bin/test/test.c

1.1  glass /*-
1.1  glass  * Copyright (c) 1992 The Regents of the University of California.
1.1  glass  * All rights reserved.
1.1  glass  *
1.1  glass  * This code is derived from software contributed to Berkeley by
1.1  glass  * Kenneth Almquist.
1.1  glass  *
1.1  glass  * Redistribution and use in source and binary forms, with or without
1.1  glass  * modification, are permitted provided that the following conditions
1.1  glass  * are met:
1.1  glass  * 1. Redistributions of source code must retain the above copyright
1.1  glass  *    notice, this list of conditions and the following disclaimer.
1.1  glass  * 2. Redistributions in binary form must reproduce the above copyright
1.1  glass  *    notice, this list of conditions and the following disclaimer in the
1.1  glass  *    documentation and/or other materials provided with the distribution.
1.1  glass  * 3. All advertising materials mentioning features or use of this software
1.1  glass  *    must display the following acknowledgement:
1.1  glass  *	This product includes software developed by the University of
1.1  glass  *	California, Berkeley and its contributors.
1.1  glass  * 4. Neither the name of the University nor the names of its contributors
1.1  glass  *    may be used to endorse or promote products derived from this software
1.1  glass  *    without specific prior written permission.
1.1  glass  *
1.1  glass  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  glass  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  glass  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  glass  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  glass  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  glass  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  glass  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  glass  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  glass  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  glass  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  glass  * SUCH DAMAGE.
1.1  glass  */
1.1  glass
1.1  glass #ifndef lint
1.1  glass char copyright[] =
1.1  glass "@(#) Copyright (c) 1992 The Regents of the University of California.\n\
1.1  glass  All rights reserved.\n";
1.1  glass #endif /* not lint */
1.1  glass
1.1  glass #ifndef lint
1.1  glass static char sccsid[] = "@(#)test.c	5.4 (Berkeley) 2/12/93";
1.1  glass #endif /* not lint */
1.1  glass
1.1  glass #include <sys/types.h>
1.1  glass #include <sys/stat.h>
1.1  glass #include <errno.h>
1.1  glass #include <stdlib.h>
1.1  glass #include <string.h>
1.1  glass #include <stdio.h>
1.1  glass
1.1  glass #include "operators.h"
1.1  glass
1.1  glass #define	STACKSIZE	12
1.1  glass #define	NESTINCR	16
1.1  glass
1.1  glass /* data types */
1.1  glass #define	STRING	0
1.1  glass #define	INTEGER	1
1.1  glass #define	BOOLEAN	2
1.1  glass
1.1  glass #define	IS_BANG(s) (s[0] == '!' && s[1] == '\0')
1.1  glass
1.1  glass /*
1.1  glass  * This structure hold a value.  The type keyword specifies the type of
1.1  glass  * the value, and the union u holds the value.  The value of a boolean
1.1  glass  * is stored in u.num (1 = TRUE, 0 = FALSE).
1.1  glass  */
1.1  glass struct value {
1.1  glass 	int type;
1.1  glass 	union {
1.1  glass 		char *string;
1.1  glass 		long num;
1.1  glass 	} u;
1.1  glass };
1.1  glass
1.1  glass struct operator {
1.1  glass 	short op;		/* Which operator. */
1.1  glass 	short pri;		/* Priority of operator. */
1.1  glass };
1.1  glass
1.1  glass struct filestat {
1.1  glass 	char *name;		/* Name of file. */
1.1  glass 	int rcode;		/* Return code from stat. */
1.1  glass 	struct stat stat;	/* Status info on file. */
1.1  glass };
1.1  glass
1.1  glass static void	err __P((const char *, ...));
1.1  glass static int	expr_is_false __P((struct value *));
1.1  glass static void	expr_operator __P((int, struct value *, struct filestat *));
1.1  glass static int	int_tcheck __P((char *));
1.1  glass static int	lookup_op __P((char *, char *const *));
1.1  glass static void	overflow __P((void));
1.1  glass static int	posix_binary_op __P((char **));
1.1  glass static int	posix_unary_op __P((char **));
1.1  glass static void	syntax __P((void));
1.1  glass
1.1  glass int
1.1  glass main(argc, argv)
1.1  glass 	int argc;
1.1  glass 	char *argv[];
1.1  glass {
1.1  glass 	struct operator opstack[STACKSIZE];
1.1  glass 	struct operator *opsp;
1.1  glass 	struct value valstack[STACKSIZE + 1];
1.1  glass 	struct value *valsp;
1.1  glass 	struct filestat fs;
1.1  glass 	char  c, **ap, *opname, *p;
1.1  glass 	int binary, nest, op, pri, ret_val, skipping;
1.1  glass
1.1  glass 	if ((p = argv[0]) == NULL) {
1.1  glass 		err("test: argc is zero.\n");
1.1  glass 		exit(2);
1.1  glass 	}
1.1  glass
1.1  glass 	if (*p != '\0' && p[strlen(p) - 1] == '[') {
1.1  glass 		if (strcmp(argv[--argc], "]"))
1.1  glass 			err("missing ]");
1.1  glass 		argv[argc] = NULL;
1.1  glass 	}
1.1  glass 	ap = argv + 1;
1.1  glass 	fs.name = NULL;
1.1  glass
1.1  glass 	/*
1.1  glass 	 * Test(1) implements an inherently ambiguous grammer.  In order to
1.1  glass 	 * assure some degree of consistency, we special case the POSIX 1003.2
1.1  glass 	 * requirements to assure correct evaluation for POSIX scripts.  The
1.1  glass 	 * following special cases comply with POSIX P1003.2/D11.2 Section
1.1  glass 	 * 4.62.4.
1.1  glass 	 */
1.1  glass 	switch(argc - 1) {
1.1  glass 	case 0:				/* % test */
1.1  glass 		return (1);
1.1  glass 		break;
1.1  glass 	case 1:				/* % test arg */
1.1  glass 		/* MIPS machine returns NULL of '[ ]' is called. */
1.1  glass 		return (argv[1] == 0 || *argv[1] == '\0') ? 1 : 0;
1.1  glass 		break;
1.1  glass 	case 2:				/* % test op arg */
1.1  glass 		opname = argv[1];
1.1  glass 		if (IS_BANG(opname))
1.2    cgd 			return (*argv[2] == '\0') ? 0 : 1;
1.1  glass 		else {
1.1  glass 			ret_val = posix_unary_op(&argv[1]);
1.1  glass 			if (ret_val >= 0)
1.1  glass 				return (ret_val);
1.1  glass 		}
1.1  glass 		break;
1.1  glass 	case 3:				/* % test arg1 op arg2 */
1.1  glass 		if (IS_BANG(argv[1])) {
1.1  glass 			ret_val = posix_unary_op(&argv[1]);
1.1  glass 			if (ret_val >= 0)
1.1  glass 				return (!ret_val);
1.1  glass 		} else {
1.1  glass 			ret_val = posix_binary_op(&argv[1]);
1.1  glass 			if (ret_val >= 0)
1.1  glass 				return (ret_val);
1.1  glass 		}
1.1  glass 		break;
1.1  glass 	case 4:				/* % test ! arg1 op arg2 */
1.1  glass 		if (IS_BANG(argv[1])) {
1.1  glass 			ret_val = posix_binary_op(&argv[2]);
1.1  glass 			if (ret_val >= 0)
1.1  glass 				return (!ret_val);
1.1  glass 		}
1.1  glass 		break;
1.1  glass 	default:
1.1  glass 		break;
1.1  glass 	}
1.1  glass
1.1  glass 	/*
1.1  glass 	 * We use operator precedence parsing, evaluating the expression as
1.1  glass 	 * we parse it.  Parentheses are handled by bumping up the priority
1.1  glass 	 * of operators using the variable "nest."  We use the variable
1.1  glass 	 * "skipping" to turn off evaluation temporarily for the short
1.1  glass 	 * circuit boolean operators.  (It is important do the short circuit
1.1  glass 	 * evaluation because under NFS a stat operation can take infinitely
1.1  glass 	 * long.)
1.1  glass 	 */
1.1  glass 	opsp = opstack + STACKSIZE;
1.1  glass 	valsp = valstack;
1.1  glass 	nest = skipping = 0;
1.1  glass 	if (*ap == NULL) {
1.1  glass 		valstack[0].type = BOOLEAN;
1.1  glass 		valstack[0].u.num = 0;
1.1  glass 		goto done;
1.1  glass 	}
1.1  glass 	for (;;) {
1.1  glass 		opname = *ap++;
1.1  glass 		if (opname == NULL)
1.1  glass 			syntax();
1.1  glass 		if (opname[0] == '(' && opname[1] == '\0') {
1.1  glass 			nest += NESTINCR;
1.1  glass 			continue;
1.1  glass 		} else if (*ap && (op = lookup_op(opname, unary_op)) >= 0) {
1.1  glass 			if (opsp == &opstack[0])
1.1  glass 				overflow();
1.1  glass 			--opsp;
1.1  glass 			opsp->op = op;
1.1  glass 			opsp->pri = op_priority[op] + nest;
1.1  glass 			continue;
1.1  glass 		} else {
1.1  glass 			valsp->type = STRING;
1.1  glass 			valsp->u.string = opname;
1.1  glass 			valsp++;
1.1  glass 		}
1.1  glass 		for (;;) {
1.1  glass 			opname = *ap++;
1.1  glass 			if (opname == NULL) {
1.1  glass 				if (nest != 0)
1.1  glass 					syntax();
1.1  glass 				pri = 0;
1.1  glass 				break;
1.1  glass 			}
1.1  glass 			if (opname[0] != ')' || opname[1] != '\0') {
1.1  glass 				if ((op = lookup_op(opname, binary_op)) < 0)
1.1  glass 					syntax();
1.1  glass 				op += FIRST_BINARY_OP;
1.1  glass 				pri = op_priority[op] + nest;
1.1  glass 				break;
1.1  glass 			}
1.1  glass 			if ((nest -= NESTINCR) < 0)
1.1  glass 				syntax();
1.1  glass 		}
1.1  glass 		while (opsp < &opstack[STACKSIZE] && opsp->pri >= pri) {
1.1  glass 			binary = opsp->op;
1.1  glass 			for (;;) {
1.1  glass 				valsp--;
1.1  glass 				c = op_argflag[opsp->op];
1.1  glass 				if (c == OP_INT) {
1.1  glass 					if (valsp->type == STRING &&
1.1  glass 					    int_tcheck(valsp->u.string))
1.1  glass 						valsp->u.num =
1.1  glass 						    atol(valsp->u.string);
1.1  glass 					valsp->type = INTEGER;
1.1  glass 				} else if (c >= OP_STRING) {
1.1  glass 					            /* OP_STRING or OP_FILE */
1.1  glass 					if (valsp->type == INTEGER) {
1.1  glass 						if ((p = malloc(32)) == NULL)
1.1  glass 							err("%s",
1.1  glass 							    strerror(errno));
1.1  glass #ifdef SHELL
1.1  glass 						fmtstr(p, 32, "%d",
1.1  glass 						    valsp->u.num);
1.1  glass #else
1.1  glass 						(void)sprintf(p,
1.1  glass 						    "%d", valsp->u.num);
1.1  glass #endif
1.1  glass 						valsp->u.string = p;
1.1  glass 					} else if (valsp->type == BOOLEAN) {
1.1  glass 						if (valsp->u.num)
1.1  glass 							valsp->u.string =
1.1  glass 						            "true";
1.1  glass 						else
1.1  glass 							valsp->u.string = "";
1.1  glass 					}
1.1  glass 					valsp->type = STRING;
1.1  glass 					if (c == OP_FILE && (fs.name == NULL ||
1.1  glass 					    strcmp(fs.name, valsp->u.string))) {
1.1  glass 						fs.name = valsp->u.string;
1.1  glass 						fs.rcode =
1.1  glass 						    stat(valsp->u.string,
1.1  glass                                                     &fs.stat);
1.1  glass 					}
1.1  glass 				}
1.1  glass 				if (binary < FIRST_BINARY_OP)
1.1  glass 					break;
1.1  glass 				binary = 0;
1.1  glass 			}
1.1  glass 			if (!skipping)
1.1  glass 				expr_operator(opsp->op, valsp, &fs);
1.1  glass 			else if (opsp->op == AND1 || opsp->op == OR1)
1.1  glass 				skipping--;
1.1  glass 			valsp++;		/* push value */
1.1  glass 			opsp++;			/* pop operator */
1.1  glass 		}
1.1  glass 		if (opname == NULL)
1.1  glass 			break;
1.1  glass 		if (opsp == &opstack[0])
1.1  glass 			overflow();
1.1  glass 		if (op == AND1 || op == AND2) {
1.1  glass 			op = AND1;
1.1  glass 			if (skipping || expr_is_false(valsp - 1))
1.1  glass 				skipping++;
1.1  glass 		}
1.1  glass 		if (op == OR1 || op == OR2) {
1.1  glass 			op = OR1;
1.1  glass 			if (skipping || !expr_is_false(valsp - 1))
1.1  glass 				skipping++;
1.1  glass 		}
1.1  glass 		opsp--;
1.1  glass 		opsp->op = op;
1.1  glass 		opsp->pri = pri;
1.1  glass 	}
1.1  glass done:	return (expr_is_false(&valstack[0]));
1.1  glass }
1.1  glass
1.1  glass static int
1.1  glass expr_is_false(val)
1.1  glass 	struct value *val;
1.1  glass {
1.1  glass 	if (val->type == STRING) {
1.1  glass 		if (val->u.string[0] == '\0')
1.1  glass 			return (1);
1.1  glass 	} else {		/* INTEGER or BOOLEAN */
1.1  glass 		if (val->u.num == 0)
1.1  glass 			return (1);
1.1  glass 	}
1.1  glass 	return (0);
1.1  glass }
1.1  glass
1.1  glass
1.1  glass /*
1.1  glass  * Execute an operator.  Op is the operator.  Sp is the stack pointer;
1.1  glass  * sp[0] refers to the first operand, sp[1] refers to the second operand
1.1  glass  * (if any), and the result is placed in sp[0].  The operands are converted
1.1  glass  * to the type expected by the operator before expr_operator is called.
1.1  glass  * Fs is a pointer to a structure which holds the value of the last call
1.1  glass  * to stat, to avoid repeated stat calls on the same file.
1.1  glass  */
1.1  glass static void
1.1  glass expr_operator(op, sp, fs)
1.1  glass 	int op;
1.1  glass 	struct value *sp;
1.1  glass 	struct filestat *fs;
1.1  glass {
1.1  glass 	int i;
1.1  glass
1.1  glass 	switch (op) {
1.1  glass 	case NOT:
1.1  glass 		sp->u.num = expr_is_false(sp);
1.1  glass 		sp->type = BOOLEAN;
1.1  glass 		break;
1.1  glass 	case ISEXIST:
1.1  glass 		if (fs == NULL || fs->rcode == -1)
1.1  glass 			goto false;
1.1  glass 		else
1.1  glass 			goto true;
1.1  glass 	case ISREAD:
1.1  glass 		i = S_IROTH;
1.1  glass 		goto permission;
1.1  glass 	case ISWRITE:
1.1  glass 		i = S_IWOTH;
1.1  glass 		goto permission;
1.1  glass 	case ISEXEC:
1.1  glass 		i = S_IXOTH;
1.1  glass permission:	if (fs->stat.st_uid == geteuid())
1.1  glass 			i <<= 6;
1.1  glass 		else if (fs->stat.st_gid == getegid())
1.1  glass 			i <<= 3;
1.1  glass 		goto filebit;	/* true if (stat.st_mode & i) != 0 */
1.1  glass 	case ISFILE:
1.1  glass 		i = S_IFREG;
1.1  glass 		goto filetype;
1.1  glass 	case ISDIR:
1.1  glass 		i = S_IFDIR;
1.1  glass 		goto filetype;
1.1  glass 	case ISCHAR:
1.1  glass 		i = S_IFCHR;
1.1  glass 		goto filetype;
1.1  glass 	case ISBLOCK:
1.1  glass 		i = S_IFBLK;
1.1  glass 		goto filetype;
1.1  glass 	case ISFIFO:
1.1  glass 		i = S_IFIFO;
1.1  glass 		goto filetype;
1.1  glass filetype:	if ((fs->stat.st_mode & S_IFMT) == i && fs->rcode >= 0)
1.1  glass true:			sp->u.num = 1;
1.1  glass 		else
1.1  glass false:			sp->u.num = 0;
1.1  glass 		sp->type = BOOLEAN;
1.1  glass 		break;
1.1  glass 	case ISSETUID:
1.1  glass 		i = S_ISUID;
1.1  glass 		goto filebit;
1.1  glass 	case ISSETGID:
1.1  glass 		i = S_ISGID;
1.1  glass 		goto filebit;
1.1  glass 	case ISSTICKY:
1.1  glass 		i = S_ISVTX;
1.1  glass filebit:	if (fs->stat.st_mode & i && fs->rcode >= 0)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case ISSIZE:
1.1  glass 		sp->u.num = fs->rcode >= 0 ? fs->stat.st_size : 0L;
1.1  glass 		sp->type = INTEGER;
1.1  glass 		break;
1.1  glass 	case ISTTY:
1.1  glass 		sp->u.num = isatty(sp->u.num);
1.1  glass 		sp->type = BOOLEAN;
1.1  glass 		break;
1.1  glass 	case NULSTR:
1.1  glass 		if (sp->u.string[0] == '\0')
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case STRLEN:
1.1  glass 		sp->u.num = strlen(sp->u.string);
1.1  glass 		sp->type = INTEGER;
1.1  glass 		break;
1.1  glass 	case OR1:
1.1  glass 	case AND1:
1.1  glass 		/*
1.1  glass 		 * These operators are mostly handled by the parser.  If we
1.1  glass 		 * get here it means that both operands were evaluated, so
1.1  glass 		 * the value is the value of the second operand.
1.1  glass 		 */
1.1  glass 		*sp = *(sp + 1);
1.1  glass 		break;
1.1  glass 	case STREQ:
1.1  glass 	case STRNE:
1.1  glass 		i = 0;
1.1  glass 		if (!strcmp(sp->u.string, (sp + 1)->u.string))
1.1  glass 			i++;
1.1  glass 		if (op == STRNE)
1.1  glass 			i = 1 - i;
1.1  glass 		sp->u.num = i;
1.1  glass 		sp->type = BOOLEAN;
1.1  glass 		break;
1.1  glass 	case EQ:
1.1  glass 		if (sp->u.num == (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case NE:
1.1  glass 		if (sp->u.num != (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case GT:
1.1  glass 		if (sp->u.num > (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case LT:
1.1  glass 		if (sp->u.num < (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case LE:
1.1  glass 		if (sp->u.num <= (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass 	case GE:
1.1  glass 		if (sp->u.num >= (sp + 1)->u.num)
1.1  glass 			goto true;
1.1  glass 		goto false;
1.1  glass
1.1  glass 	}
1.1  glass }
1.1  glass
1.1  glass static int
1.1  glass lookup_op(name, table)
1.1  glass 	char   *name;
1.1  glass 	char   *const * table;
1.1  glass {
1.1  glass 	register char *const * tp;
1.1  glass 	register char const *p;
1.1  glass 	char c;
1.1  glass
1.1  glass 	c = name[1];
1.1  glass 	for (tp = table; (p = *tp) != NULL; tp++)
1.1  glass 		if (p[1] == c && !strcmp(p, name))
1.1  glass 			return (tp - table);
1.1  glass 	return (-1);
1.1  glass }
1.1  glass
1.1  glass static int
1.1  glass posix_unary_op(argv)
1.1  glass 	char **argv;
1.1  glass {
1.1  glass 	struct filestat fs;
1.1  glass 	struct value valp;
1.1  glass 	int op, c;
1.1  glass 	char *opname;
1.1  glass
1.1  glass 	opname = *argv;
1.1  glass 	if ((op = lookup_op(opname, unary_op)) < 0)
1.1  glass 		return (-1);
1.1  glass 	c = op_argflag[op];
1.1  glass 	opname = argv[1];
1.1  glass 	valp.u.string = opname;
1.1  glass 	if (c == OP_FILE) {
1.1  glass 		fs.name = opname;
1.1  glass 		fs.rcode = stat(opname, &fs.stat);
1.1  glass 	} else if (c != OP_STRING)
1.1  glass 		return (-1);
1.1  glass
1.1  glass 	expr_operator(op, &valp, &fs);
1.1  glass 	return (valp.u.num == 0);
1.1  glass }
1.1  glass
1.1  glass static int
1.1  glass posix_binary_op(argv)
1.1  glass 	char  **argv;
1.1  glass {
1.1  glass 	struct value v[2];
1.1  glass 	int op, c;
1.1  glass 	char *opname;
1.1  glass
1.1  glass 	opname = argv[1];
1.1  glass 	if ((op = lookup_op(opname, binary_op)) < 0)
1.1  glass 		return (-1);
1.1  glass 	op += FIRST_BINARY_OP;
1.1  glass 	c = op_argflag[op];
1.1  glass
1.1  glass 	if (c == OP_INT && int_tcheck(argv[0]) && int_tcheck(argv[2])) {
1.1  glass 		v[0].u.num = atol(argv[0]);
1.1  glass 		v[1].u.num = atol(argv[2]);
1.1  glass 	} else {
1.1  glass 		v[0].u.string = argv[0];
1.1  glass 		v[1].u.string = argv[2];
1.1  glass 	}
1.1  glass 	expr_operator(op, v, NULL);
1.1  glass 	return (v[0].u.num == 0);
1.1  glass }
1.1  glass
1.1  glass /*
1.1  glass  * Integer type checking.
1.1  glass  */
1.1  glass static int
1.1  glass int_tcheck(v)
1.1  glass 	char *v;
1.1  glass {
1.1  glass 	char *p;
1.1  glass
1.1  glass 	for (p = v; *p != '\0'; p++)
1.1  glass 		if (!isdigit(*p))
1.1  glass 			err("illegal operand \"%s\" -- expected integer.", v);
1.1  glass 	return (1);
1.1  glass }
1.1  glass
1.1  glass static void
1.1  glass syntax()
1.1  glass {
1.1  glass 	err("syntax error");
1.1  glass }
1.1  glass
1.1  glass static void
1.1  glass overflow()
1.1  glass {
1.1  glass 	err("expression is too complex");
1.1  glass }
1.1  glass
1.1  glass #if __STDC__
1.1  glass #include <stdarg.h>
1.1  glass #else
1.1  glass #include <varargs.h>
1.1  glass #endif
1.1  glass
1.1  glass void
1.1  glass #if __STDC__
1.1  glass err(const char *fmt, ...)
1.1  glass #else
1.1  glass err(fmt, va_alist)
1.1  glass 	char *fmt;
1.1  glass         va_dcl
1.1  glass #endif
1.1  glass {
1.1  glass 	va_list ap;
1.1  glass #if __STDC__
1.1  glass 	va_start(ap, fmt);
1.1  glass #else
1.1  glass 	va_start(ap);
1.1  glass #endif
1.1  glass 	(void)fprintf(stderr, "test: ");
1.1  glass 	(void)vfprintf(stderr, fmt, ap);
1.1  glass 	va_end(ap);
1.1  glass 	(void)fprintf(stderr, "\n");
1.1  glass 	exit(2);
1.1  glass 	/* NOTREACHED */
1.1  glass }