ash/eval.c - maze/klibc - Git at Google

 /*-
  * Copyright (c) 1991 The Regents of the University of California.
  * All rights reserved.
  *
  * This code is derived from software contributed to Berkeley by
  * Kenneth Almquist.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. All advertising materials mentioning features or use of this software
  *    must display the following acknowledgement:
  *	This product includes software developed by the University of
  *	California, Berkeley and its contributors.
  * 4. Neither the name of the University nor the names of its contributors
  *    may be used to endorse or promote products derived from this software
  *    without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #ifndef lint
 /*static char sccsid[] = "from: @(#)eval.c	5.3 (Berkeley) 4/12/91";*/
 static char rcsid[] = "eval.c,v 1.6 1993/09/09 01:05:19 cgd Exp";
 #endif /* not lint */

 /*
  * Evaluate a command.
  */

 #include "shell.h"
 #include "nodes.h"
 #include "syntax.h"
 #include "expand.h"
 #include "parser.h"
 #include "jobs.h"
 #include "eval.h"
 #include "builtins.h"
 #include "options.h"
 #include "exec.h"
 #include "redir.h"
 #include "input.h"
 #include "output.h"
 #include "trap.h"
 #include "var.h"
 #include "memalloc.h"
 #include "error.h"
 #include "mystring.h"
 #include <signal.h>


 /* flags in argument to evaltree */
 #define EV_EXIT 01		/* exit after evaluating tree */
 #define EV_TESTED 02		/* exit status is checked; ignore -e flag */
 #define EV_BACKCMD 04		/* command executing within back quotes */


 /* reasons for skipping commands (see comment on breakcmd routine) */
 #define SKIPBREAK 1
 #define SKIPCONT 2
 #define SKIPFUNC 3

 MKINIT int evalskip;		/* set if we are skipping commands */
 STATIC int skipcount;		/* number of levels to skip */
 MKINIT int loopnest;		/* current loop nesting level */
 int funcnest;			/* depth of function calls */


 char *commandname;
 struct strlist *cmdenviron;
 int exitstatus;			/* exit status of last command */


 #ifdef __STDC__
 STATIC void evalloop(union node *);
 STATIC void evalfor(union node *);
 STATIC void evalcase(union node *, int);
 STATIC void evalsubshell(union node *, int);
 STATIC void expredir(union node *);
 STATIC void evalpipe(union node *);
 STATIC void evalcommand(union node *, int, struct backcmd *);
 STATIC void prehash(union node *);
 #else
 STATIC void evalloop();
 STATIC void evalfor();
 STATIC void evalcase();
 STATIC void evalsubshell();
 STATIC void expredir();
 STATIC void evalpipe();
 STATIC void evalcommand();
 STATIC void prehash();
 #endif


 /*
  * Called to reset things after an exception.
  */

 #ifdef mkinit
 INCLUDE "eval.h"

 RESET {
 	evalskip = 0;
 	loopnest = 0;
 	funcnest = 0;
 }

 SHELLPROC {
 	exitstatus = 0;
 }
 #endif


 /*
  * The eval commmand.
  */

 evalcmd(argc, argv)
 	char **argv;
 {
         char *p;
         char *concat;
         char **ap;

         if (argc > 1) {
                 p = argv[1];
                 if (argc > 2) {
                         STARTSTACKSTR(concat);
                         ap = argv + 2;
                         for (;;) {
                                 while (*p)
                                         STPUTC(*p++, concat);
                                 if ((p = *ap++) == NULL)
                                         break;
                                 STPUTC(' ', concat);
                         }
                         STPUTC('\0', concat);
                         p = grabstackstr(concat);
                 }
                 evalstring(p);
         }
         return exitstatus;
 }


 /*
  * Execute a command or commands contained in a string.
  */

 void
 evalstring(s)
 	char *s;
 	{
 	union node *n;
 	struct stackmark smark;

 	setstackmark(&smark);
 	setinputstring(s, 1);
 	while ((n = parsecmd(0)) != NEOF) {
 		evaltree(n, 0);
 		popstackmark(&smark);
 	}
 	popfile();
 	popstackmark(&smark);
 }


 /*
  * Evaluate a parse tree.  The value is left in the global variable
  * exitstatus.
  */

 void
 evaltree(n, flags)
 	union node *n;
 	{
 	if (n == NULL) {
 		TRACE(("evaltree(NULL) called\n"));
 		return;
 	}
 	TRACE(("evaltree(0x%x: %d) called\n", (int)n, n->type));
 	switch (n->type) {
 	case NSEMI:
 		evaltree(n->nbinary.ch1, 0);
 		if (evalskip)
 			goto out;
 		evaltree(n->nbinary.ch2, flags);
 		break;
 	case NAND:
 		evaltree(n->nbinary.ch1, EV_TESTED);
 		if (evalskip || exitstatus != 0)
 			goto out;
 		evaltree(n->nbinary.ch2, flags);
 		break;
 	case NOR:
 		evaltree(n->nbinary.ch1, EV_TESTED);
 		if (evalskip || exitstatus == 0)
 			goto out;
 		evaltree(n->nbinary.ch2, flags);
 		break;
 	case NREDIR:
 		expredir(n->nredir.redirect);
 		redirect(n->nredir.redirect, REDIR_PUSH);
 		evaltree(n->nredir.n, flags);
 		popredir();
 		break;
 	case NSUBSHELL:
 		evalsubshell(n, flags);
 		break;
 	case NBACKGND:
 		evalsubshell(n, flags);
 		break;
 	case NIF: {
 		int status = 0;

 		evaltree(n->nif.test, EV_TESTED);
 		if (evalskip)
 			goto out;
 		if (exitstatus == 0) {
 			evaltree(n->nif.ifpart, flags);
 			status = exitstatus;
 		} else if (n->nif.elsepart) {
 			evaltree(n->nif.elsepart, flags);
 			status = exitstatus;
 		}
 		exitstatus = status;
 		break;
 	}
 	case NWHILE:
 	case NUNTIL:
 		evalloop(n);
 		break;
 	case NFOR:
 		evalfor(n);
 		break;
 	case NCASE:
 		evalcase(n, flags);
 		break;
 	case NDEFUN:
 		defun(n->narg.text, n->narg.next);
 		exitstatus = 0;
 		break;
 	case NPIPE:
 		evalpipe(n);
 		break;
 	case NCMD:
 		evalcommand(n, flags, (struct backcmd *)NULL);
 		break;
 	default:
 		out1fmt("Node type = %d\n", n->type);
 		flushout(&output);
 		break;
 	}
 out:
 	if (pendingsigs)
 		dotrap();
 	if ((flags & EV_EXIT) || (eflag && exitstatus && !(flags & EV_TESTED)))
 		exitshell(exitstatus);
 }


 STATIC void
 evalloop(n)
 	union node *n;
 	{
 	int status;

 	loopnest++;
 	status = 0;
 	for (;;) {
 		evaltree(n->nbinary.ch1, EV_TESTED);
 		if (evalskip) {
 skipping:	  if (evalskip == SKIPCONT && --skipcount <= 0) {
 				evalskip = 0;
 				continue;
 			}
 			if (evalskip == SKIPBREAK && --skipcount <= 0)
 				evalskip = 0;
 			break;
 		}
 		if (n->type == NWHILE) {
 			if (exitstatus != 0)
 				break;
 		} else {
 			if (exitstatus == 0)
 				break;
 		}
 		evaltree(n->nbinary.ch2, 0);
 		status = exitstatus;
 		if (evalskip)
 			goto skipping;
 	}
 	loopnest--;
 	exitstatus = status;
 }


 STATIC void
 evalfor(n)
 	union node *n;
 	{
 	struct arglist arglist;
 	union node *argp;
 	struct strlist *sp;
 	struct stackmark smark;

 	setstackmark(&smark);
 	arglist.lastp = &arglist.list;
 	for (argp = n->nfor.args ; argp ; argp = argp->narg.next) {
 		expandarg(argp, &arglist, 1);
 		if (evalskip)
 			goto out;
 	}
 	*arglist.lastp = NULL;

 	exitstatus = 0;
 	loopnest++;
 	for (sp = arglist.list ; sp ; sp = sp->next) {
 		setvar(n->nfor.var, sp->text, 0);
 		evaltree(n->nfor.body, 0);
 		if (evalskip) {
 			if (evalskip == SKIPCONT && --skipcount <= 0) {
 				evalskip = 0;
 				continue;
 			}
 			if (evalskip == SKIPBREAK && --skipcount <= 0)
 				evalskip = 0;
 			break;
 		}
 	}
 	loopnest--;
 out:
 	popstackmark(&smark);
 }


 STATIC void
 evalcase(n, flags)
 	union node *n;
 	{
 	union node *cp;
 	union node *patp;
 	struct arglist arglist;
 	struct stackmark smark;

 	setstackmark(&smark);
 	arglist.lastp = &arglist.list;
 	expandarg(n->ncase.expr, &arglist, 0);
 	for (cp = n->ncase.cases ; cp && evalskip == 0 ; cp = cp->nclist.next) {
 		for (patp = cp->nclist.pattern ; patp ; patp = patp->narg.next) {
 			if (casematch(patp, arglist.list->text)) {
 				if (evalskip == 0) {
 					evaltree(cp->nclist.body, flags);
 				}
 				goto out;
 			}
 		}
 	}
 out:
 	popstackmark(&smark);
 }


 /*
  * Kick off a subshell to evaluate a tree.
  */

 STATIC void
 evalsubshell(n, flags)
 	union node *n;
 	{
 	struct job *jp;
 	int backgnd = (n->type == NBACKGND);

 	expredir(n->nredir.redirect);
 	jp = makejob(n, 1);
 	if (forkshell(jp, n, backgnd) == 0) {
 		if (backgnd)
 			flags &=~ EV_TESTED;
 		redirect(n->nredir.redirect, 0);
 		evaltree(n->nredir.n, flags | EV_EXIT);	/* never returns */
 	}
 	if (! backgnd) {
 		INTOFF;
 		exitstatus = waitforjob(jp);
 		INTON;
 	}
 }


 /*
  * Compute the names of the files in a redirection list.
  */

 STATIC void
 expredir(n)
 	union node *n;
 	{
 	register union node *redir;

 	for (redir = n ; redir ; redir = redir->nfile.next) {
 		if (redir->type == NFROM
 		 || redir->type == NTO
 		 || redir->type == NAPPEND) {
 			struct arglist fn;
 			fn.lastp = &fn.list;
 			expandarg(redir->nfile.fname, &fn, 0);
 			redir->nfile.expfname = fn.list->text;
 		}
 	}
 }


 /*
  * Evaluate a pipeline.  All the processes in the pipeline are children
  * of the process creating the pipeline.  (This differs from some versions
  * of the shell, which make the last process in a pipeline the parent
  * of all the rest.)
  */

 STATIC void
 evalpipe(n)
 	union node *n;
 	{
 	struct job *jp;
 	struct nodelist *lp;
 	int pipelen;
 	int prevfd;
 	int pip[2];

 	TRACE(("evalpipe(0x%x) called\n", (int)n));
 	pipelen = 0;
 	for (lp = n->npipe.cmdlist ; lp ; lp = lp->next)
 		pipelen++;
 	INTOFF;
 	jp = makejob(n, pipelen);
 	prevfd = -1;
 	for (lp = n->npipe.cmdlist ; lp ; lp = lp->next) {
 		prehash(lp->n);
 		pip[1] = -1;
 		if (lp->next) {
 			if (pipe(pip) < 0) {
 				close(prevfd);
 				error("Pipe call failed");
 			}
 		}
 		if (forkshell(jp, lp->n, n->npipe.backgnd) == 0) {
 			INTON;
 			if (prevfd > 0) {
 				close(0);
 				copyfd(prevfd, 0);
 				close(prevfd);
 			}
 			if (pip[1] >= 0) {
 				close(pip[0]);
 				if (pip[1] != 1) {
 					close(1);
 					copyfd(pip[1], 1);
 					close(pip[1]);
 				}
 			}
 			evaltree(lp->n, EV_EXIT);
 		}
 		if (prevfd >= 0)
 			close(prevfd);
 		prevfd = pip[0];
 		close(pip[1]);
 	}
 	INTON;
 	if (n->npipe.backgnd == 0) {
 		INTOFF;
 		exitstatus = waitforjob(jp);
 		TRACE(("evalpipe:  job done exit status %d\n", exitstatus));
 		INTON;
 	}
 }


 /*
  * Execute a command inside back quotes.  If it's a builtin command, we
  * want to save its output in a block obtained from malloc.  Otherwise
  * we fork off a subprocess and get the output of the command via a pipe.
  * Should be called with interrupts off.
  */

 void
 evalbackcmd(n, result)
 	union node *n;
 	struct backcmd *result;
 	{
 	int pip[2];
 	struct job *jp;
 	struct stackmark smark;		/* unnecessary */

 	setstackmark(&smark);
 	result->fd = -1;
 	result->buf = NULL;
 	result->nleft = 0;
 	result->jp = NULL;
 	/* No command inside the backqotes, so do nothing. */
 	if (n == NULL)
 		;
 	else if (n->type == NCMD) {
 		evalcommand(n, EV_BACKCMD, result);
 	} else {
 		if (pipe(pip) < 0)
 			error("Pipe call failed");
 		jp = makejob(n, 1);
 		if (forkshell(jp, n, FORK_NOJOB) == 0) {
 			FORCEINTON;
 			close(pip[0]);
 			if (pip[1] != 1) {
 				close(1);
 				copyfd(pip[1], 1);
 				close(pip[1]);
 			}
 			evaltree(n, EV_EXIT);
 		}
 		close(pip[1]);
 		result->fd = pip[0];
 		result->jp = jp;
 	}
 	popstackmark(&smark);
 	TRACE(("evalbackcmd done: fd=%d buf=0x%x nleft=%d jp=0x%x\n",
 		result->fd, result->buf, result->nleft, result->jp));
 }


 /*
  * Execute a simple command.
  */

 STATIC void
 evalcommand(cmd, flags, backcmd)
 	union node *cmd;
 	struct backcmd *backcmd;
 	{
 	struct stackmark smark;
 	union node *argp;
 	struct arglist arglist;
 	struct arglist varlist;
 	char **argv;
 	int argc;
 	char **envp;
 	int varflag;
 	struct strlist *sp;
 	register char *p;
 	int mode;
 	int pip[2];
 	struct cmdentry cmdentry;
 	struct job *jp;
 	struct jmploc jmploc;
 	struct jmploc *volatile savehandler;
 	char *volatile savecmdname;
 	volatile struct shparam saveparam;
 	struct localvar *volatile savelocalvars;
 	volatile int e;
 	char *lastarg;

 	/* First expand the arguments. */
 	TRACE(("evalcommand(0x%x, %d) called\n", (int)cmd, flags));
 	setstackmark(&smark);
 	arglist.lastp = &arglist.list;
 	varlist.lastp = &varlist.list;
 	varflag = 1;
 	for (argp = cmd->ncmd.args ; argp ; argp = argp->narg.next) {
 		p = argp->narg.text;
 		if (varflag && is_name(*p)) {
 			do {
 				p++;
 			} while (is_in_name(*p));
 			if (*p == '=') {
 				expandarg(argp, &varlist, 0);
 				continue;
 			}
 		}
 		expandarg(argp, &arglist, 1);
 		varflag = 0;
 	}
 	*arglist.lastp = NULL;
 	*varlist.lastp = NULL;
 	expredir(cmd->ncmd.redirect);
 	argc = 0;
 	for (sp = arglist.list ; sp ; sp = sp->next)
 		argc++;
 	argv = stalloc(sizeof (char *) * (argc + 1));
 	for (sp = arglist.list ; sp ; sp = sp->next)
 		*argv++ = sp->text;
 	*argv = NULL;
 	lastarg = NULL;
 	if (iflag && funcnest == 0 && argc > 0)
 		lastarg = argv[-1];
 	argv -= argc;

 	/* Print the command if xflag is set. */
 	if (xflag) {
 		outc('+', &errout);
 		for (sp = varlist.list ; sp ; sp = sp->next) {
 			outc(' ', &errout);
 			out2str(sp->text);
 		}
 		for (sp = arglist.list ; sp ; sp = sp->next) {
 			outc(' ', &errout);
 			out2str(sp->text);
 		}
 		outc('\n', &errout);
 		flushout(&errout);
 	}

 	/* Now locate the command. */
 	if (argc == 0) {
 		cmdentry.cmdtype = CMDBUILTIN;
 		cmdentry.u.index = BLTINCMD;
 	} else {
 		find_command(argv[0], &cmdentry, 1);
 		if (cmdentry.cmdtype == CMDUNKNOWN) {	/* command not found */
 			exitstatus = 2;
 			flushout(&errout);
 			return;
 		}
 		/* implement the bltin builtin here */
 		if (cmdentry.cmdtype == CMDBUILTIN && cmdentry.u.index == BLTINCMD) {
 			for (;;) {
 				argv++;
 				if (--argc == 0)
 					break;
 				if ((cmdentry.u.index = find_builtin(*argv)) < 0) {
 					outfmt(&errout, "%s: not found\n", *argv);
 					exitstatus = 2;
 					flushout(&errout);
 					return;
 				}
 				if (cmdentry.u.index != BLTINCMD)
 					break;
 			}
 		}
 	}

 	/* Fork off a child process if necessary. */
 	if (cmd->ncmd.backgnd
 	 || cmdentry.cmdtype == CMDNORMAL && (flags & EV_EXIT) == 0
 	 || (flags & EV_BACKCMD) != 0
 	    && (cmdentry.cmdtype != CMDBUILTIN
 		 || cmdentry.u.index == DOTCMD
 		 || cmdentry.u.index == EVALCMD)) {
 		jp = makejob(cmd, 1);
 		mode = cmd->ncmd.backgnd;
 		if (flags & EV_BACKCMD) {
 			mode = FORK_NOJOB;
 			if (pipe(pip) < 0)
 				error("Pipe call failed");
 		}
 		if (forkshell(jp, cmd, mode) != 0)
 			goto parent;	/* at end of routine */
 		if (flags & EV_BACKCMD) {
 			FORCEINTON;
 			close(pip[0]);
 			if (pip[1] != 1) {
 				close(1);
 				copyfd(pip[1], 1);
 				close(pip[1]);
 			}
 		}
 		flags |= EV_EXIT;
 	}

 	/* This is the child process if a fork occurred. */
 	/* Execute the command. */
 	if (cmdentry.cmdtype == CMDFUNCTION) {
 		trputs("Shell function:  ");  trargs(argv);
 		redirect(cmd->ncmd.redirect, REDIR_PUSH);
 		saveparam = shellparam;
 		shellparam.malloc = 0;
 		shellparam.nparam = argc - 1;
 		shellparam.p = argv + 1;
 		shellparam.optnext = NULL;
 		INTOFF;
 		savelocalvars = localvars;
 		localvars = NULL;
 		INTON;
 		if (setjmp(jmploc.loc)) {
 			if (exception == EXSHELLPROC)
 				freeparam((struct shparam *)&saveparam);
 			else {
 				freeparam(&shellparam);
 				shellparam = saveparam;
 			}
 			poplocalvars();
 			localvars = savelocalvars;
 			handler = savehandler;
 			longjmp(handler->loc, 1);
 		}
 		savehandler = handler;
 		handler = &jmploc;
 		for (sp = varlist.list ; sp ; sp = sp->next)
 			mklocal(sp->text);
 		funcnest++;
 		evaltree(cmdentry.u.func, 0);
 		funcnest--;
 		INTOFF;
 		poplocalvars();
 		localvars = savelocalvars;
 		freeparam(&shellparam);
 		shellparam = saveparam;
 		handler = savehandler;
 		popredir();
 		INTON;
 		if (evalskip == SKIPFUNC) {
 			evalskip = 0;
 			skipcount = 0;
 		}
 		if (flags & EV_EXIT)
 			exitshell(exitstatus);
 	} else if (cmdentry.cmdtype == CMDBUILTIN) {
 		trputs("builtin command:  ");  trargs(argv);
 		mode = (cmdentry.u.index == EXECCMD)? 0 : REDIR_PUSH;
 		if (flags == EV_BACKCMD) {
 			memout.nleft = 0;
 			memout.nextc = memout.buf;
 			memout.bufsize = 64;
 			mode |= REDIR_BACKQ;
 		}
 		redirect(cmd->ncmd.redirect, mode);
 		savecmdname = commandname;
 		cmdenviron = varlist.list;
 		e = -1;
 		if (setjmp(jmploc.loc)) {
 			e = exception;
 			exitstatus = (e == EXINT)? SIGINT+128 : 2;
 			goto cmddone;
 		}
 		savehandler = handler;
 		handler = &jmploc;
 		commandname = argv[0];
 		argptr = argv + 1;
 		optptr = NULL;			/* initialize nextopt */
 		exitstatus = (*builtinfunc[cmdentry.u.index])(argc, argv);
 		flushall();
 cmddone:
 		out1 = &output;
 		out2 = &errout;
 		freestdout();
 		if (e != EXSHELLPROC) {
 			commandname = savecmdname;
 			if (flags & EV_EXIT) {
 				exitshell(exitstatus);
 			}
 		}
 		handler = savehandler;
 		if (e != -1) {
 			if (e != EXERROR || cmdentry.u.index == BLTINCMD
 					       || cmdentry.u.index == DOTCMD
 					       || cmdentry.u.index == EVALCMD
 					       || cmdentry.u.index == EXECCMD)
 				exraise(e);
 			FORCEINTON;
 		}
 		if (cmdentry.u.index != EXECCMD)
 			popredir();
 		if (flags == EV_BACKCMD) {
 			backcmd->buf = memout.buf;
 			backcmd->nleft = memout.nextc - memout.buf;
 			memout.buf = NULL;
 		}
 	} else {
 		trputs("normal command:  ");  trargs(argv);
 		clearredir();
 		redirect(cmd->ncmd.redirect, 0);
 		if (varlist.list) {
 			p = stalloc(strlen(pathval()) + 1);
 			scopy(pathval(), p);
 		} else {
 			p = pathval();
 		}
 		for (sp = varlist.list ; sp ; sp = sp->next)
 			setvareq(sp->text, VEXPORT|VSTACK);
 		envp = environment();
 		shellexec(argv, envp, p, cmdentry.u.index);
 		/*NOTREACHED*/
 	}
 	goto out;

 parent:	/* parent process gets here (if we forked) */
 	if (mode == 0) {	/* argument to fork */
 		INTOFF;
 		exitstatus = waitforjob(jp);
 		INTON;
 	} else if (mode == 2) {
 		backcmd->fd = pip[0];
 		close(pip[1]);
 		backcmd->jp = jp;
 	}

 out:
 	if (lastarg)
 		setvar("_", lastarg, 0);
 	popstackmark(&smark);
 }


 /*
  * Search for a command.  This is called before we fork so that the
  * location of the command will be available in the parent as well as
  * the child.  The check for "goodname" is an overly conservative
  * check that the name will not be subject to expansion.
  */

 STATIC void
 prehash(n)
 	union node *n;
 	{
 	struct cmdentry entry;

 	if (n->type == NCMD && goodname(n->ncmd.args->narg.text))
 		find_command(n->ncmd.args->narg.text, &entry, 0);
 }


 /*
  * Builtin commands.  Builtin commands whose functions are closely
  * tied to evaluation are implemented here.
  */

 /*
  * No command given, or a bltin command with no arguments.  Set the
  * specified variables.
  */

 bltincmd(argc, argv)  char **argv; {
 	listsetvar(cmdenviron);
 	return exitstatus;
 }


 /*
  * Handle break and continue commands.  Break, continue, and return are
  * all handled by setting the evalskip flag.  The evaluation routines
  * above all check this flag, and if it is set they start skipping
  * commands rather than executing them.  The variable skipcount is
  * the number of loops to break/continue, or the number of function
  * levels to return.  (The latter is always 1.)  It should probably
  * be an error to break out of more loops than exist, but it isn't
  * in the standard shell so we don't make it one here.
  */

 breakcmd(argc, argv)  char **argv; {
 	int n;

 	n = 1;
 	if (argc > 1)
 		n = number(argv[1]);
 	if (n > loopnest)
 		n = loopnest;
 	if (n > 0) {
 		evalskip = (**argv == 'c')? SKIPCONT : SKIPBREAK;
 		skipcount = n;
 	}
 	return 0;
 }


 /*
  * The return command.
  */

 returncmd(argc, argv)  char **argv; {
 	int ret;

 	ret = exitstatus;
 	if (argc > 1)
 		ret = number(argv[1]);
 	if (funcnest) {
 		evalskip = SKIPFUNC;
 		skipcount = 1;
 	}
 	return ret;
 }

 falsecmd(argc, argv)  char **argv; {
 	return 1;
 }

 truecmd(argc, argv)  char **argv; {
 	return 0;
 }


 execcmd(argc, argv)  char **argv; {
 	if (argc > 1) {
 		iflag = 0;		/* exit on error */
 		setinteractive(0);
 #if JOBS
 		jflag = 0;
 		setjobctl(0);
 #endif
 		shellexec(argv + 1, environment(), pathval(), 0);

 	}
 	return 0;
 }
	/*-
	* Copyright (c) 1991 The Regents of the University of California.
	* All rights reserved.
	*
	* This code is derived from software contributed to Berkeley by
	* Kenneth Almquist.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. All advertising materials mentioning features or use of this software
	* must display the following acknowledgement:
	* This product includes software developed by the University of
	* California, Berkeley and its contributors.
	* 4. Neither the name of the University nor the names of its contributors
	* may be used to endorse or promote products derived from this software
	* without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#ifndef lint
	/static char sccsid[] = "from: @(#)eval.c 5.3 (Berkeley) 4/12/91";/
	static char rcsid[] = "eval.c,v 1.6 1993/09/09 01:05:19 cgd Exp";
	#endif /* not lint */

	/*
	* Evaluate a command.
	*/

	#include "shell.h"
	#include "nodes.h"
	#include "syntax.h"
	#include "expand.h"
	#include "parser.h"
	#include "jobs.h"
	#include "eval.h"
	#include "builtins.h"
	#include "options.h"
	#include "exec.h"
	#include "redir.h"
	#include "input.h"
	#include "output.h"
	#include "trap.h"
	#include "var.h"
	#include "memalloc.h"
	#include "error.h"
	#include "mystring.h"
	#include <signal.h>


	/* flags in argument to evaltree */
	#define EV_EXIT 01 /* exit after evaluating tree */
	#define EV_TESTED 02 /* exit status is checked; ignore -e flag */
	#define EV_BACKCMD 04 /* command executing within back quotes */


	/* reasons for skipping commands (see comment on breakcmd routine) */
	#define SKIPBREAK 1
	#define SKIPCONT 2
	#define SKIPFUNC 3

	MKINIT int evalskip; /* set if we are skipping commands */
	STATIC int skipcount; /* number of levels to skip */
	MKINIT int loopnest; /* current loop nesting level */
	int funcnest; /* depth of function calls */


	char *commandname;
	struct strlist *cmdenviron;
	int exitstatus; /* exit status of last command */


	#ifdef __STDC__
	STATIC void evalloop(union node *);
	STATIC void evalfor(union node *);
	STATIC void evalcase(union node *, int);
	STATIC void evalsubshell(union node *, int);
	STATIC void expredir(union node *);
	STATIC void evalpipe(union node *);
	STATIC void evalcommand(union node , int, struct backcmd );
	STATIC void prehash(union node *);
	#else
	STATIC void evalloop();
	STATIC void evalfor();
	STATIC void evalcase();
	STATIC void evalsubshell();
	STATIC void expredir();
	STATIC void evalpipe();
	STATIC void evalcommand();
	STATIC void prehash();
	#endif



	/*
	* Called to reset things after an exception.
	*/

	#ifdef mkinit
	INCLUDE "eval.h"

	RESET {
	evalskip = 0;
	loopnest = 0;
	funcnest = 0;
	}

	SHELLPROC {
	exitstatus = 0;
	}
	#endif



	/*
	* The eval commmand.
	*/

	evalcmd(argc, argv)
	char **argv;
	{
	char *p;
	char *concat;
	char **ap;

	if (argc > 1) {
	p = argv[1];
	if (argc > 2) {
	STARTSTACKSTR(concat);
	ap = argv + 2;
	for (;;) {
	while (*p)
	STPUTC(*p++, concat);
	if ((p = *ap++) == NULL)
	break;
	STPUTC(' ', concat);
	}
	STPUTC('\0', concat);
	p = grabstackstr(concat);
	}
	evalstring(p);
	}
	return exitstatus;
	}


	/*
	* Execute a command or commands contained in a string.
	*/

	void
	evalstring(s)
	char *s;
	{
	union node *n;
	struct stackmark smark;

	setstackmark(&smark);
	setinputstring(s, 1);
	while ((n = parsecmd(0)) != NEOF) {
	evaltree(n, 0);
	popstackmark(&smark);
	}
	popfile();
	popstackmark(&smark);
	}



	/*
	* Evaluate a parse tree. The value is left in the global variable
	* exitstatus.
	*/

	void
	evaltree(n, flags)
	union node *n;
	{
	if (n == NULL) {
	TRACE(("evaltree(NULL) called\n"));
	return;
	}
	TRACE(("evaltree(0x%x: %d) called\n", (int)n, n->type));
	switch (n->type) {
	case NSEMI:
	evaltree(n->nbinary.ch1, 0);
	if (evalskip)
	goto out;
	evaltree(n->nbinary.ch2, flags);
	break;
	case NAND:
	evaltree(n->nbinary.ch1, EV_TESTED);
	if (evalskip \|\| exitstatus != 0)
	goto out;
	evaltree(n->nbinary.ch2, flags);
	break;
	case NOR:
	evaltree(n->nbinary.ch1, EV_TESTED);
	if (evalskip \|\| exitstatus == 0)
	goto out;
	evaltree(n->nbinary.ch2, flags);
	break;
	case NREDIR:
	expredir(n->nredir.redirect);
	redirect(n->nredir.redirect, REDIR_PUSH);
	evaltree(n->nredir.n, flags);
	popredir();
	break;
	case NSUBSHELL:
	evalsubshell(n, flags);
	break;
	case NBACKGND:
	evalsubshell(n, flags);
	break;
	case NIF: {
	int status = 0;

	evaltree(n->nif.test, EV_TESTED);
	if (evalskip)
	goto out;
	if (exitstatus == 0) {
	evaltree(n->nif.ifpart, flags);
	status = exitstatus;
	} else if (n->nif.elsepart) {
	evaltree(n->nif.elsepart, flags);
	status = exitstatus;
	}
	exitstatus = status;
	break;
	}
	case NWHILE:
	case NUNTIL:
	evalloop(n);
	break;
	case NFOR:
	evalfor(n);
	break;
	case NCASE:
	evalcase(n, flags);
	break;
	case NDEFUN:
	defun(n->narg.text, n->narg.next);
	exitstatus = 0;
	break;
	case NPIPE:
	evalpipe(n);
	break;
	case NCMD:
	evalcommand(n, flags, (struct backcmd *)NULL);
	break;
	default:
	out1fmt("Node type = %d\n", n->type);
	flushout(&output);
	break;
	}
	out:
	if (pendingsigs)
	dotrap();
	if ((flags & EV_EXIT) \|\| (eflag && exitstatus && !(flags & EV_TESTED)))
	exitshell(exitstatus);
	}


	STATIC void
	evalloop(n)
	union node *n;
	{
	int status;

	loopnest++;
	status = 0;
	for (;;) {
	evaltree(n->nbinary.ch1, EV_TESTED);
	if (evalskip) {
	skipping: if (evalskip == SKIPCONT && --skipcount <= 0) {
	evalskip = 0;
	continue;
	}
	if (evalskip == SKIPBREAK && --skipcount <= 0)
	evalskip = 0;
	break;
	}
	if (n->type == NWHILE) {
	if (exitstatus != 0)
	break;
	} else {
	if (exitstatus == 0)
	break;
	}
	evaltree(n->nbinary.ch2, 0);
	status = exitstatus;
	if (evalskip)
	goto skipping;
	}
	loopnest--;
	exitstatus = status;
	}



	STATIC void
	evalfor(n)
	union node *n;
	{
	struct arglist arglist;
	union node *argp;
	struct strlist *sp;
	struct stackmark smark;

	setstackmark(&smark);
	arglist.lastp = &arglist.list;
	for (argp = n->nfor.args ; argp ; argp = argp->narg.next) {
	expandarg(argp, &arglist, 1);
	if (evalskip)
	goto out;
	}
	*arglist.lastp = NULL;

	exitstatus = 0;
	loopnest++;
	for (sp = arglist.list ; sp ; sp = sp->next) {
	setvar(n->nfor.var, sp->text, 0);
	evaltree(n->nfor.body, 0);
	if (evalskip) {
	if (evalskip == SKIPCONT && --skipcount <= 0) {
	evalskip = 0;
	continue;
	}
	if (evalskip == SKIPBREAK && --skipcount <= 0)
	evalskip = 0;
	break;
	}
	}
	loopnest--;
	out:
	popstackmark(&smark);
	}



	STATIC void
	evalcase(n, flags)
	union node *n;
	{
	union node *cp;
	union node *patp;
	struct arglist arglist;
	struct stackmark smark;

	setstackmark(&smark);
	arglist.lastp = &arglist.list;
	expandarg(n->ncase.expr, &arglist, 0);
	for (cp = n->ncase.cases ; cp && evalskip == 0 ; cp = cp->nclist.next) {
	for (patp = cp->nclist.pattern ; patp ; patp = patp->narg.next) {
	if (casematch(patp, arglist.list->text)) {
	if (evalskip == 0) {
	evaltree(cp->nclist.body, flags);
	}
	goto out;
	}
	}
	}
	out:
	popstackmark(&smark);
	}



	/*
	* Kick off a subshell to evaluate a tree.
	*/

	STATIC void
	evalsubshell(n, flags)
	union node *n;
	{
	struct job *jp;
	int backgnd = (n->type == NBACKGND);

	expredir(n->nredir.redirect);
	jp = makejob(n, 1);
	if (forkshell(jp, n, backgnd) == 0) {
	if (backgnd)
	flags &=~ EV_TESTED;
	redirect(n->nredir.redirect, 0);
	evaltree(n->nredir.n, flags \| EV_EXIT); /* never returns */
	}
	if (! backgnd) {
	INTOFF;
	exitstatus = waitforjob(jp);
	INTON;
	}
	}



	/*
	* Compute the names of the files in a redirection list.
	*/

	STATIC void
	expredir(n)
	union node *n;
	{
	register union node *redir;

	for (redir = n ; redir ; redir = redir->nfile.next) {
	if (redir->type == NFROM
	\|\| redir->type == NTO
	\|\| redir->type == NAPPEND) {
	struct arglist fn;
	fn.lastp = &fn.list;
	expandarg(redir->nfile.fname, &fn, 0);
	redir->nfile.expfname = fn.list->text;
	}
	}
	}



	/*
	* Evaluate a pipeline. All the processes in the pipeline are children
	* of the process creating the pipeline. (This differs from some versions
	* of the shell, which make the last process in a pipeline the parent
	* of all the rest.)
	*/

	STATIC void
	evalpipe(n)
	union node *n;
	{
	struct job *jp;
	struct nodelist *lp;
	int pipelen;
	int prevfd;
	int pip[2];

	TRACE(("evalpipe(0x%x) called\n", (int)n));
	pipelen = 0;
	for (lp = n->npipe.cmdlist ; lp ; lp = lp->next)
	pipelen++;
	INTOFF;
	jp = makejob(n, pipelen);
	prevfd = -1;
	for (lp = n->npipe.cmdlist ; lp ; lp = lp->next) {
	prehash(lp->n);
	pip[1] = -1;
	if (lp->next) {
	if (pipe(pip) < 0) {
	close(prevfd);
	error("Pipe call failed");
	}
	}
	if (forkshell(jp, lp->n, n->npipe.backgnd) == 0) {
	INTON;
	if (prevfd > 0) {
	close(0);
	copyfd(prevfd, 0);
	close(prevfd);
	}
	if (pip[1] >= 0) {
	close(pip[0]);
	if (pip[1] != 1) {
	close(1);
	copyfd(pip[1], 1);
	close(pip[1]);
	}
	}
	evaltree(lp->n, EV_EXIT);
	}
	if (prevfd >= 0)
	close(prevfd);
	prevfd = pip[0];
	close(pip[1]);
	}
	INTON;
	if (n->npipe.backgnd == 0) {
	INTOFF;
	exitstatus = waitforjob(jp);
	TRACE(("evalpipe: job done exit status %d\n", exitstatus));
	INTON;
	}
	}



	/*
	* Execute a command inside back quotes. If it's a builtin command, we
	* want to save its output in a block obtained from malloc. Otherwise
	* we fork off a subprocess and get the output of the command via a pipe.
	* Should be called with interrupts off.
	*/

	void
	evalbackcmd(n, result)
	union node *n;
	struct backcmd *result;
	{
	int pip[2];
	struct job *jp;
	struct stackmark smark; /* unnecessary */

	setstackmark(&smark);
	result->fd = -1;
	result->buf = NULL;
	result->nleft = 0;
	result->jp = NULL;
	/* No command inside the backqotes, so do nothing. */
	if (n == NULL)
	;
	else if (n->type == NCMD) {
	evalcommand(n, EV_BACKCMD, result);
	} else {
	if (pipe(pip) < 0)
	error("Pipe call failed");
	jp = makejob(n, 1);
	if (forkshell(jp, n, FORK_NOJOB) == 0) {
	FORCEINTON;
	close(pip[0]);
	if (pip[1] != 1) {
	close(1);
	copyfd(pip[1], 1);
	close(pip[1]);
	}
	evaltree(n, EV_EXIT);
	}
	close(pip[1]);
	result->fd = pip[0];
	result->jp = jp;
	}
	popstackmark(&smark);
	TRACE(("evalbackcmd done: fd=%d buf=0x%x nleft=%d jp=0x%x\n",
	result->fd, result->buf, result->nleft, result->jp));
	}



	/*
	* Execute a simple command.
	*/

	STATIC void
	evalcommand(cmd, flags, backcmd)
	union node *cmd;
	struct backcmd *backcmd;
	{
	struct stackmark smark;
	union node *argp;
	struct arglist arglist;
	struct arglist varlist;
	char **argv;
	int argc;
	char **envp;
	int varflag;
	struct strlist *sp;
	register char *p;
	int mode;
	int pip[2];
	struct cmdentry cmdentry;
	struct job *jp;
	struct jmploc jmploc;
	struct jmploc *volatile savehandler;
	char *volatile savecmdname;
	volatile struct shparam saveparam;
	struct localvar *volatile savelocalvars;
	volatile int e;
	char *lastarg;

	/* First expand the arguments. */
	TRACE(("evalcommand(0x%x, %d) called\n", (int)cmd, flags));
	setstackmark(&smark);
	arglist.lastp = &arglist.list;
	varlist.lastp = &varlist.list;
	varflag = 1;
	for (argp = cmd->ncmd.args ; argp ; argp = argp->narg.next) {
	p = argp->narg.text;
	if (varflag && is_name(*p)) {
	do {
	p++;
	} while (is_in_name(*p));
	if (*p == '=') {
	expandarg(argp, &varlist, 0);
	continue;
	}
	}
	expandarg(argp, &arglist, 1);
	varflag = 0;
	}
	*arglist.lastp = NULL;
	*varlist.lastp = NULL;
	expredir(cmd->ncmd.redirect);
	argc = 0;
	for (sp = arglist.list ; sp ; sp = sp->next)
	argc++;
	argv = stalloc(sizeof (char ) (argc + 1));
	for (sp = arglist.list ; sp ; sp = sp->next)
	*argv++ = sp->text;
	*argv = NULL;
	lastarg = NULL;
	if (iflag && funcnest == 0 && argc > 0)
	lastarg = argv[-1];
	argv -= argc;

	/* Print the command if xflag is set. */
	if (xflag) {
	outc('+', &errout);
	for (sp = varlist.list ; sp ; sp = sp->next) {
	outc(' ', &errout);
	out2str(sp->text);
	}
	for (sp = arglist.list ; sp ; sp = sp->next) {
	outc(' ', &errout);
	out2str(sp->text);
	}
	outc('\n', &errout);
	flushout(&errout);
	}

	/* Now locate the command. */
	if (argc == 0) {
	cmdentry.cmdtype = CMDBUILTIN;
	cmdentry.u.index = BLTINCMD;
	} else {
	find_command(argv[0], &cmdentry, 1);
	if (cmdentry.cmdtype == CMDUNKNOWN) { /* command not found */
	exitstatus = 2;
	flushout(&errout);
	return;
	}
	/* implement the bltin builtin here */
	if (cmdentry.cmdtype == CMDBUILTIN && cmdentry.u.index == BLTINCMD) {
	for (;;) {
	argv++;
	if (--argc == 0)
	break;
	if ((cmdentry.u.index = find_builtin(*argv)) < 0) {
	outfmt(&errout, "%s: not found\n", *argv);
	exitstatus = 2;
	flushout(&errout);
	return;
	}
	if (cmdentry.u.index != BLTINCMD)
	break;
	}
	}
	}

	/* Fork off a child process if necessary. */
	if (cmd->ncmd.backgnd
	\|\| cmdentry.cmdtype == CMDNORMAL && (flags & EV_EXIT) == 0
	\|\| (flags & EV_BACKCMD) != 0
	&& (cmdentry.cmdtype != CMDBUILTIN
	\|\| cmdentry.u.index == DOTCMD
	\|\| cmdentry.u.index == EVALCMD)) {
	jp = makejob(cmd, 1);
	mode = cmd->ncmd.backgnd;
	if (flags & EV_BACKCMD) {
	mode = FORK_NOJOB;
	if (pipe(pip) < 0)
	error("Pipe call failed");
	}
	if (forkshell(jp, cmd, mode) != 0)
	goto parent; /* at end of routine */
	if (flags & EV_BACKCMD) {
	FORCEINTON;
	close(pip[0]);
	if (pip[1] != 1) {
	close(1);
	copyfd(pip[1], 1);
	close(pip[1]);
	}
	}
	flags \|= EV_EXIT;
	}

	/* This is the child process if a fork occurred. */
	/* Execute the command. */
	if (cmdentry.cmdtype == CMDFUNCTION) {
	trputs("Shell function: "); trargs(argv);
	redirect(cmd->ncmd.redirect, REDIR_PUSH);
	saveparam = shellparam;
	shellparam.malloc = 0;
	shellparam.nparam = argc - 1;
	shellparam.p = argv + 1;
	shellparam.optnext = NULL;
	INTOFF;
	savelocalvars = localvars;
	localvars = NULL;
	INTON;
	if (setjmp(jmploc.loc)) {
	if (exception == EXSHELLPROC)
	freeparam((struct shparam *)&saveparam);
	else {
	freeparam(&shellparam);
	shellparam = saveparam;
	}
	poplocalvars();
	localvars = savelocalvars;
	handler = savehandler;
	longjmp(handler->loc, 1);
	}
	savehandler = handler;
	handler = &jmploc;
	for (sp = varlist.list ; sp ; sp = sp->next)
	mklocal(sp->text);
	funcnest++;
	evaltree(cmdentry.u.func, 0);
	funcnest--;
	INTOFF;
	poplocalvars();
	localvars = savelocalvars;
	freeparam(&shellparam);
	shellparam = saveparam;
	handler = savehandler;
	popredir();
	INTON;
	if (evalskip == SKIPFUNC) {
	evalskip = 0;
	skipcount = 0;
	}
	if (flags & EV_EXIT)
	exitshell(exitstatus);
	} else if (cmdentry.cmdtype == CMDBUILTIN) {
	trputs("builtin command: "); trargs(argv);
	mode = (cmdentry.u.index == EXECCMD)? 0 : REDIR_PUSH;
	if (flags == EV_BACKCMD) {
	memout.nleft = 0;
	memout.nextc = memout.buf;
	memout.bufsize = 64;
	mode \|= REDIR_BACKQ;
	}
	redirect(cmd->ncmd.redirect, mode);
	savecmdname = commandname;
	cmdenviron = varlist.list;
	e = -1;
	if (setjmp(jmploc.loc)) {
	e = exception;
	exitstatus = (e == EXINT)? SIGINT+128 : 2;
	goto cmddone;
	}
	savehandler = handler;
	handler = &jmploc;
	commandname = argv[0];
	argptr = argv + 1;
	optptr = NULL; /* initialize nextopt */
	exitstatus = (*builtinfunc[cmdentry.u.index])(argc, argv);
	flushall();
	cmddone:
	out1 = &output;
	out2 = &errout;
	freestdout();
	if (e != EXSHELLPROC) {
	commandname = savecmdname;
	if (flags & EV_EXIT) {
	exitshell(exitstatus);
	}
	}
	handler = savehandler;
	if (e != -1) {
	if (e != EXERROR \|\| cmdentry.u.index == BLTINCMD
	\|\| cmdentry.u.index == DOTCMD
	\|\| cmdentry.u.index == EVALCMD
	\|\| cmdentry.u.index == EXECCMD)
	exraise(e);
	FORCEINTON;
	}
	if (cmdentry.u.index != EXECCMD)
	popredir();
	if (flags == EV_BACKCMD) {
	backcmd->buf = memout.buf;
	backcmd->nleft = memout.nextc - memout.buf;
	memout.buf = NULL;
	}
	} else {
	trputs("normal command: "); trargs(argv);
	clearredir();
	redirect(cmd->ncmd.redirect, 0);
	if (varlist.list) {
	p = stalloc(strlen(pathval()) + 1);
	scopy(pathval(), p);
	} else {
	p = pathval();
	}
	for (sp = varlist.list ; sp ; sp = sp->next)
	setvareq(sp->text, VEXPORT\|VSTACK);
	envp = environment();
	shellexec(argv, envp, p, cmdentry.u.index);
	/NOTREACHED/
	}
	goto out;

	parent: /* parent process gets here (if we forked) */
	if (mode == 0) { /* argument to fork */
	INTOFF;
	exitstatus = waitforjob(jp);
	INTON;
	} else if (mode == 2) {
	backcmd->fd = pip[0];
	close(pip[1]);
	backcmd->jp = jp;
	}

	out:
	if (lastarg)
	setvar("_", lastarg, 0);
	popstackmark(&smark);
	}



	/*
	* Search for a command. This is called before we fork so that the
	* location of the command will be available in the parent as well as
	* the child. The check for "goodname" is an overly conservative
	* check that the name will not be subject to expansion.
	*/

	STATIC void
	prehash(n)
	union node *n;
	{
	struct cmdentry entry;

	if (n->type == NCMD && goodname(n->ncmd.args->narg.text))
	find_command(n->ncmd.args->narg.text, &entry, 0);
	}



	/*
	* Builtin commands. Builtin commands whose functions are closely
	* tied to evaluation are implemented here.
	*/

	/*
	* No command given, or a bltin command with no arguments. Set the
	* specified variables.
	*/

	bltincmd(argc, argv) char **argv; {
	listsetvar(cmdenviron);
	return exitstatus;
	}


	/*
	* Handle break and continue commands. Break, continue, and return are
	* all handled by setting the evalskip flag. The evaluation routines
	* above all check this flag, and if it is set they start skipping
	* commands rather than executing them. The variable skipcount is
	* the number of loops to break/continue, or the number of function
	* levels to return. (The latter is always 1.) It should probably
	* be an error to break out of more loops than exist, but it isn't
	* in the standard shell so we don't make it one here.
	*/

	breakcmd(argc, argv) char **argv; {
	int n;

	n = 1;
	if (argc > 1)
	n = number(argv[1]);
	if (n > loopnest)
	n = loopnest;
	if (n > 0) {
	evalskip = (**argv == 'c')? SKIPCONT : SKIPBREAK;
	skipcount = n;
	}
	return 0;
	}


	/*
	* The return command.
	*/

	returncmd(argc, argv) char **argv; {
	int ret;

	ret = exitstatus;
	if (argc > 1)
	ret = number(argv[1]);
	if (funcnest) {
	evalskip = SKIPFUNC;
	skipcount = 1;
	}
	return ret;
	}

	falsecmd(argc, argv) char **argv; {
	return 1;
	}

	truecmd(argc, argv) char **argv; {
	return 0;
	}


	execcmd(argc, argv) char **argv; {
	if (argc > 1) {
	iflag = 0; /* exit on error */
	setinteractive(0);
	#if JOBS
	jflag = 0;
	setjobctl(0);
	#endif
	shellexec(argv + 1, environment(), pathval(), 0);

	}
	return 0;
	}