busybox/shell/msh.c

/* vi: set sw=4 ts=4: */
/*
 * Minix shell port for busybox
 *
 * This version of the Minix shell was adapted for use in busybox
 * by Erik Andersen <andersen@codepoet.org>
 *
 * - backtick expansion did not work properly
 *   Jonas Holmberg <jonas.holmberg@axis.com>
 *   Robert Schwebel <r.schwebel@pengutronix.de>
 *   Erik Andersen <andersen@codepoet.org>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
 *
 * Original copyright notice is retained at the end of this file.
 */

#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <setjmp.h>
#include <signal.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <sys/stat.h>
#include <sys/times.h>
#include <sys/types.h>
#include <sys/wait.h>

#include "cmdedit.h"
#include "busybox.h"


/* Conditional use of "register" keyword */
#define REGISTER register


/*#define MSHDEBUG 1*/

#ifdef MSHDEBUG
int mshdbg = 0;

#define DBGPRINTF(x)	if(mshdbg>0)printf x
#define DBGPRINTF0(x)	if(mshdbg>0)printf x
#define DBGPRINTF1(x)	if(mshdbg>1)printf x
#define DBGPRINTF2(x)	if(mshdbg>2)printf x
#define DBGPRINTF3(x)	if(mshdbg>3)printf x
#define DBGPRINTF4(x)	if(mshdbg>4)printf x
#define DBGPRINTF5(x)	if(mshdbg>5)printf x
#define DBGPRINTF6(x)	if(mshdbg>6)printf x
#define DBGPRINTF7(x)	if(mshdbg>7)printf x
#define DBGPRINTF8(x)	if(mshdbg>8)printf x
#define DBGPRINTF9(x)	if(mshdbg>9)printf x

int mshdbg_rc = 0;

#define RCPRINTF(x)		if(mshdbg_rc)printf x

#else

#define DBGPRINTF(x)
#define DBGPRINTF0(x)
#define DBGPRINTF1(x)
#define DBGPRINTF2(x)
#define DBGPRINTF3(x)
#define DBGPRINTF4(x)
#define DBGPRINTF5(x)
#define DBGPRINTF6(x)
#define DBGPRINTF7(x)
#define DBGPRINTF8(x)
#define DBGPRINTF9(x)

#define RCPRINTF(x)

#endif							/* MSHDEBUG */


/* -------- sh.h -------- */
/*
 * shell
 */

#define	LINELIM	  2100
#define	NPUSH	  8				/* limit to input nesting */

#undef NOFILE
#define	NOFILE	  20			/* Number of open files */
#define	NUFILE	  10			/* Number of user-accessible files */
#define	FDBASE	  10			/* First file usable by Shell */

/*
 * values returned by wait
 */
#define	WAITSIG(s)  ((s)&0177)
#define	WAITVAL(s)  (((s)>>8)&0377)
#define	WAITCORE(s) (((s)&0200)!=0)

/*
 * library and system definitions
 */
typedef void xint;				/* base type of jmp_buf, for not broken compilers */

/*
 * shell components
 */

#define	QUOTE	0200

#define	NOBLOCK	((struct op *)NULL)
#define	NOWORD	((char *)NULL)
#define	NOWORDS	((char **)NULL)
#define	NOPIPE	((int *)NULL)

/*
 * Description of a command or an operation on commands.
 * Might eventually use a union.
 */
struct op {
	int type;					/* operation type, see below */
	char **words;				/* arguments to a command */
	struct ioword **ioact;		/* IO actions (eg, < > >>) */
	struct op *left;
	struct op *right;
	char *str;					/* identifier for case and for */
};

#define	TCOM	1				/* command */
#define	TPAREN	2				/* (c-list) */
#define	TPIPE	3				/* a | b */
#define	TLIST	4				/* a [&;] b */
#define	TOR		5				/* || */
#define	TAND	6				/* && */
#define	TFOR	7
#define	TDO		8
#define	TCASE	9
#define	TIF		10
#define	TWHILE	11
#define	TUNTIL	12
#define	TELIF	13
#define	TPAT	14				/* pattern in case */
#define	TBRACE	15				/* {c-list} */
#define	TASYNC	16				/* c & */
/* Added to support "." file expansion */
#define	TDOT	17

/* Strings for names to make debug easier */
char *T_CMD_NAMES[] = {
	"PLACEHOLDER",
	"TCOM",
	"TPAREN",
	"TPIPE",
	"TLIST",
	"TOR",
	"TAND",
	"TFOR",
	"TDO",
	"TCASE",
	"TIF",
	"TWHILE",
	"TUNTIL",
	"TELIF",
	"TPAT",
	"TBRACE",
	"TASYNC",
	"TDOT",
};


/*
 * actions determining the environment of a process
 */
#define	BIT(i)	(1<<(i))
#define	FEXEC	BIT(0)			/* execute without forking */

#if 0							/* Original value */
#define AREASIZE	(65000)
#else
#define AREASIZE	(90000)
#endif

/*
 * flags to control evaluation of words
 */
#define	DOSUB	 1				/* interpret $, `, and quotes */
#define	DOBLANK	 2				/* perform blank interpretation */
#define	DOGLOB	 4				/* interpret [?* */
#define	DOKEY	 8				/* move words with `=' to 2nd arg. list */
#define	DOTRIM	 16				/* trim resulting string */

#define	DOALL	(DOSUB|DOBLANK|DOGLOB|DOKEY|DOTRIM)


/* PROTOTYPES */
static int newfile(char *s);
static char *findeq(char *cp);
static char *cclass(char *p, int sub);
static void initarea(void);
extern int msh_main(int argc, char **argv);


struct brkcon {
	jmp_buf brkpt;
	struct brkcon *nextlev;
};


/*
 * redirection
 */
struct ioword {
	short io_unit;				/* unit affected */
	short io_flag;				/* action (below) */
	char *io_name;				/* file name */
};

#define	IOREAD	 1				/* < */
#define	IOHERE	 2				/* << (here file) */
#define	IOWRITE	 4				/* > */
#define	IOCAT	 8				/* >> */
#define	IOXHERE	 16				/* ${}, ` in << */
#define	IODUP	 32				/* >&digit */
#define	IOCLOSE	 64				/* >&- */

#define	IODEFAULT (-1)			/* token for default IO unit */



/*
 * parsing & execution environment
 */
static struct env {
	char *linep;
	struct io *iobase;
	struct io *iop;
	xint *errpt;				/* void * */
	int iofd;
	struct env *oenv;
} e;

/*
 * flags:
 * -e: quit on error
 * -k: look for name=value everywhere on command line
 * -n: no execution
 * -t: exit after reading and executing one command
 * -v: echo as read
 * -x: trace
 * -u: unset variables net diagnostic
 */
static char *flag;

static char *null;				/* null value for variable */
static int intr;				/* interrupt pending */

static char *trap[_NSIG + 1];
static char ourtrap[_NSIG + 1];
static int trapset;				/* trap pending */

static int heedint;				/* heed interrupt signals */

static int yynerrs;				/* yacc */

static char line[LINELIM];
static char *elinep;


/*
 * other functions
 */
static int (*inbuilt(char *s)) (struct op *);

static char *rexecve(char *c, char **v, char **envp);
static char *space(int n);
static char *strsave(char *s, int a);
static char *evalstr(char *cp, int f);
static char *putn(int n);
static char *itoa(int n);
static char *unquote(char *as);
static struct var *lookup(char *n);
static int rlookup(char *n);
static struct wdblock *glob(char *cp, struct wdblock *wb);
static int my_getc(int ec);
static int subgetc(int ec, int quoted);
static char **makenv(int all, struct wdblock *wb);
static char **eval(char **ap, int f);
static int setstatus(int s);
static int waitfor(int lastpid, int canintr);

static void onintr(int s);		/* SIGINT handler */

static int newenv(int f);
static void quitenv(void);
static void err(char *s);
static int anys(char *s1, char *s2);
static int any(int c, char *s);
static void next(int f);
static void setdash(void);
static void onecommand(void);
static void runtrap(int i);
static int gmatch(char *s, char *p);


/*
 * error handling
 */
static void leave(void);		/* abort shell (or fail in subshell) */
static void fail(void);			/* fail but return to process next command */
static void warn(char *s);
static void sig(int i);			/* default signal handler */



/* -------- area stuff -------- */

#define	REGSIZE	  sizeof(struct region)
#define GROWBY	  (256)
/* #define	SHRINKBY   (64) */
#undef	SHRINKBY
#define FREE 	  (32767)
#define BUSY 	  (0)
#define	ALIGN 	  (sizeof(int)-1)


struct region {
	struct region *next;
	int area;
};



/* -------- grammar stuff -------- */
typedef union {
	char *cp;
	char **wp;
	int i;
	struct op *o;
} YYSTYPE;

#define	WORD	256
#define	LOGAND	257
#define	LOGOR	258
#define	BREAK	259
#define	IF		260
#define	THEN	261
#define	ELSE	262
#define	ELIF	263
#define	FI		264
#define	CASE	265
#define	ESAC	266
#define	FOR		267
#define	WHILE	268
#define	UNTIL	269
#define	DO		270
#define	DONE	271
#define	IN		272
/* Added for "." file expansion */
#define	DOT		273

#define	YYERRCODE 300

/* flags to yylex */
#define	CONTIN	01				/* skip new lines to complete command */

#define	SYNTAXERR	zzerr()

static struct op *pipeline(int cf);
static struct op *andor(void);
static struct op *c_list(void);
static int synio(int cf);
static void musthave(int c, int cf);
static struct op *simple(void);
static struct op *nested(int type, int mark);
static struct op *command(int cf);
static struct op *dogroup(int onlydone);
static struct op *thenpart(void);
static struct op *elsepart(void);
static struct op *caselist(void);
static struct op *casepart(void);
static char **pattern(void);
static char **wordlist(void);
static struct op *list(struct op *t1, struct op *t2);
static struct op *block(int type, struct op *t1, struct op *t2, char **wp);
static struct op *newtp(void);
static struct op *namelist(struct op *t);
static char **copyw(void);
static void word(char *cp);
static struct ioword **copyio(void);
static struct ioword *io(int u, int f, char *cp);
static void zzerr(void);
static void yyerror(char *s);
static int yylex(int cf);
static int collect(int c, int c1);
static int dual(int c);
static void diag(int ec);
static char *tree(unsigned size);

/* -------- var.h -------- */

struct var {
	char *value;
	char *name;
	struct var *next;
	char status;
};

#define	COPYV	1				/* flag to setval, suggesting copy */
#define	RONLY	01				/* variable is read-only */
#define	EXPORT	02				/* variable is to be exported */
#define	GETCELL	04				/* name & value space was got with getcell */

static int yyparse(void);
static struct var *lookup(char *n);
static void setval(struct var *vp, char *val);
static void nameval(struct var *vp, char *val, char *name);
static void export(struct var *vp);
static void ronly(struct var *vp);
static int isassign(char *s);
static int checkname(char *cp);
static int assign(char *s, int cf);
static void putvlist(int f, int out);
static int eqname(char *n1, char *n2);

static int execute(struct op *t, int *pin, int *pout, int act);


/* -------- io.h -------- */
/* io buffer */
struct iobuf {
	unsigned id;				/* buffer id */
	char buf[512];				/* buffer */
	char *bufp;					/* pointer into buffer */
	char *ebufp;				/* pointer to end of buffer */
};

/* possible arguments to an IO function */
struct ioarg {
	char *aword;
	char **awordlist;
	int afile;					/* file descriptor */
	unsigned afid;				/* buffer id */
	long afpos;					/* file position */
	struct iobuf *afbuf;		/* buffer for this file */
};

//static struct ioarg ioargstack[NPUSH];
#define AFID_NOBUF	(~0)
#define AFID_ID		0

/* an input generator's state */
struct io {
	int (*iofn) (struct ioarg *, struct io *);
	struct ioarg *argp;
	int peekc;
	char prev;					/* previous character read by readc() */
	char nlcount;				/* for `'s */
	char xchar;					/* for `'s */
	char task;					/* reason for pushed IO */
};

//static    struct  io  iostack[NPUSH];
#define	XOTHER	0				/* none of the below */
#define	XDOLL	1				/* expanding ${} */
#define	XGRAVE	2				/* expanding `'s */
#define	XIO	3					/* file IO */

/* in substitution */
#define	INSUB()	(e.iop->task == XGRAVE || e.iop->task == XDOLL)


/*
 * input generators for IO structure
 */
static int nlchar(struct ioarg *ap);
static int strchar(struct ioarg *ap);
static int qstrchar(struct ioarg *ap);
static int filechar(struct ioarg *ap);
static int herechar(struct ioarg *ap);
static int linechar(struct ioarg *ap);
static int gravechar(struct ioarg *ap, struct io *iop);
static int qgravechar(struct ioarg *ap, struct io *iop);
static int dolchar(struct ioarg *ap);
static int wdchar(struct ioarg *ap);
static void scraphere(void);
static void freehere(int area);
static void gethere(void);
static void markhere(char *s, struct ioword *iop);
static int herein(char *hname, int xdoll);
static int run(struct ioarg *argp, int (*f) (struct ioarg *));


/*
 * IO functions
 */
static int eofc(void);
static int readc(void);
static void unget(int c);
static void ioecho(int c);
static void prs(char *s);
static void prn(unsigned u);
static void closef(int i);
static void closeall(void);


/*
 * IO control
 */
static void pushio(struct ioarg *argp, int (*f) (struct ioarg *));
static int remap(int fd);
static int openpipe(int *pv);
static void closepipe(int *pv);
static struct io *setbase(struct io *ip);

#define	PUSHIO(what,arg,gen) ((temparg.what = (arg)),pushio(&temparg,(gen)))
#define	RUN(what,arg,gen) ((temparg.what = (arg)), run(&temparg,(gen)))

/* -------- word.h -------- */

#define	NSTART	16				/* default number of words to allow for initially */

struct wdblock {
	short w_bsize;
	short w_nword;
	/* bounds are arbitrary */
	char *w_words[1];
};

static struct wdblock *addword(char *wd, struct wdblock *wb);
static struct wdblock *newword(int nw);
static char **getwords(struct wdblock *wb);

/* -------- area.h -------- */

/*
 * storage allocation
 */
static char *getcell(unsigned nbytes);
static void garbage(void);
static void setarea(char *cp, int a);
static int getarea(char *cp);
static void freearea(int a);
static void freecell(char *cp);
static int areanum;				/* current allocation area */

#define	NEW(type)   (type *)getcell(sizeof(type))
#define	DELETE(obj)	freecell((char *)obj)


/* -------- misc stuff -------- */

static int forkexec(struct op *t, int *pin, int *pout, int act, char **wp);
static int iosetup(struct ioword *iop, int pipein, int pipeout);
static void echo(char **wp);
static struct op **find1case(struct op *t, char *w);
static struct op *findcase(struct op *t, char *w);
static void brkset(struct brkcon *bc);
static int dolabel(struct op *t);
static int dohelp(struct op *t);
static int dochdir(struct op *t);
static int doshift(struct op *t);
static int dologin(struct op *t);
static int doumask(struct op *t);
static int doexec(struct op *t);
static int dodot(struct op *t);
static int dowait(struct op *t);
static int doread(struct op *t);
static int doeval(struct op *t);
static int dotrap(struct op *t);
static int getsig(char *s);
static void setsig(int n, sighandler_t f);
static int getn(char *as);
static int dobreak(struct op *t);
static int docontinue(struct op *t);
static int brkcontin(char *cp, int val);
static int doexit(struct op *t);
static int doexport(struct op *t);
static int doreadonly(struct op *t);
static void rdexp(char **wp, void (*f) (struct var *), int key);
static void badid(char *s);
static int doset(struct op *t);
static void varput(char *s, int out);
static int dotimes(struct op *t);
static int expand(char *cp, struct wdblock **wbp, int f);
static char *blank(int f);
static int dollar(int quoted);
static int grave(int quoted);
static void globname(char *we, char *pp);
static char *generate(char *start1, char *end1, char *middle, char *end);
static int anyspcl(struct wdblock *wb);
static int xstrcmp(char *p1, char *p2);
static void glob0(char *a0, unsigned int a1, int a2,
				  int (*a3) (char *, char *));
static void glob1(char *base, char *lim);
static void glob2(char *i, char *j);
static void glob3(char *i, char *j, char *k);
static void readhere(char **name, char *s, int ec);
static void pushio(struct ioarg *argp, int (*f) (struct ioarg *));
static int xxchar(struct ioarg *ap);

struct here {
	char *h_tag;
	int h_dosub;
	struct ioword *h_iop;
	struct here *h_next;
};

static char *signame[] = {
	"Signal 0",
	"Hangup",
	(char *) NULL,				/* interrupt */
	"Quit",
	"Illegal instruction",
	"Trace/BPT trap",
	"Abort",
	"Bus error",
	"Floating Point Exception",
	"Killed",
	"SIGUSR1",
	"SIGSEGV",
	"SIGUSR2",
	(char *) NULL,				/* broken pipe */
	"Alarm clock",
	"Terminated",
};

#define	NSIGNAL (sizeof(signame)/sizeof(signame[0]))

struct res {
	char *r_name;
	int r_val;
};
static struct res restab[] = {
	{"for", FOR},
	{"case", CASE},
	{"esac", ESAC},
	{"while", WHILE},
	{"do", DO},
	{"done", DONE},
	{"if", IF},
	{"in", IN},
	{"then", THEN},
	{"else", ELSE},
	{"elif", ELIF},
	{"until", UNTIL},
	{"fi", FI},
	{";;", BREAK},
	{"||", LOGOR},
	{"&&", LOGAND},
	{"{", '{'},
	{"}", '}'},
	{".", DOT},
	{0, 0},
};


struct builtincmd {
	const char *name;
	int (*builtinfunc) (struct op * t);
};
static const struct builtincmd builtincmds[] = {
	{".", dodot},
	{":", dolabel},
	{"break", dobreak},
	{"cd", dochdir},
	{"continue", docontinue},
	{"eval", doeval},
	{"exec", doexec},
	{"exit", doexit},
	{"export", doexport},
	{"help", dohelp},
	{"login", dologin},
	{"newgrp", dologin},
	{"read", doread},
	{"readonly", doreadonly},
	{"set", doset},
	{"shift", doshift},
	{"times", dotimes},
	{"trap", dotrap},
	{"umask", doumask},
	{"wait", dowait},
	{0, 0}
};

struct op *scantree(struct op *);
static struct op *dowholefile(int, int);

/* Globals */
extern char **environ;			/* environment pointer */

static char **dolv;
static int dolc;
static int exstat;
static char gflg;
static int interactive = 0;		/* Is this an interactive shell */
static int execflg;
static int multiline;			/* \n changed to ; */
static struct op *outtree;		/* result from parser */
static xint *failpt;
static xint *errpt;
static struct brkcon *brklist;
static int isbreak;
static struct wdblock *wdlist;
static struct wdblock *iolist;
static char *trap[_NSIG + 1];
static char ourtrap[_NSIG + 1];
static int trapset;				/* trap pending */
static int yynerrs;				/* yacc */
static char line[LINELIM];

#ifdef MSHDEBUG
static struct var *mshdbg_var;
#endif
static struct var *vlist;		/* dictionary */
static struct var *homedir;		/* home directory */
static struct var *prompt;		/* main prompt */
static struct var *cprompt;		/* continuation prompt */
static struct var *path;		/* search path for commands */
static struct var *shell;		/* shell to interpret command files */
static struct var *ifs;			/* field separators */

static int areanum;				/* current allocation area */
static int intr;
static int inparse;
static char flags['z' - 'a' + 1];
static char *flag = flags - 'a';
static char *null = "";
static int heedint = 1;
static void (*qflag) (int) = SIG_IGN;
static int startl;
static int peeksym;
static int nlseen;
static int iounit = IODEFAULT;
static YYSTYPE yylval;
static char *elinep = line + sizeof(line) - 5;

static struct ioarg temparg = { 0, 0, 0, AFID_NOBUF, 0 };	/* temporary for PUSHIO */
static struct ioarg ioargstack[NPUSH];
static struct io iostack[NPUSH];
static struct iobuf sharedbuf = { AFID_NOBUF };
static struct iobuf mainbuf = { AFID_NOBUF };
static unsigned bufid = AFID_ID;	/* buffer id counter */

static struct here *inhere;		/* list of hear docs while parsing */
static struct here *acthere;	/* list of active here documents */
static struct region *areabot;	/* bottom of area */
static struct region *areatop;	/* top of area */
static struct region *areanxt;	/* starting point of scan */
static void *brktop;
static void *brkaddr;

static struct env e = {
	line,						/* linep:  char ptr */
	iostack,					/* iobase:  struct io ptr */
	iostack - 1,				/* iop:  struct io ptr */
	(xint *) NULL,				/* errpt:  void ptr for errors? */
	FDBASE,						/* iofd:  file desc  */
	(struct env *) NULL			/* oenv:  struct env ptr */
};

#ifdef MSHDEBUG
void print_t(struct op *t)
{
	DBGPRINTF(("T: t=0x%x, type %s, words=0x%x, IOword=0x%x\n", t,
			   T_CMD_NAMES[t->type], t->words, t->ioact));

	if (t->words) {
		DBGPRINTF(("T: W1: %s", t->words[0]));
	}

	return;
}

void print_tree(struct op *head)
{
	if (head == NULL) {
		DBGPRINTF(("PRINT_TREE: no tree\n"));
		return;
	}

	DBGPRINTF(("NODE: 0x%x,  left 0x%x, right 0x%x\n", head, head->left,
			   head->right));

	if (head->left)
		print_tree(head->left);

	if (head->right)
		print_tree(head->right);

	return;
}
#endif							/* MSHDEBUG */


#ifdef CONFIG_FEATURE_COMMAND_EDITING
static char *current_prompt;
#endif

/* -------- sh.c -------- */
/*
 * shell
 */


extern int msh_main(int argc, char **argv)
{
	REGISTER int f;
	REGISTER char *s;
	int cflag;
	char *name, **ap;
	int (*iof) (struct ioarg *);

	DBGPRINTF(("MSH_MAIN: argc %d, environ 0x%x\n", argc, environ));

	initarea();
	if ((ap = environ) != NULL) {
		while (*ap)
			assign(*ap++, !COPYV);
		for (ap = environ; *ap;)
			export(lookup(*ap++));
	}
	closeall();
	areanum = 1;

	shell = lookup("SHELL");
	if (shell->value == null)
		setval(shell, (char *)DEFAULT_SHELL);
	export(shell);

	homedir = lookup("HOME");
	if (homedir->value == null)
		setval(homedir, "/");
	export(homedir);

	setval(lookup("$"), putn(getpid()));

	path = lookup("PATH");
	if (path->value == null) {
		if (geteuid() == 0)
			setval(path, "/sbin:/bin:/usr/sbin:/usr/bin");
		else
			setval(path, "/bin:/usr/bin");
	}
	export(path);

	ifs = lookup("IFS");
	if (ifs->value == null)
		setval(ifs, " \t\n");

#ifdef MSHDEBUG
	mshdbg_var = lookup("MSHDEBUG");
	if (mshdbg_var->value == null)
		setval(mshdbg_var, "0");
#endif


	prompt = lookup("PS1");
#ifdef CONFIG_FEATURE_SH_FANCY_PROMPT
	if (prompt->value == null)
#endif
		setval(prompt, "$ ");
	if (geteuid() == 0) {
		setval(prompt, "# ");
		prompt->status &= ~EXPORT;
	}
	cprompt = lookup("PS2");
#ifdef CONFIG_FEATURE_SH_FANCY_PROMPT
	if (cprompt->value == null)
#endif
		setval(cprompt, "> ");

	iof = filechar;
	cflag = 0;
	name = *argv++;
	if (--argc >= 1) {
		if (argv[0][0] == '-' && argv[0][1] != '\0') {
			for (s = argv[0] + 1; *s; s++)
				switch (*s) {
				case 'c':
					prompt->status &= ~EXPORT;
					cprompt->status &= ~EXPORT;
					setval(prompt, "");
					setval(cprompt, "");
					cflag = 1;
					if (--argc > 0)
						PUSHIO(aword, *++argv, iof = nlchar);
					break;

				case 'q':
					qflag = SIG_DFL;
					break;

				case 's':
					/* standard input */
					break;

				case 't':
					prompt->status &= ~EXPORT;
					setval(prompt, "");
					iof = linechar;
					break;

				case 'i':
					interactive++;
				default:
					if (*s >= 'a' && *s <= 'z')
						flag[(int) *s]++;
				}
		} else {
			argv--;
			argc++;
		}

		if (iof == filechar && --argc > 0) {
			setval(prompt, "");
			setval(cprompt, "");
			prompt->status &= ~EXPORT;
			cprompt->status &= ~EXPORT;

/* Shell is non-interactive, activate printf-based debug */
#ifdef MSHDEBUG
			mshdbg = (int) (((char) (mshdbg_var->value[0])) - '0');
			if (mshdbg < 0)
				mshdbg = 0;
#endif
			DBGPRINTF(("MSH_MAIN: calling newfile()\n"));

			if (newfile(name = *++argv))
				exit(1);		/* Exit on error */
		}
	}

	setdash();

	/* This won't be true if PUSHIO has been called, say from newfile() above */
	if (e.iop < iostack) {
		PUSHIO(afile, 0, iof);
		if (isatty(0) && isatty(1) && !cflag) {
			interactive++;
#ifndef CONFIG_FEATURE_SH_EXTRA_QUIET
#ifdef MSHDEBUG
			printf("\n\n" BB_BANNER " Built-in shell (msh with debug)\n");
#else
			printf("\n\n" BB_BANNER " Built-in shell (msh)\n");
#endif
			printf("Enter 'help' for a list of built-in commands.\n\n");
#endif
		}
	}

	signal(SIGQUIT, qflag);
	if (name && name[0] == '-') {
		interactive++;
		if ((f = open(".profile", 0)) >= 0)
			next(remap(f));
		if ((f = open("/etc/profile", 0)) >= 0)
			next(remap(f));
	}
	if (interactive)
		signal(SIGTERM, sig);

	if (signal(SIGINT, SIG_IGN) != SIG_IGN)
		signal(SIGINT, onintr);
	dolv = argv;
	dolc = argc;
	dolv[0] = name;
	if (dolc > 1) {
		for (ap = ++argv; --argc > 0;) {
			if (assign(*ap = *argv++, !COPYV)) {
				dolc--;			/* keyword */
			} else {
				ap++;
			}
		}
	}
	setval(lookup("#"), putn((--dolc < 0) ? (dolc = 0) : dolc));

	DBGPRINTF(("MSH_MAIN: begin FOR loop, interactive %d, e.iop 0x%x, iostack 0x%x\n", interactive, e.iop, iostack));

	for (;;) {
		if (interactive && e.iop <= iostack) {
#ifdef CONFIG_FEATURE_COMMAND_EDITING
			current_prompt = prompt->value;
#else
			prs(prompt->value);
#endif
		}
		onecommand();
		/* Ensure that getenv("PATH") stays current */
		setenv("PATH", path->value, 1);
	}

	DBGPRINTF(("MSH_MAIN: returning.\n"));
}

static void setdash()
{
	REGISTER char *cp;
	REGISTER int c;
	char m['z' - 'a' + 1];

	cp = m;
	for (c = 'a'; c <= 'z'; c++)
		if (flag[(int) c])
			*cp++ = c;
	*cp = 0;
	setval(lookup("-"), m);
}

static int newfile(s)
REGISTER char *s;
{
	REGISTER int f;

	DBGPRINTF7(("NEWFILE: opening %s\n", s));

	if (strcmp(s, "-") != 0) {
		DBGPRINTF(("NEWFILE: s is %s\n", s));
		f = open(s, 0);
		if (f < 0) {
			prs(s);
			err(": cannot open");
			return (1);
		}
	} else
		f = 0;

	next(remap(f));
	return (0);
}


struct op *scantree(head)
struct op *head;
{
	struct op *dotnode;

	if (head == NULL)
		return (NULL);

	if (head->left != NULL) {
		dotnode = scantree(head->left);
		if (dotnode)
			return (dotnode);
	}

	if (head->right != NULL) {
		dotnode = scantree(head->right);
		if (dotnode)
			return (dotnode);
	}

	if (head->words == NULL)
		return (NULL);

	DBGPRINTF5(("SCANTREE: checking node 0x%x\n", head));

	if ((head->type != TDOT) && (strcmp(".", head->words[0]) == 0)) {
		DBGPRINTF5(("SCANTREE: dot found in node 0x%x\n", head));
		return (head);
	}

	return (NULL);
}


static void onecommand()
{
	REGISTER int i;
	jmp_buf m1;

	DBGPRINTF(("ONECOMMAND: enter, outtree=0x%x\n", outtree));

	while (e.oenv)
		quitenv();

	areanum = 1;
	freehere(areanum);
	freearea(areanum);
	garbage();
	wdlist = 0;
	iolist = 0;
	e.errpt = 0;
	e.linep = line;
	yynerrs = 0;
	multiline = 0;
	inparse = 1;
	intr = 0;
	execflg = 0;

	setjmp(failpt = m1);		/* Bruce Evans' fix */
	if (setjmp(failpt = m1) || yyparse() || intr) {

		DBGPRINTF(("ONECOMMAND: this is not good.\n"));

		while (e.oenv)
			quitenv();
		scraphere();
		if (!interactive && intr)
			leave();
		inparse = 0;
		intr = 0;
		return;
	}

	inparse = 0;
	brklist = 0;
	intr = 0;
	execflg = 0;

	if (!flag['n']) {
		DBGPRINTF(("ONECOMMAND: calling execute, t=outtree=0x%x\n",
				   outtree));
		execute(outtree, NOPIPE, NOPIPE, 0);
	}

	if (!interactive && intr) {
		execflg = 0;
		leave();
	}

	if ((i = trapset) != 0) {
		trapset = 0;
		runtrap(i);
	}
}

static void fail()
{
	longjmp(failpt, 1);
	/* NOTREACHED */
}

static void leave()
{
	DBGPRINTF(("LEAVE: leave called!\n"));

	if (execflg)
		fail();
	scraphere();
	freehere(1);
	runtrap(0);
	_exit(exstat);
	/* NOTREACHED */
}

static void warn(s)
REGISTER char *s;
{
	if (*s) {
		prs(s);
		exstat = -1;
	}
	prs("\n");
	if (flag['e'])
		leave();
}

static void err(s)
char *s;
{
	warn(s);
	if (flag['n'])
		return;
	if (!interactive)
		leave();
	if (e.errpt)
		longjmp(e.errpt, 1);
	closeall();
	e.iop = e.iobase = iostack;
}

static int newenv(f)
int f;
{
	REGISTER struct env *ep;

	DBGPRINTF(("NEWENV: f=%d (indicates quitenv and return)\n", f));

	if (f) {
		quitenv();
		return (1);
	}

	ep = (struct env *) space(sizeof(*ep));
	if (ep == NULL) {
		while (e.oenv)
			quitenv();
		fail();
	}
	*ep = e;
	e.oenv = ep;
	e.errpt = errpt;

	return (0);
}

static void quitenv()
{
	REGISTER struct env *ep;
	REGISTER int fd;

	DBGPRINTF(("QUITENV: e.oenv=0x%x\n", e.oenv));

	if ((ep = e.oenv) != NULL) {
		fd = e.iofd;
		e = *ep;
		/* should close `'d files */
		DELETE(ep);
		while (--fd >= e.iofd)
			close(fd);
	}
}

/*
 * Is any character from s1 in s2?
 */
static int anys(s1, s2)
REGISTER char *s1, *s2;
{
	while (*s1)
		if (any(*s1++, s2))
			return (1);
	return (0);
}

/*
 * Is character c in s?
 */
static int any(c, s)
REGISTER int c;
REGISTER char *s;
{
	while (*s)
		if (*s++ == c)
			return (1);
	return (0);
}

static char *putn(n)
REGISTER int n;
{
	return (itoa(n));
}

static char *itoa(n)
REGISTER int n;
{
	static char s[20];

	snprintf(s, sizeof(s), "%u", n);
	return (s);
}


static void next(int f)
{
	PUSHIO(afile, f, filechar);
}

static void onintr(s)
int s;							/* ANSI C requires a parameter */
{
	signal(SIGINT, onintr);
	intr = 1;
	if (interactive) {
		if (inparse) {
			prs("\n");
			fail();
		}
	} else if (heedint) {
		execflg = 0;
		leave();
	}
}

static char *space(n)
int n;
{
	REGISTER char *cp;

	if ((cp = getcell(n)) == 0)
		err("out of string space");
	return (cp);
}

static char *strsave(s, a)
REGISTER char *s;
int a;
{
	REGISTER char *cp, *xp;

	if ((cp = space(strlen(s) + 1)) != NULL) {
		setarea((char *) cp, a);
		for (xp = cp; (*xp++ = *s++) != '\0';);
		return (cp);
	}
	return ("");
}

/*
 * trap handling
 */
static void sig(i)
REGISTER int i;
{
	trapset = i;
	signal(i, sig);
}

static void runtrap(i)
int i;
{
	char *trapstr;

	if ((trapstr = trap[i]) == NULL)
		return;

	if (i == 0)
		trap[i] = 0;

	RUN(aword, trapstr, nlchar);
}

/* -------- var.c -------- */

/*
 * Find the given name in the dictionary
 * and return its value.  If the name was
 * not previously there, enter it now and
 * return a null value.
 */
static struct var *lookup(n)
REGISTER char *n;
{
	REGISTER struct var *vp;
	REGISTER char *cp;
	REGISTER int c;
	static struct var dummy;

	if (isdigit(*n)) {
		dummy.name = n;
		for (c = 0; isdigit(*n) && c < 1000; n++)
			c = c * 10 + *n - '0';
		dummy.status = RONLY;
		dummy.value = c <= dolc ? dolv[c] : null;
		return (&dummy);
	}
	for (vp = vlist; vp; vp = vp->next)
		if (eqname(vp->name, n))
			return (vp);
	cp = findeq(n);
	vp = (struct var *) space(sizeof(*vp));
	if (vp == 0 || (vp->name = space((int) (cp - n) + 2)) == 0) {
		dummy.name = dummy.value = "";
		return (&dummy);
	}
	for (cp = vp->name; (*cp = *n++) && *cp != '='; cp++);
	if (*cp == 0)
		*cp = '=';
	*++cp = 0;
	setarea((char *) vp, 0);
	setarea((char *) vp->name, 0);
	vp->value = null;
	vp->next = vlist;
	vp->status = GETCELL;
	vlist = vp;
	return (vp);
}

/*
 * give variable at `vp' the value `val'.
 */
static void setval(vp, val)
struct var *vp;
char *val;
{
	nameval(vp, val, (char *) NULL);
}

/*
 * if name is not NULL, it must be
 * a prefix of the space `val',
 * and end with `='.
 * this is all so that exporting
 * values is reasonably painless.
 */
static void nameval(vp, val, name)
REGISTER struct var *vp;
char *val, *name;
{
	REGISTER char *cp, *xp;
	char *nv;
	int fl;

	if (vp->status & RONLY) {
		for (xp = vp->name; *xp && *xp != '=';)
			putc(*xp++, stderr);
		err(" is read-only");
		return;
	}
	fl = 0;
	if (name == NULL) {
		xp = space(strlen(vp->name) + strlen(val) + 2);
		if (xp == 0)
			return;
		/* make string:  name=value */
		setarea((char *) xp, 0);
		name = xp;
		for (cp = vp->name; (*xp = *cp++) && *xp != '='; xp++);
		if (*xp++ == 0)
			xp[-1] = '=';
		nv = xp;
		for (cp = val; (*xp++ = *cp++) != '\0';);
		val = nv;
		fl = GETCELL;
	}
	if (vp->status & GETCELL)
		freecell(vp->name);		/* form new string `name=value' */
	vp->name = name;
	vp->value = val;
	vp->status |= fl;
}

static void export(vp)
struct var *vp;
{
	vp->status |= EXPORT;
}

static void ronly(vp)
struct var *vp;
{
	if (isalpha(vp->name[0]) || vp->name[0] == '_')	/* not an internal symbol */
		vp->status |= RONLY;
}

static int isassign(s)
REGISTER char *s;
{
	DBGPRINTF7(("ISASSIGN: enter, s=%s\n", s));

	if (!isalpha((int) *s) && *s != '_')
		return (0);
	for (; *s != '='; s++)
		if (*s == 0 || (!isalnum(*s) && *s != '_'))
			return (0);

	return (1);
}

static int assign(s, cf)
REGISTER char *s;
int cf;
{
	REGISTER char *cp;
	struct var *vp;

	DBGPRINTF7(("ASSIGN: enter, s=%s, cf=%d\n", s, cf));

	if (!isalpha(*s) && *s != '_')
		return (0);
	for (cp = s; *cp != '='; cp++)
		if (*cp == 0 || (!isalnum(*cp) && *cp != '_'))
			return (0);
	vp = lookup(s);
	nameval(vp, ++cp, cf == COPYV ? (char *) NULL : s);
	if (cf != COPYV)
		vp->status &= ~GETCELL;
	return (1);
}

static int checkname(cp)
REGISTER char *cp;
{
	DBGPRINTF7(("CHECKNAME: enter, cp=%s\n", cp));

	if (!isalpha(*cp++) && *(cp - 1) != '_')
		return (0);
	while (*cp)
		if (!isalnum(*cp++) && *(cp - 1) != '_')
			return (0);
	return (1);
}

static void putvlist(f, out)
REGISTER int f, out;
{
	REGISTER struct var *vp;

	for (vp = vlist; vp; vp = vp->next)
		if (vp->status & f && (isalpha(*vp->name) || *vp->name == '_')) {
			if (vp->status & EXPORT)
				write(out, "export ", 7);
			if (vp->status & RONLY)
				write(out, "readonly ", 9);
			write(out, vp->name, (int) (findeq(vp->name) - vp->name));
			write(out, "\n", 1);
		}
}

static int eqname(n1, n2)
REGISTER char *n1, *n2;
{
	for (; *n1 != '=' && *n1 != 0; n1++)
		if (*n2++ != *n1)
			return (0);
	return (*n2 == 0 || *n2 == '=');
}

static char *findeq(cp)
REGISTER char *cp;
{
	while (*cp != '\0' && *cp != '=')
		cp++;
	return (cp);
}

/* -------- gmatch.c -------- */
/*
 * int gmatch(string, pattern)
 * char *string, *pattern;
 *
 * Match a pattern as in sh(1).
 */

#define	CMASK	0377
#define	QUOTE	0200
#define	QMASK	(CMASK&~QUOTE)
#define	NOT	'!'					/* might use ^ */

static int gmatch(s, p)
REGISTER char *s, *p;
{
	REGISTER int sc, pc;

	if (s == NULL || p == NULL)
		return (0);
	while ((pc = *p++ & CMASK) != '\0') {
		sc = *s++ & QMASK;
		switch (pc) {
		case '[':
			if ((p = cclass(p, sc)) == NULL)
				return (0);
			break;

		case '?':
			if (sc == 0)
				return (0);
			break;

		case '*':
			s--;
			do {
				if (*p == '\0' || gmatch(s, p))
					return (1);
			} while (*s++ != '\0');
			return (0);

		default:
			if (sc != (pc & ~QUOTE))
				return (0);
		}
	}
	return (*s == 0);
}

static char *cclass(p, sub)
REGISTER char *p;
REGISTER int sub;
{
	REGISTER int c, d, not, found;

	if ((not = *p == NOT) != 0)
		p++;
	found = not;
	do {
		if (*p == '\0')
			return ((char *) NULL);
		c = *p & CMASK;
		if (p[1] == '-' && p[2] != ']') {
			d = p[2] & CMASK;
			p++;
		} else
			d = c;
		if (c == sub || (c <= sub && sub <= d))
			found = !not;
	} while (*++p != ']');
	return (found ? p + 1 : (char *) NULL);
}


/* -------- area.c -------- */

/*
 * All memory between (char *)areabot and (char *)(areatop+1) is
 * exclusively administered by the area management routines.
 * It is assumed that sbrk() and brk() manipulate the high end.
 */

#define sbrk(X) ({ void * __q = (void *)-1; if (brkaddr + (int)(X) < brktop) { __q = brkaddr; brkaddr+=(int)(X); } __q;})

static void initarea()
{
	brkaddr = malloc(AREASIZE);
	brktop = brkaddr + AREASIZE;

	while ((int) sbrk(0) & ALIGN)
		sbrk(1);
	areabot = (struct region *) sbrk(REGSIZE);

	areabot->next = areabot;
	areabot->area = BUSY;
	areatop = areabot;
	areanxt = areabot;
}

char *getcell(nbytes)
unsigned nbytes;
{
	REGISTER int nregio;
	REGISTER struct region *p, *q;
	REGISTER int i;

	if (nbytes == 0) {
		puts("getcell(0)");
		abort();
	}
	/* silly and defeats the algorithm */
	/*
	 * round upwards and add administration area
	 */
	nregio = (nbytes + (REGSIZE - 1)) / REGSIZE + 1;
	for (p = areanxt;;) {
		if (p->area > areanum) {
			/*
			 * merge free cells
			 */
			while ((q = p->next)->area > areanum && q != areanxt)
				p->next = q->next;
			/*
			 * exit loop if cell big enough
			 */
			if (q >= p + nregio)
				goto found;
		}
		p = p->next;
		if (p == areanxt)
			break;
	}
	i = nregio >= GROWBY ? nregio : GROWBY;
	p = (struct region *) sbrk(i * REGSIZE);
	if (p == (struct region *) -1)
		return ((char *) NULL);
	p--;
	if (p != areatop) {
		puts("not contig");
		abort();				/* allocated areas are contiguous */
	}
	q = p + i;
	p->next = q;
	p->area = FREE;
	q->next = areabot;
	q->area = BUSY;
	areatop = q;
  found:
	/*
	 * we found a FREE area big enough, pointed to by 'p', and up to 'q'
	 */
	areanxt = p + nregio;
	if (areanxt < q) {
		/*
		 * split into requested area and rest
		 */
		if (areanxt + 1 > q) {
			puts("OOM");
			abort();			/* insufficient space left for admin */
		}
		areanxt->next = q;
		areanxt->area = FREE;
		p->next = areanxt;
	}
	p->area = areanum;
	return ((char *) (p + 1));
}

static void freecell(cp)
char *cp;
{
	REGISTER struct region *p;

	if ((p = (struct region *) cp) != NULL) {
		p--;
		if (p < areanxt)
			areanxt = p;
		p->area = FREE;
	}
}

static void freearea(a)
REGISTER int a;
{
	REGISTER struct region *p, *top;

	top = areatop;
	for (p = areabot; p != top; p = p->next)
		if (p->area >= a)
			p->area = FREE;
}

static void setarea(cp, a)
char *cp;
int a;
{
	REGISTER struct region *p;

	if ((p = (struct region *) cp) != NULL)
		(p - 1)->area = a;
}

int getarea(cp)
char *cp;
{
	return ((struct region *) cp - 1)->area;
}

static void garbage()
{
	REGISTER struct region *p, *q, *top;

	top = areatop;
	for (p = areabot; p != top; p = p->next) {
		if (p->area > areanum) {
			while ((q = p->next)->area > areanum)
				p->next = q->next;
			areanxt = p;
		}
	}
#ifdef SHRINKBY
	if (areatop >= q + SHRINKBY && q->area > areanum) {
		brk((char *) (q + 1));
		q->next = areabot;
		q->area = BUSY;
		areatop = q;
	}
#endif
}

/* -------- csyn.c -------- */
/*
 * shell: syntax (C version)
 */

int yyparse()
{
	DBGPRINTF7(("YYPARSE: enter...\n"));

	startl = 1;
	peeksym = 0;
	yynerrs = 0;
	outtree = c_list();
	musthave('\n', 0);
	return (yynerrs != 0);
}

static struct op *pipeline(cf)
int cf;
{
	REGISTER struct op *t, *p;
	REGISTER int c;

	DBGPRINTF7(("PIPELINE: enter, cf=%d\n", cf));

	t = command(cf);

	DBGPRINTF9(("PIPELINE: t=0x%x\n", t));

	if (t != NULL) {
		while ((c = yylex(0)) == '|') {
			if ((p = command(CONTIN)) == NULL) {
				DBGPRINTF8(("PIPELINE: error!\n"));
				SYNTAXERR;
			}

			if (t->type != TPAREN && t->type != TCOM) {
				/* shell statement */
				t = block(TPAREN, t, NOBLOCK, NOWORDS);
			}

			t = block(TPIPE, t, p, NOWORDS);
		}
		peeksym = c;
	}

	DBGPRINTF7(("PIPELINE: returning t=0x%x\n", t));
	return (t);
}

static struct op *andor()
{
	REGISTER struct op *t, *p;
	REGISTER int c;

	DBGPRINTF7(("ANDOR: enter...\n"));

	t = pipeline(0);

	DBGPRINTF9(("ANDOR: t=0x%x\n", t));

	if (t != NULL) {
		while ((c = yylex(0)) == LOGAND || c == LOGOR) {
			if ((p = pipeline(CONTIN)) == NULL) {
				DBGPRINTF8(("ANDOR: error!\n"));
				SYNTAXERR;
			}

			t = block(c == LOGAND ? TAND : TOR, t, p, NOWORDS);
		}						/* WHILE */

		peeksym = c;
	}

	DBGPRINTF7(("ANDOR: returning t=0x%x\n", t));
	return (t);
}

static struct op *c_list()
{
	REGISTER struct op *t, *p;
	REGISTER int c;

	DBGPRINTF7(("C_LIST: enter...\n"));

	t = andor();

	if (t != NULL) {
		if ((peeksym = yylex(0)) == '&')
			t = block(TASYNC, t, NOBLOCK, NOWORDS);

		while ((c = yylex(0)) == ';' || c == '&'
			   || (multiline && c == '\n')) {

			if ((p = andor()) == NULL)
				return (t);

			if ((peeksym = yylex(0)) == '&')
				p = block(TASYNC, p, NOBLOCK, NOWORDS);

			t = list(t, p);
		}						/* WHILE */

		peeksym = c;
	}
	/* IF */
	DBGPRINTF7(("C_LIST: returning t=0x%x\n", t));
	return (t);
}

static int synio(cf)
int cf;
{
	REGISTER struct ioword *iop;
	REGISTER int i;
	REGISTER int c;

	DBGPRINTF7(("SYNIO: enter, cf=%d\n", cf));

	if ((c = yylex(cf)) != '<' && c != '>') {
		peeksym = c;
		return (0);
	}

	i = yylval.i;
	musthave(WORD, 0);
	iop = io(iounit, i, yylval.cp);
	iounit = IODEFAULT;

	if (i & IOHERE)
		markhere(yylval.cp, iop);

	DBGPRINTF7(("SYNIO: returning 1\n"));
	return (1);
}

static void musthave(c, cf)
int c, cf;
{
	if ((peeksym = yylex(cf)) != c) {
		DBGPRINTF7(("MUSTHAVE: error!\n"));
		SYNTAXERR;
	}

	peeksym = 0;
}

static struct op *simple()
{
	REGISTER struct op *t;

	t = NULL;
	for (;;) {
		switch (peeksym = yylex(0)) {
		case '<':
		case '>':
			(void) synio(0);
			break;

		case WORD:
			if (t == NULL) {
				t = newtp();
				t->type = TCOM;
			}
			peeksym = 0;
			word(yylval.cp);
			break;

		default:
			return (t);
		}
	}
}

static struct op *nested(type, mark)
int type, mark;
{
	REGISTER struct op *t;

	DBGPRINTF3(("NESTED: enter, type=%d, mark=%d\n", type, mark));

	multiline++;
	t = c_list();
	musthave(mark, 0);
	multiline--;
	return (block(type, t, NOBLOCK, NOWORDS));
}

static struct op *command(cf)
int cf;
{
	REGISTER struct op *t;
	struct wdblock *iosave;
	REGISTER int c;

	DBGPRINTF(("COMMAND: enter, cf=%d\n", cf));

	iosave = iolist;
	iolist = NULL;

	if (multiline)
		cf |= CONTIN;

	while (synio(cf))
		cf = 0;

	c = yylex(cf);

	switch (c) {
	default:
		peeksym = c;
		if ((t = simple()) == NULL) {
			if (iolist == NULL)
				return ((struct op *) NULL);
			t = newtp();
			t->type = TCOM;
		}
		break;

	case '(':
		t = nested(TPAREN, ')');
		break;

	case '{':
		t = nested(TBRACE, '}');
		break;

	case FOR:
		t = newtp();
		t->type = TFOR;
		musthave(WORD, 0);
		startl = 1;
		t->str = yylval.cp;
		multiline++;
		t->words = wordlist();
		if ((c = yylex(0)) != '\n' && c != ';')
			peeksym = c;
		t->left = dogroup(0);
		multiline--;
		break;

	case WHILE:
	case UNTIL:
		multiline++;
		t = newtp();
		t->type = c == WHILE ? TWHILE : TUNTIL;
		t->left = c_list();
		t->right = dogroup(1);
		t->words = NULL;
		multiline--;
		break;

	case CASE:
		t = newtp();
		t->type = TCASE;
		musthave(WORD, 0);
		t->str = yylval.cp;
		startl++;
		multiline++;
		musthave(IN, CONTIN);
		startl++;

		t->left = caselist();

		musthave(ESAC, 0);
		multiline--;
		break;

	case IF:
		multiline++;
		t = newtp();
		t->type = TIF;
		t->left = c_list();
		t->right = thenpart();
		musthave(FI, 0);
		multiline--;
		break;

	case DOT:
		t = newtp();
		t->type = TDOT;

		musthave(WORD, 0);		/* gets name of file */
		DBGPRINTF7(("COMMAND: DOT clause, yylval.cp is %s\n", yylval.cp));

		word(yylval.cp);		/* add word to wdlist */
		word(NOWORD);			/* terminate  wdlist */
		t->words = copyw();		/* dup wdlist */
		break;

	}

	while (synio(0));

	t = namelist(t);
	iolist = iosave;

	DBGPRINTF(("COMMAND: returning 0x%x\n", t));

	return (t);
}

static struct op *dowholefile(type, mark)
int type;
int mark;
{
	REGISTER struct op *t;

	DBGPRINTF(("DOWHOLEFILE: enter, type=%d, mark=%d\n", type, mark));

	multiline++;
	t = c_list();
	multiline--;
	t = block(type, t, NOBLOCK, NOWORDS);
	DBGPRINTF(("DOWHOLEFILE: return t=0x%x\n", t));
	return (t);
}

static struct op *dogroup(onlydone)
int onlydone;
{
	REGISTER int c;
	REGISTER struct op *mylist;

	c = yylex(CONTIN);
	if (c == DONE && onlydone)
		return ((struct op *) NULL);
	if (c != DO)
		SYNTAXERR;
	mylist = c_list();
	musthave(DONE, 0);
	return (mylist);
}

static struct op *thenpart()
{
	REGISTER int c;
	REGISTER struct op *t;

	if ((c = yylex(0)) != THEN) {
		peeksym = c;
		return ((struct op *) NULL);
	}
	t = newtp();
	t->type = 0;
	t->left = c_list();
	if (t->left == NULL)
		SYNTAXERR;
	t->right = elsepart();
	return (t);
}

static struct op *elsepart()
{
	REGISTER int c;
	REGISTER struct op *t;

	switch (c = yylex(0)) {
	case ELSE:
		if ((t = c_list()) == NULL)
			SYNTAXERR;
		return (t);

	case ELIF:
		t = newtp();
		t->type = TELIF;
		t->left = c_list();
		t->right = thenpart();
		return (t);

	default:
		peeksym = c;
		return ((struct op *) NULL);
	}
}

static struct op *caselist()
{
	REGISTER struct op *t;

	t = NULL;
	while ((peeksym = yylex(CONTIN)) != ESAC) {
		DBGPRINTF(("CASELIST, doing yylex, peeksym=%d\n", peeksym));
		t = list(t, casepart());
	}

	DBGPRINTF(("CASELIST, returning t=0x%x\n", t));
	return (t);
}

static struct op *casepart()
{
	REGISTER struct op *t;

	DBGPRINTF7(("CASEPART: enter...\n"));

	t = newtp();
	t->type = TPAT;
	t->words = pattern();
	musthave(')', 0);
	t->left = c_list();
	if ((peeksym = yylex(CONTIN)) != ESAC)
		musthave(BREAK, CONTIN);

	DBGPRINTF7(("CASEPART: made newtp(TPAT, t=0x%x)\n", t));

	return (t);
}

static char **pattern()
{
	REGISTER int c, cf;

	cf = CONTIN;
	do {
		musthave(WORD, cf);
		word(yylval.cp);
		cf = 0;
	} while ((c = yylex(0)) == '|');
	peeksym = c;
	word(NOWORD);

	return (copyw());
}

static char **wordlist()
{
	REGISTER int c;

	if ((c = yylex(0)) != IN) {
		peeksym = c;
		return ((char **) NULL);
	}
	startl = 0;
	while ((c = yylex(0)) == WORD)
		word(yylval.cp);
	word(NOWORD);
	peeksym = c;
	return (copyw());
}

/*
 * supporting functions
 */
static struct op *list(t1, t2)
REGISTER struct op *t1, *t2;
{
	DBGPRINTF7(("LIST: enter, t1=0x%x, t2=0x%x\n", t1, t2));

	if (t1 == NULL)
		return (t2);
	if (t2 == NULL)
		return (t1);

	return (block(TLIST, t1, t2, NOWORDS));
}

static struct op *block(type, t1, t2, wp)
int type;
struct op *t1, *t2;
char **wp;
{
	REGISTER struct op *t;

	DBGPRINTF7(("BLOCK: enter, type=%d (%s)\n", type, T_CMD_NAMES[type]));

	t = newtp();
	t->type = type;
	t->left = t1;
	t->right = t2;
	t->words = wp;

	DBGPRINTF7(("BLOCK: inserted 0x%x between 0x%x and 0x%x\n", t, t1,
				t2));

	return (t);
}

/* See if given string is a shell multiline (FOR, IF, etc) */
static int rlookup(n)
REGISTER char *n;
{
	REGISTER struct res *rp;

	DBGPRINTF7(("RLOOKUP: enter, n is %s\n", n));

	for (rp = restab; rp->r_name; rp++)
		if (strcmp(rp->r_name, n) == 0) {
			DBGPRINTF7(("RLOOKUP: match, returning %d\n", rp->r_val));
			return (rp->r_val);	/* Return numeric code for shell multiline */
		}

	DBGPRINTF7(("RLOOKUP: NO match, returning 0\n"));
	return (0);					/* Not a shell multiline */
}

static struct op *newtp()
{
	REGISTER struct op *t;

	t = (struct op *) tree(sizeof(*t));
	t->type = 0;
	t->words = NULL;
	t->ioact = NULL;
	t->left = NULL;
	t->right = NULL;
	t->str = NULL;

	DBGPRINTF3(("NEWTP: allocated 0x%x\n", t));

	return (t);
}

static struct op *namelist(t)
REGISTER struct op *t;
{

	DBGPRINTF7(("NAMELIST: enter, t=0x%x, type %s, iolist=0x%x\n", t,
				T_CMD_NAMES[t->type], iolist));

	if (iolist) {
		iolist = addword((char *) NULL, iolist);
		t->ioact = copyio();
	} else
		t->ioact = NULL;

	if (t->type != TCOM) {
		if (t->type != TPAREN && t->ioact != NULL) {
			t = block(TPAREN, t, NOBLOCK, NOWORDS);
			t->ioact = t->left->ioact;
			t->left->ioact = NULL;
		}
		return (t);
	}

	word(NOWORD);
	t->words = copyw();


	return (t);
}

static char **copyw()
{
	REGISTER char **wd;

	wd = getwords(wdlist);
	wdlist = 0;
	return (wd);
}

static void word(cp)
char *cp;
{
	wdlist = addword(cp, wdlist);
}

static struct ioword **copyio()
{
	REGISTER struct ioword **iop;

	iop = (struct ioword **) getwords(iolist);
	iolist = 0;
	return (iop);
}

static struct ioword *io(u, f, cp)
int u;
int f;
char *cp;
{
	REGISTER struct ioword *iop;

	iop = (struct ioword *) tree(sizeof(*iop));
	iop->io_unit = u;
	iop->io_flag = f;
	iop->io_name = cp;
	iolist = addword((char *) iop, iolist);
	return (iop);
}

static void zzerr()
{
	yyerror("syntax error");
}

static void yyerror(s)
char *s;
{
	yynerrs++;
	if (interactive && e.iop <= iostack) {
		multiline = 0;
		while (eofc() == 0 && yylex(0) != '\n');
	}
	err(s);
	fail();
}

static int yylex(cf)
int cf;
{
	REGISTER int c, c1;
	int atstart;

	if ((c = peeksym) > 0) {
		peeksym = 0;
		if (c == '\n')
			startl = 1;
		return (c);
	}


	nlseen = 0;
	atstart = startl;
	startl = 0;
	yylval.i = 0;
	e.linep = line;

/* MALAMO */
	line[LINELIM - 1] = '\0';

  loop:
	while ((c = my_getc(0)) == ' ' || c == '\t')	/* Skip whitespace */
		;

	switch (c) {
	default:
		if (any(c, "0123456789")) {
			unget(c1 = my_getc(0));
			if (c1 == '<' || c1 == '>') {
				iounit = c - '0';
				goto loop;
			}
			*e.linep++ = c;
			c = c1;
		}
		break;

	case '#':					/* Comment, skip to next newline or End-of-string */
		while ((c = my_getc(0)) != 0 && c != '\n');
		unget(c);
		goto loop;

	case 0:
		DBGPRINTF5(("YYLEX: return 0, c=%d\n", c));
		return (c);

	case '$':
		DBGPRINTF9(("YYLEX: found $\n"));
		*e.linep++ = c;
		if ((c = my_getc(0)) == '{') {
			if ((c = collect(c, '}')) != '\0')
				return (c);
			goto pack;
		}
		break;

	case '`':
	case '\'':
	case '"':
		if ((c = collect(c, c)) != '\0')
			return (c);
		goto pack;

	case '|':
	case '&':
	case ';':
		startl = 1;
		/* If more chars process them, else return NULL char */
		if ((c1 = dual(c)) != '\0')
			return (c1);
		else
			return (c);

	case '^':
		startl = 1;
		return ('|');
	case '>':
	case '<':
		diag(c);
		return (c);

	case '\n':
		nlseen++;
		gethere();
		startl = 1;
		if (multiline || cf & CONTIN) {
			if (interactive && e.iop <= iostack) {
#ifdef CONFIG_FEATURE_COMMAND_EDITING
				current_prompt = cprompt->value;
#else
				prs(cprompt->value);
#endif
			}
			if (cf & CONTIN)
				goto loop;
		}
		return (c);

	case '(':
	case ')':
		startl = 1;
		return (c);
	}

	unget(c);

  pack:
	while ((c = my_getc(0)) != 0 && !any(c, "`$ '\"\t;&<>()|^\n")) {
		if (e.linep >= elinep)
			err("word too long");
		else
			*e.linep++ = c;
	};

	unget(c);

	if (any(c, "\"'`$"))
		goto loop;

	*e.linep++ = '\0';

	if (atstart && (c = rlookup(line)) != 0) {
		startl = 1;
		return (c);
	}

	yylval.cp = strsave(line, areanum);
	return (WORD);
}


static int collect(c, c1)
REGISTER int c, c1;
{
	char s[2];

	DBGPRINTF8(("COLLECT: enter, c=%d, c1=%d\n", c, c1));

	*e.linep++ = c;
	while ((c = my_getc(c1)) != c1) {
		if (c == 0) {
			unget(c);
			s[0] = c1;
			s[1] = 0;
			prs("no closing ");
			yyerror(s);
			return (YYERRCODE);
		}
		if (interactive && c == '\n' && e.iop <= iostack) {
#ifdef CONFIG_FEATURE_COMMAND_EDITING
			current_prompt = cprompt->value;
#else
			prs(cprompt->value);
#endif
		}
		*e.linep++ = c;
	}

	*e.linep++ = c;

	DBGPRINTF8(("COLLECT: return 0, line is %s\n", line));

	return (0);
}

/* "multiline commands" helper func */
/* see if next 2 chars form a shell multiline */
static int dual(c)
REGISTER int c;
{
	char s[3];
	REGISTER char *cp = s;

	DBGPRINTF8(("DUAL: enter, c=%d\n", c));

	*cp++ = c;					/* c is the given "peek" char */
	*cp++ = my_getc(0);			/* get next char of input */
	*cp = 0;					/* add EOS marker */

	c = rlookup(s);				/* see if 2 chars form a shell multiline */
	if (c == 0)
		unget(*--cp);			/* String is not a shell multiline, put peek char back */

	return (c);					/* String is multiline, return numeric multiline (restab) code */
}

static void diag(ec)
REGISTER int ec;
{
	REGISTER int c;

	DBGPRINTF8(("DIAG: enter, ec=%d\n", ec));

	c = my_getc(0);
	if (c == '>' || c == '<') {
		if (c != ec)
			zzerr();
		yylval.i = ec == '>' ? IOWRITE | IOCAT : IOHERE;
		c = my_getc(0);
	} else
		yylval.i = ec == '>' ? IOWRITE : IOREAD;
	if (c != '&' || yylval.i == IOHERE)
		unget(c);
	else
		yylval.i |= IODUP;
}

static char *tree(size)
unsigned size;
{
	REGISTER char *t;

	if ((t = getcell(size)) == NULL) {
		DBGPRINTF2(("TREE: getcell(%d) failed!\n", size));
		prs("command line too complicated\n");
		fail();
		/* NOTREACHED */
	}
	return (t);
}

/* VARARGS1 */
/* ARGSUSED */

/* -------- exec.c -------- */

/*
 * execute tree
 */


static int execute(t, pin, pout, act)
REGISTER struct op *t;
int *pin, *pout;
int act;
{
	REGISTER struct op *t1;
	volatile int i, rv, a;
	char *cp, **wp, **wp2;
	struct var *vp;
	struct op *outtree_save;
	struct brkcon bc;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &wp;
#endif

	if (t == NULL) {
		DBGPRINTF4(("EXECUTE: enter, t==null, returning.\n"));
		return (0);
	}

	DBGPRINTF(("EXECUTE: t=0x%x, t->type=%d (%s), t->words is %s\n", t,
			   t->type, T_CMD_NAMES[t->type],
			   ((t->words == NULL) ? "NULL" : t->words[0])));

	rv = 0;
	a = areanum++;
	wp = (wp2 = t->words) != NULL
		? eval(wp2, t->type == TCOM ? DOALL : DOALL & ~DOKEY)
		: NULL;

/* Hard to know how many words there are, be careful of garbage pointer values */
/* They are likely to cause "PCI bus fault" errors */
#if 0
	DBGPRINTF(("EXECUTE: t->left=0x%x, t->right=0x%x, t->words[1] is %s\n",
			   t->left, t->right,
			   ((t->words[1] == NULL) ? "NULL" : t->words[1])));
	DBGPRINTF7(("EXECUTE: t->words[2] is %s, t->words[3] is %s\n",
				((t->words[2] == NULL) ? "NULL" : t->words[2]),
				((t->words[3] == NULL) ? "NULL" : t->words[3])));
#endif


	switch (t->type) {
	case TDOT:
		DBGPRINTF3(("EXECUTE: TDOT\n"));

		outtree_save = outtree;

		newfile(evalstr(t->words[0], DOALL));

		t->left = dowholefile(TLIST, 0);
		t->right = NULL;

		outtree = outtree_save;

		if (t->left)
			rv = execute(t->left, pin, pout, 0);
		if (t->right)
			rv = execute(t->right, pin, pout, 0);
		break;

	case TPAREN:
		rv = execute(t->left, pin, pout, 0);
		break;

	case TCOM:
		{
			rv = forkexec(t, pin, pout, act, wp);
		}
		break;

	case TPIPE:
		{
			int pv[2];

			if ((rv = openpipe(pv)) < 0)
				break;
			pv[0] = remap(pv[0]);
			pv[1] = remap(pv[1]);
			(void) execute(t->left, pin, pv, 0);
			rv = execute(t->right, pv, pout, 0);
		}
		break;

	case TLIST:
		(void) execute(t->left, pin, pout, 0);
		rv = execute(t->right, pin, pout, 0);
		break;

	case TASYNC:
		{
			int hinteractive = interactive;

			DBGPRINTF7(("EXECUTE: TASYNC clause, calling vfork()...\n"));

			i = vfork();
			if (i != 0) {
				interactive = hinteractive;
				if (i != -1) {
					setval(lookup("!"), putn(i));
					if (pin != NULL)
						closepipe(pin);
					if (interactive) {
						prs(putn(i));
						prs("\n");
					}
				} else
					rv = -1;
				setstatus(rv);
			} else {
				signal(SIGINT, SIG_IGN);
				signal(SIGQUIT, SIG_IGN);
				if (interactive)
					signal(SIGTERM, SIG_DFL);
				interactive = 0;
				if (pin == NULL) {
					close(0);
					open("/dev/null", 0);
				}
				_exit(execute(t->left, pin, pout, FEXEC));
			}
		}
		break;

	case TOR:
	case TAND:
		rv = execute(t->left, pin, pout, 0);
		if ((t1 = t->right) != NULL && (rv == 0) == (t->type == TAND))
			rv = execute(t1, pin, pout, 0);
		break;

	case TFOR:
		if (wp == NULL) {
			wp = dolv + 1;
			if ((i = dolc) < 0)
				i = 0;
		} else {
			i = -1;
			while (*wp++ != NULL);
		}
		vp = lookup(t->str);
		while (setjmp(bc.brkpt))
			if (isbreak)
				goto broken;
		brkset(&bc);
		for (t1 = t->left; i-- && *wp != NULL;) {
			setval(vp, *wp++);
			rv = execute(t1, pin, pout, 0);
		}
		brklist = brklist->nextlev;
		break;

	case TWHILE:
	case TUNTIL:
		while (setjmp(bc.brkpt))
			if (isbreak)
				goto broken;
		brkset(&bc);
		t1 = t->left;
		while ((execute(t1, pin, pout, 0) == 0) == (t->type == TWHILE))
			rv = execute(t->right, pin, pout, 0);
		brklist = brklist->nextlev;
		break;

	case TIF:
	case TELIF:
		if (t->right != NULL) {
			rv = !execute(t->left, pin, pout, 0) ?
				execute(t->right->left, pin, pout, 0) :
				execute(t->right->right, pin, pout, 0);
		}
		break;

	case TCASE:
		if ((cp = evalstr(t->str, DOSUB | DOTRIM)) == 0)
			cp = "";

		DBGPRINTF7(("EXECUTE: TCASE, t->str is %s, cp is %s\n",
					((t->str == NULL) ? "NULL" : t->str),
					((cp == NULL) ? "NULL" : cp)));

		if ((t1 = findcase(t->left, cp)) != NULL) {
			DBGPRINTF7(("EXECUTE: TCASE, calling execute(t=0x%x, t1=0x%x)...\n", t, t1));
			rv = execute(t1, pin, pout, 0);
			DBGPRINTF7(("EXECUTE: TCASE, back from execute(t=0x%x, t1=0x%x)...\n", t, t1));
		}
		break;

	case TBRACE:
/*
		if (iopp = t->ioact)
			while (*iopp)
				if (iosetup(*iopp++, pin!=NULL, pout!=NULL)) {
					rv = -1;
					break;
				}
*/
		if (rv >= 0 && (t1 = t->left))
			rv = execute(t1, pin, pout, 0);
		break;

	};

  broken:
	t->words = wp2;
	isbreak = 0;
	freehere(areanum);
	freearea(areanum);
	areanum = a;
	if (interactive && intr) {
		closeall();
		fail();
	}

	if ((i = trapset) != 0) {
		trapset = 0;
		runtrap(i);
	}

	DBGPRINTF(("EXECUTE: returning from t=0x%x, rv=%d\n", t, rv));
	return (rv);
}

static int
forkexec(REGISTER struct op *t, int *pin, int *pout, int act, char **wp)
{
	pid_t newpid;
	int i, rv;
	int (*shcom) (struct op *) = NULL;
	REGISTER int f;
	char *cp = NULL;
	struct ioword **iopp;
	int resetsig;
	char **owp;
	int forked = 0;

	int *hpin = pin;
	int *hpout = pout;
	char *hwp;
	int hinteractive;
	int hintr;
	struct brkcon *hbrklist;
	int hexecflg;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &pin;
	(void) &pout;
	(void) &wp;
	(void) &shcom;
	(void) &cp;
	(void) &resetsig;
	(void) &owp;
#endif

	DBGPRINTF(("FORKEXEC: t=0x%x, pin 0x%x, pout 0x%x, act %d\n", t, pin,
			   pout, act));
	DBGPRINTF7(("FORKEXEC: t->words is %s\n",
				((t->words == NULL) ? "NULL" : t->words[0])));

/* Hard to know how many words there are, be careful of garbage pointer values */
/* They are likely to cause "PCI bus fault" errors */
#if 0
	DBGPRINTF7(("FORKEXEC: t->words is %s, t->words[1] is %s\n",
				((t->words == NULL) ? "NULL" : t->words[0]),
				((t->words == NULL) ? "NULL" : t->words[1])));
	DBGPRINTF7(("FORKEXEC: wp is %s, wp[1] is %s\n",
				((wp == NULL) ? "NULL" : wp[0]),
				((wp[1] == NULL) ? "NULL" : wp[1])));
	DBGPRINTF7(("FORKEXEC: wp2 is %s, wp[3] is %s\n",
				((wp[2] == NULL) ? "NULL" : wp[2]),
				((wp[3] == NULL) ? "NULL" : wp[3])));
#endif


	owp = wp;
	resetsig = 0;
	rv = -1;					/* system-detected error */
	if (t->type == TCOM) {
		while ((cp = *wp++) != NULL);
		cp = *wp;

		/* strip all initial assignments */
		/* not correct wrt PATH=yyy command  etc */
		if (flag['x']) {
			DBGPRINTF9(("FORKEXEC: echo'ing, cp=0x%x, wp=0x%x, owp=0x%x\n",
						cp, wp, owp));
			echo(cp ? wp : owp);
		}
#if 0
		DBGPRINTF9(("FORKEXEC: t->words is %s, t->words[1] is %s\n",
					((t->words == NULL) ? "NULL" : t->words[0]),
					((t->words == NULL) ? "NULL" : t->words[1])));
		DBGPRINTF9(("FORKEXEC: wp is %s, wp[1] is %s\n",
					((wp == NULL) ? "NULL" : wp[0]),
					((wp == NULL) ? "NULL" : wp[1])));
#endif

		if (cp == NULL && t->ioact == NULL) {
			while ((cp = *owp++) != NULL && assign(cp, COPYV));
			DBGPRINTF(("FORKEXEC: returning setstatus()\n"));
			return (setstatus(0));
		} else if (cp != NULL) {
			shcom = inbuilt(cp);
		}
	}

	t->words = wp;
	f = act;

#if 0
	DBGPRINTF3(("FORKEXEC: t->words is %s, t->words[1] is %s\n",
				((t->words == NULL) ? "NULL" : t->words[0]),
				((t->words == NULL) ? "NULL" : t->words[1])));
#endif
	DBGPRINTF(("FORKEXEC: shcom 0x%x, f&FEXEC 0x%x, owp 0x%x\n", shcom,
			   f & FEXEC, owp));

	if (shcom == NULL && (f & FEXEC) == 0) {
		/* Save values in case the child process alters them */
		hpin = pin;
		hpout = pout;
		hwp = *wp;
		hinteractive = interactive;
		hintr = intr;
		hbrklist = brklist;
		hexecflg = execflg;

		DBGPRINTF3(("FORKEXEC: calling vfork()...\n"));

		newpid = vfork();

		if (newpid == -1) {
			DBGPRINTF(("FORKEXEC: ERROR, unable to vfork()!\n"));
			return (-1);
		}


		if (newpid > 0) {		/* Parent */

			/* Restore values */
			pin = hpin;
			pout = hpout;
			*wp = hwp;
			interactive = hinteractive;
			intr = hintr;
			brklist = hbrklist;
			execflg = hexecflg;

/* moved up
			if (i == -1)
				return(rv);
*/

			if (pin != NULL)
				closepipe(pin);

			return (pout == NULL ? setstatus(waitfor(newpid, 0)) : 0);
		}

		/* Must be the child process, pid should be 0 */
		DBGPRINTF(("FORKEXEC: child process, shcom=0x%x\n", shcom));

		if (interactive) {
			signal(SIGINT, SIG_IGN);
			signal(SIGQUIT, SIG_IGN);
			resetsig = 1;
		}
		interactive = 0;
		intr = 0;
		forked = 1;
		brklist = 0;
		execflg = 0;
	}


	if (owp != NULL)
		while ((cp = *owp++) != NULL && assign(cp, COPYV))
			if (shcom == NULL)
				export(lookup(cp));

#ifdef COMPIPE
	if ((pin != NULL || pout != NULL) && shcom != NULL && shcom != doexec) {
		err("piping to/from shell builtins not yet done");
		if (forked)
			_exit(-1);
		return (-1);
	}
#endif

	if (pin != NULL) {
		dup2(pin[0], 0);
		closepipe(pin);
	}
	if (pout != NULL) {
		dup2(pout[1], 1);
		closepipe(pout);
	}

	if ((iopp = t->ioact) != NULL) {
		if (shcom != NULL && shcom != doexec) {
			prs(cp);
			err(": cannot redirect shell command");
			if (forked)
				_exit(-1);
			return (-1);
		}
		while (*iopp)
			if (iosetup(*iopp++, pin != NULL, pout != NULL)) {
				if (forked)
					_exit(rv);
				return (rv);
			}
	}

	if (shcom) {
		i = setstatus((*shcom) (t));
		if (forked)
			_exit(i);
		DBGPRINTF(("FORKEXEC: returning i=%d\n", i));
		return (i);
	}

	/* should use FIOCEXCL */
	for (i = FDBASE; i < NOFILE; i++)
		close(i);
	if (resetsig) {
		signal(SIGINT, SIG_DFL);
		signal(SIGQUIT, SIG_DFL);
	}

	if (t->type == TPAREN)
		_exit(execute(t->left, NOPIPE, NOPIPE, FEXEC));
	if (wp[0] == NULL)
		_exit(0);

	cp = rexecve(wp[0], wp, makenv(0, NULL));
	prs(wp[0]);
	prs(": ");
	err(cp);
	if (!execflg)
		trap[0] = NULL;

	DBGPRINTF(("FORKEXEC: calling leave(), pid=%d\n", newpid));

	leave();
	/* NOTREACHED */
	_exit(1);
}

/*
 * 0< 1> are ignored as required
 * within pipelines.
 */
static int iosetup(iop, pipein, pipeout)
REGISTER struct ioword *iop;
int pipein, pipeout;
{
	REGISTER int u = -1;
	char *cp = NULL, *msg;

	DBGPRINTF(("IOSETUP: iop 0x%x, pipein 0x%x, pipeout 0x%x\n", iop,
			   pipein, pipeout));

	if (iop->io_unit == IODEFAULT)	/* take default */
		iop->io_unit = iop->io_flag & (IOREAD | IOHERE) ? 0 : 1;

	if (pipein && iop->io_unit == 0)
		return (0);

	if (pipeout && iop->io_unit == 1)
		return (0);

	msg = iop->io_flag & (IOREAD | IOHERE) ? "open" : "create";
	if ((iop->io_flag & IOHERE) == 0) {
		cp = iop->io_name;
		if ((cp = evalstr(cp, DOSUB | DOTRIM)) == NULL)
			return (1);
	}

	if (iop->io_flag & IODUP) {
		if (cp[1] || (!isdigit(*cp) && *cp != '-')) {
			prs(cp);
			err(": illegal >& argument");
			return (1);
		}
		if (*cp == '-')
			iop->io_flag = IOCLOSE;
		iop->io_flag &= ~(IOREAD | IOWRITE);
	}
	switch (iop->io_flag) {
	case IOREAD:
		u = open(cp, 0);
		break;

	case IOHERE:
	case IOHERE | IOXHERE:
		u = herein(iop->io_name, iop->io_flag & IOXHERE);
		cp = "here file";
		break;

	case IOWRITE | IOCAT:
		if ((u = open(cp, 1)) >= 0) {
			lseek(u, (long) 0, 2);
			break;
		}
	case IOWRITE:
		u = creat(cp, 0666);
		break;

	case IODUP:
		u = dup2(*cp - '0', iop->io_unit);
		break;

	case IOCLOSE:
		close(iop->io_unit);
		return (0);
	}
	if (u < 0) {
		prs(cp);
		prs(": cannot ");
		warn(msg);
		return (1);
	} else {
		if (u != iop->io_unit) {
			dup2(u, iop->io_unit);
			close(u);
		}
	}
	return (0);
}

static void echo(wp)
REGISTER char **wp;
{
	REGISTER int i;

	prs("+");
	for (i = 0; wp[i]; i++) {
		if (i)
			prs(" ");
		prs(wp[i]);
	}
	prs("\n");
}

static struct op **find1case(t, w)
struct op *t;
char *w;
{
	REGISTER struct op *t1;
	struct op **tp;
	REGISTER char **wp, *cp;


	if (t == NULL) {
		DBGPRINTF3(("FIND1CASE: enter, t==NULL, returning.\n"));
		return ((struct op **) NULL);
	}

	DBGPRINTF3(("FIND1CASE: enter, t->type=%d (%s)\n", t->type,
				T_CMD_NAMES[t->type]));

	if (t->type == TLIST) {
		if ((tp = find1case(t->left, w)) != NULL) {
			DBGPRINTF3(("FIND1CASE: found one to the left, returning tp=0x%x\n", tp));
			return (tp);
		}
		t1 = t->right;			/* TPAT */
	} else
		t1 = t;

	for (wp = t1->words; *wp;)
		if ((cp = evalstr(*wp++, DOSUB)) && gmatch(w, cp)) {
			DBGPRINTF3(("FIND1CASE: returning &t1->left= 0x%x.\n",
						&t1->left));
			return (&t1->left);
		}

	DBGPRINTF(("FIND1CASE: returning NULL\n"));
	return ((struct op **) NULL);
}

static struct op *findcase(t, w)
struct op *t;
char *w;
{
	REGISTER struct op **tp;

	return ((tp = find1case(t, w)) != NULL ? *tp : (struct op *) NULL);
}

/*
 * Enter a new loop level (marked for break/continue).
 */
static void brkset(bc)
struct brkcon *bc;
{
	bc->nextlev = brklist;
	brklist = bc;
}

/*
 * Wait for the last process created.
 * Print a message for each process found
 * that was killed by a signal.
 * Ignore interrupt signals while waiting
 * unless `canintr' is true.
 */
static int waitfor(lastpid, canintr)
REGISTER int lastpid;
int canintr;
{
	REGISTER int pid, rv;
	int s;
	int oheedint = heedint;

	heedint = 0;
	rv = 0;
	do {
		pid = wait(&s);
		if (pid == -1) {
			if (errno != EINTR || canintr)
				break;
		} else {
			if ((rv = WAITSIG(s)) != 0) {
				if (rv < NSIGNAL) {
					if (signame[rv] != NULL) {
						if (pid != lastpid) {
							prn(pid);
							prs(": ");
						}
						prs(signame[rv]);
					}
				} else {
					if (pid != lastpid) {
						prn(pid);
						prs(": ");
					}
					prs("Signal ");
					prn(rv);
					prs(" ");
				}
				if (WAITCORE(s))
					prs(" - core dumped");
				if (rv >= NSIGNAL || signame[rv])
					prs("\n");
				rv = -1;
			} else
				rv = WAITVAL(s);
		}
	} while (pid != lastpid);
	heedint = oheedint;
	if (intr) {
		if (interactive) {
			if (canintr)
				intr = 0;
		} else {
			if (exstat == 0)
				exstat = rv;
			onintr(0);
		}
	}
	return (rv);
}

static int setstatus(s)
REGISTER int s;
{
	exstat = s;
	setval(lookup("?"), putn(s));
	return (s);
}

/*
 * PATH-searching interface to execve.
 * If getenv("PATH") were kept up-to-date,
 * execvp might be used.
 */
static char *rexecve(c, v, envp)
char *c, **v, **envp;
{
	REGISTER int i;
	REGISTER char *sp, *tp;
	int eacces = 0, asis = 0;

#ifdef CONFIG_FEATURE_SH_STANDALONE_SHELL
	char *name = c;

	optind = 1;
	if (find_applet_by_name(name)) {
		/* We have to exec here since we vforked.  Running
		 * run_applet_by_name() won't work and bad things
		 * will happen. */
		execve("/proc/self/exe", v, envp);
		execve("busybox", v, envp);
	}
#endif

	DBGPRINTF(("REXECVE: c=0x%x, v=0x%x, envp=0x%x\n", c, v, envp));

	sp = any('/', c) ? "" : path->value;
	asis = *sp == '\0';
	while (asis || *sp != '\0') {
		asis = 0;
		tp = e.linep;
		for (; *sp != '\0'; tp++)
			if ((*tp = *sp++) == ':') {
				asis = *sp == '\0';
				break;
			}
		if (tp != e.linep)
			*tp++ = '/';
		for (i = 0; (*tp++ = c[i++]) != '\0';);

		DBGPRINTF3(("REXECVE: e.linep is %s\n", e.linep));

		execve(e.linep, v, envp);

		switch (errno) {
		case ENOEXEC:
			*v = e.linep;
			tp = *--v;
			*v = e.linep;
			execve(DEFAULT_SHELL, v, envp);
			*v = tp;
			return ("no Shell");

		case ENOMEM:
			return ((char *) bb_msg_memory_exhausted);

		case E2BIG:
			return ("argument list too long");

		case EACCES:
			eacces++;
			break;
		}
	}
	return (errno == ENOENT ? "not found" : "cannot execute");
}

/*
 * Run the command produced by generator `f'
 * applied to stream `arg'.
 */
static int run(struct ioarg *argp, int (*f) (struct ioarg *))
{
	struct op *otree;
	struct wdblock *swdlist;
	struct wdblock *siolist;
	jmp_buf ev, rt;
	xint *ofail;
	int rv;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &rv;
#endif

	DBGPRINTF(("RUN: enter, areanum %d, outtree 0x%x, failpt 0x%x\n",
			   areanum, outtree, failpt));

	areanum++;
	swdlist = wdlist;
	siolist = iolist;
	otree = outtree;
	ofail = failpt;
	rv = -1;

	if (newenv(setjmp(errpt = ev)) == 0) {
		wdlist = 0;
		iolist = 0;
		pushio(argp, f);
		e.iobase = e.iop;
		yynerrs = 0;
		if (setjmp(failpt = rt) == 0 && yyparse() == 0)
			rv = execute(outtree, NOPIPE, NOPIPE, 0);
		quitenv();
	} else {
		DBGPRINTF(("RUN: error from newenv()!\n"));
	}

	wdlist = swdlist;
	iolist = siolist;
	failpt = ofail;
	outtree = otree;
	freearea(areanum--);

	return (rv);
}

/* -------- do.c -------- */

/*
 * built-in commands: doX
 */

static int dohelp(struct op *t)
{
	int col;
	const struct builtincmd *x;

	printf("\nBuilt-in commands:\n");
	printf("-------------------\n");

	for (col = 0, x = builtincmds; x->builtinfunc != NULL; x++) {
		if (!x->name)
			continue;
		col += printf("%s%s", ((col == 0) ? "\t" : " "), x->name);
		if (col > 60) {
			printf("\n");
			col = 0;
		}
	}
#ifdef CONFIG_FEATURE_SH_STANDALONE_SHELL
	{
		int i;
		const struct BB_applet *applet;
		extern const struct BB_applet applets[];
		extern const size_t NUM_APPLETS;

		for (i = 0, applet = applets; i < NUM_APPLETS; applet++, i++) {
			if (!applet->name)
				continue;

			col += printf("%s%s", ((col == 0) ? "\t" : " "), applet->name);
			if (col > 60) {
				printf("\n");
				col = 0;
			}
		}
	}
#endif
	printf("\n\n");
	return EXIT_SUCCESS;
}



static int dolabel(struct op *t)
{
	return (0);
}

static int dochdir(t)
REGISTER struct op *t;
{
	REGISTER char *cp, *er;

	if ((cp = t->words[1]) == NULL && (cp = homedir->value) == NULL)
		er = ": no home directory";
	else if (chdir(cp) < 0)
		er = ": bad directory";
	else
		return (0);
	prs(cp != NULL ? cp : "cd");
	err(er);
	return (1);
}

static int doshift(t)
REGISTER struct op *t;
{
	REGISTER int n;

	n = t->words[1] ? getn(t->words[1]) : 1;
	if (dolc < n) {
		err("nothing to shift");
		return (1);
	}
	dolv[n] = dolv[0];
	dolv += n;
	dolc -= n;
	setval(lookup("#"), putn(dolc));
	return (0);
}

/*
 * execute login and newgrp directly
 */
static int dologin(t)
struct op *t;
{
	REGISTER char *cp;

	if (interactive) {
		signal(SIGINT, SIG_DFL);
		signal(SIGQUIT, SIG_DFL);
	}
	cp = rexecve(t->words[0], t->words, makenv(0, NULL));
	prs(t->words[0]);
	prs(": ");
	err(cp);
	return (1);
}

static int doumask(t)
REGISTER struct op *t;
{
	REGISTER int i, n;
	REGISTER char *cp;

	if ((cp = t->words[1]) == NULL) {
		i = umask(0);
		umask(i);
		for (n = 3 * 4; (n -= 3) >= 0;)
			putc('0' + ((i >> n) & 07), stderr);
		putc('\n', stderr);
	} else {
		for (n = 0; *cp >= '0' && *cp <= '9'; cp++)
			n = n * 8 + (*cp - '0');
		umask(n);
	}
	return (0);
}

static int doexec(t)
REGISTER struct op *t;
{
	REGISTER int i;
	jmp_buf ex;
	xint *ofail;

	t->ioact = NULL;
	for (i = 0; (t->words[i] = t->words[i + 1]) != NULL; i++);
	if (i == 0)
		return (1);
	execflg = 1;
	ofail = failpt;
	if (setjmp(failpt = ex) == 0)
		execute(t, NOPIPE, NOPIPE, FEXEC);
	failpt = ofail;
	execflg = 0;
	return (1);
}

static int dodot(t)
struct op *t;
{
	REGISTER int i;
	REGISTER char *sp, *tp;
	char *cp;
	int maltmp;

	DBGPRINTF(("DODOT: enter, t=0x%x, tleft 0x%x, tright 0x%x, e.linep is %s\n", t, t->left, t->right, ((e.linep == NULL) ? "NULL" : e.linep)));

	if ((cp = t->words[1]) == NULL) {
		DBGPRINTF(("DODOT: bad args, ret 0\n"));
		return (0);
	} else {
		DBGPRINTF(("DODOT: cp is %s\n", cp));
	}

	sp = any('/', cp) ? ":" : path->value;

	DBGPRINTF(("DODOT: sp is %s,  e.linep is %s\n",
			   ((sp == NULL) ? "NULL" : sp),
			   ((e.linep == NULL) ? "NULL" : e.linep)));

	while (*sp) {
		tp = e.linep;
		while (*sp && (*tp = *sp++) != ':')
			tp++;
		if (tp != e.linep)
			*tp++ = '/';

		for (i = 0; (*tp++ = cp[i++]) != '\0';);

		/* Original code */
		if ((i = open(e.linep, 0)) >= 0) {
			exstat = 0;
			maltmp = remap(i);
			DBGPRINTF(("DODOT: remap=%d, exstat=%d, e.iofd %d, i %d, e.linep is %s\n", maltmp, exstat, e.iofd, i, e.linep));

			next(maltmp);		/* Basically a PUSHIO */

			DBGPRINTF(("DODOT: returning exstat=%d\n", exstat));

			return (exstat);
		}

	}							/* While */

	prs(cp);
	err(": not found");

	return (-1);
}

static int dowait(t)
struct op *t;
{
	REGISTER int i;
	REGISTER char *cp;

	if ((cp = t->words[1]) != NULL) {
		i = getn(cp);
		if (i == 0)
			return (0);
	} else
		i = -1;
	setstatus(waitfor(i, 1));
	return (0);
}

static int doread(t)
struct op *t;
{
	REGISTER char *cp, **wp;
	REGISTER int nb = 0;
	REGISTER int nl = 0;

	if (t->words[1] == NULL) {
		err("Usage: read name ...");
		return (1);
	}
	for (wp = t->words + 1; *wp; wp++) {
		for (cp = e.linep; !nl && cp < elinep - 1; cp++)
			if ((nb = read(0, cp, sizeof(*cp))) != sizeof(*cp) ||
				(nl = (*cp == '\n')) || (wp[1] && any(*cp, ifs->value)))
				break;
		*cp = 0;
		if (nb <= 0)
			break;
		setval(lookup(*wp), e.linep);
	}
	return (nb <= 0);
}

static int doeval(t)
REGISTER struct op *t;
{
	return (RUN(awordlist, t->words + 1, wdchar));
}

static int dotrap(t)
REGISTER struct op *t;
{
	REGISTER int n, i;
	REGISTER int resetsig;

	if (t->words[1] == NULL) {
		for (i = 0; i <= _NSIG; i++)
			if (trap[i]) {
				prn(i);
				prs(": ");
				prs(trap[i]);
				prs("\n");
			}
		return (0);
	}
	resetsig = isdigit(*t->words[1]);
	for (i = resetsig ? 1 : 2; t->words[i] != NULL; ++i) {
		n = getsig(t->words[i]);
		freecell(trap[n]);
		trap[n] = 0;
		if (!resetsig) {
			if (*t->words[1] != '\0') {
				trap[n] = strsave(t->words[1], 0);
				setsig(n, sig);
			} else
				setsig(n, SIG_IGN);
		} else {
			if (interactive)
				if (n == SIGINT)
					setsig(n, onintr);
				else
					setsig(n, n == SIGQUIT ? SIG_IGN : SIG_DFL);
			else
				setsig(n, SIG_DFL);
		}
	}
	return (0);
}

static int getsig(s)
char *s;
{
	REGISTER int n;

	if ((n = getn(s)) < 0 || n > _NSIG) {
		err("trap: bad signal number");
		n = 0;
	}
	return (n);
}

static void setsig(REGISTER int n, sighandler_t f)
{
	if (n == 0)
		return;
	if (signal(n, SIG_IGN) != SIG_IGN || ourtrap[n]) {
		ourtrap[n] = 1;
		signal(n, f);
	}
}

static int getn(as)
char *as;
{
	REGISTER char *s;
	REGISTER int n, m;

	s = as;
	m = 1;
	if (*s == '-') {
		m = -1;
		s++;
	}
	for (n = 0; isdigit(*s); s++)
		n = (n * 10) + (*s - '0');
	if (*s) {
		prs(as);
		err(": bad number");
	}
	return (n * m);
}

static int dobreak(t)
struct op *t;
{
	return (brkcontin(t->words[1], 1));
}

static int docontinue(t)
struct op *t;
{
	return (brkcontin(t->words[1], 0));
}

static int brkcontin(cp, val)
REGISTER char *cp;
int val;
{
	REGISTER struct brkcon *bc;
	REGISTER int nl;

	nl = cp == NULL ? 1 : getn(cp);
	if (nl <= 0)
		nl = 999;
	do {
		if ((bc = brklist) == NULL)
			break;
		brklist = bc->nextlev;
	} while (--nl);
	if (nl) {
		err("bad break/continue level");
		return (1);
	}
	isbreak = val;
	longjmp(bc->brkpt, 1);
	/* NOTREACHED */
}

static int doexit(t)
struct op *t;
{
	REGISTER char *cp;

	execflg = 0;
	if ((cp = t->words[1]) != NULL)
		setstatus(getn(cp));

	DBGPRINTF(("DOEXIT: calling leave(), t=0x%x\n", t));

	leave();
	/* NOTREACHED */
	return (0);
}

static int doexport(t)
struct op *t;
{
	rdexp(t->words + 1, export, EXPORT);
	return (0);
}

static int doreadonly(t)
struct op *t;
{
	rdexp(t->words + 1, ronly, RONLY);
	return (0);
}

static void rdexp(char **wp, void (*f) (struct var *), int key)
{
	DBGPRINTF6(("RDEXP: enter, wp=0x%x, func=0x%x, key=%d\n", wp, f, key));
	DBGPRINTF6(("RDEXP: *wp=%s\n", *wp));

	if (*wp != NULL) {
		for (; *wp != NULL; wp++) {
			if (isassign(*wp)) {
				char *cp;

				assign(*wp, COPYV);
				for (cp = *wp; *cp != '='; cp++);
				*cp = '\0';
			}
			if (checkname(*wp))
				(*f) (lookup(*wp));
			else
				badid(*wp);
		}
	} else
		putvlist(key, 1);
}

static void badid(s)
REGISTER char *s;
{
	prs(s);
	err(": bad identifier");
}

static int doset(t)
REGISTER struct op *t;
{
	REGISTER struct var *vp;
	REGISTER char *cp;
	REGISTER int n;

	if ((cp = t->words[1]) == NULL) {
		for (vp = vlist; vp; vp = vp->next)
			varput(vp->name, 1);
		return (0);
	}
	if (*cp == '-') {
		/* bad: t->words++; */
		for (n = 0; (t->words[n] = t->words[n + 1]) != NULL; n++);
		if (*++cp == 0)
			flag['x'] = flag['v'] = 0;
		else
			for (; *cp; cp++)
				switch (*cp) {
				case 'e':
					if (!interactive)
						flag['e']++;
					break;

				default:
					if (*cp >= 'a' && *cp <= 'z')
						flag[(int) *cp]++;
					break;
				}
		setdash();
	}
	if (t->words[1]) {
		t->words[0] = dolv[0];
		for (n = 1; t->words[n]; n++)
			setarea((char *) t->words[n], 0);
		dolc = n - 1;
		dolv = t->words;
		setval(lookup("#"), putn(dolc));
		setarea((char *) (dolv - 1), 0);
	}
	return (0);
}

static void varput(s, out)
REGISTER char *s;
int out;
{
	if (isalnum(*s) || *s == '_') {
		write(out, s, strlen(s));
		write(out, "\n", 1);
	}
}


/*
 * Copyright (c) 1999 Herbert Xu <herbert@debian.org>
 * This file contains code for the times builtin.
 */
static int dotimes(struct op *t)
{
	struct tms buf;
	long int clk_tck = sysconf(_SC_CLK_TCK);

	times(&buf);
	printf("%dm%fs %dm%fs\n%dm%fs %dm%fs\n",
		   (int) (buf.tms_utime / clk_tck / 60),
		   ((double) buf.tms_utime) / clk_tck,
		   (int) (buf.tms_stime / clk_tck / 60),
		   ((double) buf.tms_stime) / clk_tck,
		   (int) (buf.tms_cutime / clk_tck / 60),
		   ((double) buf.tms_cutime) / clk_tck,
		   (int) (buf.tms_cstime / clk_tck / 60),
		   ((double) buf.tms_cstime) / clk_tck);
	return 0;
}


static int (*inbuilt(char *s)) (struct op *) {
	const struct builtincmd *bp;

	for (bp = builtincmds; bp->name != NULL; bp++)
		if (strcmp(bp->name, s) == 0)
			return (bp->builtinfunc);

	return (NULL);
}

/* -------- eval.c -------- */

/*
 * ${}
 * `command`
 * blank interpretation
 * quoting
 * glob
 */

static char **eval(char **ap, int f)
{
	struct wdblock *wb;
	char **wp;
	char **wf;
	jmp_buf ev;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &wp;
	(void) &ap;
#endif

	DBGPRINTF4(("EVAL: enter, f=%d\n", f));

	wp = NULL;
	wb = NULL;
	wf = NULL;
	if (newenv(setjmp(errpt = ev)) == 0) {
		while (*ap && isassign(*ap))
			expand(*ap++, &wb, f & ~DOGLOB);
		if (flag['k']) {
			for (wf = ap; *wf; wf++) {
				if (isassign(*wf))
					expand(*wf, &wb, f & ~DOGLOB);
			}
		}
		for (wb = addword((char *) 0, wb); *ap; ap++) {
			if (!flag['k'] || !isassign(*ap))
				expand(*ap, &wb, f & ~DOKEY);
		}
		wb = addword((char *) 0, wb);
		wp = getwords(wb);
		quitenv();
	} else
		gflg = 1;

	return (gflg ? (char **) NULL : wp);
}

/*
 * Make the exported environment from the exported
 * names in the dictionary. Keyword assignments
 * will already have been done.
 */
static char **makenv(int all, struct wdblock *wb)
{
	REGISTER struct var *vp;

	DBGPRINTF5(("MAKENV: enter, all=%d\n", all));

	for (vp = vlist; vp; vp = vp->next)
		if (all || vp->status & EXPORT)
			wb = addword(vp->name, wb);
	wb = addword((char *) 0, wb);
	return (getwords(wb));
}

static char *evalstr(cp, f)
REGISTER char *cp;
int f;
{
	struct wdblock *wb;

	DBGPRINTF6(("EVALSTR: enter, cp=0x%x, f=%d\n", cp, f));

	wb = NULL;
	if (expand(cp, &wb, f)) {
		if (wb == NULL || wb->w_nword == 0
			|| (cp = wb->w_words[0]) == NULL)
			cp = "";
		DELETE(wb);
	} else
		cp = NULL;
	return (cp);
}

static int expand(char *cp, REGISTER struct wdblock **wbp, int f)
{
	jmp_buf ev;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &cp;
#endif

	DBGPRINTF3(("EXPAND: enter, f=%d\n", f));

	gflg = 0;

	if (cp == NULL)
		return (0);

	if (!anys("$`'\"", cp) &&
		!anys(ifs->value, cp) && ((f & DOGLOB) == 0 || !anys("[*?", cp))) {
		cp = strsave(cp, areanum);
		if (f & DOTRIM)
			unquote(cp);
		*wbp = addword(cp, *wbp);
		return (1);
	}
	if (newenv(setjmp(errpt = ev)) == 0) {
		PUSHIO(aword, cp, strchar);
		e.iobase = e.iop;
		while ((cp = blank(f)) && gflg == 0) {
			e.linep = cp;
			cp = strsave(cp, areanum);
			if ((f & DOGLOB) == 0) {
				if (f & DOTRIM)
					unquote(cp);
				*wbp = addword(cp, *wbp);
			} else
				*wbp = glob(cp, *wbp);
		}
		quitenv();
	} else
		gflg = 1;
	return (gflg == 0);
}

/*
 * Blank interpretation and quoting
 */
static char *blank(f)
int f;
{
	REGISTER int c, c1;
	REGISTER char *sp;
	int scanequals, foundequals;

	DBGPRINTF3(("BLANK: enter, f=%d\n", f));

	sp = e.linep;
	scanequals = f & DOKEY;
	foundequals = 0;

  loop:
	switch (c = subgetc('"', foundequals)) {
	case 0:
		if (sp == e.linep)
			return (0);
		*e.linep++ = 0;
		return (sp);

	default:
		if (f & DOBLANK && any(c, ifs->value))
			goto loop;
		break;

	case '"':
	case '\'':
		scanequals = 0;
		if (INSUB())
			break;
		for (c1 = c; (c = subgetc(c1, 1)) != c1;) {
			if (c == 0)
				break;
			if (c == '\'' || !any(c, "$`\""))
				c |= QUOTE;
			*e.linep++ = c;
		}
		c = 0;
	}
	unget(c);
	if (!isalpha(c) && c != '_')
		scanequals = 0;
	for (;;) {
		c = subgetc('"', foundequals);
		if (c == 0 ||
			f & (DOBLANK && any(c, ifs->value)) ||
			(!INSUB() && any(c, "\"'"))) {
			scanequals = 0;
			unget(c);
			if (any(c, "\"'"))
				goto loop;
			break;
		}
		if (scanequals) {
			if (c == '=') {
				foundequals = 1;
				scanequals = 0;
			} else if (!isalnum(c) && c != '_')
				scanequals = 0;
		}
		*e.linep++ = c;
	}
	*e.linep++ = 0;
	return (sp);
}

/*
 * Get characters, substituting for ` and $
 */
static int subgetc(ec, quoted)
REGISTER char ec;
int quoted;
{
	REGISTER char c;

	DBGPRINTF3(("SUBGETC: enter, quoted=%d\n", quoted));

  again:
	c = my_getc(ec);
	if (!INSUB() && ec != '\'') {
		if (c == '`') {
			if (grave(quoted) == 0)
				return (0);
			e.iop->task = XGRAVE;
			goto again;
		}
		if (c == '$' && (c = dollar(quoted)) == 0) {
			e.iop->task = XDOLL;
			goto again;
		}
	}
	return (c);
}

/*
 * Prepare to generate the string returned by ${} substitution.
 */
static int dollar(quoted)
int quoted;
{
	int otask;
	struct io *oiop;
	char *dolp;
	REGISTER char *s, c, *cp = NULL;
	struct var *vp;

	DBGPRINTF3(("DOLLAR: enter, quoted=%d\n", quoted));

	c = readc();
	s = e.linep;
	if (c != '{') {
		*e.linep++ = c;
		if (isalpha(c) || c == '_') {
			while ((c = readc()) != 0 && (isalnum(c) || c == '_'))
				if (e.linep < elinep)
					*e.linep++ = c;
			unget(c);
		}
		c = 0;
	} else {
		oiop = e.iop;
		otask = e.iop->task;

		e.iop->task = XOTHER;
		while ((c = subgetc('"', 0)) != 0 && c != '}' && c != '\n')
			if (e.linep < elinep)
				*e.linep++ = c;
		if (oiop == e.iop)
			e.iop->task = otask;
		if (c != '}') {
			err("unclosed ${");
			gflg++;
			return (c);
		}
	}
	if (e.linep >= elinep) {
		err("string in ${} too long");
		gflg++;
		e.linep -= 10;
	}
	*e.linep = 0;
	if (*s)
		for (cp = s + 1; *cp; cp++)
			if (any(*cp, "=-+?")) {
				c = *cp;
				*cp++ = 0;
				break;
			}
	if (s[1] == 0 && (*s == '*' || *s == '@')) {
		if (dolc > 1) {
			/* currently this does not distinguish $* and $@ */
			/* should check dollar */
			e.linep = s;
			PUSHIO(awordlist, dolv + 1, dolchar);
			return (0);
		} else {				/* trap the nasty ${=} */
			s[0] = '1';
			s[1] = 0;
		}
	}
	vp = lookup(s);
	if ((dolp = vp->value) == null) {
		switch (c) {
		case '=':
			if (isdigit(*s)) {
				err("cannot use ${...=...} with $n");
				gflg++;
				break;
			}
			setval(vp, cp);
			dolp = vp->value;
			break;

		case '-':
			dolp = strsave(cp, areanum);
			break;

		case '?':
			if (*cp == 0) {
				prs("missing value for ");
				err(s);
			} else
				err(cp);
			gflg++;
			break;
		}
	} else if (c == '+')
		dolp = strsave(cp, areanum);
	if (flag['u'] && dolp == null) {
		prs("unset variable: ");
		err(s);
		gflg++;
	}
	e.linep = s;
	PUSHIO(aword, dolp, quoted ? qstrchar : strchar);
	return (0);
}

/*
 * Run the command in `...` and read its output.
 */

static int grave(quoted)
int quoted;
{
	char *cp;
	REGISTER int i;
	int j;
	int pf[2];
	static char child_cmd[LINELIM];
	char *src;
	char *dest;
	int count;
	int ignore;
	int ignore_once;
	char *argument_list[4];
	struct wdblock *wb = NULL;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &cp;
#endif

	for (cp = e.iop->argp->aword; *cp != '`'; cp++)
		if (*cp == 0) {
			err("no closing `");
			return (0);
		}

	/* string copy with dollar expansion */
	src = e.iop->argp->aword;
	dest = child_cmd;
	count = 0;
	ignore = 0;
	ignore_once = 0;
	while ((*src != '`') && (count < LINELIM)) {
		if (*src == '\'')
			ignore = !ignore;
		if (*src == '\\')
			ignore_once = 1;
		if (*src == '$' && !ignore && !ignore_once) {
			struct var *vp;
			char var_name[LINELIM];
			char alt_value[LINELIM];
			int var_index = 0;
			int alt_index = 0;
			char operator = 0;
			int braces = 0;
			char *value;

			src++;
			if (*src == '{') {
				braces = 1;
				src++;
			}

			var_name[var_index++] = *src++;
			while (isalnum(*src))
				var_name[var_index++] = *src++;
			var_name[var_index] = 0;

			if (braces) {
				switch (*src) {
				case '}':
					break;
				case '-':
				case '=':
				case '+':
				case '?':
					operator = * src;
					break;
				default:
					err("unclosed ${\n");
					return (0);
				}
				if (operator) {
					src++;
					while (*src && (*src != '}')) {
						alt_value[alt_index++] = *src++;
					}
					alt_value[alt_index] = 0;
					if (*src != '}') {
						err("unclosed ${\n");
						return (0);
					}
				}
				src++;
			}

			if (isalpha(*var_name)) {
				/* let subshell handle it instead */

				char *namep = var_name;

				*dest++ = '$';
				if (braces)
					*dest++ = '{';
				while (*namep)
					*dest++ = *namep++;
				if (operator) {
					char *altp = alt_value;
					*dest++ = operator;
					while (*altp)
						*dest++ = *altp++;
				}
				if (braces)
					*dest++ = '}';

				wb = addword(lookup(var_name)->name, wb);
			} else {
				/* expand */

				vp = lookup(var_name);
				if (vp->value != null)
					value = (operator == '+') ?
						alt_value : vp->value;
				else if (operator == '?') {
					err(alt_value);
					return (0);
				} else if (alt_index && (operator != '+')) {
					value = alt_value;
					if (operator == '=')
						setval(vp, value);
				} else
					continue;

				while (*value && (count < LINELIM)) {
					*dest++ = *value++;
					count++;
				}
			}
		} else {
			*dest++ = *src++;
			count++;
			ignore_once = 0;
		}
	}
	*dest = '\0';

	if (openpipe(pf) < 0)
		return (0);

	while ((i = vfork()) == -1 && errno == EAGAIN);

	DBGPRINTF3(("GRAVE: i is %d\n", io));

	if (i < 0) {
		closepipe(pf);
		err((char *) bb_msg_memory_exhausted);
		return (0);
	}
	if (i != 0) {
		waitpid(i, NULL, 0);
		e.iop->argp->aword = ++cp;
		close(pf[1]);
		PUSHIO(afile, remap(pf[0]),
			   (int (*)(struct ioarg *)) ((quoted) ? qgravechar :
										  gravechar));
		return (1);
	}
	/* allow trapped signals */
	/* XXX - Maybe this signal stuff should go as well? */
	for (j = 0; j <= _NSIG; j++)
		if (ourtrap[j] && signal(j, SIG_IGN) != SIG_IGN)
			signal(j, SIG_DFL);

	dup2(pf[1], 1);
	closepipe(pf);

	argument_list[0] = (char *) DEFAULT_SHELL;
	argument_list[1] = "-c";
	argument_list[2] = child_cmd;
	argument_list[3] = 0;

	cp = rexecve(argument_list[0], argument_list, makenv(1, wb));
	prs(argument_list[0]);
	prs(": ");
	err(cp);
	_exit(1);
}


static char *unquote(as)
REGISTER char *as;
{
	REGISTER char *s;

	if ((s = as) != NULL)
		while (*s)
			*s++ &= ~QUOTE;
	return (as);
}

/* -------- glob.c -------- */

/*
 * glob
 */

#define	scopy(x) strsave((x), areanum)
#define	BLKSIZ	512
#define	NDENT	((BLKSIZ+sizeof(struct dirent)-1)/sizeof(struct dirent))

static struct wdblock *cl, *nl;
static char spcl[] = "[?*";

static struct wdblock *glob(cp, wb)
char *cp;
struct wdblock *wb;
{
	REGISTER int i;
	REGISTER char *pp;

	if (cp == 0)
		return (wb);
	i = 0;
	for (pp = cp; *pp; pp++)
		if (any(*pp, spcl))
			i++;
		else if (!any(*pp & ~QUOTE, spcl))
			*pp &= ~QUOTE;
	if (i != 0) {
		for (cl = addword(scopy(cp), (struct wdblock *) 0); anyspcl(cl);
			 cl = nl) {
			nl = newword(cl->w_nword * 2);
			for (i = 0; i < cl->w_nword; i++) {	/* for each argument */
				for (pp = cl->w_words[i]; *pp; pp++)
					if (any(*pp, spcl)) {
						globname(cl->w_words[i], pp);
						break;
					}
				if (*pp == '\0')
					nl = addword(scopy(cl->w_words[i]), nl);
			}
			for (i = 0; i < cl->w_nword; i++)
				DELETE(cl->w_words[i]);
			DELETE(cl);
		}
		for (i = 0; i < cl->w_nword; i++)
			unquote(cl->w_words[i]);
		glob0((char *) cl->w_words, cl->w_nword, sizeof(char *), xstrcmp);
		if (cl->w_nword) {
			for (i = 0; i < cl->w_nword; i++)
				wb = addword(cl->w_words[i], wb);
			DELETE(cl);
			return (wb);
		}
	}
	wb = addword(unquote(cp), wb);
	return (wb);
}

static void globname(we, pp)
char *we;
REGISTER char *pp;
{
	REGISTER char *np, *cp;
	char *name, *gp, *dp;
	int k;
	DIR *dirp;
	struct dirent *de;
	char dname[NAME_MAX + 1];
	struct stat dbuf;

	for (np = we; np != pp; pp--)
		if (pp[-1] == '/')
			break;
	for (dp = cp = space((int) (pp - np) + 3); np < pp;)
		*cp++ = *np++;
	*cp++ = '.';
	*cp = '\0';
	for (gp = cp = space(strlen(pp) + 1); *np && *np != '/';)
		*cp++ = *np++;
	*cp = '\0';
	dirp = opendir(dp);
	if (dirp == 0) {
		DELETE(dp);
		DELETE(gp);
		return;
	}
	dname[NAME_MAX] = '\0';
	while ((de = readdir(dirp)) != NULL) {
		/* XXX Hmmm... What this could be? (abial) */
		/*
		   if (ent[j].d_ino == 0)
		   continue;
		 */
		strncpy(dname, de->d_name, NAME_MAX);
		if (dname[0] == '.')
			if (*gp != '.')
				continue;
		for (k = 0; k < NAME_MAX; k++)
			if (any(dname[k], spcl))
				dname[k] |= QUOTE;
		if (gmatch(dname, gp)) {
			name = generate(we, pp, dname, np);
			if (*np && !anys(np, spcl)) {
				if (stat(name, &dbuf)) {
					DELETE(name);
					continue;
				}
			}
			nl = addword(name, nl);
		}
	}
	closedir(dirp);
	DELETE(dp);
	DELETE(gp);
}

/*
 * generate a pathname as below.
 * start..end1 / middle end
 * the slashes come for free
 */
static char *generate(start1, end1, middle, end)
char *start1;
REGISTER char *end1;
char *middle, *end;
{
	char *p;
	REGISTER char *op, *xp;

	p = op =
		space((int) (end1 - start1) + strlen(middle) + strlen(end) + 2);
	for (xp = start1; xp != end1;)
		*op++ = *xp++;
	for (xp = middle; (*op++ = *xp++) != '\0';);
	op--;
	for (xp = end; (*op++ = *xp++) != '\0';);
	return (p);
}

static int anyspcl(wb)
REGISTER struct wdblock *wb;
{
	REGISTER int i;
	REGISTER char **wd;

	wd = wb->w_words;
	for (i = 0; i < wb->w_nword; i++)
		if (anys(spcl, *wd++))
			return (1);
	return (0);
}

static int xstrcmp(p1, p2)
char *p1, *p2;
{
	return (strcmp(*(char **) p1, *(char **) p2));
}

/* -------- word.c -------- */

static struct wdblock *newword(nw)
REGISTER int nw;
{
	REGISTER struct wdblock *wb;

	wb = (struct wdblock *) space(sizeof(*wb) + nw * sizeof(char *));
	wb->w_bsize = nw;
	wb->w_nword = 0;
	return (wb);
}

static struct wdblock *addword(wd, wb)
char *wd;
REGISTER struct wdblock *wb;
{
	REGISTER struct wdblock *wb2;
	REGISTER int nw;

	if (wb == NULL)
		wb = newword(NSTART);
	if ((nw = wb->w_nword) >= wb->w_bsize) {
		wb2 = newword(nw * 2);
		memcpy((char *) wb2->w_words, (char *) wb->w_words,
			   nw * sizeof(char *));
		wb2->w_nword = nw;
		DELETE(wb);
		wb = wb2;
	}
	wb->w_words[wb->w_nword++] = wd;
	return (wb);
}

static
char **getwords(wb)
REGISTER struct wdblock *wb;
{
	REGISTER char **wd;
	REGISTER int nb;

	if (wb == NULL)
		return ((char **) NULL);
	if (wb->w_nword == 0) {
		DELETE(wb);
		return ((char **) NULL);
	}
	wd = (char **) space(nb = sizeof(*wd) * wb->w_nword);
	memcpy((char *) wd, (char *) wb->w_words, nb);
	DELETE(wb);					/* perhaps should done by caller */
	return (wd);
}

int (*func) (char *, char *);
int globv;

static void glob0(a0, a1, a2, a3)
char *a0;
unsigned a1;
int a2;
int (*a3) (char *, char *);
{
	func = a3;
	globv = a2;
	glob1(a0, a0 + a1 * a2);
}

static void glob1(base, lim)
char *base, *lim;
{
	REGISTER char *i, *j;
	int v2;
	char *lptr, *hptr;
	int c;
	unsigned n;


	v2 = globv;

  top:
	if ((n = (int) (lim - base)) <= v2)
		return;
	n = v2 * (n / (2 * v2));
	hptr = lptr = base + n;
	i = base;
	j = lim - v2;
	for (;;) {
		if (i < lptr) {
			if ((c = (*func) (i, lptr)) == 0) {
				glob2(i, lptr -= v2);
				continue;
			}
			if (c < 0) {
				i += v2;
				continue;
			}
		}

	  begin:
		if (j > hptr) {
			if ((c = (*func) (hptr, j)) == 0) {
				glob2(hptr += v2, j);
				goto begin;
			}
			if (c > 0) {
				if (i == lptr) {
					glob3(i, hptr += v2, j);
					i = lptr += v2;
					goto begin;
				}
				glob2(i, j);
				j -= v2;
				i += v2;
				continue;
			}
			j -= v2;
			goto begin;
		}


		if (i == lptr) {
			if (lptr - base >= lim - hptr) {
				glob1(hptr + v2, lim);
				lim = lptr;
			} else {
				glob1(base, lptr);
				base = hptr + v2;
			}
			goto top;
		}


		glob3(j, lptr -= v2, i);
		j = hptr -= v2;
	}
}

static void glob2(i, j)
char *i, *j;
{
	REGISTER char *index1, *index2, c;
	int m;

	m = globv;
	index1 = i;
	index2 = j;
	do {
		c = *index1;
		*index1++ = *index2;
		*index2++ = c;
	} while (--m);
}

static void glob3(i, j, k)
char *i, *j, *k;
{
	REGISTER char *index1, *index2, *index3;
	int c;
	int m;

	m = globv;
	index1 = i;
	index2 = j;
	index3 = k;
	do {
		c = *index1;
		*index1++ = *index3;
		*index3++ = *index2;
		*index2++ = c;
	} while (--m);
}

/* -------- io.c -------- */

/*
 * shell IO
 */

static int my_getc(int ec)
{
	REGISTER int c;

	if (e.linep > elinep) {
		while ((c = readc()) != '\n' && c);
		err("input line too long");
		gflg++;
		return (c);
	}
	c = readc();
	if ((ec != '\'') && (ec != '`') && (e.iop->task != XGRAVE)) {
		if (c == '\\') {
			c = readc();
			if (c == '\n' && ec != '\"')
				return (my_getc(ec));
			c |= QUOTE;
		}
	}
	return (c);
}

static void unget(c)
int c;
{
	if (e.iop >= e.iobase)
		e.iop->peekc = c;
}

static int eofc()
{
	return e.iop < e.iobase || (e.iop->peekc == 0 && e.iop->prev == 0);
}

static int readc()
{
	REGISTER int c;

	RCPRINTF(("READC: e.iop 0x%x, e.iobase 0x%x\n", e.iop, e.iobase));

	for (; e.iop >= e.iobase; e.iop--) {
		RCPRINTF(("READC: e.iop 0x%x, peekc 0x%x\n", e.iop, e.iop->peekc));
		if ((c = e.iop->peekc) != '\0') {
			e.iop->peekc = 0;
			return (c);
		} else {
			if (e.iop->prev != 0) {
				if ((c = (*e.iop->iofn) (e.iop->argp, e.iop)) != '\0') {
					if (c == -1) {
						e.iop++;
						continue;
					}
					if (e.iop == iostack)
						ioecho(c);
					return (e.iop->prev = c);
				} else if (e.iop->task == XIO && e.iop->prev != '\n') {
					e.iop->prev = 0;
					if (e.iop == iostack)
						ioecho('\n');
					return '\n';
				}
			}
			if (e.iop->task == XIO) {
				if (multiline) {
					return e.iop->prev = 0;
				}
				if (interactive && e.iop == iostack + 1) {
#ifdef CONFIG_FEATURE_COMMAND_EDITING
					current_prompt = prompt->value;
#else
					prs(prompt->value);
#endif
				}
			}
		}

	}							/* FOR */

	if (e.iop >= iostack) {
		RCPRINTF(("READC: return 0, e.iop 0x%x\n", e.iop));
		return (0);
	}

	DBGPRINTF(("READC: leave()...\n"));
	leave();

	/* NOTREACHED */
	return (0);
}

static void ioecho(c)
char c;
{
	if (flag['v'])
		write(2, &c, sizeof c);
}


static void pushio(struct ioarg *argp, int (*fn) (struct ioarg *))
{
	DBGPRINTF(("PUSHIO: argp 0x%x, argp->afid 0x%x, e.iop 0x%x\n", argp,
			   argp->afid, e.iop));

	/* Set env ptr for io source to next array spot and check for array overflow */
	if (++e.iop >= &iostack[NPUSH]) {
		e.iop--;
		err("Shell input nested too deeply");
		gflg++;
		return;
	}

	/* We did not overflow the NPUSH array spots so setup data structs */

	e.iop->iofn = (int (*)(struct ioarg *, struct io *)) fn;	/* Store data source func ptr */

	if (argp->afid != AFID_NOBUF)
		e.iop->argp = argp;
	else {

		e.iop->argp = ioargstack + (e.iop - iostack);	/* MAL - index into stack */
		*e.iop->argp = *argp;	/* copy data from temp area into stack spot */

		/* MAL - mainbuf is for 1st data source (command line?) and all nested use a single shared buffer? */

		if (e.iop == &iostack[0])
			e.iop->argp->afbuf = &mainbuf;
		else
			e.iop->argp->afbuf = &sharedbuf;

		/* MAL - if not a termimal AND (commandline OR readable file) then give it a buffer id? */
		/* This line appears to be active when running scripts from command line */
		if ((isatty(e.iop->argp->afile) == 0)
			&& (e.iop == &iostack[0]
				|| lseek(e.iop->argp->afile, 0L, 1) != -1)) {
			if (++bufid == AFID_NOBUF)	/* counter rollover check, AFID_NOBUF = 11111111  */
				bufid = AFID_ID;	/* AFID_ID = 0 */

			e.iop->argp->afid = bufid;	/* assign buffer id */
		}

		DBGPRINTF(("PUSHIO: iostack 0x%x,  e.iop 0x%x, afbuf 0x%x\n",
				   iostack, e.iop, e.iop->argp->afbuf));
		DBGPRINTF(("PUSHIO: mbuf 0x%x, sbuf 0x%x, bid %d, e.iop 0x%x\n",
				   &mainbuf, &sharedbuf, bufid, e.iop));

	}

	e.iop->prev = ~'\n';
	e.iop->peekc = 0;
	e.iop->xchar = 0;
	e.iop->nlcount = 0;

	if (fn == filechar || fn == linechar)
		e.iop->task = XIO;
	else if (fn == (int (*)(struct ioarg *)) gravechar
			 || fn == (int (*)(struct ioarg *)) qgravechar)
		e.iop->task = XGRAVE;
	else
		e.iop->task = XOTHER;

	return;
}

static struct io *setbase(ip)
struct io *ip;
{
	REGISTER struct io *xp;

	xp = e.iobase;
	e.iobase = ip;
	return (xp);
}

/*
 * Input generating functions
 */

/*
 * Produce the characters of a string, then a newline, then EOF.
 */
static int nlchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int c;

	if (ap->aword == NULL)
		return (0);
	if ((c = *ap->aword++) == 0) {
		ap->aword = NULL;
		return ('\n');
	}
	return (c);
}

/*
 * Given a list of words, produce the characters
 * in them, with a space after each word.
 */
static int wdchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER char c;
	REGISTER char **wl;

	if ((wl = ap->awordlist) == NULL)
		return (0);
	if (*wl != NULL) {
		if ((c = *(*wl)++) != 0)
			return (c & 0177);
		ap->awordlist++;
		return (' ');
	}
	ap->awordlist = NULL;
	return ('\n');
}

/*
 * Return the characters of a list of words,
 * producing a space between them.
 */
static int dolchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER char *wp;

	if ((wp = *ap->awordlist++) != NULL) {
		PUSHIO(aword, wp, *ap->awordlist == NULL ? strchar : xxchar);
		return (-1);
	}
	return (0);
}

static int xxchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int c;

	if (ap->aword == NULL)
		return (0);
	if ((c = *ap->aword++) == '\0') {
		ap->aword = NULL;
		return (' ');
	}
	return (c);
}

/*
 * Produce the characters from a single word (string).
 */
static int strchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int c;

	if (ap->aword == NULL || (c = *ap->aword++) == 0)
		return (0);
	return (c);
}

/*
 * Produce quoted characters from a single word (string).
 */
static int qstrchar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int c;

	if (ap->aword == NULL || (c = *ap->aword++) == 0)
		return (0);
	return (c | QUOTE);
}

/*
 * Return the characters from a file.
 */
static int filechar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int i;
	char c;
	struct iobuf *bp = ap->afbuf;

	if (ap->afid != AFID_NOBUF) {
		if ((i = ap->afid != bp->id) || bp->bufp == bp->ebufp) {

			if (i)
				lseek(ap->afile, ap->afpos, 0);

			i = safe_read(ap->afile, bp->buf, sizeof(bp->buf));

			if (i <= 0) {
				closef(ap->afile);
				return 0;
			}

			bp->id = ap->afid;
			bp->ebufp = (bp->bufp = bp->buf) + i;
		}

		ap->afpos++;
		return *bp->bufp++ & 0177;
	}
#ifdef CONFIG_FEATURE_COMMAND_EDITING
	if (interactive && isatty(ap->afile)) {
		static char mycommand[BUFSIZ];
		static int position = 0, size = 0;

		while (size == 0 || position >= size) {
			cmdedit_read_input(current_prompt, mycommand);
			size = strlen(mycommand);
			position = 0;
		}
		c = mycommand[position];
		position++;
		return (c);
	} else
#endif

	{
		i = safe_read(ap->afile, &c, sizeof(c));
		return (i == sizeof(c) ? (c & 0x7f) : (closef(ap->afile), 0));
	}
}

/*
 * Return the characters from a here temp file.
 */
static int herechar(ap)
REGISTER struct ioarg *ap;
{
	char c;


	if (read(ap->afile, &c, sizeof(c)) != sizeof(c)) {
		close(ap->afile);
		c = 0;
	}
	return (c);

}

/*
 * Return the characters produced by a process (`...`).
 * Quote them if required, and remove any trailing newline characters.
 */
static int gravechar(ap, iop)
struct ioarg *ap;
struct io *iop;
{
	REGISTER int c;

	if ((c = qgravechar(ap, iop) & ~QUOTE) == '\n')
		c = ' ';
	return (c);
}

static int qgravechar(ap, iop)
REGISTER struct ioarg *ap;
struct io *iop;
{
	REGISTER int c;

	DBGPRINTF3(("QGRAVECHAR: enter, ap=0x%x, iop=0x%x\n", ap, iop));

	if (iop->xchar) {
		if (iop->nlcount) {
			iop->nlcount--;
			return ('\n' | QUOTE);
		}
		c = iop->xchar;
		iop->xchar = 0;
	} else if ((c = filechar(ap)) == '\n') {
		iop->nlcount = 1;
		while ((c = filechar(ap)) == '\n')
			iop->nlcount++;
		iop->xchar = c;
		if (c == 0)
			return (c);
		iop->nlcount--;
		c = '\n';
	}
	return (c != 0 ? c | QUOTE : 0);
}

/*
 * Return a single command (usually the first line) from a file.
 */
static int linechar(ap)
REGISTER struct ioarg *ap;
{
	REGISTER int c;

	if ((c = filechar(ap)) == '\n') {
		if (!multiline) {
			closef(ap->afile);
			ap->afile = -1;		/* illegal value */
		}
	}
	return (c);
}

static void prs(s)
REGISTER char *s;
{
	if (*s)
		write(2, s, strlen(s));
}

static void prn(u)
unsigned u;
{
	prs(itoa(u));
}

static void closef(i)
REGISTER int i;
{
	if (i > 2)
		close(i);
}

static void closeall()
{
	REGISTER int u;

	for (u = NUFILE; u < NOFILE;)
		close(u++);
}


/*
 * remap fd into Shell's fd space
 */
static int remap(fd)
REGISTER int fd;
{
	REGISTER int i;
	int map[NOFILE];
	int newfd;


	DBGPRINTF(("REMAP: fd=%d, e.iofd=%d\n", fd, e.iofd));

	if (fd < e.iofd) {
		for (i = 0; i < NOFILE; i++)
			map[i] = 0;

		do {
			map[fd] = 1;
			newfd = dup(fd);
			fd = newfd;
		} while (fd >= 0 && fd < e.iofd);

		for (i = 0; i < NOFILE; i++)
			if (map[i])
				close(i);

		if (fd < 0)
			err("too many files open in shell");
	}

	return (fd);
}

static int openpipe(pv)
REGISTER int *pv;
{
	REGISTER int i;

	if ((i = pipe(pv)) < 0)
		err("can't create pipe - try again");
	return (i);
}

static void closepipe(pv)
REGISTER int *pv;
{
	if (pv != NULL) {
		close(*pv++);
		close(*pv);
	}
}

/* -------- here.c -------- */

/*
 * here documents
 */

static void markhere(s, iop)
REGISTER char *s;
struct ioword *iop;
{
	REGISTER struct here *h, *lh;

	DBGPRINTF7(("MARKHERE: enter, s=0x%x\n", s));

	h = (struct here *) space(sizeof(struct here));
	if (h == 0)
		return;

	h->h_tag = evalstr(s, DOSUB);
	if (h->h_tag == 0)
		return;

	h->h_iop = iop;
	iop->io_name = 0;
	h->h_next = NULL;
	if (inhere == 0)
		inhere = h;
	else
		for (lh = inhere; lh != NULL; lh = lh->h_next)
			if (lh->h_next == 0) {
				lh->h_next = h;
				break;
			}
	iop->io_flag |= IOHERE | IOXHERE;
	for (s = h->h_tag; *s; s++)
		if (*s & QUOTE) {
			iop->io_flag &= ~IOXHERE;
			*s &= ~QUOTE;
		}
	h->h_dosub = iop->io_flag & IOXHERE;
}

static void gethere()
{
	REGISTER struct here *h, *hp;

	DBGPRINTF7(("GETHERE: enter...\n"));

	/* Scan here files first leaving inhere list in place */
	for (hp = h = inhere; h != NULL; hp = h, h = h->h_next)
		readhere(&h->h_iop->io_name, h->h_tag, h->h_dosub ? 0 : '\'');

	/* Make inhere list active - keep list intact for scraphere */
	if (hp != NULL) {
		hp->h_next = acthere;
		acthere = inhere;
		inhere = NULL;
	}
}

static void readhere(name, s, ec)
char **name;
REGISTER char *s;
int ec;
{
	int tf;
	char tname[30] = ".msh_XXXXXX";
	REGISTER int c;
	jmp_buf ev;
	char myline[LINELIM + 1];
	char *thenext;

	DBGPRINTF7(("READHERE: enter, name=0x%x, s=0x%x\n", name, s));

	tf = mkstemp(tname);
	if (tf < 0)
		return;

	*name = strsave(tname, areanum);
	if (newenv(setjmp(errpt = ev)) != 0)
		unlink(tname);
	else {
		pushio(e.iop->argp, (int (*)(struct ioarg *)) e.iop->iofn);
		e.iobase = e.iop;
		for (;;) {
			if (interactive && e.iop <= iostack) {
#ifdef CONFIG_FEATURE_COMMAND_EDITING
				current_prompt = cprompt->value;
#else
				prs(cprompt->value);
#endif
			}
			thenext = myline;
			while ((c = my_getc(ec)) != '\n' && c) {
				if (ec == '\'')
					c &= ~QUOTE;
				if (thenext >= &myline[LINELIM]) {
					c = 0;
					break;
				}
				*thenext++ = c;
			}
			*thenext = 0;
			if (strcmp(s, myline) == 0 || c == 0)
				break;
			*thenext++ = '\n';
			write(tf, myline, (int) (thenext - myline));
		}
		if (c == 0) {
			prs("here document `");
			prs(s);
			err("' unclosed");
		}
		quitenv();
	}
	close(tf);
}

/*
 * open here temp file.
 * if unquoted here, expand here temp file into second temp file.
 */
static int herein(hname, xdoll)
char *hname;
int xdoll;
{
	REGISTER int hf;
	int tf;

#if __GNUC__
	/* Avoid longjmp clobbering */
	(void) &tf;
#endif
	if (hname == NULL)
		return (-1);

	DBGPRINTF7(("HEREIN: hname is %s, xdoll=%d\n", hname, xdoll));

	hf = open(hname, 0);
	if (hf < 0)
		return (-1);

	if (xdoll) {
		char c;
		char tname[30] = ".msh_XXXXXX";
		jmp_buf ev;

		tf = mkstemp(tname);
		if (tf < 0)
			return (-1);
		if (newenv(setjmp(errpt = ev)) == 0) {
			PUSHIO(afile, hf, herechar);
			setbase(e.iop);
			while ((c = subgetc(0, 0)) != 0) {
				c &= ~QUOTE;
				write(tf, &c, sizeof c);
			}
			quitenv();
		} else
			unlink(tname);
		close(tf);
		tf = open(tname, 0);
		unlink(tname);
		return (tf);
	} else
		return (hf);
}

static void scraphere()
{
	REGISTER struct here *h;

	DBGPRINTF7(("SCRAPHERE: enter...\n"));

	for (h = inhere; h != NULL; h = h->h_next) {
		if (h->h_iop && h->h_iop->io_name)
			unlink(h->h_iop->io_name);
	}
	inhere = NULL;
}

/* unlink here temp files before a freearea(area) */
static void freehere(area)
int area;
{
	REGISTER struct here *h, *hl;

	DBGPRINTF6(("FREEHERE: enter, area=%d\n", area));

	hl = NULL;
	for (h = acthere; h != NULL; h = h->h_next)
		if (getarea((char *) h) >= area) {
			if (h->h_iop->io_name != NULL)
				unlink(h->h_iop->io_name);
			if (hl == NULL)
				acthere = h->h_next;
			else
				hl->h_next = h->h_next;
		} else
			hl = h;
}



/*
 * Copyright (c) 1987,1997, Prentice Hall
 * All rights reserved.
 *
 * Redistribution and use of the MINIX operating system in source and
 * binary forms, with or without modification, are permitted provided
 * that the following conditions are met:
 *
 * Redistributions of source code must retain the above copyright
 * notice, this list of conditions and the following disclaimer.
 *
 * 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.
 *
 * Neither the name of Prentice Hall nor the names of the software
 * authors or contributors may be used to endorse or promote
 * products derived from this software without specific prior
 * written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS, AUTHORS, 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 PRENTICE HALL OR ANY AUTHORS 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.
 *
 */