mksh/funcs.c
tg d10dd31b9a correct a few protos and comments
saves 4 .text bytes and my nerves
2006-11-10 03:45:57 +00:00

3032 lines
66 KiB
C

/* $OpenBSD: c_ksh.c,v 1.29 2006/03/12 00:26:58 deraadt Exp $ */
/* $OpenBSD: c_sh.c,v 1.35 2006/04/10 14:38:59 jaredy Exp $ */
/* $OpenBSD: c_test.c,v 1.17 2005/03/30 17:16:37 deraadt Exp $ */
/* $OpenBSD: c_ulimit.c,v 1.15 2006/03/12 00:26:58 deraadt Exp $ */
#include "sh.h"
__RCSID("$MirOS: src/bin/mksh/funcs.c,v 1.33 2006/11/10 03:45:56 tg Exp $");
int
c_cd(char **wp)
{
int optc;
int physical = Flag(FPHYSICAL);
int cdnode; /* was a node from cdpath added in? */
int printpath = 0; /* print where we cd'd? */
int rval;
struct tbl *pwd_s, *oldpwd_s;
XString xs;
char *xp;
char *dir, *try, *pwd;
int phys_path;
char *cdpath;
while ((optc = ksh_getopt(wp, &builtin_opt, "LP")) != -1)
switch (optc) {
case 'L':
physical = 0;
break;
case 'P':
physical = 1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
if (Flag(FRESTRICTED)) {
bi_errorf("restricted shell - can't cd");
return 1;
}
pwd_s = global("PWD");
oldpwd_s = global("OLDPWD");
if (!wp[0]) {
/* No arguments - go home */
if ((dir = str_val(global("HOME"))) == null) {
bi_errorf("no home directory (HOME not set)");
return 1;
}
} else if (!wp[1]) {
/* One argument: - or dir */
dir = wp[0];
if (strcmp(dir, "-") == 0) {
dir = str_val(oldpwd_s);
if (dir == null) {
bi_errorf("no OLDPWD");
return 1;
}
printpath++;
}
} else if (!wp[2]) {
/* Two arguments - substitute arg1 in PWD for arg2 */
int ilen, olen, nlen, elen;
char *cp;
if (!current_wd[0]) {
bi_errorf("don't know current directory");
return 1;
}
/* substitute arg1 for arg2 in current path.
* if the first substitution fails because the cd fails
* we could try to find another substitution. For now
* we don't
*/
if ((cp = strstr(current_wd, wp[0])) == NULL) {
bi_errorf("bad substitution");
return 1;
}
ilen = cp - current_wd;
olen = strlen(wp[0]);
nlen = strlen(wp[1]);
elen = strlen(current_wd + ilen + olen) + 1;
dir = alloc(ilen + nlen + elen, ATEMP);
memcpy(dir, current_wd, ilen);
memcpy(dir + ilen, wp[1], nlen);
memcpy(dir + ilen + nlen, current_wd + ilen + olen, elen);
printpath++;
} else {
bi_errorf("too many arguments");
return 1;
}
Xinit(xs, xp, PATH_MAX, ATEMP);
/* xp will have a bogus value after make_path() - set it to 0
* so that if it's used, it will cause a dump
*/
xp = NULL;
cdpath = str_val(global("CDPATH"));
do {
cdnode = make_path(current_wd, dir, &cdpath, &xs, &phys_path);
if (physical)
rval = chdir(try = Xstring(xs, xp) + phys_path);
else {
simplify_path(Xstring(xs, xp));
rval = chdir(try = Xstring(xs, xp));
}
} while (rval < 0 && cdpath != NULL);
if (rval < 0) {
if (cdnode)
bi_errorf("%s: bad directory", dir);
else
bi_errorf("%s - %s", try, strerror(errno));
return 1;
}
/* Clear out tracked aliases with relative paths */
flushcom(0);
/* Set OLDPWD (note: unsetting OLDPWD does not disable this
* setting in at&t ksh)
*/
if (current_wd[0])
/* Ignore failure (happens if readonly or integer) */
setstr(oldpwd_s, current_wd, KSH_RETURN_ERROR);
if (Xstring(xs, xp)[0] != '/') {
pwd = NULL;
} else
if (!physical || !(pwd = get_phys_path(Xstring(xs, xp))))
pwd = Xstring(xs, xp);
/* Set PWD */
if (pwd) {
char *ptmp = pwd;
set_current_wd(ptmp);
/* Ignore failure (happens if readonly or integer) */
setstr(pwd_s, ptmp, KSH_RETURN_ERROR);
} else {
set_current_wd(null);
pwd = Xstring(xs, xp);
/* XXX unset $PWD? */
}
if (printpath || cdnode)
shprintf("%s\n", pwd);
return 0;
}
int
c_pwd(char **wp)
{
int optc;
int physical = Flag(FPHYSICAL);
char *p;
while ((optc = ksh_getopt(wp, &builtin_opt, "LP")) != -1)
switch (optc) {
case 'L':
physical = 0;
break;
case 'P':
physical = 1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
if (wp[0]) {
bi_errorf("too many arguments");
return 1;
}
p = current_wd[0] ? (physical ? get_phys_path(current_wd) : current_wd) :
NULL;
if (p && eaccess(p, R_OK) < 0)
p = NULL;
if (!p && !(p = ksh_get_wd(NULL))) {
bi_errorf("can't get current directory - %s", strerror(errno));
return 1;
}
shprintf("%s\n", p);
return 0;
}
int
c_print(char **wp)
{
#define PO_NL BIT(0) /* print newline */
#define PO_EXPAND BIT(1) /* expand backslash sequences */
#define PO_PMINUSMINUS BIT(2) /* print a -- argument */
#define PO_HIST BIT(3) /* print to history instead of stdout */
#define PO_COPROC BIT(4) /* printing to coprocess: block SIGPIPE */
int fd = 1;
int flags = PO_EXPAND|PO_NL;
char *s;
const char *emsg;
XString xs;
char *xp;
if (wp[0][0] == 'e') { /* echo command */
int nflags = flags;
/* A compromise between sysV and BSD echo commands:
* escape sequences are enabled by default, and
* -n, -e and -E are recognized if they appear
* in arguments with no illegal options (ie, echo -nq
* will print -nq).
* Different from sysV echo since options are recognized,
* different from BSD echo since escape sequences are enabled
* by default.
*/
wp += 1;
while ((s = *wp) && *s == '-' && s[1]) {
while (*++s)
if (*s == 'n')
nflags &= ~PO_NL;
else if (*s == 'e')
nflags |= PO_EXPAND;
else if (*s == 'E')
nflags &= ~PO_EXPAND;
else
/* bad option: don't use nflags, print
* argument
*/
break;
if (*s)
break;
wp++;
flags = nflags;
}
} else {
int optc;
const char *opts = "Rnprsu,";
while ((optc = ksh_getopt(wp, &builtin_opt, opts)) != -1)
switch (optc) {
case 'R': /* fake BSD echo command */
flags |= PO_PMINUSMINUS;
flags &= ~PO_EXPAND;
opts = "ne";
break;
case 'e':
flags |= PO_EXPAND;
break;
case 'n':
flags &= ~PO_NL;
break;
case 'p':
if ((fd = coproc_getfd(W_OK, &emsg)) < 0) {
bi_errorf("-p: %s", emsg);
return 1;
}
break;
case 'r':
flags &= ~PO_EXPAND;
break;
case 's':
flags |= PO_HIST;
break;
case 'u':
if (!*(s = builtin_opt.optarg))
fd = 0;
else if ((fd = check_fd(s, W_OK, &emsg)) < 0) {
bi_errorf("-u: %s: %s", s, emsg);
return 1;
}
break;
case '?':
return 1;
}
if (!(builtin_opt.info & GI_MINUSMINUS)) {
/* treat a lone - like -- */
if (wp[builtin_opt.optind] &&
strcmp(wp[builtin_opt.optind], "-") == 0)
builtin_opt.optind++;
} else if (flags & PO_PMINUSMINUS)
builtin_opt.optind--;
wp += builtin_opt.optind;
}
Xinit(xs, xp, 128, ATEMP);
while (*wp != NULL) {
int c;
s = *wp;
while ((c = *s++) != '\0') {
Xcheck(xs, xp);
if ((flags & PO_EXPAND) && c == '\\') {
int i;
switch ((c = *s++)) {
/* Oddly enough, \007 seems more portable than
* \a (due to HP-UX cc, Ultrix cc, old PCCs,
* etc.).
*/
case 'a': c = '\007'; break;
case 'b': c = '\b'; break;
case 'c': flags &= ~PO_NL;
continue; /* AT&T brain damage */
case 'f': c = '\f'; break;
case 'n': c = '\n'; break;
case 'r': c = '\r'; break;
case 't': c = '\t'; break;
case 'v': c = 0x0B; break;
case '0':
/* Look for an octal number: can have
* three digits (not counting the
* leading 0). Truly burnt.
*/
c = 0;
for (i = 0; i < 3; i++) {
if (*s >= '0' && *s <= '7')
c = c*8 + *s++ - '0';
else
break;
}
break;
case '\0': s--; c = '\\'; break;
case '\\': break;
default:
Xput(xs, xp, '\\');
}
}
Xput(xs, xp, c);
}
if (*++wp != NULL)
Xput(xs, xp, ' ');
}
if (flags & PO_NL)
Xput(xs, xp, '\n');
if (flags & PO_HIST) {
Xput(xs, xp, '\0');
source->line++;
histsave(source->line, Xstring(xs, xp), 1);
Xfree(xs, xp);
} else {
int n, len = Xlength(xs, xp);
int opipe = 0;
/* Ensure we aren't killed by a SIGPIPE while writing to
* a coprocess. at&t ksh doesn't seem to do this (seems
* to just check that the co-process is alive which is
* not enough).
*/
if (coproc.write >= 0 && coproc.write == fd) {
flags |= PO_COPROC;
opipe = block_pipe();
}
for (s = Xstring(xs, xp); len > 0; ) {
n = write(fd, s, len);
if (n < 0) {
if (flags & PO_COPROC)
restore_pipe(opipe);
if (errno == EINTR) {
/* allow user to ^C out */
intrcheck();
if (flags & PO_COPROC)
opipe = block_pipe();
continue;
}
return 1;
}
s += n;
len -= n;
}
if (flags & PO_COPROC)
restore_pipe(opipe);
}
return 0;
}
int
c_whence(char **wp)
{
struct tbl *tp;
char *id;
int pflag = 0, vflag = 0, Vflag = 0;
int ret = 0;
int optc;
int iam_whence = wp[0][0] == 'w';
int fcflags;
const char *opts = iam_whence ? "pv" : "pvV";
while ((optc = ksh_getopt(wp, &builtin_opt, opts)) != -1)
switch (optc) {
case 'p':
pflag = 1;
break;
case 'v':
vflag = 1;
break;
case 'V':
Vflag = 1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
fcflags = FC_BI | FC_PATH | FC_FUNC;
if (!iam_whence) {
/* Note that -p on its own is deal with in comexec() */
if (pflag)
fcflags |= FC_DEFPATH;
/* Convert command options to whence options - note that
* command -pV uses a different path search than whence -v
* or whence -pv. This should be considered a feature.
*/
vflag = Vflag;
}
if (pflag)
fcflags &= ~(FC_BI | FC_FUNC);
while ((vflag || ret == 0) && (id = *wp++) != NULL) {
tp = NULL;
if ((iam_whence || vflag) && !pflag)
tp = ktsearch(&keywords, id, hash(id));
if (!tp && !pflag) {
tp = ktsearch(&aliases, id, hash(id));
if (tp && !(tp->flag & ISSET))
tp = NULL;
}
if (!tp)
tp = findcom(id, fcflags);
if (vflag || (tp->type != CALIAS && tp->type != CEXEC &&
tp->type != CTALIAS))
shprintf("%s", id);
switch (tp->type) {
case CKEYWD:
if (vflag)
shprintf(" is a reserved word");
break;
case CALIAS:
if (vflag)
shprintf(" is an %salias for ",
(tp->flag & EXPORT) ? "exported " :
null);
if (!iam_whence && !vflag)
shprintf("alias %s=", id);
print_value_quoted(tp->val.s);
break;
case CFUNC:
if (vflag) {
shprintf(" is a");
if (tp->flag & EXPORT)
shprintf("n exported");
if (tp->flag & TRACE)
shprintf(" traced");
if (!(tp->flag & ISSET)) {
shprintf(" undefined");
if (tp->u.fpath)
shprintf(" (autoload from %s)",
tp->u.fpath);
}
shprintf(" function");
}
break;
case CSHELL:
if (vflag)
shprintf(" is a%s shell builtin",
(tp->flag & SPEC_BI) ? " special" : null);
break;
case CTALIAS:
case CEXEC:
if (tp->flag & ISSET) {
if (vflag) {
shprintf(" is ");
if (tp->type == CTALIAS)
shprintf("a tracked %salias for ",
(tp->flag & EXPORT) ?
"exported " : null);
}
shprintf("%s", tp->val.s);
} else {
if (vflag)
shprintf(" not found");
ret = 1;
}
break;
default:
shprintf("%s is *GOK*", id);
break;
}
if (vflag || !ret)
shprintf(newline);
}
return ret;
}
/* Deal with command -vV - command -p dealt with in comexec() */
int
c_command(char **wp)
{
/* Let c_whence do the work. Note that c_command() must be
* a distinct function from c_whence() (tested in comexec()).
*/
return c_whence(wp);
}
/* typeset, export, and readonly */
int
c_typeset(char **wp)
{
struct block *l = e->loc;
struct tbl *vp, **p;
Tflag fset = 0, fclr = 0;
int thing = 0, func = 0, localv = 0;
const char *opts = "L#R#UZ#fi#lprtux"; /* see comment below */
char *fieldstr, *basestr;
int field, base;
int optc;
Tflag flag;
int pflag = 0;
switch (**wp) {
case 'e': /* export */
fset |= EXPORT;
opts = "p";
break;
case 'r': /* readonly */
fset |= RDONLY;
opts = "p";
break;
case 's': /* set */
/* called with 'typeset -' */
break;
case 't': /* typeset */
localv = 1;
break;
}
fieldstr = basestr = NULL;
builtin_opt.flags |= GF_PLUSOPT;
/* at&t ksh seems to have 0-9 as options which are multiplied
* to get a number that is used with -L, -R, -Z or -i (eg, -1R2
* sets right justify in a field of 12). This allows options
* to be grouped in an order (eg, -Lu12), but disallows -i8 -L3 and
* does not allow the number to be specified as a separate argument
* Here, the number must follow the RLZi option, but is optional
* (see the # kludge in ksh_getopt()).
*/
while ((optc = ksh_getopt(wp, &builtin_opt, opts)) != -1) {
flag = 0;
switch (optc) {
case 'L':
flag = LJUST;
fieldstr = builtin_opt.optarg;
break;
case 'R':
flag = RJUST;
fieldstr = builtin_opt.optarg;
break;
case 'U':
/* at&t ksh uses u, but this conflicts with
* upper/lower case. If this option is changed,
* need to change the -U below as well
*/
flag = INT_U;
break;
case 'Z':
flag = ZEROFIL;
fieldstr = builtin_opt.optarg;
break;
case 'f':
func = 1;
break;
case 'i':
flag = INTEGER;
basestr = builtin_opt.optarg;
break;
case 'l':
flag = LCASEV;
break;
case 'p':
/* posix export/readonly -p flag.
* typeset -p is the same as typeset (in pdksh);
* here for compatibility with ksh93.
*/
pflag = 1;
break;
case 'r':
flag = RDONLY;
break;
case 't':
flag = TRACE;
break;
case 'u':
flag = UCASEV_AL; /* upper case / autoload */
break;
case 'x':
flag = EXPORT;
break;
case '?':
return 1;
}
if (builtin_opt.info & GI_PLUS) {
fclr |= flag;
fset &= ~flag;
thing = '+';
} else {
fset |= flag;
fclr &= ~flag;
thing = '-';
}
}
field = 0;
if (fieldstr && !bi_getn(fieldstr, &field))
return 1;
base = 0;
if (basestr && !bi_getn(basestr, &base))
return 1;
if (!(builtin_opt.info & GI_MINUSMINUS) && wp[builtin_opt.optind] &&
(wp[builtin_opt.optind][0] == '-' ||
wp[builtin_opt.optind][0] == '+') &&
wp[builtin_opt.optind][1] == '\0') {
thing = wp[builtin_opt.optind][0];
builtin_opt.optind++;
}
if (func && ((fset|fclr) & ~(TRACE|UCASEV_AL|EXPORT))) {
bi_errorf("only -t, -u and -x options may be used with -f");
return 1;
}
if (wp[builtin_opt.optind]) {
/* Take care of exclusions.
* At this point, flags in fset are cleared in fclr and vise
* versa. This property should be preserved.
*/
if (fset & LCASEV) /* LCASEV has priority over UCASEV_AL */
fset &= ~UCASEV_AL;
if (fset & LJUST) /* LJUST has priority over RJUST */
fset &= ~RJUST;
if ((fset & (ZEROFIL|LJUST)) == ZEROFIL) { /* -Z implies -ZR */
fset |= RJUST;
fclr &= ~RJUST;
}
/* Setting these attributes clears the others, unless they
* are also set in this command
*/
if (fset & (LJUST | RJUST | ZEROFIL | UCASEV_AL | LCASEV |
INTEGER | INT_U | INT_L))
fclr |= ~fset & (LJUST | RJUST | ZEROFIL | UCASEV_AL |
LCASEV | INTEGER | INT_U | INT_L);
}
/* set variables and attributes */
if (wp[builtin_opt.optind]) {
int i;
int rval = 0;
struct tbl *f;
if (localv && !func)
fset |= LOCAL;
for (i = builtin_opt.optind; wp[i]; i++) {
if (func) {
f = findfunc(wp[i], hash(wp[i]),
(fset&UCASEV_AL) ? true : false);
if (!f) {
/* at&t ksh does ++rval: bogus */
rval = 1;
continue;
}
if (fset | fclr) {
f->flag |= fset;
f->flag &= ~fclr;
} else
fptreef(shl_stdout, 0,
f->flag & FKSH ?
"function %s %T\n" :
"%s() %T\n", wp[i], f->val.t);
} else if (!typeset(wp[i], fset, fclr, field, base)) {
bi_errorf("%s: not identifier", wp[i]);
return 1;
}
}
return rval;
}
/* list variables and attributes */
flag = fset | fclr; /* no difference at this point.. */
if (func) {
for (l = e->loc; l; l = l->next) {
for (p = ktsort(&l->funs); (vp = *p++); ) {
if (flag && (vp->flag & flag) == 0)
continue;
if (thing == '-')
fptreef(shl_stdout, 0, vp->flag & FKSH ?
"function %s %T\n" : "%s() %T\n",
vp->name, vp->val.t);
else
shprintf("%s\n", vp->name);
}
}
} else {
for (l = e->loc; l; l = l->next) {
for (p = ktsort(&l->vars); (vp = *p++); ) {
struct tbl *tvp;
int any_set = 0;
/*
* See if the parameter is set (for arrays, if any
* element is set).
*/
for (tvp = vp; tvp; tvp = tvp->u.array)
if (tvp->flag & ISSET) {
any_set = 1;
break;
}
/*
* Check attributes - note that all array elements
* have (should have?) the same attributes, so checking
* the first is sufficient.
*
* Report an unset param only if the user has
* explicitly given it some attribute (like export);
* otherwise, after "echo $FOO", we would report FOO...
*/
if (!any_set && !(vp->flag & USERATTRIB))
continue;
if (flag && (vp->flag & flag) == 0)
continue;
for (; vp; vp = vp->u.array) {
/* Ignore array elements that aren't
* set unless there are no set elements,
* in which case the first is reported on */
if ((vp->flag&ARRAY) && any_set &&
!(vp->flag & ISSET))
continue;
/* no arguments */
if (thing == 0 && flag == 0) {
/* at&t ksh prints things
* like export, integer,
* leftadj, zerofill, etc.,
* but POSIX says must
* be suitable for re-entry...
*/
shprintf("typeset ");
if ((vp->flag&INTEGER))
shprintf("-i ");
if ((vp->flag&EXPORT))
shprintf("-x ");
if ((vp->flag&RDONLY))
shprintf("-r ");
if ((vp->flag&TRACE))
shprintf("-t ");
if ((vp->flag&LJUST))
shprintf("-L%d ", vp->u2.field);
if ((vp->flag&RJUST))
shprintf("-R%d ", vp->u2.field);
if ((vp->flag&ZEROFIL))
shprintf("-Z ");
if ((vp->flag&LCASEV))
shprintf("-l ");
if ((vp->flag&UCASEV_AL))
shprintf("-u ");
if ((vp->flag&INT_U))
shprintf("-U ");
shprintf("%s\n", vp->name);
if (vp->flag&ARRAY)
break;
} else {
if (pflag)
shprintf("%s ",
(flag & EXPORT) ?
"export" : "readonly");
if ((vp->flag&ARRAY) && any_set)
shprintf("%s[%d]",
vp->name, vp->index);
else
shprintf("%s", vp->name);
if (thing == '-' && (vp->flag&ISSET)) {
char *s = str_val(vp);
shprintf("=");
/* at&t ksh can't have
* justified integers.. */
if ((vp->flag &
(INTEGER|LJUST|RJUST)) ==
INTEGER)
shprintf("%s", s);
else
print_value_quoted(s);
}
shprintf(newline);
}
/* Only report first 'element' of an array with
* no set elements.
*/
if (!any_set)
break;
}
}
}
}
return 0;
}
int
c_alias(char **wp)
{
struct table *t = &aliases;
int rv = 0, rflag = 0, tflag, Uflag = 0, pflag = 0;
int prefix = 0;
Tflag xflag = 0;
int optc;
builtin_opt.flags |= GF_PLUSOPT;
while ((optc = ksh_getopt(wp, &builtin_opt, "dprtUx")) != -1) {
prefix = builtin_opt.info & GI_PLUS ? '+' : '-';
switch (optc) {
case 'd':
t = &homedirs;
break;
case 'p':
pflag = 1;
break;
case 'r':
rflag = 1;
break;
case 't':
t = &taliases;
break;
case 'U':
/*
* kludge for tracked alias initialization
* (don't do a path search, just make an entry)
*/
Uflag = 1;
break;
case 'x':
xflag = EXPORT;
break;
case '?':
return 1;
}
}
wp += builtin_opt.optind;
if (!(builtin_opt.info & GI_MINUSMINUS) && *wp &&
(wp[0][0] == '-' || wp[0][0] == '+') && wp[0][1] == '\0') {
prefix = wp[0][0];
wp++;
}
tflag = t == &taliases;
/* "hash -r" means reset all the tracked aliases.. */
if (rflag) {
static const char *const args[] = {
"unalias", "-ta", NULL
};
if (!tflag || *wp) {
shprintf("alias: -r flag can only be used with -t"
" and without arguments\n");
return 1;
}
ksh_getopt_reset(&builtin_opt, GF_ERROR);
return c_unalias((char **) args);
}
if (*wp == NULL) {
struct tbl *ap, **p;
for (p = ktsort(t); (ap = *p++) != NULL; )
if ((ap->flag & (ISSET|xflag)) == (ISSET|xflag)) {
if (pflag)
shf_puts("alias ", shl_stdout);
shf_puts(ap->name, shl_stdout);
if (prefix != '+') {
shf_putc('=', shl_stdout);
print_value_quoted(ap->val.s);
}
shprintf(newline);
}
}
for (; *wp != NULL; wp++) {
char *alias = *wp;
char *val = strchr(alias, '=');
char *newval;
struct tbl *ap;
int h;
if (val)
alias = str_nsave(alias, val++ - alias, ATEMP);
h = hash(alias);
if (val == NULL && !tflag && !xflag) {
ap = ktsearch(t, alias, h);
if (ap != NULL && (ap->flag&ISSET)) {
if (pflag)
shf_puts("alias ", shl_stdout);
shf_puts(ap->name, shl_stdout);
if (prefix != '+') {
shf_putc('=', shl_stdout);
print_value_quoted(ap->val.s);
}
shprintf(newline);
} else {
shprintf("%s alias not found\n", alias);
rv = 1;
}
continue;
}
ap = ktenter(t, alias, h);
ap->type = tflag ? CTALIAS : CALIAS;
/* Are we setting the value or just some flags? */
if ((val && !tflag) || (!val && tflag && !Uflag)) {
if (ap->flag&ALLOC) {
ap->flag &= ~(ALLOC|ISSET);
afree((void*)ap->val.s, APERM);
}
/* ignore values for -t (at&t ksh does this) */
newval = tflag ? search(alias, path, X_OK, NULL) :
val;
if (newval) {
ap->val.s = str_save(newval, APERM);
ap->flag |= ALLOC|ISSET;
} else
ap->flag &= ~ISSET;
}
ap->flag |= DEFINED;
if (prefix == '+')
ap->flag &= ~xflag;
else
ap->flag |= xflag;
if (val)
afree(alias, ATEMP);
}
return rv;
}
int
c_unalias(char **wp)
{
struct table *t = &aliases;
struct tbl *ap;
int rv = 0, all = 0;
int optc;
while ((optc = ksh_getopt(wp, &builtin_opt, "adt")) != -1)
switch (optc) {
case 'a':
all = 1;
break;
case 'd':
t = &homedirs;
break;
case 't':
t = &taliases;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
for (; *wp != NULL; wp++) {
ap = ktsearch(t, *wp, hash(*wp));
if (ap == NULL) {
rv = 1; /* POSIX */
continue;
}
if (ap->flag&ALLOC) {
ap->flag &= ~(ALLOC|ISSET);
afree((void*)ap->val.s, APERM);
}
ap->flag &= ~(DEFINED|ISSET|EXPORT);
}
if (all) {
struct tstate ts;
for (ktwalk(&ts, t); (ap = ktnext(&ts)); ) {
if (ap->flag&ALLOC) {
ap->flag &= ~(ALLOC|ISSET);
afree((void*)ap->val.s, APERM);
}
ap->flag &= ~(DEFINED|ISSET|EXPORT);
}
}
return rv;
}
int
c_let(char **wp)
{
int rv = 1;
long val;
if (wp[1] == NULL) /* at&t ksh does this */
bi_errorf("no arguments");
else
for (wp++; *wp; wp++)
if (!evaluate(*wp, &val, KSH_RETURN_ERROR, true)) {
rv = 2; /* distinguish error from zero result */
break;
} else
rv = val == 0;
return rv;
}
int
c_jobs(char **wp)
{
int optc;
int flag = 0;
int nflag = 0;
int rv = 0;
while ((optc = ksh_getopt(wp, &builtin_opt, "lpnz")) != -1)
switch (optc) {
case 'l':
flag = 1;
break;
case 'p':
flag = 2;
break;
case 'n':
nflag = 1;
break;
case 'z': /* debugging: print zombies */
nflag = -1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
if (!*wp) {
if (j_jobs(NULL, flag, nflag))
rv = 1;
} else {
for (; *wp; wp++)
if (j_jobs(*wp, flag, nflag))
rv = 1;
}
return rv;
}
int
c_fgbg(char **wp)
{
int bg = strcmp(*wp, "bg") == 0;
int rv = 0;
if (!Flag(FMONITOR)) {
bi_errorf("job control not enabled");
return 1;
}
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
wp += builtin_opt.optind;
if (*wp)
for (; *wp; wp++)
rv = j_resume(*wp, bg);
else
rv = j_resume("%%", bg);
return bg ? 0 : rv;
}
struct kill_info {
int num_width;
int name_width;
};
static char *kill_fmt_entry(void *arg, int i, char *buf, int buflen);
/* format a single kill item */
static char *
kill_fmt_entry(void *arg, int i, char *buf, int buflen)
{
struct kill_info *ki = (struct kill_info *) arg;
i++;
if (sigtraps[i].name)
shf_snprintf(buf, buflen, "%*d %*s %s",
ki->num_width, i,
ki->name_width, sigtraps[i].name,
sigtraps[i].mess);
else
shf_snprintf(buf, buflen, "%*d %*d %s",
ki->num_width, i,
ki->name_width, sigtraps[i].signal,
sigtraps[i].mess);
return buf;
}
int
c_kill(char **wp)
{
Trap *t = NULL;
char *p;
int lflag = 0;
int i, n, rv, sig;
/* assume old style options if -digits or -UPPERCASE */
if ((p = wp[1]) && *p == '-' && (digit(p[1]) ||
isupper((unsigned char)p[1]))) {
if (!(t = gettrap(p + 1, true))) {
bi_errorf("bad signal '%s'", p + 1);
return 1;
}
i = (wp[2] && strcmp(wp[2], "--") == 0) ? 3 : 2;
} else {
int optc;
while ((optc = ksh_getopt(wp, &builtin_opt, "ls:")) != -1)
switch (optc) {
case 'l':
lflag = 1;
break;
case 's':
if (!(t = gettrap(builtin_opt.optarg, true))) {
bi_errorf("bad signal '%s'",
builtin_opt.optarg);
return 1;
}
break;
case '?':
return 1;
}
i = builtin_opt.optind;
}
if ((lflag && t) || (!wp[i] && !lflag)) {
#ifndef MKSH_SMALL
shf_fprintf(shl_out,
"Usage: kill [ -s signame | -signum | -signame ] {pid|job}...\n"
" kill -l [exit_status]\n");
#endif
bi_errorf(null);
return 1;
}
if (lflag) {
if (wp[i]) {
for (; wp[i]; i++) {
if (!bi_getn(wp[i], &n))
return 1;
if (n > 128 && n < 128 + NSIG)
n -= 128;
if (n > 0 && n < NSIG && sigtraps[n].name)
shprintf("%s\n", sigtraps[n].name);
else
shprintf("%d\n", n);
}
} else {
int w, j;
int mess_width;
struct kill_info ki;
for (j = NSIG, ki.num_width = 1; j >= 10; j /= 10)
ki.num_width++;
ki.name_width = mess_width = 0;
for (j = 0; j < NSIG; j++) {
w = sigtraps[j].name ?
(int)strlen(sigtraps[j].name) :
ki.num_width;
if (w > ki.name_width)
ki.name_width = w;
w = strlen(sigtraps[j].mess);
if (w > mess_width)
mess_width = w;
}
print_columns(shl_stdout, NSIG - 1,
kill_fmt_entry, (void *) &ki,
ki.num_width + ki.name_width + mess_width + 3, 1);
}
return 0;
}
rv = 0;
sig = t ? t->signal : SIGTERM;
for (; (p = wp[i]); i++) {
if (*p == '%') {
if (j_kill(p, sig))
rv = 1;
} else if (!getn(p, &n)) {
bi_errorf("%s: arguments must be jobs or process IDs",
p);
rv = 1;
} else {
/* use killpg if < -1 since -1 does special things for
* some non-killpg-endowed kills
*/
if ((n < -1 ? killpg(-n, sig) : kill(n, sig)) < 0) {
bi_errorf("%s: %s", p, strerror(errno));
rv = 1;
}
}
}
return rv;
}
void
getopts_reset(int val)
{
if (val >= 1) {
ksh_getopt_reset(&user_opt, GF_NONAME | GF_PLUSOPT);
user_opt.optind = user_opt.uoptind = val;
}
}
int
c_getopts(char **wp)
{
int argc;
const char *opts;
const char *var;
int optc;
int ret;
char buf[3];
struct tbl *vq, *voptarg;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
wp += builtin_opt.optind;
opts = *wp++;
if (!opts) {
bi_errorf("missing options argument");
return 1;
}
var = *wp++;
if (!var) {
bi_errorf("missing name argument");
return 1;
}
if (!*var || *skip_varname(var, true)) {
bi_errorf("%s: is not an identifier", var);
return 1;
}
if (e->loc->next == NULL) {
internal_errorf(0, "c_getopts: no argv");
return 1;
}
/* Which arguments are we parsing... */
if (*wp == NULL)
wp = e->loc->next->argv;
else
*--wp = e->loc->next->argv[0];
/* Check that our saved state won't cause a core dump... */
for (argc = 0; wp[argc]; argc++)
;
if (user_opt.optind > argc ||
(user_opt.p != 0 &&
user_opt.p > strlen(wp[user_opt.optind - 1]))) {
bi_errorf("arguments changed since last call");
return 1;
}
user_opt.optarg = NULL;
optc = ksh_getopt(wp, &user_opt, opts);
if (optc >= 0 && optc != '?' && (user_opt.info & GI_PLUS)) {
buf[0] = '+';
buf[1] = optc;
buf[2] = '\0';
} else {
/* POSIX says var is set to ? at end-of-options, at&t ksh
* sets it to null - we go with POSIX...
*/
buf[0] = optc < 0 ? '?' : optc;
buf[1] = '\0';
}
/* at&t ksh does not change OPTIND if it was an unknown option.
* Scripts counting on this are prone to break... (ie, don't count
* on this staying).
*/
if (optc != '?') {
user_opt.uoptind = user_opt.optind;
}
voptarg = global("OPTARG");
voptarg->flag &= ~RDONLY; /* at&t ksh clears ro and int */
/* Paranoia: ensure no bizarre results. */
if (voptarg->flag & INTEGER)
typeset("OPTARG", 0, INTEGER, 0, 0);
if (user_opt.optarg == NULL)
unset(voptarg, 0);
else
/* This can't fail (have cleared readonly/integer) */
setstr(voptarg, user_opt.optarg, KSH_RETURN_ERROR);
ret = 0;
vq = global(var);
/* Error message already printed (integer, readonly) */
if (!setstr(vq, buf, KSH_RETURN_ERROR))
ret = 1;
if (Flag(FEXPORT))
typeset(var, EXPORT, 0, 0, 0);
return optc < 0 ? 1 : ret;
}
int
c_bind(char **wp)
{
int optc, rv = 0, macro = 0, list = 0;
char *cp;
while ((optc = ksh_getopt(wp, &builtin_opt, "lm")) != -1)
switch (optc) {
case 'l':
list = 1;
break;
case 'm':
macro = 1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
if (*wp == NULL) /* list all */
rv = x_bind((char*)NULL, (char*)NULL, 0, list);
for (; *wp != NULL; wp++) {
cp = strchr(*wp, '=');
if (cp != NULL)
*cp++ = '\0';
if (x_bind(*wp, cp, macro, 0))
rv = 1;
}
return rv;
}
/* A leading = means assignments before command are kept;
* a leading * means a POSIX special builtin;
* a leading + means a POSIX regular builtin
* (* and + should not be combined).
*/
const struct builtin kshbuiltins [] = {
{"+alias", c_alias}, /* no =: at&t manual wrong */
{"+cd", c_cd},
{"+command", c_command},
{"echo", c_print},
{"*=export", c_typeset},
{"+fc", c_fc},
{"+getopts", c_getopts},
{"+jobs", c_jobs},
{"+kill", c_kill},
{"let", c_let},
{"print", c_print},
{"pwd", c_pwd},
{"*=readonly", c_typeset},
{"=typeset", c_typeset},
{"+unalias", c_unalias},
{"whence", c_whence},
{"+bg", c_fgbg},
{"+fg", c_fgbg},
{"bind", c_bind},
{NULL, NULL}
};
static void p_time(struct shf *, int, struct timeval *, int,
const char *, const char *);
/* :, false and true */
int
c_label(char **wp)
{
return wp[0][0] == 'f' ? 1 : 0;
}
int
c_shift(char **wp)
{
struct block *l = e->loc;
int n;
long val;
char *arg;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
arg = wp[builtin_opt.optind];
if (arg) {
evaluate(arg, &val, KSH_UNWIND_ERROR, false);
n = val;
} else
n = 1;
if (n < 0) {
bi_errorf("%s: bad number", arg);
return (1);
}
if (l->argc < n) {
bi_errorf("nothing to shift");
return (1);
}
l->argv[n] = l->argv[0];
l->argv += n;
l->argc -= n;
return 0;
}
int
c_umask(char **wp)
{
int i;
char *cp;
int symbolic = 0;
mode_t old_umask;
int optc;
while ((optc = ksh_getopt(wp, &builtin_opt, "S")) != -1)
switch (optc) {
case 'S':
symbolic = 1;
break;
case '?':
return 1;
}
cp = wp[builtin_opt.optind];
if (cp == NULL) {
old_umask = umask(0);
umask(old_umask);
if (symbolic) {
char buf[18];
int j;
old_umask = ~old_umask;
cp = buf;
for (i = 0; i < 3; i++) {
*cp++ = "ugo"[i];
*cp++ = '=';
for (j = 0; j < 3; j++)
if (old_umask & (1 << (8 - (3*i + j))))
*cp++ = "rwx"[j];
*cp++ = ',';
}
cp[-1] = '\0';
shprintf("%s\n", buf);
} else
shprintf("%#3.3o\n", (unsigned) old_umask);
} else {
mode_t new_umask;
if (digit(*cp)) {
for (new_umask = 0; *cp >= '0' && *cp <= '7'; cp++)
new_umask = new_umask * 8 + (*cp - '0');
if (*cp) {
bi_errorf("bad number");
return 1;
}
} else {
/* symbolic format */
int positions, new_val;
char op;
old_umask = umask(0);
umask(old_umask); /* in case of error */
old_umask = ~old_umask;
new_umask = old_umask;
positions = 0;
while (*cp) {
while (*cp && strchr("augo", *cp))
switch (*cp++) {
case 'a':
positions |= 0111;
break;
case 'u':
positions |= 0100;
break;
case 'g':
positions |= 0010;
break;
case 'o':
positions |= 0001;
break;
}
if (!positions)
positions = 0111; /* default is a */
if (!strchr("=+-", op = *cp))
break;
cp++;
new_val = 0;
while (*cp && strchr("rwxugoXs", *cp))
switch (*cp++) {
case 'r': new_val |= 04; break;
case 'w': new_val |= 02; break;
case 'x': new_val |= 01; break;
case 'u': new_val |= old_umask >> 6;
break;
case 'g': new_val |= old_umask >> 3;
break;
case 'o': new_val |= old_umask >> 0;
break;
case 'X': if (old_umask & 0111)
new_val |= 01;
break;
case 's': /* ignored */
break;
}
new_val = (new_val & 07) * positions;
switch (op) {
case '-':
new_umask &= ~new_val;
break;
case '=':
new_umask = new_val |
(new_umask & ~(positions * 07));
break;
case '+':
new_umask |= new_val;
}
if (*cp == ',') {
positions = 0;
cp++;
} else if (!strchr("=+-", *cp))
break;
}
if (*cp) {
bi_errorf("bad mask");
return 1;
}
new_umask = ~new_umask;
}
umask(new_umask);
}
return 0;
}
int
c_dot(char **wp)
{
char *file, *cp;
char **argv;
int argc;
int i;
int err;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
if ((cp = wp[builtin_opt.optind]) == NULL)
return 0;
file = search(cp, path, R_OK, &err);
if (file == NULL) {
bi_errorf("%s: %s", cp, err ? strerror(err) : "not found");
return 1;
}
/* Set positional parameters? */
if (wp[builtin_opt.optind + 1]) {
argv = wp + builtin_opt.optind;
argv[0] = e->loc->argv[0]; /* preserve $0 */
for (argc = 0; argv[argc + 1]; argc++)
;
} else {
argc = 0;
argv = NULL;
}
i = include(file, argc, argv, 0);
if (i < 0) { /* should not happen */
bi_errorf("%s: %s", cp, strerror(errno));
return 1;
}
return i;
}
int
c_wait(char **wp)
{
int rv = 0;
int sig;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
wp += builtin_opt.optind;
if (*wp == NULL) {
while (waitfor(NULL, &sig) >= 0)
;
rv = sig;
} else {
for (; *wp; wp++)
rv = waitfor(*wp, &sig);
if (rv < 0)
rv = sig ? sig : 127; /* magic exit code: bad job-id */
}
return rv;
}
int
c_read(char **wp)
{
int c = 0;
int expande = 1, historyr = 0;
int expanding;
int ecode = 0;
char *cp;
int fd = 0;
struct shf *shf;
int optc;
const char *emsg;
XString cs, xs = { NULL, NULL, 0, NULL};
struct tbl *vp;
char *xp = NULL;
static char REPLY[] = "REPLY";
while ((optc = ksh_getopt(wp, &builtin_opt, "prsu,")) != -1)
switch (optc) {
case 'p':
if ((fd = coproc_getfd(R_OK, &emsg)) < 0) {
bi_errorf("-p: %s", emsg);
return 1;
}
break;
case 'r':
expande = 0;
break;
case 's':
historyr = 1;
break;
case 'u':
if (!*(cp = builtin_opt.optarg))
fd = 0;
else if ((fd = check_fd(cp, R_OK, &emsg)) < 0) {
bi_errorf("-u: %s: %s", cp, emsg);
return 1;
}
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
if (*wp == NULL)
*--wp = REPLY;
/* Since we can't necessarily seek backwards on non-regular files,
* don't buffer them so we can't read too much.
*/
shf = shf_reopen(fd, SHF_RD | SHF_INTERRUPT | can_seek(fd), shl_spare);
if ((cp = strchr(*wp, '?')) != NULL) {
*cp = 0;
if (isatty(fd)) {
/* at&t ksh says it prints prompt on fd if it's open
* for writing and is a tty, but it doesn't do it
* (it also doesn't check the interactive flag,
* as is indicated in the Kornshell book).
*/
shellf("%s", cp+1);
}
}
/* If we are reading from the co-process for the first time,
* make sure the other side of the pipe is closed first. This allows
* the detection of eof.
*
* This is not compatible with at&t ksh... the fd is kept so another
* coproc can be started with same output, however, this means eof
* can't be detected... This is why it is closed here.
* If this call is removed, remove the eof check below, too.
* coproc_readw_close(fd);
*/
if (historyr)
Xinit(xs, xp, 128, ATEMP);
expanding = 0;
Xinit(cs, cp, 128, ATEMP);
for (; *wp != NULL; wp++) {
for (cp = Xstring(cs, cp); ; ) {
if (c == '\n' || c == EOF)
break;
while (1) {
c = shf_getc(shf);
if (c == '\0')
continue;
if (c == EOF && shf_error(shf) &&
shf_errno(shf) == EINTR) {
/* Was the offending signal one that
* would normally kill a process?
* If so, pretend the read was killed.
*/
ecode = fatal_trap_check();
/* non fatal (eg, CHLD), carry on */
if (!ecode) {
shf_clearerr(shf);
continue;
}
}
break;
}
if (historyr) {
Xcheck(xs, xp);
Xput(xs, xp, c);
}
Xcheck(cs, cp);
if (expanding) {
expanding = 0;
if (c == '\n') {
c = 0;
if (Flag(FTALKING_I) && isatty(fd)) {
/* set prompt in case this is
* called from .profile or $ENV
*/
set_prompt(PS2, NULL);
pprompt(prompt, 0);
}
} else if (c != EOF)
Xput(cs, cp, c);
continue;
}
if (expande && c == '\\') {
expanding = 1;
continue;
}
if (c == '\n' || c == EOF)
break;
if (ctype(c, C_IFS)) {
if (Xlength(cs, cp) == 0 && ctype(c, C_IFSWS))
continue;
if (wp[1])
break;
}
Xput(cs, cp, c);
}
/* strip trailing IFS white space from last variable */
if (!wp[1])
while (Xlength(cs, cp) && ctype(cp[-1], C_IFS) &&
ctype(cp[-1], C_IFSWS))
cp--;
Xput(cs, cp, '\0');
vp = global(*wp);
/* Must be done before setting export. */
if (vp->flag & RDONLY) {
shf_flush(shf);
bi_errorf("%s is read only", *wp);
return 1;
}
if (Flag(FEXPORT))
typeset(*wp, EXPORT, 0, 0, 0);
if (!setstr(vp, Xstring(cs, cp), KSH_RETURN_ERROR)) {
shf_flush(shf);
return 1;
}
}
shf_flush(shf);
if (historyr) {
Xput(xs, xp, '\0');
source->line++;
histsave(source->line, Xstring(xs, xp), 1);
Xfree(xs, xp);
}
/* if this is the co-process fd, close the file descriptor
* (can get eof if and only if all processes are have died, ie,
* coproc.njobs is 0 and the pipe is closed).
*/
if (c == EOF && !ecode)
coproc_read_close(fd);
return ecode ? ecode : c == EOF;
}
int
c_eval(char **wp)
{
struct source *s, *saves = source;
int savef, rv;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
s = pushs(SWORDS, ATEMP);
s->u.strv = wp + builtin_opt.optind;
/*
* Handle case where the command is empty due to failed
* command substitution, eg, eval "$(false)".
* In this case, shell() will not set/change exstat (because
* compiled tree is empty), so will use this value.
* subst_exstat is cleared in execute(), so should be 0 if
* there were no substitutions.
*
* A strict reading of POSIX says we don't do this (though
* it is traditionally done). [from 1003.2-1992]
* 3.9.1: Simple Commands
* ... If there is a command name, execution shall
* continue as described in 3.9.1.1. If there
* is no command name, but the command contained a command
* substitution, the command shall complete with the exit
* status of the last command substitution
* 3.9.1.1: Command Search and Execution
* ...(1)...(a) If the command name matches the name of
* a special built-in utility, that special built-in
* utility shall be invoked.
* 3.14.5: Eval
* ... If there are no arguments, or only null arguments,
* eval shall return an exit status of zero.
*/
exstat = subst_exstat;
savef = Flag(FERREXIT);
Flag(FERREXIT) = 0;
rv = shell(s, false);
Flag(FERREXIT) = savef;
source = saves;
return (rv);
}
int
c_trap(char **wp)
{
int i;
char *s;
Trap *p;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
wp += builtin_opt.optind;
if (*wp == NULL) {
int anydfl = 0;
for (p = sigtraps, i = NSIG+1; --i >= 0; p++) {
if (p->trap == NULL)
anydfl = 1;
else {
shprintf("trap -- ");
print_value_quoted(p->trap);
shprintf(" %s\n", p->name);
}
}
return 0;
}
/*
* Use case sensitive lookup for first arg so the
* command 'exit' isn't confused with the pseudo-signal
* 'EXIT'.
*/
s = (gettrap(*wp, false) == NULL) ? *wp++ : NULL; /* get command */
if (s != NULL && s[0] == '-' && s[1] == '\0')
s = NULL;
/* set/clear traps */
while (*wp != NULL) {
p = gettrap(*wp++, true);
if (p == NULL) {
bi_errorf("bad signal %s", wp[-1]);
return 1;
}
settrap(p, s);
}
return 0;
}
int
c_exitreturn(char **wp)
{
int how = LEXIT;
int n;
char *arg;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
arg = wp[builtin_opt.optind];
if (arg) {
if (!getn(arg, &n)) {
exstat = 1;
warningf(true, "%s: bad number", arg);
} else
exstat = n;
}
if (wp[0][0] == 'r') { /* return */
struct env *ep;
/* need to tell if this is exit or return so trap exit will
* work right (POSIX)
*/
for (ep = e; ep; ep = ep->oenv)
if (STOP_RETURN(ep->type)) {
how = LRETURN;
break;
}
}
if (how == LEXIT && !really_exit && j_stopped_running()) {
really_exit = 1;
how = LSHELL;
}
quitenv(NULL); /* get rid of any i/o redirections */
unwind(how);
/* NOTREACHED */
return 0;
}
int
c_brkcont(char **wp)
{
int n, quit;
struct env *ep, *last_ep = NULL;
char *arg;
if (ksh_getopt(wp, &builtin_opt, null) == '?')
return 1;
arg = wp[builtin_opt.optind];
if (!arg)
n = 1;
else if (!bi_getn(arg, &n))
return 1;
quit = n;
if (quit <= 0) {
/* at&t ksh does this for non-interactive shells only - weird */
bi_errorf("%s: bad value", arg);
return 1;
}
/* Stop at E_NONE, E_PARSE, E_FUNC, or E_INCL */
for (ep = e; ep && !STOP_BRKCONT(ep->type); ep = ep->oenv)
if (ep->type == E_LOOP) {
if (--quit == 0)
break;
ep->flags |= EF_BRKCONT_PASS;
last_ep = ep;
}
if (quit) {
/* at&t ksh doesn't print a message - just does what it
* can. We print a message 'cause it helps in debugging
* scripts, but don't generate an error (ie, keep going).
*/
if (n == quit) {
warningf(true, "%s: cannot %s", wp[0], wp[0]);
return 0;
}
/* POSIX says if n is too big, the last enclosing loop
* shall be used. Doesn't say to print an error but we
* do anyway 'cause the user messed up.
*/
last_ep->flags &= ~EF_BRKCONT_PASS;
warningf(true, "%s: can only %s %d level(s)",
wp[0], wp[0], n - quit);
}
unwind(*wp[0] == 'b' ? LBREAK : LCONTIN);
/* NOTREACHED */
}
int
c_set(char **wp)
{
int argi, setargs;
struct block *l = e->loc;
char **owp = wp;
if (wp[1] == NULL) {
static const char *const args [] = { "set", "-", NULL };
return c_typeset((char **) args);
}
argi = parse_args(wp, OF_SET, &setargs);
if (argi < 0)
return 1;
/* set $# and $* */
if (setargs) {
owp = wp += argi - 1;
wp[0] = l->argv[0]; /* save $0 */
while (*++wp != NULL)
*wp = str_save(*wp, &l->area);
l->argc = wp - owp - 1;
l->argv = (char **) alloc(sizeofN(char *, l->argc+2), &l->area);
for (wp = l->argv; (*wp++ = *owp++) != NULL; )
;
}
/* POSIX says set exit status is 0, but old scripts that use
* getopt(1), use the construct: set -- $(getopt ab:c "$@")
* which assumes the exit value set will be that of the $()
* (subst_exstat is cleared in execute() so that it will be 0
* if there are no command substitutions).
*/
return subst_exstat;
}
int
c_unset(char **wp)
{
char *id;
int optc, unset_var = 1;
int ret = 0;
while ((optc = ksh_getopt(wp, &builtin_opt, "fv")) != -1)
switch (optc) {
case 'f':
unset_var = 0;
break;
case 'v':
unset_var = 1;
break;
case '?':
return 1;
}
wp += builtin_opt.optind;
for (; (id = *wp) != NULL; wp++)
if (unset_var) { /* unset variable */
struct tbl *vp = global(id);
if (!(vp->flag & ISSET))
ret = 1;
if ((vp->flag&RDONLY)) {
bi_errorf("%s is read only", vp->name);
return 1;
}
unset(vp, strchr(id, '[') ? 1 : 0);
} else { /* unset function */
if (define(id, (struct op *) NULL))
ret = 1;
}
return ret;
}
static void
p_time(struct shf *shf, int posix, struct timeval *tv, int width,
const char *prefix, const char *suffix)
{
if (posix)
shf_fprintf(shf, "%s%*ld.%02d%s", prefix ? prefix : "",
width, (long)tv->tv_sec, (int)tv->tv_usec / 10000, suffix);
else
shf_fprintf(shf, "%s%*ldm%d.%02ds%s", prefix ? prefix : "",
width, (long)tv->tv_sec / 60, (int)tv->tv_sec % 60,
(int)tv->tv_usec / 10000, suffix);
}
int
c_times(char **wp __attribute__((unused)))
{
struct rusage usage;
#ifdef RUSAGE_SELF
(void) getrusage(RUSAGE_SELF, &usage);
p_time(shl_stdout, 0, &usage.ru_utime, 0, NULL, " ");
p_time(shl_stdout, 0, &usage.ru_stime, 0, NULL, "\n");
#endif
#ifdef RUSAGE_CHILDREN
(void) getrusage(RUSAGE_CHILDREN, &usage);
p_time(shl_stdout, 0, &usage.ru_utime, 0, NULL, " ");
p_time(shl_stdout, 0, &usage.ru_stime, 0, NULL, "\n");
#endif
return 0;
}
/*
* time pipeline (really a statement, not a built-in command)
*/
int
timex(struct op *t, int f)
{
#define TF_NOARGS BIT(0)
#define TF_NOREAL BIT(1) /* don't report real time */
#define TF_POSIX BIT(2) /* report in posix format */
#if !defined(RUSAGE_SELF) || !defined(RUSAGE_CHILDREN)
return (0);
#else
int rv = 0;
struct rusage ru0, ru1, cru0, cru1;
struct timeval usrtime, systime, tv0, tv1;
int tf = 0;
extern struct timeval j_usrtime, j_systime; /* computed by j_wait */
char opts[1];
gettimeofday(&tv0, NULL);
getrusage(RUSAGE_SELF, &ru0);
getrusage(RUSAGE_CHILDREN, &cru0);
if (t->left) {
/*
* Two ways of getting cpu usage of a command: just use t0
* and t1 (which will get cpu usage from other jobs that
* finish while we are executing t->left), or get the
* cpu usage of t->left. at&t ksh does the former, while
* pdksh tries to do the later (the j_usrtime hack doesn't
* really work as it only counts the last job).
*/
timerclear(&j_usrtime);
timerclear(&j_systime);
if (t->left->type == TCOM)
t->left->str = opts;
opts[0] = 0;
rv = execute(t->left, f | XTIME);
tf |= opts[0];
gettimeofday(&tv1, NULL);
getrusage(RUSAGE_SELF, &ru1);
getrusage(RUSAGE_CHILDREN, &cru1);
} else
tf = TF_NOARGS;
if (tf & TF_NOARGS) { /* ksh93 - report shell times (shell+kids) */
tf |= TF_NOREAL;
timeradd(&ru0.ru_utime, &cru0.ru_utime, &usrtime);
timeradd(&ru0.ru_stime, &cru0.ru_stime, &systime);
} else {
timersub(&ru1.ru_utime, &ru0.ru_utime, &usrtime);
timeradd(&usrtime, &j_usrtime, &usrtime);
timersub(&ru1.ru_stime, &ru0.ru_stime, &systime);
timeradd(&systime, &j_systime, &systime);
}
if (!(tf & TF_NOREAL)) {
timersub(&tv1, &tv0, &tv1);
if (tf & TF_POSIX)
p_time(shl_out, 1, &tv1, 5, "real ", "\n");
else
p_time(shl_out, 0, &tv1, 5, NULL, " real ");
}
if (tf & TF_POSIX)
p_time(shl_out, 1, &usrtime, 5, "user ", "\n");
else
p_time(shl_out, 0, &usrtime, 5, NULL, " user ");
if (tf & TF_POSIX)
p_time(shl_out, 1, &systime, 5, "sys ", "\n");
else
p_time(shl_out, 0, &systime, 5, NULL, " system\n");
shf_flush(shl_out);
return (rv);
#endif
}
void
timex_hook(struct op *t, char **volatile *app)
{
char **wp = *app;
int optc;
int i, j;
Getopt opt;
ksh_getopt_reset(&opt, 0);
opt.optind = 0; /* start at the start */
while ((optc = ksh_getopt(wp, &opt, ":p")) != -1)
switch (optc) {
case 'p':
t->str[0] |= TF_POSIX;
break;
case '?':
errorf("time: -%s unknown option", opt.optarg);
case ':':
errorf("time: -%s requires an argument",
opt.optarg);
}
/* Copy command words down over options. */
if (opt.optind != 0) {
for (i = 0; i < opt.optind; i++)
afree(wp[i], ATEMP);
for (i = 0, j = opt.optind; (wp[i] = wp[j]); i++, j++)
;
}
if (!wp[0])
t->str[0] |= TF_NOARGS;
*app = wp;
}
/* exec with no args - args case is taken care of in comexec() */
int
c_exec(char **wp __attribute__((unused)))
{
int i;
/* make sure redirects stay in place */
if (e->savefd != NULL) {
for (i = 0; i < NUFILE; i++) {
if (e->savefd[i] > 0)
close(e->savefd[i]);
/* For ksh keep anything > 2 private */
if (i > 2 && e->savefd[i])
fcntl(i, F_SETFD, FD_CLOEXEC);
}
e->savefd = NULL;
}
return 0;
}
#ifndef MKSH_SMALL
static int
c_mknod(char **wp)
{
int argc, optc, rv = 0;
bool ismkfifo = false;
char **argv;
void *set = NULL;
mode_t mode = 0, oldmode = 0;
while ((optc = ksh_getopt(wp, &builtin_opt, "m:")) != -1) {
switch (optc) {
case 'm':
set = setmode(builtin_opt.optarg);
if (set == NULL) {
bi_errorf("invalid file mode");
return (1);
}
mode = getmode(set, DEFFILEMODE);
free(set);
break;
default:
goto c_mknod_usage;
}
}
argv = &wp[builtin_opt.optind];
if (argv[0] == '\0')
goto c_mknod_usage;
for (argc = 0; argv[argc]; argc++)
;
if (argc == 2 && argv[1][0] == 'p')
ismkfifo = true;
else if (argc != 4 || (argv[1][0] != 'b' && argv[1][0] != 'c'))
goto c_mknod_usage;
if (set != NULL)
oldmode = umask(0);
else
mode = DEFFILEMODE;
mode |= (argv[1][0] == 'b') ? S_IFBLK :
(argv[1][0] == 'c') ? S_IFCHR : 0;
if (!ismkfifo) {
unsigned long major, minor;
dev_t dv;
char *c;
major = strtoul(argv[2], &c, 0);
if ((c == argv[2]) || (*c != '\0')) {
bi_errorf("non-numeric device major '%s'", argv[2]);
goto c_mknod_err;
}
minor = strtoul(argv[3], &c, 0);
if ((c == argv[3]) || (*c != '\0')) {
bi_errorf("non-numeric device minor '%s'", argv[3]);
goto c_mknod_err;
}
dv = makedev(major, minor);
if ((unsigned long)major(dv) != major) {
bi_errorf("device major too large: %ld", major);
goto c_mknod_err;
}
if ((unsigned long)minor(dv) != minor) {
bi_errorf("device minor too large: %ld", minor);
goto c_mknod_err;
}
if (mknod(argv[0], mode, dv))
goto c_mknod_failed;
} else if (mkfifo(argv[0], mode)) {
c_mknod_failed:
bi_errorf("%s: %s", *wp, strerror(errno));
c_mknod_err:
rv = 1;
}
if (set)
umask(oldmode);
return (rv);
c_mknod_usage:
bi_errorf("usage: mknod [-m mode] name [b | c] major minor");
bi_errorf("usage: mknod [-m mode] name p");
return (1);
}
#endif
/* dummy function, special case in comexec() */
int
c_builtin(char **wp __attribute__((unused)))
{
return 0;
}
/* A leading = means assignments before command are kept;
* a leading * means a POSIX special builtin;
* a leading + means a POSIX regular builtin
* (* and + should not be combined).
*/
const struct builtin shbuiltins [] = {
{"*=.", c_dot},
{"*=:", c_label},
{"[", c_test},
{"*=break", c_brkcont},
{"=builtin", c_builtin},
{"*=continue", c_brkcont},
{"*=eval", c_eval},
{"*=exec", c_exec},
{"*=exit", c_exitreturn},
{"+false", c_label},
{"*=return", c_exitreturn},
{"*=set", c_set},
{"*=shift", c_shift},
{"=times", c_times},
{"*=trap", c_trap},
{"+=wait", c_wait},
{"+read", c_read},
{"test", c_test},
{"+true", c_label},
{"ulimit", c_ulimit},
{"+umask", c_umask},
{"*=unset", c_unset},
#ifndef MKSH_SMALL
{"mknod", c_mknod},
#endif
{NULL, NULL}
};
/* test(1) accepts the following grammar:
oexpr ::= aexpr | aexpr "-o" oexpr ;
aexpr ::= nexpr | nexpr "-a" aexpr ;
nexpr ::= primary | "!" nexpr ;
primary ::= unary-operator operand
| operand binary-operator operand
| operand
| "(" oexpr ")"
;
unary-operator ::= "-a"|"-r"|"-w"|"-x"|"-e"|"-f"|"-d"|"-c"|"-b"|"-p"|
"-u"|"-g"|"-k"|"-s"|"-t"|"-z"|"-n"|"-o"|"-O"|"-G"|
"-L"|"-h"|"-S"|"-H";
binary-operator ::= "="|"=="|"!="|"-eq"|"-ne"|"-ge"|"-gt"|"-le"|"-lt"|
"-nt"|"-ot"|"-ef"|
"<"|">" # rules used for [[ .. ]] expressions
;
operand ::= <any thing>
*/
#define T_ERR_EXIT 2 /* POSIX says > 1 for errors */
struct t_op {
char op_text[4];
Test_op op_num;
};
static const struct t_op u_ops [] = {
{"-a", TO_FILAXST },
{"-b", TO_FILBDEV },
{"-c", TO_FILCDEV },
{"-d", TO_FILID },
{"-e", TO_FILEXST },
{"-f", TO_FILREG },
{"-G", TO_FILGID },
{"-g", TO_FILSETG },
{"-h", TO_FILSYM },
{"-H", TO_FILCDF },
{"-k", TO_FILSTCK },
{"-L", TO_FILSYM },
{"-n", TO_STNZE },
{"-O", TO_FILUID },
{"-o", TO_OPTION },
{"-p", TO_FILFIFO },
{"-r", TO_FILRD },
{"-s", TO_FILGZ },
{"-S", TO_FILSOCK },
{"-t", TO_FILTT },
{"-u", TO_FILSETU },
{"-w", TO_FILWR },
{"-x", TO_FILEX },
{"-z", TO_STZER },
{"", TO_NONOP }
};
static const struct t_op b_ops [] = {
{"=", TO_STEQL },
{"==", TO_STEQL },
{"!=", TO_STNEQ },
{"<", TO_STLT },
{">", TO_STGT },
{"-eq", TO_INTEQ },
{"-ne", TO_INTNE },
{"-gt", TO_INTGT },
{"-ge", TO_INTGE },
{"-lt", TO_INTLT },
{"-le", TO_INTLE },
{"-ef", TO_FILEQ },
{"-nt", TO_FILNT },
{"-ot", TO_FILOT },
{"", TO_NONOP }
};
static int test_eaccess(const char *, int);
static int test_oexpr(Test_env *, int);
static int test_aexpr(Test_env *, int);
static int test_nexpr(Test_env *, int);
static int test_primary(Test_env *, int);
static int ptest_isa(Test_env *, Test_meta);
static const char *ptest_getopnd(Test_env *, Test_op, int);
static int ptest_eval(Test_env *, Test_op, const char *,
const char *, int);
static void ptest_error(Test_env *, int, const char *);
int
c_test(char **wp)
{
int argc;
int res;
Test_env te;
te.flags = 0;
te.isa = ptest_isa;
te.getopnd = ptest_getopnd;
te.eval = ptest_eval;
te.error = ptest_error;
for (argc = 0; wp[argc]; argc++)
;
if (strcmp(wp[0], "[") == 0) {
if (strcmp(wp[--argc], "]") != 0) {
bi_errorf("missing ]");
return T_ERR_EXIT;
}
}
te.pos.wp = wp + 1;
te.wp_end = wp + argc;
/*
* Handle the special cases from POSIX.2, section 4.62.4.
* Implementation of all the rules isn't necessary since
* our parser does the right thing for the omitted steps.
*/
if (argc <= 5) {
char **owp = wp;
int invert = 0;
Test_op op;
const char *opnd1, *opnd2;
while (--argc >= 0) {
if ((*te.isa)(&te, TM_END))
return !0;
if (argc == 3) {
opnd1 = (*te.getopnd)(&te, TO_NONOP, 1);
if ((op = (*te.isa)(&te, TM_BINOP))) {
opnd2 = (*te.getopnd)(&te, op, 1);
res = (*te.eval)(&te, op, opnd1,
opnd2, 1);
if (te.flags & TEF_ERROR)
return T_ERR_EXIT;
if (invert & 1)
res = !res;
return !res;
}
/* back up to opnd1 */
te.pos.wp--;
}
if (argc == 1) {
opnd1 = (*te.getopnd)(&te, TO_NONOP, 1);
if (strcmp(opnd1, "-t") == 0)
break;
res = (*te.eval)(&te, TO_STNZE, opnd1,
NULL, 1);
if (invert & 1)
res = !res;
return !res;
}
if ((*te.isa)(&te, TM_NOT)) {
invert++;
} else
break;
}
te.pos.wp = owp + 1;
}
return test_parse(&te);
}
/*
* Generic test routines.
*/
Test_op
test_isop(Test_meta meta, const char *s)
{
char sc1;
const struct t_op *tbl;
tbl = meta == TM_UNOP ? u_ops : b_ops;
if (*s) {
sc1 = s[1];
for (; tbl->op_text[0]; tbl++)
if (sc1 == tbl->op_text[1] && !strcmp(s, tbl->op_text))
return tbl->op_num;
}
return TO_NONOP;
}
int
test_eval(Test_env *te, Test_op op, const char *opnd1, const char *opnd2,
int do_eval)
{
int res;
int not;
struct stat b1, b2;
if (!do_eval)
return 0;
switch ((int) op) {
/*
* Unary Operators
*/
case TO_STNZE: /* -n */
return *opnd1 != '\0';
case TO_STZER: /* -z */
return *opnd1 == '\0';
case TO_OPTION: /* -o */
if ((not = *opnd1 == '!'))
opnd1++;
if ((res = option(opnd1)) < 0)
res = 0;
else {
res = Flag(res);
if (not)
res = !res;
}
return res;
case TO_FILRD: /* -r */
return test_eaccess(opnd1, R_OK) == 0;
case TO_FILWR: /* -w */
return test_eaccess(opnd1, W_OK) == 0;
case TO_FILEX: /* -x */
return test_eaccess(opnd1, X_OK) == 0;
case TO_FILAXST: /* -a */
case TO_FILEXST: /* -e */
return stat(opnd1, &b1) == 0;
case TO_FILREG: /* -r */
return stat(opnd1, &b1) == 0 && S_ISREG(b1.st_mode);
case TO_FILID: /* -d */
return stat(opnd1, &b1) == 0 && S_ISDIR(b1.st_mode);
case TO_FILCDEV: /* -c */
return stat(opnd1, &b1) == 0 && S_ISCHR(b1.st_mode);
case TO_FILBDEV: /* -b */
return stat(opnd1, &b1) == 0 && S_ISBLK(b1.st_mode);
case TO_FILFIFO: /* -p */
return stat(opnd1, &b1) == 0 && S_ISFIFO(b1.st_mode);
case TO_FILSYM: /* -h -L */
return lstat(opnd1, &b1) == 0 && S_ISLNK(b1.st_mode);
case TO_FILSOCK: /* -S */
return stat(opnd1, &b1) == 0 && S_ISSOCK(b1.st_mode);
case TO_FILCDF:/* -H HP context dependent files (directories) */
return 0;
case TO_FILSETU: /* -u */
return stat(opnd1, &b1) == 0 &&
(b1.st_mode & S_ISUID) == S_ISUID;
case TO_FILSETG: /* -g */
return stat(opnd1, &b1) == 0 &&
(b1.st_mode & S_ISGID) == S_ISGID;
case TO_FILSTCK: /* -k */
#ifdef S_ISVTX
return stat(opnd1, &b1) == 0 &&
(b1.st_mode & S_ISVTX) == S_ISVTX;
#else
return (0);
#endif
case TO_FILGZ: /* -s */
return stat(opnd1, &b1) == 0 && b1.st_size > 0L;
case TO_FILTT: /* -t */
if (opnd1 && !bi_getn(opnd1, &res)) {
te->flags |= TEF_ERROR;
res = 0;
} else
res = isatty(opnd1 ? res : 0);
return res;
case TO_FILUID: /* -O */
return stat(opnd1, &b1) == 0 && b1.st_uid == ksheuid;
case TO_FILGID: /* -G */
return stat(opnd1, &b1) == 0 && b1.st_gid == getegid();
/*
* Binary Operators
*/
case TO_STEQL: /* = */
if (te->flags & TEF_DBRACKET)
return gmatchx(opnd1, opnd2, false);
return strcmp(opnd1, opnd2) == 0;
case TO_STNEQ: /* != */
if (te->flags & TEF_DBRACKET)
return !gmatchx(opnd1, opnd2, false);
return strcmp(opnd1, opnd2) != 0;
case TO_STLT: /* < */
return strcmp(opnd1, opnd2) < 0;
case TO_STGT: /* > */
return strcmp(opnd1, opnd2) > 0;
case TO_INTEQ: /* -eq */
case TO_INTNE: /* -ne */
case TO_INTGE: /* -ge */
case TO_INTGT: /* -gt */
case TO_INTLE: /* -le */
case TO_INTLT: /* -lt */
{
long v1, v2;
if (!evaluate(opnd1, &v1, KSH_RETURN_ERROR, false) ||
!evaluate(opnd2, &v2, KSH_RETURN_ERROR, false)) {
/* error already printed.. */
te->flags |= TEF_ERROR;
return 1;
}
switch ((int) op) {
case TO_INTEQ:
return v1 == v2;
case TO_INTNE:
return v1 != v2;
case TO_INTGE:
return v1 >= v2;
case TO_INTGT:
return v1 > v2;
case TO_INTLE:
return v1 <= v2;
case TO_INTLT:
return v1 < v2;
}
}
case TO_FILNT: /* -nt */
{
int s2;
/* ksh88/ksh93 succeed if file2 can't be stated
* (subtly different from 'does not exist').
*/
return stat(opnd1, &b1) == 0 &&
(((s2 = stat(opnd2, &b2)) == 0 &&
b1.st_mtime > b2.st_mtime) || s2 < 0);
}
case TO_FILOT: /* -ot */
{
int s1;
/* ksh88/ksh93 succeed if file1 can't be stated
* (subtly different from 'does not exist').
*/
return stat(opnd2, &b2) == 0 &&
(((s1 = stat(opnd1, &b1)) == 0 &&
b1.st_mtime < b2.st_mtime) || s1 < 0);
}
case TO_FILEQ: /* -ef */
return stat (opnd1, &b1) == 0 && stat (opnd2, &b2) == 0 &&
b1.st_dev == b2.st_dev && b1.st_ino == b2.st_ino;
}
(*te->error)(te, 0, "internal error: unknown op");
return 1;
}
/* On most/all unixen, access() says everything is executable for root... */
static int
test_eaccess(const char *pathl, int mode)
{
int res = eaccess(pathl, mode);
if (res == 0 && ksheuid == 0 && (mode & X_OK)) {
struct stat statb;
if (stat(pathl, &statb) < 0)
res = -1;
else if (S_ISDIR(statb.st_mode))
res = 0;
else
res = (statb.st_mode & (S_IXUSR|S_IXGRP|S_IXOTH)) ?
0 : -1;
}
return res;
}
int
test_parse(Test_env *te)
{
int res;
res = test_oexpr(te, 1);
if (!(te->flags & TEF_ERROR) && !(*te->isa)(te, TM_END))
(*te->error)(te, 0, "unexpected operator/operand");
return (te->flags & TEF_ERROR) ? T_ERR_EXIT : !res;
}
static int
test_oexpr(Test_env *te, int do_eval)
{
int res;
res = test_aexpr(te, do_eval);
if (res)
do_eval = 0;
if (!(te->flags & TEF_ERROR) && (*te->isa)(te, TM_OR))
return test_oexpr(te, do_eval) || res;
return res;
}
static int
test_aexpr(Test_env *te, int do_eval)
{
int res;
res = test_nexpr(te, do_eval);
if (!res)
do_eval = 0;
if (!(te->flags & TEF_ERROR) && (*te->isa)(te, TM_AND))
return test_aexpr(te, do_eval) && res;
return res;
}
static int
test_nexpr(Test_env *te, int do_eval)
{
if (!(te->flags & TEF_ERROR) && (*te->isa)(te, TM_NOT))
return !test_nexpr(te, do_eval);
return test_primary(te, do_eval);
}
static int
test_primary(Test_env *te, int do_eval)
{
const char *opnd1, *opnd2;
int res;
Test_op op;
if (te->flags & TEF_ERROR)
return 0;
if ((*te->isa)(te, TM_OPAREN)) {
res = test_oexpr(te, do_eval);
if (te->flags & TEF_ERROR)
return 0;
if (!(*te->isa)(te, TM_CPAREN)) {
(*te->error)(te, 0, "missing closing paren");
return 0;
}
return res;
}
if ((op = (*te->isa)(te, TM_UNOP))) {
/* unary expression */
opnd1 = (*te->getopnd)(te, op, do_eval);
if (!opnd1) {
(*te->error)(te, -1, "missing argument");
return 0;
}
return (*te->eval)(te, op, opnd1, NULL, do_eval);
}
opnd1 = (*te->getopnd)(te, TO_NONOP, do_eval);
if (!opnd1) {
(*te->error)(te, 0, "expression expected");
return 0;
}
if ((op = (*te->isa)(te, TM_BINOP))) {
/* binary expression */
opnd2 = (*te->getopnd)(te, op, do_eval);
if (!opnd2) {
(*te->error)(te, -1, "missing second argument");
return 0;
}
return (*te->eval)(te, op, opnd1, opnd2, do_eval);
}
if (te->flags & TEF_DBRACKET) {
(*te->error)(te, -1, "missing expression operator");
return 0;
}
return (*te->eval)(te, TO_STNZE, opnd1, NULL, do_eval);
}
/*
* Plain test (test and [ .. ]) specific routines.
*/
/* Test if the current token is a whatever. Accepts the current token if
* it is. Returns 0 if it is not, non-zero if it is (in the case of
* TM_UNOP and TM_BINOP, the returned value is a Test_op).
*/
static int
ptest_isa(Test_env *te, Test_meta meta)
{
/* Order important - indexed by Test_meta values */
static const char *const tokens[] = {
"-o", "-a", "!", "(", ")"
};
int ret;
if (te->pos.wp >= te->wp_end)
return meta == TM_END;
if (meta == TM_UNOP || meta == TM_BINOP)
ret = test_isop(meta, *te->pos.wp);
else if (meta == TM_END)
ret = 0;
else
ret = strcmp(*te->pos.wp, tokens[(int) meta]) == 0;
/* Accept the token? */
if (ret)
te->pos.wp++;
return ret;
}
static const char *
ptest_getopnd(Test_env *te, Test_op op, int do_eval __attribute__((unused)))
{
if (te->pos.wp >= te->wp_end)
return op == TO_FILTT ? "1" : NULL;
return *te->pos.wp++;
}
static int
ptest_eval(Test_env *te, Test_op op, const char *opnd1, const char *opnd2,
int do_eval)
{
return test_eval(te, op, opnd1, opnd2, do_eval);
}
static void
ptest_error(Test_env *te, int offset, const char *msg)
{
const char *op = te->pos.wp + offset >= te->wp_end ?
NULL : te->pos.wp[offset];
te->flags |= TEF_ERROR;
if (op)
bi_errorf("%s: %s", op, msg);
else
bi_errorf("%s", msg);
}
#define SOFT 0x1
#define HARD 0x2
int
c_ulimit(char **wp)
{
static const struct limits {
const char *name;
enum { RLIMIT, ULIMIT } which;
int gcmd; /* get command */
int scmd; /* set command (or -1, if no set command) */
int factor; /* multiply by to get rlim_{cur,max} values */
char option;
} limits[] = {
/* Do not use options -H, -S or -a */
#ifdef RLIMIT_CORE
{ "coredump(blocks)", RLIMIT, RLIMIT_CORE, RLIMIT_CORE,
512, 'c' },
#endif
#ifdef RLIMIT_DATA
{ "data(KiB)", RLIMIT, RLIMIT_DATA, RLIMIT_DATA,
1024, 'd' },
#endif
#ifdef RLIMIT_FSIZE
{ "file(blocks)", RLIMIT, RLIMIT_FSIZE, RLIMIT_FSIZE,
512, 'f' },
#endif
#ifdef RLIMIT_LOCKS
{ "flocks", RLIMIT, RLIMIT_LOCKS, RLIMIT_LOCKS,
-1, 'L' },
#endif
#ifdef RLIMIT_MEMLOCK
{ "lockedmem(KiB)", RLIMIT, RLIMIT_MEMLOCK, RLIMIT_MEMLOCK,
1024, 'l' },
#endif
#ifdef RLIMIT_RSS
{ "memory(KiB)", RLIMIT, RLIMIT_RSS, RLIMIT_RSS,
1024, 'm' },
#endif
#ifdef RLIMIT_NOFILE
{ "nofiles(descriptors)", RLIMIT, RLIMIT_NOFILE, RLIMIT_NOFILE,
1, 'n' },
#endif
#ifdef RLIMIT_NPROC
{ "processes", RLIMIT, RLIMIT_NPROC, RLIMIT_NPROC,
1, 'p' },
#endif
#ifdef RLIMIT_STACK
{ "stack(KiB)", RLIMIT, RLIMIT_STACK, RLIMIT_STACK,
1024, 's' },
#endif
#ifdef RLIMIT_TIME
{ "humantime(seconds)", RLIMIT, RLIMIT_TIME, RLIMIT_TIME,
1, 'T' },
#endif
#ifdef RLIMIT_CPU
{ "time(cpu-seconds)", RLIMIT, RLIMIT_CPU, RLIMIT_CPU,
1, 't' },
#endif
#ifdef RLIMIT_VMEM
{ "vmemory(KiB)", RLIMIT, RLIMIT_VMEM, RLIMIT_VMEM,
1024, 'v' },
#endif
#ifdef RLIMIT_SWAP
{ "swap(KiB)", RLIMIT, RLIMIT_SWAP, RLIMIT_SWAP,
1024, 'w' },
#endif
{ NULL, 0, 0, 0, 0, 0 }
};
static char opts[3 + NELEM(limits)];
rlim_t val = 0;
int how = SOFT | HARD;
const struct limits *l;
int set, all = 0;
int optc, what;
struct rlimit limit;
if (!opts[0]) {
/* build options string on first call - yuck */
char *p = opts;
*p++ = 'H'; *p++ = 'S'; *p++ = 'a';
for (l = limits; l->name; l++)
*p++ = l->option;
*p = '\0';
}
what = 'f';
while ((optc = ksh_getopt(wp, &builtin_opt, opts)) != -1)
switch (optc) {
case 'H':
how = HARD;
break;
case 'S':
how = SOFT;
break;
case 'a':
all = 1;
break;
case '?':
return 1;
default:
what = optc;
}
for (l = limits; l->name && l->option != what; l++)
;
if (!l->name) {
internal_errorf(0, "ulimit: %c", what);
return 1;
}
wp += builtin_opt.optind;
set = *wp ? 1 : 0;
if (set) {
if (all || wp[1]) {
bi_errorf("too many arguments");
return 1;
}
if (strcmp(wp[0], "unlimited") == 0)
val = RLIM_INFINITY;
else {
long rval;
if (!evaluate(wp[0], &rval, KSH_RETURN_ERROR, false))
return 1;
/* Avoid problems caused by typos that
* evaluate misses due to evaluating unset
* parameters to 0...
* If this causes problems, will have to
* add parameter to evaluate() to control
* if unset params are 0 or an error.
*/
if (!rval && !digit(wp[0][0])) {
bi_errorf("invalid limit: %s", wp[0]);
return 1;
}
val = rval * l->factor;
}
}
if (all) {
for (l = limits; l->name; l++) {
if (l->which == RLIMIT) {
#ifdef RLIMIT_LOCKS
if (getrlimit(l->gcmd, &limit) < 0)
if ((errno == EINVAL) &&
(l->gcmd == RLIMIT_LOCKS)) {
limit.rlim_cur = RLIM_INFINITY;
limit.rlim_max = RLIM_INFINITY;
}
#else
getrlimit(l->gcmd, &limit);
#endif
if (how & SOFT)
val = limit.rlim_cur;
else if (how & HARD)
val = limit.rlim_max;
}
shprintf("%-20s ", l->name);
if (val == RLIM_INFINITY)
shprintf("unlimited\n");
else {
val /= l->factor;
shprintf("%ld\n", (long) val);
}
}
return 0;
}
if (l->which == RLIMIT) {
getrlimit(l->gcmd, &limit);
if (set) {
if (how & SOFT)
limit.rlim_cur = val;
if (how & HARD)
limit.rlim_max = val;
if (setrlimit(l->scmd, &limit) < 0) {
if (errno == EPERM)
bi_errorf("exceeds allowable limit");
else
bi_errorf("bad limit: %s",
strerror(errno));
return 1;
}
} else {
if (how & SOFT)
val = limit.rlim_cur;
else if (how & HARD)
val = limit.rlim_max;
}
}
if (!set) {
if (val == RLIM_INFINITY)
shprintf("unlimited\n");
else {
val /= l->factor;
shprintf("%ld\n", (long) val);
}
}
return (0);
}