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/* $NetBSD: parser.c,v 1.181 2023/10/20 22:08:52 kre Exp $ */
/*-
* Copyright (c) 1991, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Kenneth Almquist.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
#ifndef lint
#if 0
static char sccsid[] = "@(#)parser.c 8.7 (Berkeley) 5/16/95";
#else
__RCSID("$NetBSD: parser.c,v 1.181 2023/10/20 22:08:52 kre Exp $");
#endif
#endif /* not lint */
#include <limits.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include "shell.h"
#include "parser.h"
#include "nodes.h"
#include "expand.h" /* defines rmescapes() */
#include "eval.h" /* defines commandname */
#include "syntax.h"
#include "options.h"
#include "input.h"
#include "output.h"
#include "redir.h" /* defines max_user_fd */
#include "var.h"
#include "error.h"
#include "memalloc.h"
#include "mystring.h"
#include "alias.h"
#include "show.h"
#ifndef SMALL
#include "myhistedit.h"
#endif
#ifdef DEBUG
#include "nodenames.h"
#endif
/*
* Shell command parser.
*/
/* values returned by readtoken */
#include "token.h"
#define OPENBRACE '{'
#define CLOSEBRACE '}'
struct HereDoc {
struct HereDoc *next; /* next here document in list */
union node *here; /* redirection node */
char *eofmark; /* string indicating end of input */
int striptabs; /* if set, strip leading tabs */
int startline; /* line number where << seen */
};
MKINIT struct parse_state parse_state;
union parse_state_p psp = { .c_current_parser = &parse_state };
static const struct parse_state init_parse_state = { /* all 0's ... */
.ps_heredoclist = NULL,
.ps_parsebackquote = 0,
.ps_doprompt = 0,
.ps_needprompt = 0,
.ps_lasttoken = 0,
.ps_tokpushback = 0,
.ps_wordtext = NULL,
.ps_checkkwd = 0,
.ps_redirnode = NULL,
.ps_heredoc = NULL,
.ps_quoteflag = 0,
.ps_startlinno = 0,
.ps_funclinno = 0,
.ps_elided_nl = 0,
};
STATIC union node *list(int);
STATIC union node *andor(void);
STATIC union node *pipeline(void);
STATIC union node *command(void);
STATIC union node *simplecmd(union node **, union node *);
STATIC union node *makeword(int);
STATIC void parsefname(void);
STATIC int slurp_heredoc(char *const, const int, const int);
STATIC void readheredocs(void);
STATIC int peektoken(void);
STATIC int readtoken(void);
STATIC int xxreadtoken(void);
STATIC int readtoken1(int, char const *, int);
STATIC int noexpand(char *);
STATIC void linebreak(void);
STATIC void consumetoken(int);
STATIC void synexpect(int, const char *) __dead;
STATIC void synerror(const char *) __dead;
STATIC void setprompt(int);
STATIC int pgetc_linecont(void);
static const char EOFhere[] = "EOF reading here (<<) document";
#ifdef DEBUG
int parsing = 0;
#endif
/*
* Read and parse a command. Returns NEOF on end of file. (NULL is a
* valid parse tree indicating a blank line.)
*/
union node *
parsecmd(int interact)
{
int t;
union node *n;
#ifdef DEBUG
parsing++;
#endif
tokpushback = 0;
checkkwd = 0;
doprompt = interact;
if (doprompt)
setprompt(1);
else
setprompt(0);
needprompt = 0;
t = readtoken();
#ifdef DEBUG
parsing--;
#endif
if (t == TEOF)
return NEOF;
if (t == TNL)
return NULL;
#ifdef DEBUG
parsing++;
#endif
tokpushback++;
n = list(1);
#ifdef DEBUG
parsing--;
#endif
if (heredoclist)
error("%d: Here document (<<%s) expected but not present",
heredoclist->startline, heredoclist->eofmark);
return n;
}
STATIC union node *
list(int nlflag)
{
union node *ntop, *n1, *n2, *n3;
int tok;
CTRACE(DBG_PARSE, ("list(%d): entered @%d\n",nlflag,plinno));
checkkwd = CHKNL | CHKKWD | CHKALIAS;
if (nlflag == 0 && tokendlist[peektoken()])
return NULL;
ntop = n1 = NULL;
for (;;) {
n2 = andor();
tok = readtoken();
if (tok == TBACKGND) {
if (n2->type == NCMD || n2->type == NPIPE)
n2->ncmd.backgnd = 1;
else if (n2->type == NREDIR)
n2->type = NBACKGND;
else {
n3 = stalloc(sizeof(struct nredir));
n3->type = NBACKGND;
n3->nredir.n = n2;
n3->nredir.redirect = NULL;
n2 = n3;
}
}
if (ntop == NULL)
ntop = n2;
else if (n1 == NULL) {
n1 = stalloc(sizeof(struct nbinary));
n1->type = NSEMI;
n1->nbinary.ch1 = ntop;
n1->nbinary.ch2 = n2;
ntop = n1;
} else {
n3 = stalloc(sizeof(struct nbinary));
n3->type = NSEMI;
n3->nbinary.ch1 = n1->nbinary.ch2;
n3->nbinary.ch2 = n2;
n1->nbinary.ch2 = n3;
n1 = n3;
}
switch (tok) {
case TBACKGND:
case TSEMI:
tok = readtoken();
/* FALLTHROUGH */
case TNL:
if (tok == TNL) {
readheredocs();
if (nlflag)
return ntop;
} else if (tok == TEOF && nlflag)
return ntop;
else
tokpushback++;
checkkwd = CHKNL | CHKKWD | CHKALIAS;
if (!nlflag && tokendlist[peektoken()])
return ntop;
break;
case TEOF:
pungetc(); /* push back EOF on input */
return ntop;
default:
if (nlflag)
synexpect(-1, 0);
tokpushback++;
return ntop;
}
}
}
STATIC union node *
andor(void)
{
union node *n1, *n2, *n3;
int t;
CTRACE(DBG_PARSE, ("andor: entered @%d\n", plinno));
n1 = pipeline();
for (;;) {
if ((t = readtoken()) == TAND) {
t = NAND;
} else if (t == TOR) {
t = NOR;
} else {
tokpushback++;
return n1;
}
n2 = pipeline();
n3 = stalloc(sizeof(struct nbinary));
n3->type = t;
n3->nbinary.ch1 = n1;
n3->nbinary.ch2 = n2;
n1 = n3;
}
}
STATIC union node *
pipeline(void)
{
union node *n1, *n2, *pipenode;
struct nodelist *lp, *prev;
int negate;
CTRACE(DBG_PARSE, ("pipeline: entered @%d\n", plinno));
negate = 0;
checkkwd = CHKNL | CHKKWD | CHKALIAS;
while (readtoken() == TNOT) {
CTRACE(DBG_PARSE, ("pipeline: TNOT recognized\n"));
#ifndef BOGUS_NOT_COMMAND
if (posix && negate)
synerror("2nd \"!\" unexpected");
#endif
negate++;
}
tokpushback++;
n1 = command();
if (readtoken() == TPIPE) {
pipenode = stalloc(sizeof(struct npipe));
pipenode->type = NPIPE;
pipenode->npipe.backgnd = 0;
lp = stalloc(sizeof(struct nodelist));
pipenode->npipe.cmdlist = lp;
lp->n = n1;
do {
prev = lp;
lp = stalloc(sizeof(struct nodelist));
lp->n = command();
prev->next = lp;
} while (readtoken() == TPIPE);
lp->next = NULL;
n1 = pipenode;
}
tokpushback++;
if (negate) {
CTRACE(DBG_PARSE, ("%snegate pipeline\n",
(negate&1) ? "" : "double "));
n2 = stalloc(sizeof(struct nnot));
n2->type = (negate & 1) ? NNOT : NDNOT;
n2->nnot.com = n1;
return n2;
} else
return n1;
}
STATIC union node *
command(void)
{
union node *n1, *n2;
union node *ap, **app;
union node *cp, **cpp;
union node *redir, **rpp;
int t;
#ifdef BOGUS_NOT_COMMAND
int negate = 0;
#endif
CTRACE(DBG_PARSE, ("command: entered @%d\n", plinno));
checkkwd = CHKNL | CHKKWD | CHKALIAS;
redir = NULL;
n1 = NULL;
rpp = &redir;
/* Check for redirection which may precede command */
while (readtoken() == TREDIR) {
*rpp = n2 = redirnode;
rpp = &n2->nfile.next;
parsefname();
}
tokpushback++;
#ifdef BOGUS_NOT_COMMAND /* only in pipeline() */
while (readtoken() == TNOT) {
CTRACE(DBG_PARSE, ("command: TNOT (bogus) recognized\n"));
negate++;
}
tokpushback++;
#endif
switch (readtoken()) {
case TIF:
n1 = stalloc(sizeof(struct nif));
n1->type = NIF;
n1->nif.test = list(0);
consumetoken(TTHEN);
n1->nif.ifpart = list(0);
n2 = n1;
while (readtoken() == TELIF) {
n2->nif.elsepart = stalloc(sizeof(struct nif));
n2 = n2->nif.elsepart;
n2->type = NIF;
n2->nif.test = list(0);
consumetoken(TTHEN);
n2->nif.ifpart = list(0);
}
if (lasttoken == TELSE)
n2->nif.elsepart = list(0);
else {
n2->nif.elsepart = NULL;
tokpushback++;
}
consumetoken(TFI);
checkkwd = CHKKWD | CHKALIAS;
break;
case TWHILE:
case TUNTIL:
n1 = stalloc(sizeof(struct nbinary));
n1->type = (lasttoken == TWHILE)? NWHILE : NUNTIL;
n1->nbinary.ch1 = list(0);
consumetoken(TDO);
n1->nbinary.ch2 = list(0);
consumetoken(TDONE);
checkkwd = CHKKWD | CHKALIAS;
break;
case TFOR:
if (readtoken() != TWORD || quoteflag || ! goodname(wordtext))
synerror("Bad for loop variable");
n1 = stalloc(sizeof(struct nfor));
n1->type = NFOR;
n1->nfor.var = wordtext;
n1->nfor.lineno = startlinno;
linebreak();
if (lasttoken==TWORD && !quoteflag && equal(wordtext,"in")) {
app = &ap;
while (readtoken() == TWORD) {
n2 = makeword(startlinno);
*app = n2;
app = &n2->narg.next;
}
*app = NULL;
n1->nfor.args = ap;
if (lasttoken != TNL && lasttoken != TSEMI)
synexpect(TSEMI, 0);
if (lasttoken == TNL)
readheredocs();
} else {
static char argvars[5] = {
CTLVAR, VSNORMAL|VSQUOTE, '@', '=', '\0'
};
n2 = stalloc(sizeof(struct narg));
n2->type = NARG;
n2->narg.text = argvars;
n2->narg.backquote = NULL;
n2->narg.next = NULL;
n2->narg.lineno = startlinno;
n1->nfor.args = n2;
/*
* Newline or semicolon here is optional (but note
* that the original Bourne shell only allowed NL).
*/
if (lasttoken != TNL && lasttoken != TSEMI)
tokpushback++;
}
checkkwd = CHKNL | CHKKWD | CHKALIAS;
if ((t = readtoken()) == TDO)
t = TDONE;
else if (t == TBEGIN)
t = TEND;
else
synexpect(TDO, 0);
n1->nfor.body = list(0);
consumetoken(t);
checkkwd = CHKKWD | CHKALIAS;
break;
case TCASE:
n1 = stalloc(sizeof(struct ncase));
n1->type = NCASE;
n1->ncase.lineno = startlinno - elided_nl;
consumetoken(TWORD);
n1->ncase.expr = makeword(startlinno);
linebreak();
if (lasttoken != TWORD || !equal(wordtext, "in"))
synexpect(-1, "in");
cpp = &n1->ncase.cases;
checkkwd = CHKNL | CHKKWD;
readtoken();
/*
* Both ksh and bash accept 'case x in esac'
* so configure scripts started taking advantage of this.
* The page: http://pubs.opengroup.org/onlinepubs/\
* 009695399/utilities/xcu_chap02.html contradicts itself,
* as to if this is legal; the "Case Conditional Format"
* paragraph shows one case is required, but the "Grammar"
* section shows a grammar that explicitly allows the no
* case option.
*
* The standard also says (section 2.10):
* This formal syntax shall take precedence over the
* preceding text syntax description.
* ie: the "Grammar" section wins. The text is just
* a rough guide (introduction to the common case.)
*/
while (lasttoken != TESAC) {
*cpp = cp = stalloc(sizeof(struct nclist));
cp->type = NCLIST;
app = &cp->nclist.pattern;
if (lasttoken == TLP)
readtoken();
for (;;) {
if (lasttoken < TWORD)
synexpect(TWORD, 0);
*app = ap = makeword(startlinno);
checkkwd = CHKNL | CHKKWD;
if (readtoken() != TPIPE)
break;
app = &ap->narg.next;
readtoken();
}
if (lasttoken != TRP)
synexpect(TRP, 0);
cp->nclist.lineno = startlinno;
cp->nclist.body = list(0);
checkkwd = CHKNL | CHKKWD | CHKALIAS;
if ((t = readtoken()) != TESAC) {
if (t != TENDCASE && t != TCASEFALL) {
synexpect(TENDCASE, 0);
} else {
if (t == TCASEFALL)
cp->type = NCLISTCONT;
checkkwd = CHKNL | CHKKWD;
readtoken();
}
}
cpp = &cp->nclist.next;
}
*cpp = NULL;
checkkwd = CHKKWD | CHKALIAS;
break;
case TLP:
n1 = stalloc(sizeof(struct nredir));
n1->type = NSUBSHELL;
n1->nredir.n = list(0);
n1->nredir.redirect = NULL;
if (n1->nredir.n == NULL)
synexpect(-1, 0);
consumetoken(TRP);
checkkwd = CHKKWD | CHKALIAS;
break;
case TBEGIN:
n1 = list(0);
if (posix && n1 == NULL)
synexpect(-1, 0);
consumetoken(TEND);
checkkwd = CHKKWD | CHKALIAS;
break;
case TBACKGND:
case TSEMI:
case TAND:
case TOR:
case TPIPE:
case TNL:
case TEOF:
case TRP:
case TENDCASE:
case TCASEFALL:
/*
* simple commands must have something in them,
* either a word (which at this point includes a=b)
* or a redirection. If we reached the end of the
* command (which one of these tokens indicates)
* when we are just starting, and have not had a
* redirect, then ...
*
* nb: it is still possible to end up with empty
* simple commands, if the "command" is a var
* expansion that produces nothing:
* X= ; $X && $X
* --> &&
* That is OK and is handled after word expansions.
*/
if (!redir)
synexpect(-1, 0);
/*
* continue to build a node containing the redirect.
* the tokpushback means that our ending token will be
* read again in simplecmd, causing it to terminate,
* so only the redirect(s) will be contained in the
* returned n1
*/
/* FALLTHROUGH */
case TWORD:
tokpushback++;
n1 = simplecmd(rpp, redir);
goto checkneg;
default:
synexpect(-1, 0);
/* NOTREACHED */
}
/* Now check for redirection which may follow command */
while (readtoken() == TREDIR) {
*rpp = n2 = redirnode;
rpp = &n2->nfile.next;
parsefname();
}
tokpushback++;
*rpp = NULL;
if (redir) {
if (n1 == NULL || n1->type != NSUBSHELL) {
n2 = stalloc(sizeof(struct nredir));
n2->type = NREDIR;
n2->nredir.n = n1;
n1 = n2;
}
n1->nredir.redirect = redir;
}
checkneg:
#ifdef BOGUS_NOT_COMMAND
if (negate) {
VTRACE(DBG_PARSE, ("bogus %snegate command\n",
(negate&1) ? "" : "double "));
n2 = stalloc(sizeof(struct nnot));
n2->type = (negate & 1) ? NNOT : NDNOT;
n2->nnot.com = n1;
return n2;
}
else
#endif
return n1;
}
STATIC union node *
simplecmd(union node **rpp, union node *redir)
{
union node *args, **app;
union node *n = NULL;
int line = 0;
int savecheckkwd;
#ifdef BOGUS_NOT_COMMAND
union node *n2;
int negate = 0;
#endif
CTRACE(DBG_PARSE, ("simple command with%s redir already @%d\n",
redir ? "" : "out", plinno));
/* If we don't have any redirections already, then we must reset */
/* rpp to be the address of the local redir variable. */
if (redir == 0)
rpp = &redir;
args = NULL;
app = &args;
#ifdef BOGUS_NOT_COMMAND /* pipelines get negated, commands do not */
while (readtoken() == TNOT) {
VTRACE(DBG_PARSE, ("simplcmd: bogus TNOT recognized\n"));
negate++;
}
tokpushback++;
#endif
savecheckkwd = CHKALIAS;
for (;;) {
checkkwd = savecheckkwd;
if (readtoken() == TWORD) {
if (line == 0)
line = startlinno;
n = makeword(startlinno);
*app = n;
app = &n->narg.next;
if (savecheckkwd != 0 && !isassignment(wordtext))
savecheckkwd = 0;
} else if (lasttoken == TREDIR) {
if (line == 0)
line = startlinno;
*rpp = n = redirnode;
rpp = &n->nfile.next;
parsefname(); /* read name of redirection file */
} else if (lasttoken == TLP && app == &args->narg.next
&& redir == 0) {
/* We have a function */
consumetoken(TRP);
funclinno = plinno;
/*
* Make sure there are no unquoted $'s in the
* name (allowing those, not expanding them,
* simply treating '$' as a character, is desirable
* but the parser has converted them to CTLxxx
* chars, and that's not what we want
*
* Fortunately here the user can simply quote
* the name to avoid this restriction.
*/
if (!noexpand(n->narg.text))
synerror("Bad function name (use quotes)");
rmescapes(n->narg.text);
if (strchr(n->narg.text, '/'))
synerror("Bad function name");
VTRACE(DBG_PARSE, ("Function '%s' seen @%d\n",
n->narg.text, plinno));
n->type = NDEFUN;
n->narg.lineno = plinno - elided_nl;
n->narg.next = command();
funclinno = 0;
goto checkneg;
} else {
tokpushback++;
break;
}
}
if (args == NULL && redir == NULL)
synexpect(-1, 0);
*app = NULL;
*rpp = NULL;
n = stalloc(sizeof(struct ncmd));
n->type = NCMD;
n->ncmd.lineno = line - elided_nl;
n->ncmd.backgnd = 0;
n->ncmd.args = args;
n->ncmd.redirect = redir;
n->ncmd.lineno = startlinno;
checkneg:
#ifdef BOGUS_NOT_COMMAND
if (negate) {
VTRACE(DBG_PARSE, ("bogus %snegate simplecmd\n",
(negate&1) ? "" : "double "));
n2 = stalloc(sizeof(struct nnot));
n2->type = (negate & 1) ? NNOT : NDNOT;
n2->nnot.com = n;
return n2;
}
else
#endif
return n;
}
STATIC union node *
makeword(int lno)
{
union node *n;
n = stalloc(sizeof(struct narg));
n->type = NARG;
n->narg.next = NULL;
n->narg.text = wordtext;
n->narg.backquote = backquotelist;
n->narg.lineno = lno;
return n;
}
void
fixredir(union node *n, const char *text, int err)
{
VTRACE(DBG_PARSE, ("Fix redir %s %d\n", text, err));
if (!err)
n->ndup.vname = NULL;
if (is_number(text)) {
n->ndup.dupfd = number(text);
if (n->ndup.dupfd < user_fd_limit &&
n->ndup.dupfd > max_user_fd)
max_user_fd = n->ndup.dupfd;
} else if (text[0] == '-' && text[1] == '\0')
n->ndup.dupfd = -1;
else {
if (err)
synerror("Bad fd number");
else
n->ndup.vname = makeword(startlinno - elided_nl);
}
}
STATIC void
parsefname(void)
{
union node *n = redirnode;
if (readtoken() != TWORD)
synexpect(-1, 0);
if (n->type == NHERE) {
struct HereDoc *here = heredoc;
struct HereDoc *p;
if (quoteflag == 0)
n->type = NXHERE;
VTRACE(DBG_PARSE, ("Here document %d @%d\n", n->type, plinno));
if (here->striptabs) {
while (*wordtext == '\t')
wordtext++;
}
/*
* this test is not really necessary, we are not
* required to expand wordtext, but there's no reason
* it cannot be $$ or something like that - that would
* not mean the pid, but literally two '$' characters.
* There is no need for limits on what the word can be.
* However, it needs to stay literal as entered, not
* have $ converted to CTLVAR or something, which as
* the parser is, at the minute, is impossible to prevent.
* So, leave it like this until the rest of the parser is fixed.
*/
if (!noexpand(wordtext))
synerror("Unimplemented form of eof marker"
" for << redirection");
rmescapes(wordtext);
here->eofmark = wordtext;
here->next = NULL;
if (heredoclist == NULL)
heredoclist = here;
else {
for (p = heredoclist ; p->next ; p = p->next)
continue;
p->next = here;
}
} else if (n->type == NTOFD || n->type == NFROMFD) {
fixredir(n, wordtext, 0);
} else {
n->nfile.fname = makeword(startlinno - elided_nl);
}
}
/*
* Check to see whether we are at the end of the here document. When this
* is called, c is set to the first character of the next input line. If
* we are at the end of the here document, this routine sets the c to PEOF.
* The new value of c is returned.
*/
static int
checkend(int c, char * const eofmark, const int striptabs)
{
if (striptabs) {
while (c == '\t')
c = pgetc();
}
if (c == PEOF) {
if (*eofmark == '\0')
return (c);
synerror(EOFhere);
}
if (c == *eofmark) {
int c2;
char *q;
for (q = eofmark + 1; c2 = pgetc(), *q != '\0' && c2 == *q; q++)
if (c2 == '\n') {
plinno++;
needprompt = doprompt;
}
if ((c2 == PEOF || c2 == '\n') && *q == '\0') {
c = PEOF;
if (c2 == '\n') {
plinno++;
needprompt = doprompt;
}
} else {
pungetc();
pushstring(eofmark + 1, q - (eofmark + 1), NULL);
}
} else if (c == '\n' && *eofmark == '\0') {
c = PEOF;
plinno++;
needprompt = doprompt;
}
return (c);
}
/*
* Input any here documents.
*/
STATIC int
slurp_heredoc(char *const eofmark, const int striptabs, const int sq)
{
int c;
char *out;
int lines = plinno;
c = pgetc();
/*
* If we hit EOF on the input, and the eofmark is a null string ('')
* we consider this empty line to be the eofmark, and exit without err.
*/
if (c == PEOF && *eofmark != '\0')
synerror(EOFhere);
STARTSTACKSTR(out);
while ((c = checkend(c, eofmark, striptabs)) != PEOF) {
do {
if (sq) {
/*
* in single quoted mode (eofmark quoted)
* all we look for is \n so we can check
* for the eofmark - everything saved literally.
*/
STPUTC(c, out);
if (c == '\n') {
plinno++;
break;
}
continue;
}
/*
* In double quoted (non-quoted eofmark)
* we must handle \ followed by \n here
* otherwise we can mismatch the end mark.
* All other uses of \ will be handled later
* when the here doc is expanded.
*
* This also makes sure \\ followed by \n does
* not suppress the newline (the \ quotes itself)
*/
if (c == '\\') { /* A backslash */
STPUTC(c, out);
c = pgetc(); /* followed by */
if (c == '\n') { /* a newline? */
STPUTC(c, out);
plinno++;
continue; /* don't break */
}
}
STPUTC(c, out); /* keep the char */
if (c == '\n') { /* at end of line */
plinno++;
break; /* look for eofmark */
}
} while ((c = pgetc()) != PEOF);
/*
* If we have read a line, and reached EOF, without
* finding the eofmark, whether the EOF comes before
* or immediately after the \n, that is an error.
*/
if (c == PEOF || (c = pgetc()) == PEOF)
synerror(EOFhere);
}
STPUTC('\0', out);
c = out - stackblock();
out = stackblock();
grabstackblock(c);
wordtext = out;
VTRACE(DBG_PARSE,
("Slurped a %d line %sheredoc (to '%s')%s: len %d, \"%.*s%s\" @%d\n",
plinno - lines, sq ? "quoted " : "", eofmark,
striptabs ? " tab stripped" : "", c, (c > 16 ? 16 : c),
wordtext, (c > 16 ? "..." : ""), plinno));
return (plinno - lines);
}
static char *
insert_elided_nl(char *str)
{
while (elided_nl > 0) {
STPUTC(CTLNONL, str);
elided_nl--;
}
return str;
}
STATIC void
readheredocs(void)
{
struct HereDoc *here;
union node *n;
int line, l;
line = 0; /*XXX - gcc! obviously unneeded */
if (heredoclist)
line = heredoclist->startline + 1;
l = 0;
while (heredoclist) {
line += l;
here = heredoclist;
heredoclist = here->next;
if (needprompt) {
setprompt(2);
needprompt = 0;
}
l = slurp_heredoc(here->eofmark, here->striptabs,
here->here->nhere.type == NHERE);
here->here->nhere.doc = n = makeword(line);
if (here->here->nhere.type == NHERE)
continue;
/*
* Now "parse" here docs that have unquoted eofmarkers.
*/
setinputstring(wordtext, 1, line);
VTRACE(DBG_PARSE, ("Reprocessing %d line here doc from %d\n",
l, line));
readtoken1(pgetc(), DQSYNTAX, 1);
n->narg.text = wordtext;
n->narg.backquote = backquotelist;
popfile();
}
}
STATIC int
peektoken(void)
{
int t;
t = readtoken();
tokpushback++;
return (t);
}
STATIC int
readtoken(void)
{
int t;
#ifdef DEBUG
int alreadyseen = tokpushback;
int savecheckkwd = checkkwd;
#endif
struct alias *ap;
top:
t = xxreadtoken();
if (checkkwd & CHKNL) {
while (t == TNL) {
readheredocs();
t = xxreadtoken();
}
}
/*
* check for keywords and aliases
*/
if (t == TWORD && !quoteflag) {
const char *const *pp;
if (checkkwd & CHKKWD)
for (pp = parsekwd; *pp; pp++) {
if (**pp == *wordtext && equal(*pp, wordtext)) {
lasttoken = t = pp -
parsekwd + KWDOFFSET;
VTRACE(DBG_PARSE,
("keyword %s recognized @%d\n",
tokname[t], plinno));
goto out;
}
}
if (checkkwd & CHKALIAS &&
(ap = lookupalias(wordtext, 1)) != NULL) {
VTRACE(DBG_PARSE,
("alias '%s' recognized -> <:%s:>\n",
wordtext, ap->val));
pushstring(ap->val, strlen(ap->val), ap);
goto top;
}
}
out:
if (t != TNOT)
checkkwd = 0;
VTRACE(DBG_PARSE, ("%stoken %s %s @%d (chkkwd %x->%x)\n",
alreadyseen ? "reread " : "", tokname[t],
t == TWORD ? wordtext : "", plinno, savecheckkwd, checkkwd));
return (t);
}
/*
* Read the next input token.
* If the token is a word, we set backquotelist to the list of cmds in
* backquotes. We set quoteflag to true if any part of the word was
* quoted.
* If the token is TREDIR, then we set redirnode to a structure containing
* the redirection.
* In all cases, the variable startlinno is set to the number of the line
* on which the token starts.
*
* [Change comment: here documents and internal procedures]
* [Readtoken shouldn't have any arguments. Perhaps we should make the
* word parsing code into a separate routine. In this case, readtoken
* doesn't need to have any internal procedures, but parseword does.
* We could also make parseoperator in essence the main routine, and
* have parseword (readtoken1?) handle both words and redirection.]
*/
#define RETURN(token) return lasttoken = (token)
STATIC int
xxreadtoken(void)
{
int c;
if (tokpushback) {
tokpushback = 0;
CTRACE(DBG_LEXER,
("xxreadtoken() returns %s (%d) again\n",
tokname[lasttoken], lasttoken));
return lasttoken;
}
if (needprompt) {
setprompt(2);
needprompt = 0;
}
elided_nl = 0;
startlinno = plinno;
for (;;) { /* until token or start of word found */
c = pgetc_macro();
CTRACE(DBG_LEXER, ("xxreadtoken() sees '%c' (%#.2x) ",
c&0xFF, c&0x1FF));
switch (c) {
case ' ': case '\t': case PFAKE:
CTRACE(DBG_LEXER, (" ignored\n"));
continue;
case '#':
while ((c = pgetc()) != '\n' && c != PEOF)
continue;
CTRACE(DBG_LEXER,
("skipped comment to (not incl) \\n\n"));
pungetc();
continue;
case '\n':
plinno++;
CTRACE(DBG_LEXER, ("newline now @%d\n", plinno));
needprompt = doprompt;
RETURN(TNL);
case PEOF:
CTRACE(DBG_LEXER, ("EOF -> TEOF (return)\n"));
RETURN(TEOF);
case '&':
if (pgetc_linecont() == '&') {
CTRACE(DBG_LEXER,
("and another -> TAND (return)\n"));
RETURN(TAND);
}
pungetc();
CTRACE(DBG_LEXER, (" -> TBACKGND (return)\n"));
RETURN(TBACKGND);
case '|':
if (pgetc_linecont() == '|') {
CTRACE(DBG_LEXER,
("and another -> TOR (return)\n"));
RETURN(TOR);
}
pungetc();
CTRACE(DBG_LEXER, (" -> TPIPE (return)\n"));
RETURN(TPIPE);
case ';':
switch (pgetc_linecont()) {
case ';':
CTRACE(DBG_LEXER,
("and another -> TENDCASE (return)\n"));
RETURN(TENDCASE);
case '&':
CTRACE(DBG_LEXER,
("and '&' -> TCASEFALL (return)\n"));
RETURN(TCASEFALL);
default:
pungetc();
CTRACE(DBG_LEXER, (" -> TSEMI (return)\n"));
RETURN(TSEMI);
}
case '(':
CTRACE(DBG_LEXER, (" -> TLP (return)\n"));
RETURN(TLP);
case ')':
CTRACE(DBG_LEXER, (" -> TRP (return)\n"));
RETURN(TRP);
case '\\':
switch (pgetc()) {
case '\n':
startlinno = ++plinno;
CTRACE(DBG_LEXER, ("\\\n ignored, now @%d\n",
plinno));
if (doprompt)
setprompt(2);
else
setprompt(0);
continue;
case PEOF:
CTRACE(DBG_LEXER,
("then EOF -> TEOF (return) '\\' dropped\n"));
RETURN(TEOF);
default:
CTRACE(DBG_LEXER, ("not \\\n or EOF: "));
pungetc();
break;
}
/* FALLTHROUGH */
default:
CTRACE(DBG_LEXER, ("getting a word\n"));
return readtoken1(c, BASESYNTAX, 0);
}
}
#undef RETURN
}
/*
* If eofmark is NULL, read a word or a redirection symbol. If eofmark
* is not NULL, read a here document. In the latter case, eofmark is the
* word which marks the end of the document and striptabs is true if
* leading tabs should be stripped from the document. The argument firstc
* is the first character of the input token or document.
*
* Because C does not have internal subroutines, I have simulated them
* using goto's to implement the subroutine linkage. The following macros
* will run code that appears at the end of readtoken1.
*/
/*
* We used to remember only the current syntax, variable nesting level,
* double quote state for each var nesting level, and arith nesting
* level (unrelated to var nesting) and one prev syntax when in arith
* syntax. This worked for simple cases, but can't handle arith inside
* var expansion inside arith inside var with some quoted and some not.
*
* Inspired by FreeBSD's implementation (though it was the obvious way)
* though implemented differently, we now have a stack that keeps track
* of what we are doing now, and what we were doing previously.
* Every time something changes, which will eventually end and should
* revert to the previous state, we push this stack, and then pop it
* again later (that is every ${} with an operator (to parse the word
* or pattern that follows) ${x} and $x are too simple to need it)
* $(( )) $( ) and "...". Always. Really, always!
*
* The stack is implemented as one static (on the C stack) base block
* containing LEVELS_PER_BLOCK (8) stack entries, which should be
* enough for the vast majority of cases. For torture tests, we
* malloc more blocks as needed. All accesses through the inline
* functions below.
*/
/*
* varnest & arinest will typically be 0 or 1
* (varnest can increment in usages like ${x=${y}} but probably
* does not really need to)
* parenlevel allows balancing parens inside a $(( )), it is reset
* at each new nesting level ( $(( ( x + 3 ${unset-)} )) does not work.
* quoted is special - we need to know 2 things ... are we inside "..."
* (even if inherited from some previous nesting level) and was there
* an opening '"' at this level (so the next will be closing).
* "..." can span nesting levels, but cannot be opened in one and
* closed in a different one.
* To handle this, "quoted" has two fields, the bottom 4 (really 2)
* bits are 0, 1, or 2, for un, single, and double quoted (single quoted
* is really so special that this setting is not very important)
* and 0x10 that indicates that an opening quote has been seen.
* The bottom 4 bits are inherited, the 0x10 bit is not.
*/
struct tokenstate {
const char *ts_syntax;
unsigned short ts_parenlevel; /* counters */
unsigned short ts_varnest; /* 64000 levels should be enough! */
unsigned short ts_arinest;
unsigned short ts_quoted; /* 1 -> single, 2 -> double */
unsigned short ts_magicq; /* heredoc or word expand */
};
#define NQ 0x00 /* Unquoted */
#define SQ 0x01 /* Single Quotes */
#define DQ 0x02 /* Double Quotes (or equivalent) */
#define CQ 0x03 /* C style Single Quotes */
#define QF 0x0F /* Mask to extract previous values */
#define QS 0x10 /* Quoting started at this level in stack */
#define LEVELS_PER_BLOCK 8
#define VSS struct statestack
struct statestack {
VSS *prev; /* previous block in list */
int cur; /* which of our tokenstates is current */
struct tokenstate tokenstate[LEVELS_PER_BLOCK];
};
static inline struct tokenstate *
currentstate(VSS *stack)
{
return &stack->tokenstate[stack->cur];
}
#ifdef notdef
static inline struct tokenstate *
prevstate(VSS *stack)
{
if (stack->cur != 0)
return &stack->tokenstate[stack->cur - 1];
if (stack->prev == NULL) /* cannot drop below base */
return &stack->tokenstate[0];
return &stack->prev->tokenstate[LEVELS_PER_BLOCK - 1];
}
#endif
static inline VSS *
bump_state_level(VSS *stack)
{
struct tokenstate *os, *ts;
os = currentstate(stack);
if (++stack->cur >= LEVELS_PER_BLOCK) {
VSS *ss;
ss = (VSS *)ckmalloc(sizeof (struct statestack));
ss->cur = 0;
ss->prev = stack;
stack = ss;
}
ts = currentstate(stack);
ts->ts_parenlevel = 0; /* parens inside never match outside */
ts->ts_quoted = os->ts_quoted & QF; /* these are default settings */
ts->ts_varnest = os->ts_varnest;
ts->ts_arinest = os->ts_arinest; /* when appropriate */
ts->ts_syntax = os->ts_syntax; /* they will be altered */
ts->ts_magicq = os->ts_magicq;
return stack;
}
static inline VSS *
drop_state_level(VSS *stack)
{
if (stack->cur == 0) {
VSS *ss;
ss = stack;
stack = ss->prev;
if (stack == NULL)
return ss;
ckfree(ss);
}
--stack->cur;
return stack;
}
static inline void
cleanup_state_stack(VSS *stack)
{
while (stack->prev != NULL) {
stack->cur = 0;
stack = drop_state_level(stack);
}
}
#define PARSESUB() {goto parsesub; parsesub_return:;}
#define PARSEARITH() {goto parsearith; parsearith_return:;}
/*
* The following macros all assume the existence of a local var "stack"
* which contains a pointer to the current struct stackstate
*/
/*
* These are macros rather than inline funcs to avoid code churn as much
* as possible - they replace macros of the same name used previously.
*/
#define ISDBLQUOTE() (currentstate(stack)->ts_quoted & QS)
#define SETDBLQUOTE() (currentstate(stack)->ts_quoted = QS | DQ)
#ifdef notdef
#define CLRDBLQUOTE() (currentstate(stack)->ts_quoted = \
stack->cur != 0 || stack->prev ? \
prevstate(stack)->ts_quoted & QF : 0)
#endif
/*
* This set are just to avoid excess typing and line lengths...
* The ones that "look like" var names must be implemented to be lvalues
*/
#define syntax (currentstate(stack)->ts_syntax)
#define parenlevel (currentstate(stack)->ts_parenlevel)
#define varnest (currentstate(stack)->ts_varnest)
#define arinest (currentstate(stack)->ts_arinest)
#define quoted (currentstate(stack)->ts_quoted)
#define magicq (currentstate(stack)->ts_magicq)
#define TS_PUSH() (stack = bump_state_level(stack))
#define TS_POP() (stack = drop_state_level(stack))
/*
* Called to parse command substitutions. oldstyle is true if the command
* is enclosed inside `` (otherwise it was enclosed in "$( )")
*
* Internally nlpp is a pointer to the head of the linked
* list of commands (passed by reference), and savelen is the number of
* characters on the top of the stack which must be preserved.
*/
static char *
parsebackq(VSS *const stack, char * const in,
struct nodelist **const pbqlist, const int oldstyle)
{
struct nodelist **nlpp;
const int savepbq = parsebackquote;
union node *n;
char *out;
char *str = NULL;
char *volatile sstr = str;
struct jmploc jmploc;
struct jmploc *const savehandler = handler;
struct parsefile *const savetopfile = getcurrentfile();
const int savelen = in - stackblock();
int saveprompt;
int lno;
if (setjmp(jmploc.loc)) {
popfilesupto(savetopfile);
if (sstr)
ckfree(__UNVOLATILE(sstr));
cleanup_state_stack(stack);
parsebackquote = 0;
handler = savehandler;
CTRACE(DBG_LEXER, ("parsebackq() err (%d), unwinding\n",
exception));
longjmp(handler->loc, 1);
}
INTOFF;
sstr = str = NULL;
if (savelen > 0) {
sstr = str = ckmalloc(savelen);
memcpy(str, stackblock(), savelen);
}
handler = &jmploc;
INTON;
if (oldstyle) {
/*
* We must read until the closing backquote, giving special
* treatment to some slashes, and then push the string and
* reread it as input, interpreting it normally.
*/
int pc;
int psavelen;
char *pstr;
int line1 = plinno;
VTRACE(DBG_PARSE|DBG_LEXER,
("parsebackq: repackaging `` as $( )"));
/*
* Because the entire `...` is read here, we don't
* need to bother the state stack. That will be used
* (as appropriate) when the processed string is re-read.
*/
STARTSTACKSTR(out);
#ifdef DEBUG
for (psavelen = 0;;psavelen++) { /* } */
#else
for (;;) {
#endif
if (needprompt) {
setprompt(2);
needprompt = 0;
}
pc = pgetc();
VTRACE(DBG_LEXER,
("parsebackq() got '%c'(%#.2x) in `` %s", pc&0xFF,
pc&0x1FF, pc == '`' ? "terminator\n" : ""));
if (pc == '`')
break;
switch (pc) {
case '\\':
pc = pgetc();
VTRACE(DBG_LEXER, ("then '%c'(%#.2x) ",
pc&0xFF, pc&0x1FF));
#ifdef DEBUG
psavelen++;
#endif
if (pc == '\n') { /* keep \ \n for later */
plinno++;
VTRACE(DBG_LEXER, ("@%d ", plinno));
needprompt = doprompt;
}
if (pc != '\\' && pc != '`' && pc != '$'
&& (!ISDBLQUOTE() || pc != '"')) {
VTRACE(DBG_LEXER, ("keep '\\' "));
STPUTC('\\', out);
}
break;
case '\n':
plinno++;
VTRACE(DBG_LEXER, ("@%d ", plinno));
needprompt = doprompt;
break;
case PEOF:
startlinno = line1;
VTRACE(DBG_LEXER, ("EOF\n", plinno));
synerror("EOF in backquote substitution");
break;
default:
break;
}
VTRACE(DBG_LEXER, (".\n", plinno));
STPUTC(pc, out);
}
STPUTC('\0', out);
VTRACE(DBG_LEXER, ("parsebackq() ``:"));
VTRACE(DBG_PARSE|DBG_LEXER, (" read %d", psavelen));
psavelen = out - stackblock();
VTRACE(DBG_PARSE|DBG_LEXER, (" produced %d\n", psavelen));
if (psavelen > 0) {
pstr = grabstackstr(out);
CTRACE(DBG_LEXER,
("parsebackq() reprocessing as $(%s)\n", pstr));
setinputstring(pstr, 1, line1);
}
}
nlpp = pbqlist;
while (*nlpp)
nlpp = &(*nlpp)->next;
*nlpp = stalloc(sizeof(struct nodelist));
(*nlpp)->next = NULL;
parsebackquote = oldstyle;
if (oldstyle) {
saveprompt = doprompt;
doprompt = 0;
} else
saveprompt = 0;
lno = -plinno;
CTRACE(DBG_LEXER, ("parsebackq() parsing embedded command list\n"));
n = list(0);
CTRACE(DBG_LEXER, ("parsebackq() parsed $() (%d -> %d)\n", -lno,
lno + plinno));
lno += plinno;
if (oldstyle) {
if (peektoken() != TEOF)
synexpect(-1, 0);
doprompt = saveprompt;
} else
consumetoken(TRP);
(*nlpp)->n = n;
if (oldstyle) {
/*
* Start reading from old file again, ignoring any pushed back
* tokens left from the backquote parsing
*/
CTRACE(DBG_LEXER, ("parsebackq() back to previous input\n"));
popfile();
tokpushback = 0;
}
while (stackblocksize() <= savelen)
growstackblock();
STARTSTACKSTR(out);
if (str) {
memcpy(out, str, savelen);
STADJUST(savelen, out);
INTOFF;
ckfree(str);
sstr = str = NULL;
INTON;
}
parsebackquote = savepbq;
handler = savehandler;
if (arinest || ISDBLQUOTE()) {
STPUTC(CTLBACKQ | CTLQUOTE, out);
while (--lno >= 0)
STPUTC(CTLNONL, out);
} else
STPUTC(CTLBACKQ, out);
return out;
}
/*
* Parse a redirection operator. The parameter "out" points to a string
* specifying the fd to be redirected. It is guaranteed to be either ""
* or a numeric string (for now anyway). The parameter "c" contains the
* first character of the redirection operator.
*
* Note the string "out" is on the stack, which we are about to clobber,
* so process it first...
*/
static void
parseredir(const char *out, int c)
{
union node *np;
int fd;
np = stalloc(sizeof(struct nfile));
fd = (*out == '\0') ? -1 : number(out); /* number(out) >= 0 */
np->nfile.fd = fd; /* do this again later with updated fd */
if (fd != np->nfile.fd)
error("file descriptor (%d) out of range (max %ld)",
fd, user_fd_limit - 1);
if (fd < user_fd_limit && fd > max_user_fd)
max_user_fd = fd;
VTRACE(DBG_LEXER, ("parseredir after '%s%c' ", out, c));
if (c == '>') {
if (fd < 0)
fd = 1;
c = pgetc_linecont();
VTRACE(DBG_LEXER, ("is '%c'(%#.2x) ", c&0xFF, c&0x1FF));
if (c == '>')
np->type = NAPPEND;
else if (c == '|')
np->type = NCLOBBER;
else if (c == '&')
np->type = NTOFD;
else {
np->type = NTO;
VTRACE(DBG_LEXER, ("unwanted ", c));
pungetc();
}
} else { /* c == '<' */
if (fd < 0)
fd = 0;
c = pgetc_linecont();
VTRACE(DBG_LEXER, ("is '%c'(%#.2x) ", c&0xFF, c&0x1FF));
switch (c) {
case '<':
/* if sizes differ, just discard the old one */
if (sizeof (struct nfile) != sizeof (struct nhere))
np = stalloc(sizeof(struct nhere));
np->type = NHERE;
np->nhere.fd = 0;
heredoc = stalloc(sizeof(struct HereDoc));
heredoc->here = np;
heredoc->startline = plinno;
if ((c = pgetc_linecont()) == '-') {
CTRACE(DBG_LEXER, ("and '%c'(%#.2x) ",
c & 0xFF, c & 0x1FF));
heredoc->striptabs = 1;
} else {
heredoc->striptabs = 0;
pungetc();
}
break;
case '&':
np->type = NFROMFD;
break;
case '>':
np->type = NFROMTO;
break;
default:
np->type = NFROM;
VTRACE(DBG_LEXER, ("unwanted('%c'0#.2x)", c&0xFF,
c&0x1FF));
pungetc();
break;
}
}
np->nfile.fd = fd;
VTRACE(DBG_LEXER, (" ->%"PRIdsNT" fd=%d\n", NODETYPENAME(np->type),fd));
redirnode = np; /* this is the "value" of TRENODE */
}
/*
* Called to parse a backslash escape sequence inside $'...'.
* The backslash has already been read.
*/
static char *
readcstyleesc(char *out)
{
int c, vc, i, n;
unsigned int v;
c = pgetc();
VTRACE(DBG_LEXER, ("CSTR(\\%c)(\\%#x)", c&0xFF, c&0x1FF));
switch (c) {
case '\0':
case PEOF:
synerror("Unterminated quoted string ($'...)");
case '\n':
plinno++;
VTRACE(DBG_LEXER, ("@%d ", plinno));
if (doprompt)
setprompt(2);
else
setprompt(0);
return out;
case '\\':
case '\'':
case '"':
v = c;
break;
case 'a': v = '\a'; break;
case 'b': v = '\b'; break;
case 'e': v = '\033'; break;
case 'f': v = '\f'; break;
case 'n': v = '\n'; break;
case 'r': v = '\r'; break;
case 't': v = '\t'; break;
case 'v': v = '\v'; break;
case '0': case '1': case '2': case '3':
case '4': case '5': case '6': case '7':
v = c - '0';
c = pgetc();
if (c >= '0' && c <= '7') {
v <<= 3;
v += c - '0';
c = pgetc();
if (c >= '0' && c <= '7') {
v <<= 3;
v += c - '0';
} else
pungetc();
} else
pungetc();
break;
case 'c':
c = pgetc();
if (c < 0x3f || c > 0x7a || c == 0x60)
synerror("Bad \\c escape sequence");
if (c == '\\' && pgetc() != '\\')
synerror("Bad \\c\\ escape sequence");
if (c == '?')
v = 127;
else
v = c & 0x1f;
break;
case 'x':
n = 2;
goto hexval;
case 'u':
n = 4;
goto hexval;
case 'U':
n = 8;
hexval:
v = 0;
for (i = 0; i < n; i++) {
c = pgetc();
if (c >= '0' && c <= '9')
v = (v << 4) + c - '0';
else if (c >= 'A' && c <= 'F')
v = (v << 4) + c - 'A' + 10;
else if (c >= 'a' && c <= 'f')
v = (v << 4) + c - 'a' + 10;
else {
pungetc();
break;
}
}
if (n > 2 && v > 127) {
if (v >= 0xd800 && v <= 0xdfff)
synerror("Invalid \\u escape sequence");
/* XXX should we use iconv here. What locale? */
CHECKSTRSPACE(12, out);
/*
* Add a byte to output string, while checking if it needs to
* be escaped -- if its value happens to match the value of one
* of our internal CTL* chars - which would (at a minimum) be
* summarily removed later, if not escaped.
*
* The current definition of ISCTL() allows the compiler to
* optimise away either half, or all, of the test in most of
* the cases here (0xc0 | anything) cannot be between 0x80 and 0x9f
* for example, so there a test is not needed).
*
* Which tests can be removed depends upon the actual values
* selected for the CTL* chars.
*/
#define ESC_USTPUTC(c, o) do { \
char _ch = (c); \
\
if (ISCTL(_ch)) \
USTPUTC(CTLESC, o); \
USTPUTC(_ch, o); \
} while (0)
VTRACE(DBG_LEXER, ("CSTR(\\%c%8.8x)", n==4?'u':'U', v));
if (v <= 0x7ff) {
ESC_USTPUTC(0xc0 | v >> 6, out);
ESC_USTPUTC(0x80 | (v & 0x3f), out);
return out;
} else if (v <= 0xffff) {
ESC_USTPUTC(0xe0 | v >> 12, out);
ESC_USTPUTC(0x80 | ((v >> 6) & 0x3f), out);
ESC_USTPUTC(0x80 | (v & 0x3f), out);
return out;
} else if (v <= 0x10ffff) {
ESC_USTPUTC(0xf0 | v >> 18, out);
ESC_USTPUTC(0x80 | ((v >> 12) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 6) & 0x3f), out);
ESC_USTPUTC(0x80 | (v & 0x3f), out);
return out;
/* these next two are not very likely, but we may as well be complete */
} else if (v <= 0x3FFFFFF) {
ESC_USTPUTC(0xf8 | v >> 24, out);
ESC_USTPUTC(0x80 | ((v >> 18) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 12) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 6) & 0x3f), out);
ESC_USTPUTC(0x80 | (v & 0x3f), out);
return out;
} else if (v <= 0x7FFFFFFF) {
ESC_USTPUTC(0xfC | v >> 30, out);
ESC_USTPUTC(0x80 | ((v >> 24) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 18) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 12) & 0x3f), out);
ESC_USTPUTC(0x80 | ((v >> 6) & 0x3f), out);
ESC_USTPUTC(0x80 | (v & 0x3f), out);
return out;
}
if (v > 127)
v = '?';
}
break;
default:
synerror("Unknown $'' escape sequence");
}
vc = (char)v;
VTRACE(DBG_LEXER, ("->%u(%#x)['%c']", v, v, vc&0xFF));
/*
* If we managed to create a \n from a \ sequence (no matter how)
* then we replace it with the magic CRTCNL control char, which
* will turn into a \n again later, but in the meantime, never
* causes LINENO increments.
*/
if (vc == '\n') {
VTRACE(DBG_LEXER, ("CTLCNL."));
USTPUTC(CTLCNL, out);
return out;
}
/*
* We can't handle NUL bytes.
* POSIX says we should skip till the closing quote.
*/
if (vc == '\0') {
CTRACE(DBG_LEXER, ("\\0: skip to '", v, v, vc&0xFF));
while ((c = pgetc()) != '\'') {
if (c == '\\')
c = pgetc();
if (c == PEOF)
synerror("Unterminated quoted string ($'...)");
if (c == '\n') {
plinno++;
if (doprompt)
setprompt(2);
else
setprompt(0);
}
}
pungetc();
return out;
}
CVTRACE(DBG_LEXER, NEEDESC(vc), ("CTLESC-"));
VTRACE(DBG_LEXER, ("'%c'(%#.2x)", vc&0xFF, vc&0x1FF));
if (NEEDESC(vc))
USTPUTC(CTLESC, out);
USTPUTC(vc, out);
return out;
}
/*
* The lowest level basic tokenizer.
*
* The next input byte (character) is in firstc, syn says which
* syntax tables we are to use (basic, single or double quoted, or arith)
* and magicq (used with sqsyntax and dqsyntax only) indicates that the
* quote character itself is not special (used parsing here docs and similar)
*
* The result is the type of the next token (its value, when there is one,
* is saved in the relevant global var - must fix that someday!) which is
* also saved for re-reading ("lasttoken").
*
* Overall, this routine does far more parsing than it is supposed to.
* That will also need fixing, someday...
*/
STATIC int
readtoken1(int firstc, char const *syn, int oneword)
{
int c;
char * out;
int len;
struct nodelist *bqlist;
int quotef;
VSS static_stack;
VSS *stack = &static_stack;
stack->prev = NULL;
stack->cur = 0;
syntax = syn;
#ifdef DEBUG
#define SYNTAX ( syntax == BASESYNTAX ? "BASE" : \
syntax == DQSYNTAX ? "DQ" : \
syntax == SQSYNTAX ? "SQ" : \
syntax == ARISYNTAX ? "ARI" : \
"???" )
#endif
startlinno = plinno;
varnest = 0;
quoted = 0;
if (syntax == DQSYNTAX)
SETDBLQUOTE();
quotef = 0;
bqlist = NULL;
arinest = 0;
parenlevel = 0;
elided_nl = 0;
magicq = oneword;
CTRACE(DBG_LEXER, ("readtoken1(%c) syntax=%s %s%s(quoted=%x)\n",
firstc&0xFF, SYNTAX, magicq ? "magic quotes" : "",
ISDBLQUOTE()?" ISDBLQUOTE":"", quoted));
STARTSTACKSTR(out);
for (c = firstc ;; c = pgetc_macro()) { /* until of token */
if (syntax == ARISYNTAX)
out = insert_elided_nl(out);
CHECKSTRSPACE(6, out); /* permit 6 calls to USTPUTC */
switch (syntax[c]) {
case CFAKE:
VTRACE(DBG_LEXER, ("CFAKE"));
if (syntax == BASESYNTAX && varnest == 0)
break;
VTRACE(DBG_LEXER, (","));
continue;
case CNL: /* '\n' */
VTRACE(DBG_LEXER, ("CNL"));
if (syntax == BASESYNTAX && varnest == 0)
break; /* exit loop */
USTPUTC(c, out);
plinno++;
VTRACE(DBG_LEXER, ("@%d,", plinno));
if (doprompt)
setprompt(2);
else
setprompt(0);
continue;
case CSBACK: /* single quoted backslash */
if ((quoted & QF) == CQ) {
out = readcstyleesc(out);
continue;
}
VTRACE(DBG_LEXER, ("ESC:"));
USTPUTC(CTLESC, out);
/* FALLTHROUGH */
case CWORD:
VTRACE(DBG_LEXER, ("'%c'", c));
USTPUTC(c, out);
continue;
case CCTL:
CVTRACE(DBG_LEXER, !magicq || ISDBLQUOTE(),
("%s%sESC:",!magicq?"!m":"",ISDBLQUOTE()?"DQ":""));
if (!magicq || ISDBLQUOTE())
USTPUTC(CTLESC, out);
VTRACE(DBG_LEXER, ("'%c'", c));
USTPUTC(c, out);
continue;
case CBACK: /* backslash */
c = pgetc();
VTRACE(DBG_LEXER, ("\\'%c'(%#.2x)", c&0xFF, c&0x1FF));
if (c == PEOF) {
VTRACE(DBG_LEXER, ("EOF, keep \\ "));
USTPUTC('\\', out);
pungetc();
continue;
}
if (c == '\n') {
plinno++;
elided_nl++;
VTRACE(DBG_LEXER, ("eli \\n (%d) @%d ",
elided_nl, plinno));
if (doprompt)
setprompt(2);
else
setprompt(0);
continue;
}
CVTRACE(DBG_LEXER, quotef==0, (" QF=1 "));
quotef = 1; /* current token is quoted */
if (quoted && c != '\\' && c != '`' &&
(c != '}' || varnest == 0) &&
c != '$' && (c != '"' || magicq)) {
/*
* retain the \ (which we *know* needs CTLESC)
* when in "..." and the following char is
* not one of the magic few.)
* Otherwise the \ has done its work, and
* is dropped.
*/
VTRACE(DBG_LEXER, ("ESC:'\\'"));
USTPUTC(CTLESC, out);
USTPUTC('\\', out);
}
CVTRACE(DBG_LEXER, NEEDESC(c) || !magicq,
("%sESC:", NEEDESC(c) ? "+" : "m"));
VTRACE(DBG_LEXER, ("'%c'(%#.2x)", c&0xFF, c&0x1FF));
if (NEEDESC(c))
USTPUTC(CTLESC, out);
else if (!magicq) {
USTPUTC(CTLESC, out);
USTPUTC(c, out);
continue;
}
USTPUTC(c, out);
continue;
case CSQUOTE:
if (syntax != SQSYNTAX) {
CVTRACE(DBG_LEXER, !magicq, (" CQM "));
if (!magicq)
USTPUTC(CTLQUOTEMARK, out);
CVTRACE(DBG_LEXER, quotef==0, (" QF=1 "));
quotef = 1;
TS_PUSH();
syntax = SQSYNTAX;
quoted = SQ;
VTRACE(DBG_LEXER, (" TS_PUSH(SQ)"));
continue;
}
if (magicq && arinest == 0 && varnest == 0) {
/* Ignore inside quoted here document */
VTRACE(DBG_LEXER, ("<<'>>"));
USTPUTC(c, out);
continue;
}
/* End of single quotes... */
TS_POP();
VTRACE(DBG_LEXER, ("SQ TS_POP->%s ", SYNTAX));
CVTRACE(DBG_LEXER, syntax == BASESYNTAX, (" CQE "));
if (syntax == BASESYNTAX)
USTPUTC(CTLQUOTEEND, out);
continue;
case CDQUOTE:
if (magicq && arinest == 0 /* && varnest == 0 */) {
VTRACE(DBG_LEXER, ("<<\">>"));
/* Ignore inside here document */
USTPUTC(c, out);
continue;
}
CVTRACE(DBG_LEXER, quotef==0, (" QF=1 "));
quotef = 1;
if (arinest) {
if (ISDBLQUOTE()) {
VTRACE(DBG_LEXER,
(" CQE ari(%d", arinest));
USTPUTC(CTLQUOTEEND, out);
TS_POP();
VTRACE(DBG_LEXER, ("%d)TS_POP->%s ",
arinest, SYNTAX));
} else {
VTRACE(DBG_LEXER,
(" ari(%d) %s TS_PUSH->DQ CQM ",
arinest, SYNTAX));
TS_PUSH();
syntax = DQSYNTAX;
SETDBLQUOTE();
USTPUTC(CTLQUOTEMARK, out);
}
continue;
}
CVTRACE(DBG_LEXER, magicq, (" MQignDQ "));
if (magicq)
continue;
if (ISDBLQUOTE()) {
TS_POP();
VTRACE(DBG_LEXER,
(" DQ TS_POP->%s CQE ", SYNTAX));
USTPUTC(CTLQUOTEEND, out);
} else {
VTRACE(DBG_LEXER,
(" %s TS_POP->DQ CQM ", SYNTAX));
TS_PUSH();
syntax = DQSYNTAX;
SETDBLQUOTE();
USTPUTC(CTLQUOTEMARK, out);
}
continue;
case CVAR: /* '$' */
VTRACE(DBG_LEXER, ("'$'..."));
out = insert_elided_nl(out);
PARSESUB(); /* parse substitution */
continue;
case CENDVAR: /* CLOSEBRACE */
if (varnest > 0 && !ISDBLQUOTE()) {
VTRACE(DBG_LEXER, ("vn=%d !DQ", varnest));
TS_POP();
VTRACE(DBG_LEXER, (" TS_POP->%s CEV ", SYNTAX));
USTPUTC(CTLENDVAR, out);
} else {
VTRACE(DBG_LEXER, ("'%c'", c));
USTPUTC(c, out);
}
out = insert_elided_nl(out);
continue;
case CLP: /* '(' in arithmetic */
parenlevel++;
VTRACE(DBG_LEXER, ("'('(%d)", parenlevel));
USTPUTC(c, out);
continue;
case CRP: /* ')' in arithmetic */
if (parenlevel > 0) {
USTPUTC(c, out);
--parenlevel;
VTRACE(DBG_LEXER, ("')'(%d)", parenlevel));
} else {
VTRACE(DBG_LEXER, ("')'(%d)", parenlevel));
if (pgetc_linecont() == /*(*/ ')') {
out = insert_elided_nl(out);
if (--arinest == 0) {
TS_POP();
USTPUTC(CTLENDARI, out);
} else
USTPUTC(/*(*/ ')', out);
} else {
break; /* to synerror() just below */
#if 0 /* the old way, causes weird errors on bad input */
/*
* unbalanced parens
* (don't 2nd guess - no error)
*/
pungetc();
USTPUTC(/*(*/ ')', out);
#endif
}
}
continue;
case CBQUOTE: /* '`' */
VTRACE(DBG_LEXER, ("'`' -> parsebackq()\n"));
out = parsebackq(stack, out, &bqlist, 1);
VTRACE(DBG_LEXER, ("parsebackq() -> readtoken1: "));
continue;
case CEOF: /* --> c == PEOF */
VTRACE(DBG_LEXER, ("EOF "));
break; /* will exit loop */
default:
VTRACE(DBG_LEXER, ("['%c'(%#.2x)]", c&0xFF, c&0x1FF));
if (varnest == 0 && !ISDBLQUOTE())
break; /* exit loop */
USTPUTC(c, out);
VTRACE(DBG_LEXER, (","));
continue;
}
VTRACE(DBG_LEXER, (" END TOKEN\n", c&0xFF, c&0x1FF));
break; /* break from switch -> break from for loop too */
}
if (syntax == ARISYNTAX) {
cleanup_state_stack(stack);
synerror(/*((*/ "Missing '))'");
}
if (syntax != BASESYNTAX && /* ! parsebackquote && */ !magicq) {
cleanup_state_stack(stack);
synerror("Unterminated quoted string");
}
if (varnest != 0) {
cleanup_state_stack(stack);
startlinno = plinno;
/* { */
synerror("Missing '}'");
}
STPUTC('\0', out);
len = out - stackblock();
out = stackblock();
if (!magicq) {
if ((c == '<' || c == '>')
&& quotef == 0 && (*out == '\0' || is_number(out))) {
parseredir(out, c);
cleanup_state_stack(stack);
return lasttoken = TREDIR;
} else {
pungetc();
}
}
VTRACE(DBG_PARSE|DBG_LEXER,
("readtoken1 %sword \"%s\", completed%s (%d) left %d enl\n",
(quotef ? "quoted " : ""), out, (bqlist ? " with cmdsubs" : ""),
len, elided_nl));
quoteflag = quotef;
backquotelist = bqlist;
grabstackblock(len);
wordtext = out;
cleanup_state_stack(stack);
return lasttoken = TWORD;
/* end of readtoken routine */
/*
* Parse a substitution. At this point, we have read the dollar sign
* and nothing else.
*/
parsesub: {
int subtype;
int typeloc;
int flags;
char *p;
static const char types[] = "}-+?=";
c = pgetc_linecont();
VTRACE(DBG_LEXER, ("\"$%c\"(%#.2x)", c&0xFF, c&0x1FF));
if (c == '(' /*)*/) { /* $(command) or $((arith)) */
if (pgetc_linecont() == '(' /*')'*/ ) {
VTRACE(DBG_LEXER, ("\"$((\" ARITH "));
out = insert_elided_nl(out);
PARSEARITH();
} else {
VTRACE(DBG_LEXER, ("\"$(\" CSUB->parsebackq()\n"));
out = insert_elided_nl(out);
pungetc();
out = parsebackq(stack, out, &bqlist, 0);
VTRACE(DBG_LEXER, ("parseback()->readtoken1(): "));
}
} else if (c == OPENBRACE || is_name(c) || is_special(c)) {
VTRACE(DBG_LEXER, (" $EXP:CTLVAR "));
USTPUTC(CTLVAR, out);
typeloc = out - stackblock();
USTPUTC(VSNORMAL, out);
subtype = VSNORMAL;
flags = 0;
if (c == OPENBRACE) {
c = pgetc_linecont();
if (c == '#') {
if ((c = pgetc_linecont()) == CLOSEBRACE)
c = '#';
else if (is_name(c) || isdigit(c))
subtype = VSLENGTH;
else if (is_special(c)) {
/*
* ${#} is $# - the number of sh params
* ${##} is the length of ${#}
* ${###} is ${#} with as much nothing
* as possible removed from start
* ${##1} is ${#} with leading 1 gone
* ${##\#} is ${#} with leading # gone
*
* this stuff is UGLY!
*/
if (pgetc_linecont() == CLOSEBRACE) {
pungetc();
subtype = VSLENGTH;
} else {
static char cbuf[2];
pungetc(); /* would like 2 */
cbuf[0] = c; /* so ... */
cbuf[1] = '\0';
pushstring(cbuf, 1, NULL);
c = '#'; /* ${#:...} */
subtype = 0; /* .. or similar */
}
} else {
pungetc();
c = '#';
subtype = 0;
}
}
else
subtype = 0;
VTRACE(DBG_LEXER, ("${ st=%d ", subtype));
}
if (is_name(c)) {
p = out;
do {
VTRACE(DBG_LEXER, ("%c", c));
STPUTC(c, out);
c = pgetc_linecont();
} while (is_in_name(c));
#if 0
if (out - p == 6 && strncmp(p, "LINENO", 6) == 0) {
int i;
int linno;
char buf[10];
/*
* The "LINENO hack"
*
* Replace the variable name with the
* current line number.
*/
linno = plinno;
if (funclinno != 0)
linno -= funclinno - 1;
snprintf(buf, sizeof(buf), "%d", linno);
STADJUST(-6, out);
for (i = 0; buf[i] != '\0'; i++)
STPUTC(buf[i], out);
flags |= VSLINENO;
}
#endif
} else if (is_digit(c)) {
do {
VTRACE(DBG_LEXER, ("%c", c));
STPUTC(c, out);
c = pgetc_linecont();
} while (subtype != VSNORMAL && is_digit(c));
}
else if (is_special(c)) {
VTRACE(DBG_LEXER, ("\"$%c", c));
USTPUTC(c, out);
c = pgetc_linecont();
}
else {
VTRACE(DBG_LEXER, ("\"$%c(%#.2x)??\n", c&0xFF,c&0x1FF));
badsub:
cleanup_state_stack(stack);
synerror("Bad substitution");
}
STPUTC('=', out);
if (subtype == 0) {
switch (c) {
case ':':
flags |= VSNUL;
c = pgetc_linecont();
/*FALLTHROUGH*/
default:
p = strchr(types, c);
if (p == NULL)
goto badsub;
subtype = p - types + VSNORMAL;
break;
case '%':
case '#':
{
int cc = c;
subtype = c == '#' ? VSTRIMLEFT :
VSTRIMRIGHT;
c = pgetc_linecont();
if (c == cc)
subtype++;
else
pungetc();
break;
}
}
} else {
if (subtype == VSLENGTH && c != /*{*/ '}')
synerror("no modifiers allowed with ${#var}");
pungetc();
}
if (quoted || arinest)
flags |= VSQUOTE;
if (subtype >= VSTRIMLEFT && subtype <= VSTRIMRIGHTMAX)
flags |= VSPATQ;
VTRACE(DBG_LEXER, (" st%d:%x", subtype, flags));
*(stackblock() + typeloc) = subtype | flags;
if (subtype != VSNORMAL) {
TS_PUSH();
varnest++;
arinest = 0;
if (subtype > VSASSIGN) { /* # ## % %% */
syntax = BASESYNTAX;
quoted = 0;
magicq = 0;
}
VTRACE(DBG_LEXER, (" TS_PUSH->%s vn=%d%s ",
SYNTAX, varnest, quoted ? " Q" : ""));
}
} else if (c == '\'' && syntax == BASESYNTAX) {
USTPUTC(CTLQUOTEMARK, out);
VTRACE(DBG_LEXER, (" CSTR \"$'\" CQM "));
CVTRACE(DBG_LEXER, quotef==0, ("QF=1 "));
quotef = 1;
TS_PUSH();
syntax = SQSYNTAX;
quoted = CQ;
VTRACE(DBG_LEXER, ("%s->TS_PUSH()->SQ ", SYNTAX));
} else {
VTRACE(DBG_LEXER, ("$unk -> '$' (pushback '%c'%#.2x)",
c & 0xFF, c & 0x1FF));
USTPUTC('$', out);
pungetc();
}
goto parsesub_return;
}
/*
* Parse an arithmetic expansion (indicate start of one and set state)
*/
parsearith: {
#if 0
if (syntax == ARISYNTAX) {
/*
* we collapse embedded arithmetic expansion to
* parentheses, which should be equivalent
*
* XXX It isn't, must fix, soonish...
*/
USTPUTC('(' /*)*/, out);
USTPUTC('(' /*)*/, out);
/*
* Need 2 of them because there will (should be)
* two closing ))'s to follow later.
*/
parenlevel += 2;
} else
#endif
{
VTRACE(DBG_LEXER, (" CTLARI%c ", ISDBLQUOTE()?'"':'_'));
USTPUTC(CTLARI, out);
if (ISDBLQUOTE())
USTPUTC('"',out);
else
USTPUTC(' ',out);
VTRACE(DBG_LEXER, ("%s->TS_PUSH->ARI(1)", SYNTAX));
TS_PUSH();
syntax = ARISYNTAX;
arinest = 1;
varnest = 0;
magicq = 1;
}
goto parsearith_return;
}
} /* end of readtoken */
#ifdef mkinit
INCLUDE "parser.h"
RESET {
psp.v_current_parser = &parse_state;
parse_state.ps_tokpushback = 0;
parse_state.ps_checkkwd = 0;
parse_state.ps_heredoclist = NULL;
}
#endif
/*
* Returns true if the text contains nothing to expand (no dollar signs
* or backquotes).
*/
STATIC int
noexpand(char *text)
{
char *p;
char c;
p = text;
while ((c = *p++) != '\0') {
if (c == CTLQUOTEMARK || c == CTLQUOTEEND)
continue;
if (c == CTLESC)
p++;
else if (ISCTL(c))
return 0;
}
return 1;
}
/*
* Return true if the argument is a legal variable name (a letter or
* underscore followed by zero or more letters, underscores, and digits).
*/
int
goodname(const char *name)
{
const char *p;
p = name;
if (! is_name(*p))
return 0;
while (*++p) {
if (! is_in_name(*p))
return 0;
}
return 1;
}
int
isassignment(const char *p)
{
if (!is_name(*p))
return 0;
while (*++p != '=')
if (*p == '\0' || !is_in_name(*p))
return 0;
return 1;
}
/*
* skip past any \n's, and leave lasttoken set to whatever follows
*/
STATIC void
linebreak(void)
{
while (readtoken() == TNL)
readheredocs();
}
/*
* The next token must be "token" -- check, then move past it
*/
STATIC void
consumetoken(int token)
{
if (readtoken() != token) {
VTRACE(DBG_PARSE, ("consumetoken(%d): expecting %s got %s",
token, tokname[token], tokname[lasttoken]));
CVTRACE(DBG_PARSE, (lasttoken==TWORD), (" \"%s\"", wordtext));
VTRACE(DBG_PARSE, ("\n"));
synexpect(token, NULL);
}
}
/*
* Called when an unexpected token is read during the parse. The argument
* is the token that is expected, or -1 if more than one type of token can
* occur at this point.
*/
STATIC void
synexpect(int token, const char *text)
{
char msg[64];
char *p;
if (lasttoken == TWORD) {
size_t len = strlen(wordtext);
if (len <= 13)
fmtstr(msg, 34, "Word \"%.13s\" unexpected", wordtext);
else
fmtstr(msg, 34,
"Word \"%.10s...\" unexpected", wordtext);
} else
fmtstr(msg, 34, "%s unexpected", tokname[lasttoken]);
p = strchr(msg, '\0');
if (text)
fmtstr(p, 30, " (expecting \"%.10s\")", text);
else if (token >= 0)
fmtstr(p, 30, " (expecting %s)", tokname[token]);
synerror(msg);
/* NOTREACHED */
}
STATIC void
synerror(const char *msg)
{
error("%d: Syntax error: %s", startlinno, msg);
/* NOTREACHED */
}
STATIC void
setprompt(int which)
{
whichprompt = which;
#ifndef SMALL
if (!el)
#endif
out2str(getprompt(NULL));
}
/*
* handle getting the next character, while ignoring \ \n
* (which is a little tricky as we only have one char of pushback
* and we need that one elsewhere).
*/
STATIC int
pgetc_linecont(void)
{
int c;
while ((c = pgetc()) == '\\') {
c = pgetc();
if (c == '\n') {
plinno++;
elided_nl++;
VTRACE(DBG_LEXER, ("\"\\n\"drop(el=%d@%d)",
elided_nl, plinno));
if (doprompt)
setprompt(2);
else
setprompt(0);
} else {
pungetc();
/* Allow the backslash to be pushed back. */
pushstring("\\", 1, NULL);
return (pgetc());
}
}
return (c);
}
/*
* called by editline -- any expansions to the prompt
* should be added here.
*/
const char *
getprompt(void *unused)
{
char *p;
const char *cp;
int wp;
if (!doprompt)
return "";
VTRACE(DBG_PARSE|DBG_EXPAND, ("getprompt %d\n", whichprompt));
switch (wp = whichprompt) {
case 0:
return "";
case 1:
p = ps1val();
break;
case 2:
p = ps2val();
break;
default:
return "<internal prompt error>";
}
if (p == NULL)
return "";
VTRACE(DBG_PARSE|DBG_EXPAND, ("prompt <<%s>>\n", p));
cp = expandstr(p, plinno);
whichprompt = wp; /* history depends on it not changing */
VTRACE(DBG_PARSE|DBG_EXPAND, ("prompt -> <<%s>>\n", cp));
return cp;
}
/*
* Expand a string ... used for expanding prompts (PS1...)
*
* Never return NULL, always some string (return input string if invalid)
*
* The internal routine does the work, leaving the result on the
* stack (or in a static string, or even the input string) and
* handles parser recursion, and cleanup after an error while parsing.
*
* The visible interface copies the result off the stack (if it is there),
* and handles stack management, leaving the stack in the exact same
* state it was when expandstr() was called (so it can be used part way
* through building a stack data structure - as in when PS2 is being
* expanded half way through reading a "command line")
*
* on error, expandonstack() cleans up the parser state, but then
* simply jumps out through expandstr() without doing any stack cleanup,
* which is OK, as the error handler must deal with that anyway.
*
* The split into two funcs is to avoid problems with setjmp/longjmp
* and local variables which could otherwise be optimised into bizarre
* behaviour.
*/
static const char *
expandonstack(char *ps, int cmdsub, int lineno)
{
union node n;
struct jmploc jmploc;
struct jmploc *const savehandler = handler;
struct parsefile *const savetopfile = getcurrentfile();
char * const save_ps = ps;
const int save_x = xflag;
const int save_e_s = errors_suppressed;
struct parse_state new_state = init_parse_state;
struct parse_state *const saveparser = psp.v_current_parser;
const char *result = NULL;
if (!setjmp(jmploc.loc)) {
handler = &jmploc;
errors_suppressed = 1;
psp.v_current_parser = &new_state;
setinputstring(ps, 1, lineno);
readtoken1(pgetc(), DQSYNTAX, 1);
if (backquotelist != NULL) {
if (!cmdsub)
result = ps;
else if (!promptcmds)
result = "-o promptcmds not set: ";
}
if (result == NULL) {
n.narg.type = NARG;
n.narg.next = NULL;
n.narg.text = wordtext;
n.narg.lineno = lineno;
n.narg.backquote = backquotelist;
xflag = 0; /* we might be expanding PS4 ... */
expandarg(&n, NULL, 0);
result = stackblock();
}
} else {
psp.v_current_parser = saveparser;
xflag = save_x;
popfilesupto(savetopfile);
handler = savehandler;
errors_suppressed = save_e_s;
if (exception == EXEXIT)
longjmp(handler->loc, 1);
if (exception == EXINT)
exraise(SIGINT);
return "";
}
psp.v_current_parser = saveparser;
xflag = save_x;
popfilesupto(savetopfile);
handler = savehandler;
errors_suppressed = save_e_s;
if (result == NULL)
result = save_ps;
return result;
}
const char *
expandstr(char *ps, int lineno)
{
const char *result = NULL;
struct stackmark smark;
static char *buffer = NULL; /* storage for prompt, never freed */
static size_t bufferlen = 0;
setstackmark(&smark);
/*
* At this point we anticipate that there may be a string
* growing on the stack, but we have no idea how big it is.
* However we know that it cannot be bigger than the current
* allocated stack block, so simply reserve the whole thing,
* then we can use the stack without barfing all over what
* is there already... (the stack mark undoes this later.)
*/
(void) stalloc(stackblocksize());
result = expandonstack(ps, 1, lineno);
if (__predict_true(result == stackblock())) {
size_t len = strlen(result) + 1;
/*
* the result (usual case) is on the stack, which we
* are just about to discard (popstackmark()) so we
* need to move it somewhere safe first.
*/
if (__predict_false(len > bufferlen)) {
char *new;
size_t newlen = bufferlen;
if (__predict_false(len > (SIZE_MAX >> 4))) {
result = "huge prompt: ";
goto getout;
}
if (newlen == 0)
newlen = 32;
while (newlen <= len)
newlen <<= 1;
new = (char *)realloc(buffer, newlen);
if (__predict_false(new == NULL)) {
/*
* this should rarely (if ever) happen
* but we must do something when it does...
*/
result = "No mem for prompt: ";
goto getout;
} else {
buffer = new;
bufferlen = newlen;
}
}
(void)memcpy(buffer, result, len);
result = buffer;
}
getout:;
popstackmark(&smark);
return result;
}
/*
* and a simpler version, which does no $( ) expansions, for
* use during shell startup when we know we are not parsing,
* and so the stack is not in use - we can do what we like,
* and do not need to clean up (that's handled externally).
*
* Simply return the result, even if it is on the stack
*/
const char *
expandenv(char *arg)
{
return expandonstack(arg, 0, 0);
}
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