"), fl);
 		dbprintf(_("\tname=%s, fld=%p, child=%p, sibling=%p\n"),
 			fl->name, fl->fld, fl->child, fl->sibling);
 		dbprintf(_("\tlow=%d, high=%d, flags=%d (%s%s), offset=%d\n"),
 			fl->low, fl->high, fl->flags,
 			fl->flags & FL_OKLOW ? _("oklow ") : "",
 			fl->flags & FL_OKHIGH ? _("okhigh") : "", fl->offset);
 		dbprintf(_("\tfld->name=%s, fld->ftyp=%d (%s)\n"),
 			fl->fld->name, fl->fld->ftyp,
 			ftattrtab[fl->fld->ftyp].name);
 		dbprintf(_("\tfld->flags=%d (%s%s%s%s%s)\n"), fl->fld->flags,
 			fl->fld->flags & FLD_ABASE1 ? "abase1 " : "",
 			fl->fld->flags & FLD_SKIPALL ? "skipall " : "",
 			fl->fld->flags & FLD_ARRAY ? "array " : "",
 			fl->fld->flags & FLD_OFFSET ? "offset " : "",
 			fl->fld->flags & FLD_COUNT ? "count " : "");
 		if (fl->child)
 			flist_print(fl->child);
 		fl = fl->sibling;
 	}
 }

 static flist_t *
 flist_replicate(
 	flist_t	*f)
 {
 	flist_t	*new;

 	if (f == NULL)
 		return NULL;
 	new = flist_make(f->name);
 	new->fld = f->fld;
 	new->child = flist_replicate(f->child);
 	new->sibling = flist_replicate(f->sibling);
 	new->low = f->low;
 	new->high = f->high;
 	new->flags = f->flags;
 	new->offset = f->offset;
 	return new;
 }

 flist_t *
 flist_scan(
 	char	*name)
 {
 	flist_t	*fl;
 	flist_t	*lfl;
 	flist_t	*nfl;
 	int	num;
 	ftok_t	*p;
 	ftok_t	*v;
 	char	*x;

 	v = flist_split(name);
 	if (!v)
 		return NULL;
 	p = v;
 	fl = lfl = NULL;
 	while (p->tokty != TT_END) {
 		if (p->tokty != TT_NAME)
 			goto bad;
 		nfl = flist_make(p->tok);
 		if (lfl)
 			lfl->child = nfl;
 		else
 			fl = nfl;
 		lfl = nfl;
 		p++;
 		if (p->tokty == TT_LB) {
 			p++;
 			if (p->tokty != TT_NUM)
 				goto bad;
 			num = (int)strtoul(p->tok, &x, 0);
 			if (*x != '\0')
 				goto bad;
 			nfl->flags |= FL_OKLOW;
 			nfl->low = num;
 			p++;
 			if (p->tokty == TT_DASH) {
 				p++;
 				if (p->tokty != TT_NUM)
 					goto bad;
 				num = (int)strtoul(p->tok, &x, 0);
 				if (*x != '\0')
 					goto bad;
 				nfl->flags |= FL_OKHIGH;
 				nfl->high = num;
 				p++;
 			}
 			if (p->tokty != TT_RB)
 				goto bad;
 			p++;
 		}
 		if (p->tokty == TT_DOT) {
 			p++;
 			if (p->tokty == TT_END)
 				goto bad;
 		}
 	}
 	ftok_free(v);
 	return fl;
 bad:
 	dbprintf(_("bad syntax in field name %s\n"), name);
 	ftok_free(v);
 	if (fl)
 		flist_free(fl);
 	return NULL;
 }

 static ftok_t *
 flist_split(
 	char		*s)
 {
 	char		*a;
 	int		i;
 	static char	*idchars;
 	static char	*initidchar;
 	int		l;
 	int             tailskip = 0;
 	static char	*numchars;
 	static char     *xnumchars;  /* extended for hex conversion */
 	int		nv;
 	static char	punctchars[] = "[-].";
 	static tokty_t	puncttypes[] = { TT_LB, TT_DASH, TT_RB, TT_DOT };
 	tokty_t		t;
 	ftok_t		*v;

 	if (idchars == NULL) {
 		idchars = xmalloc(26 + 10 + 1 + 1);
 		initidchar = xmalloc(26 + 1);
 		numchars = xmalloc(10 + 1);
 		xnumchars = xmalloc(12 + 1);
 		for (i = 'a'; i <= 'z'; i++) {
 			idchars[i - 'a'] = i;
 			initidchar[i - 'a'] = i;
 		}

 		for (i = '0'; i <= '9'; i++) {
 			idchars[26 + (i - '0')] = i;
 			numchars[i - '0'] = i;
 			xnumchars[i - '0'] = i;
 		}
 		idchars[26 + 10] = '_';
 		idchars[26 + 10 + 1] = '\0';
 		initidchar[26] = '\0';
 		numchars[10] = '\0';
 		xnumchars[10] = 'x';
 		xnumchars[11] = 'X';
 		xnumchars[12] = '\0';
 	}
 	nv = 0;
 	v = xmalloc(sizeof(*v));
 	v->tok = NULL;
 	while (*s) {
 		/* need to add string handling */
 		if (*s == '\"') {
 			s++; /* skip first quote */
 			if ((a = strrchr(s, '\"')) == NULL) {
 				dbprintf(_("missing closing quote %s\n"), s);
 				ftok_free(v);
 				return NULL;
 			}
 			tailskip = 1; /* skip remaing quote */
 			l = (int)(a - s);
 			t = TT_STRING;
 		} else if (strchr(initidchar, *s)) {
 			l = (int)strspn(s, idchars);
 			t = TT_NAME;
 		} else if (strchr(numchars, *s)) {
 			l = (int)strspn(s, xnumchars);
 			t = TT_NUM;
 		} else if ((a = strchr(punctchars, *s))) {
 			l = 1;
 			t = puncttypes[a - punctchars];
 		} else {
 			dbprintf(_("bad character in field %s\n"), s);
 			ftok_free(v);
 			return NULL;
 		}
 		a = xmalloc(l + 1);
 		strncpy(a, s, l);
 		a[l] = '\0';
 		v = xrealloc(v, (nv + 2) * sizeof(*v));
 		v[nv + 1].tok = NULL;
 		v[nv].tok = a;
 		v[nv].tokty = t;
 		nv++;
 		s += l + tailskip;
 		tailskip = 0;
 	}
 	v[nv].tok = NULL;
 	v[nv].tokty = TT_END;
 	return v;
 }

 /*
  * Given a set of fields, scan for a field of the given type.
  * Return an flist leading to the first found field
  * of that type.
  * Return NULL if no field of the given type is found.
  */
 flist_t *
 flist_find_ftyp(
 	const field_t *fields,
 	fldt_t	type)
 {
 	flist_t	*fl;
 	const field_t	*f;
 	const ftattr_t  *fa;

 	for (f = fields; f->name; f++) {
 		fl = flist_make(f->name);
 		fl->fld = f;
 		if (f->ftyp == type)
 			return fl;
 		fa = &ftattrtab[f->ftyp];
 		if (fa->subfld) {
 			flist_t *nfl;

 			nfl = flist_find_ftyp(fa->subfld, type);
 			if (nfl) {
 				fl->child = nfl;
 				return fl;
 			}
 		}
 		flist_free(fl);
 	}
 	return NULL;
 }

 static void
 ftok_free(
 	ftok_t	*ft)
 {
 	ftok_t	*p;

 	for (p = ft; p->tok; p++)
 		xfree(p->tok);
 	xfree(ft);
 }
	// SPDX-License-Identifier: GPL-2.0
	/*
	* Copyright (c) 2000-2001,2005 Silicon Graphics, Inc.
	* All Rights Reserved.
	*/

	#include "libxfs.h"
	#include "type.h"
	#include "faddr.h"
	#include "fprint.h"
	#include "field.h"
	#include "flist.h"
	#include "debug.h"
	#include "output.h"
	#include "malloc.h"

	static void flist_expand_arrays(flist_t *fl);
	static void flist_expand_structs(flist_t fl, void obj);
	static flist_t flist_replicate(flist_t fl);
	static ftok_t flist_split(char s);
	static void ftok_free(ftok_t *ft);

	static void
	flist_expand_arrays(
	flist_t *fl)
	{
	const field_t *f;
	#ifdef DEBUG
	const ftattr_t *fa;
	#endif
	int high;
	int idx;
	int low;
	flist_t *new;
	flist_t *prev;
	flist_t *sib;

	f = fl->fld;
	#ifdef DEBUG
	fa = &ftattrtab[f->ftyp];
	#endif
	ASSERT(fa->ftyp == f->ftyp);
	ASSERT(f->flags & FLD_ARRAY);
	low = fl->low;
	high = fl->high;
	fl->high = fl->low;
	sib = fl->sibling;
	for (idx = low + 1, prev = fl; idx <= high; idx++) {
	new = flist_make(f->name);
	new->fld = f;
	new->low = new->high = idx;
	new->flags \|= FL_OKLOW \| FL_OKHIGH;
	new->child = flist_replicate(fl->child);
	prev->sibling = new;
	prev = new;
	}
	prev->sibling = sib;
	}

	static void
	flist_expand_structs(
	flist_t *fl,
	void *obj)
	{
	const field_t *cf;
	const field_t *f;
	const ftattr_t *fa;
	flist_t *new;
	flist_t *prev;

	f = fl->fld;
	fa = &ftattrtab[f->ftyp];
	ASSERT(fa->ftyp == f->ftyp);
	ASSERT(fa->subfld != NULL);
	ASSERT(fl->child == NULL);
	for (cf = fa->subfld, prev = NULL; cf->name != NULL; cf++) {
	if (fcount(cf, obj, fl->offset) == 0)
	continue;
	if (cf->flags & FLD_SKIPALL)
	continue;
	new = flist_make(cf->name);
	new->fld = cf;
	if (prev)
	prev->sibling = new;
	else
	fl->child = new;
	prev = new;
	}
	}

	void
	flist_free(
	flist_t *fl)
	{
	if (fl->child)
	flist_free(fl->child);
	if (fl->sibling)
	flist_free(fl->sibling);
	if (fl->name)
	xfree(fl->name);
	xfree(fl);
	}

	flist_t *
	flist_make(
	char *name)
	{
	flist_t *fl;

	fl = xmalloc(sizeof(*fl));
	fl->name = xstrdup(name);
	fl->fld = NULL;
	fl->child = NULL;
	fl->sibling = NULL;
	fl->low = 0;
	fl->high = 0;
	fl->flags = 0;
	fl->offset = 0;
	return fl;
	}

	int
	flist_parse(
	const field_t *fields,
	flist_t *fl,
	void *obj,
	int startoff)
	{
	const field_t *f;
	const ftattr_t *fa;
	int high;
	int low;

	while (fl) {
	f = findfield(fl->name, fields, obj, startoff);
	if (f == NULL) {
	dbprintf(_("field %s not found\n"), fl->name);
	return 0;
	}
	fl->fld = f;
	fa = &ftattrtab[f->ftyp];
	ASSERT(fa->ftyp == f->ftyp);
	if (f->flags & FLD_ARRAY) {
	low = (f->flags & FLD_ABASE1) != 0;
	high = fcount(f, obj, startoff) + low - 1;
	if (low > high) {
	dbprintf(_("no elements in %s\n"), fl->name);
	return 0;
	}
	if (fl->flags & FL_OKHIGH) {
	if (fl->low < low \|\| fl->low > high \|\|
	fl->high < low \|\| fl->high > high) {
	dbprintf(_("indices %d-%d for field %s "
	"out of range %d-%d\n"),
	fl->low, fl->high, fl->name,
	low, high);
	return 0;
	}
	} else if (fl->flags & FL_OKLOW) {
	if (fl->low < low \|\| fl->low > high) {
	dbprintf(_("index %d for field %s out of "
	"range %d-%d\n"),
	fl->low, fl->name, low, high);
	return 0;
	}
	fl->high = fl->low;
	fl->flags \|= FL_OKHIGH;
	} else {
	fl->low = low;
	fl->high = high;
	fl->flags \|= FL_OKLOW \| FL_OKHIGH;
	}
	} else {
	if (fl->flags & FL_OKLOW) {
	dbprintf(_("field %s is not an array\n"),
	fl->name);
	return 0;
	}
	}
	fl->offset = startoff + bitoffset(f, obj, startoff, fl->low);
	if ((fl->child != NULL \|\| fa->prfunc == NULL) &&
	(f->flags & FLD_ARRAY) && fl->low != fl->high)
	flist_expand_arrays(fl);
	if (fa->prfunc == NULL && fl->child == NULL)
	flist_expand_structs(fl, obj);
	if (fl->child) {
	if (fa->subfld == NULL) {
	dbprintf(_("field %s has no subfields\n"),
	fl->name);
	return 0;
	}
	if (!flist_parse(fa->subfld, fl->child, obj,
	fl->offset))
	return 0;
	}
	fl = fl->sibling;
	}
	return 1;
	}

	void
	flist_print(
	flist_t *fl)
	{
	if (!(debug_state & DEBUG_FLIST))
	return;
	while (fl) {
	dbprintf(_("fl@%p:\n"), fl);
	dbprintf(_("\tname=%s, fld=%p, child=%p, sibling=%p\n"),
	fl->name, fl->fld, fl->child, fl->sibling);
	dbprintf(_("\tlow=%d, high=%d, flags=%d (%s%s), offset=%d\n"),
	fl->low, fl->high, fl->flags,
	fl->flags & FL_OKLOW ? _("oklow ") : "",
	fl->flags & FL_OKHIGH ? _("okhigh") : "", fl->offset);
	dbprintf(_("\tfld->name=%s, fld->ftyp=%d (%s)\n"),
	fl->fld->name, fl->fld->ftyp,
	ftattrtab[fl->fld->ftyp].name);
	dbprintf(_("\tfld->flags=%d (%s%s%s%s%s)\n"), fl->fld->flags,
	fl->fld->flags & FLD_ABASE1 ? "abase1 " : "",
	fl->fld->flags & FLD_SKIPALL ? "skipall " : "",
	fl->fld->flags & FLD_ARRAY ? "array " : "",
	fl->fld->flags & FLD_OFFSET ? "offset " : "",
	fl->fld->flags & FLD_COUNT ? "count " : "");
	if (fl->child)
	flist_print(fl->child);
	fl = fl->sibling;
	}
	}

	static flist_t *
	flist_replicate(
	flist_t *f)
	{
	flist_t *new;

	if (f == NULL)
	return NULL;
	new = flist_make(f->name);
	new->fld = f->fld;
	new->child = flist_replicate(f->child);
	new->sibling = flist_replicate(f->sibling);
	new->low = f->low;
	new->high = f->high;
	new->flags = f->flags;
	new->offset = f->offset;
	return new;
	}

	flist_t *
	flist_scan(
	char *name)
	{
	flist_t *fl;
	flist_t *lfl;
	flist_t *nfl;
	int num;
	ftok_t *p;
	ftok_t *v;
	char *x;

	v = flist_split(name);
	if (!v)
	return NULL;
	p = v;
	fl = lfl = NULL;
	while (p->tokty != TT_END) {
	if (p->tokty != TT_NAME)
	goto bad;
	nfl = flist_make(p->tok);
	if (lfl)
	lfl->child = nfl;
	else
	fl = nfl;
	lfl = nfl;
	p++;
	if (p->tokty == TT_LB) {
	p++;
	if (p->tokty != TT_NUM)
	goto bad;
	num = (int)strtoul(p->tok, &x, 0);
	if (*x != '\0')
	goto bad;
	nfl->flags \|= FL_OKLOW;
	nfl->low = num;
	p++;
	if (p->tokty == TT_DASH) {
	p++;
	if (p->tokty != TT_NUM)
	goto bad;
	num = (int)strtoul(p->tok, &x, 0);
	if (*x != '\0')
	goto bad;
	nfl->flags \|= FL_OKHIGH;
	nfl->high = num;
	p++;
	}
	if (p->tokty != TT_RB)
	goto bad;
	p++;
	}
	if (p->tokty == TT_DOT) {
	p++;
	if (p->tokty == TT_END)
	goto bad;
	}
	}
	ftok_free(v);
	return fl;
	bad:
	dbprintf(_("bad syntax in field name %s\n"), name);
	ftok_free(v);
	if (fl)
	flist_free(fl);
	return NULL;
	}

	static ftok_t *
	flist_split(
	char *s)
	{
	char *a;
	int i;
	static char *idchars;
	static char *initidchar;
	int l;
	int tailskip = 0;
	static char *numchars;
	static char xnumchars; / extended for hex conversion */
	int nv;
	static char punctchars[] = "[-].";
	static tokty_t puncttypes[] = { TT_LB, TT_DASH, TT_RB, TT_DOT };
	tokty_t t;
	ftok_t *v;

	if (idchars == NULL) {
	idchars = xmalloc(26 + 10 + 1 + 1);
	initidchar = xmalloc(26 + 1);
	numchars = xmalloc(10 + 1);
	xnumchars = xmalloc(12 + 1);
	for (i = 'a'; i <= 'z'; i++) {
	idchars[i - 'a'] = i;
	initidchar[i - 'a'] = i;
	}

	for (i = '0'; i <= '9'; i++) {
	idchars[26 + (i - '0')] = i;
	numchars[i - '0'] = i;
	xnumchars[i - '0'] = i;
	}
	idchars[26 + 10] = '_';
	idchars[26 + 10 + 1] = '\0';
	initidchar[26] = '\0';
	numchars[10] = '\0';
	xnumchars[10] = 'x';
	xnumchars[11] = 'X';
	xnumchars[12] = '\0';
	}
	nv = 0;
	v = xmalloc(sizeof(*v));
	v->tok = NULL;
	while (*s) {
	/* need to add string handling */
	if (*s == '\"') {
	s++; /* skip first quote */
	if ((a = strrchr(s, '\"')) == NULL) {
	dbprintf(_("missing closing quote %s\n"), s);
	ftok_free(v);
	return NULL;
	}
	tailskip = 1; /* skip remaing quote */
	l = (int)(a - s);
	t = TT_STRING;
	} else if (strchr(initidchar, *s)) {
	l = (int)strspn(s, idchars);
	t = TT_NAME;
	} else if (strchr(numchars, *s)) {
	l = (int)strspn(s, xnumchars);
	t = TT_NUM;
	} else if ((a = strchr(punctchars, *s))) {
	l = 1;
	t = puncttypes[a - punctchars];
	} else {
	dbprintf(_("bad character in field %s\n"), s);
	ftok_free(v);
	return NULL;
	}
	a = xmalloc(l + 1);
	strncpy(a, s, l);
	a[l] = '\0';
	v = xrealloc(v, (nv + 2) * sizeof(*v));
	v[nv + 1].tok = NULL;
	v[nv].tok = a;
	v[nv].tokty = t;
	nv++;
	s += l + tailskip;
	tailskip = 0;
	}
	v[nv].tok = NULL;
	v[nv].tokty = TT_END;
	return v;
	}

	/*
	* Given a set of fields, scan for a field of the given type.
	* Return an flist leading to the first found field
	* of that type.
	* Return NULL if no field of the given type is found.
	*/
	flist_t *
	flist_find_ftyp(
	const field_t *fields,
	fldt_t type)
	{
	flist_t *fl;
	const field_t *f;
	const ftattr_t *fa;

	for (f = fields; f->name; f++) {
	fl = flist_make(f->name);
	fl->fld = f;
	if (f->ftyp == type)
	return fl;
	fa = &ftattrtab[f->ftyp];
	if (fa->subfld) {
	flist_t *nfl;

	nfl = flist_find_ftyp(fa->subfld, type);
	if (nfl) {
	fl->child = nfl;
	return fl;
	}
	}
	flist_free(fl);
	}
	return NULL;
	}

	static void
	ftok_free(
	ftok_t *ft)
	{
	ftok_t *p;

	for (p = ft; p->tok; p++)
	xfree(p->tok);
	xfree(ft);
	}