This file is read.def, from which is created read.c.
It implements the builtin "read" in Bash.
Copyright (C) 1987-2017 Free Software Foundation, Inc.
This file is part of GNU Bash, the Bourne Again SHell.
Bash is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Bash is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Bash. If not, see .
$PRODUCES read.c
$BUILTIN read
$FUNCTION read_builtin
$SHORT_DOC read [-ers] [-a array] [-d delim] [-i text] [-n nchars] [-N nchars] [-p prompt] [-t timeout] [-u fd] [name ...]
Read a line from the standard input and split it into fields.
Reads a single line from the standard input, or from file descriptor FD
if the -u option is supplied. The line is split into fields as with word
splitting, and the first word is assigned to the first NAME, the second
word to the second NAME, and so on, with any leftover words assigned to
the last NAME. Only the characters found in $IFS are recognized as word
delimiters.
If no NAMEs are supplied, the line read is stored in the REPLY variable.
Options:
-a array assign the words read to sequential indices of the array
variable ARRAY, starting at zero
-d delim continue until the first character of DELIM is read, rather
than newline
-e use Readline to obtain the line
-i text use TEXT as the initial text for Readline
-n nchars return after reading NCHARS characters rather than waiting
for a newline, but honor a delimiter if fewer than
NCHARS characters are read before the delimiter
-N nchars return only after reading exactly NCHARS characters, unless
EOF is encountered or read times out, ignoring any
delimiter
-p prompt output the string PROMPT without a trailing newline before
attempting to read
-r do not allow backslashes to escape any characters
-s do not echo input coming from a terminal
-t timeout time out and return failure if a complete line of
input is not read within TIMEOUT seconds. The value of the
TMOUT variable is the default timeout. TIMEOUT may be a
fractional number. If TIMEOUT is 0, read returns
immediately, without trying to read any data, returning
success only if input is available on the specified
file descriptor. The exit status is greater than 128
if the timeout is exceeded
-u fd read from file descriptor FD instead of the standard input
Exit Status:
The return code is zero, unless end-of-file is encountered, read times out
(in which case it's greater than 128), a variable assignment error occurs,
or an invalid file descriptor is supplied as the argument to -u.
$END
#include
#include "bashtypes.h"
#include "posixstat.h"
#include
#include "bashansi.h"
#if defined (HAVE_UNISTD_H)
# include
#endif
#include
#include
#ifdef __CYGWIN__
# include
# include
#endif
#include "../bashintl.h"
#include "../shell.h"
#include "common.h"
#include "bashgetopt.h"
#include "trap.h"
#include
#if defined (READLINE)
#include "../bashline.h"
#include
#endif
#if defined (BUFFERED_INPUT)
# include "input.h"
#endif
#include "shmbutil.h"
#if !defined(errno)
extern int errno;
#endif
struct ttsave
{
int fd;
TTYSTRUCT attrs;
};
#if defined (READLINE)
static void reset_attempted_completion_function __P((char *));
static int set_itext __P((void));
static char *edit_line __P((char *, char *));
static void set_eol_delim __P((int));
static void reset_eol_delim __P((char *));
#endif
static SHELL_VAR *bind_read_variable __P((char *, char *));
#if defined (HANDLE_MULTIBYTE)
static int read_mbchar __P((int, char *, int, int, int));
#endif
static void ttyrestore __P((struct ttsave *));
static sighandler sigalrm __P((int));
static void reset_alarm __P((void));
/* Try this to see what the rest of the shell can do with the information. */
procenv_t alrmbuf;
int sigalrm_seen;
static int reading, tty_modified;
static SigHandler *old_alrm;
static unsigned char delim;
static struct ttsave termsave;
/* In all cases, SIGALRM just sets a flag that we check periodically. This
avoids problems with the semi-tricky stuff we do with the xfree of
input_string at the top of the unwind-protect list (see below). */
/* Set a flag that CHECK_ALRM can check. This relies on zread or read_builtin
calling trap.c:check_signals(), which knows about sigalrm_seen and alrmbuf. */
static sighandler
sigalrm (s)
int s;
{
sigalrm_seen = 1;
}
static void
reset_alarm ()
{
/* Cancel alarm before restoring signal handler. */
falarm (0, 0);
set_signal_handler (SIGALRM, old_alrm);
}
/* Read the value of the shell variables whose names follow.
The reading is done from the current input stream, whatever
that may be. Successive words of the input line are assigned
to the variables mentioned in LIST. The last variable in LIST
gets the remainder of the words on the line. If no variables
are mentioned in LIST, then the default variable is $REPLY. */
int
read_builtin (list)
WORD_LIST *list;
{
register char *varname;
int size, nr, pass_next, saw_escape, eof, opt, retval, code, print_ps2, nflag;
volatile int i;
int input_is_tty, input_is_pipe, unbuffered_read, skip_ctlesc, skip_ctlnul;
int raw, edit, nchars, silent, have_timeout, ignore_delim, fd;
int lastsig, t_errno;
int mb_cur_max;
unsigned int tmsec, tmusec;
long ival, uval;
intmax_t intval;
char c;
char *input_string, *orig_input_string, *ifs_chars, *prompt, *arrayname;
char *e, *t, *t1, *ps2, *tofree;
struct stat tsb;
SHELL_VAR *var;
TTYSTRUCT ttattrs, ttset;
#if defined (ARRAY_VARS)
WORD_LIST *alist;
int vflags;
#endif
#if defined (READLINE)
char *rlbuf, *itext;
int rlind;
#endif
USE_VAR(size);
USE_VAR(i);
USE_VAR(pass_next);
USE_VAR(print_ps2);
USE_VAR(saw_escape);
USE_VAR(input_is_pipe);
/* USE_VAR(raw); */
USE_VAR(edit);
USE_VAR(tmsec);
USE_VAR(tmusec);
USE_VAR(nchars);
USE_VAR(silent);
USE_VAR(ifs_chars);
USE_VAR(prompt);
USE_VAR(arrayname);
#if defined (READLINE)
USE_VAR(rlbuf);
USE_VAR(rlind);
USE_VAR(itext);
#endif
USE_VAR(list);
USE_VAR(ps2);
USE_VAR(lastsig);
sigalrm_seen = reading = tty_modified = 0;
i = 0; /* Index into the string that we are reading. */
raw = edit = 0; /* Not reading raw input by default. */
silent = 0;
arrayname = prompt = (char *)NULL;
fd = 0; /* file descriptor to read from */
#if defined (READLINE)
rlbuf = itext = (char *)0;
rlind = 0;
#endif
mb_cur_max = MB_CUR_MAX;
tmsec = tmusec = 0; /* no timeout */
nr = nchars = input_is_tty = input_is_pipe = unbuffered_read = have_timeout = 0;
delim = '\n'; /* read until newline */
ignore_delim = nflag = 0;
reset_internal_getopt ();
while ((opt = internal_getopt (list, "ersa:d:i:n:p:t:u:N:")) != -1)
{
switch (opt)
{
case 'r':
raw = 1;
break;
case 'p':
prompt = list_optarg;
break;
case 's':
silent = 1;
break;
case 'e':
#if defined (READLINE)
edit = 1;
#endif
break;
case 'i':
#if defined (READLINE)
itext = list_optarg;
#endif
break;
#if defined (ARRAY_VARS)
case 'a':
arrayname = list_optarg;
break;
#endif
case 't':
code = uconvert (list_optarg, &ival, &uval);
if (code == 0 || ival < 0 || uval < 0)
{
builtin_error (_("%s: invalid timeout specification"), list_optarg);
return (EXECUTION_FAILURE);
}
else
{
have_timeout = 1;
tmsec = ival;
tmusec = uval;
}
break;
case 'N':
ignore_delim = 1;
delim = -1;
case 'n':
nflag = 1;
code = legal_number (list_optarg, &intval);
if (code == 0 || intval < 0 || intval != (int)intval)
{
sh_invalidnum (list_optarg);
return (EXECUTION_FAILURE);
}
else
nchars = intval;
break;
case 'u':
code = legal_number (list_optarg, &intval);
if (code == 0 || intval < 0 || intval != (int)intval)
{
builtin_error (_("%s: invalid file descriptor specification"), list_optarg);
return (EXECUTION_FAILURE);
}
else
fd = intval;
if (sh_validfd (fd) == 0)
{
builtin_error (_("%d: invalid file descriptor: %s"), fd, strerror (errno));
return (EXECUTION_FAILURE);
}
break;
case 'd':
delim = *list_optarg;
break;
CASE_HELPOPT;
default:
builtin_usage ();
return (EX_USAGE);
}
}
list = loptend;
/* `read -t 0 var' tests whether input is available with select/FIONREAD,
and fails if those are unavailable */
if (have_timeout && tmsec == 0 && tmusec == 0)
#if 0
return (EXECUTION_FAILURE);
#else
return (input_avail (fd) ? EXECUTION_SUCCESS : EXECUTION_FAILURE);
#endif
/* Convenience: check early whether or not the first of possibly several
variable names is a valid identifier, and bail early if so. */
#if defined (ARRAY_VARS)
vflags = assoc_expand_once ? (VA_NOEXPAND|VA_ONEWORD) : 0;
if (list && legal_identifier (list->word->word) == 0 && valid_array_reference (list->word->word, vflags) == 0)
#else
if (list && legal_identifier (list->word->word) == 0)
#endif
{
sh_invalidid (list->word->word);
return (EXECUTION_FAILURE);
}
/* If we're asked to ignore the delimiter, make sure we do. */
if (ignore_delim)
delim = -1;
/* IF IFS is unset, we use the default of " \t\n". */
ifs_chars = getifs ();
if (ifs_chars == 0) /* XXX - shouldn't happen */
ifs_chars = "";
/* If we want to read exactly NCHARS chars, don't split on IFS */
if (ignore_delim)
ifs_chars = "";
for (skip_ctlesc = skip_ctlnul = 0, e = ifs_chars; *e; e++)
skip_ctlesc |= *e == CTLESC, skip_ctlnul |= *e == CTLNUL;
input_string = (char *)xmalloc (size = 112); /* XXX was 128 */
input_string[0] = '\0';
/* More input and options validation */
if (nflag == 1 && nchars == 0)
{
retval = read (fd, &c, 0);
retval = (retval >= 0) ? EXECUTION_SUCCESS : EXECUTION_FAILURE;
goto assign_vars; /* bail early if asked to read 0 chars */
}
/* $TMOUT, if set, is the default timeout for read. */
if (have_timeout == 0 && (e = get_string_value ("TMOUT")))
{
code = uconvert (e, &ival, &uval);
if (code == 0 || ival < 0 || uval < 0)
tmsec = tmusec = 0;
else
{
tmsec = ival;
tmusec = uval;
}
}
begin_unwind_frame ("read_builtin");
#if defined (BUFFERED_INPUT)
if (interactive == 0 && default_buffered_input >= 0 && fd_is_bash_input (fd))
sync_buffered_stream (default_buffered_input);
#endif
#if 1
input_is_tty = isatty (fd);
#else
input_is_tty = 1;
#endif
if (input_is_tty == 0)
#ifndef __CYGWIN__
input_is_pipe = (lseek (fd, 0L, SEEK_CUR) < 0) && (errno == ESPIPE);
#else
input_is_pipe = 1;
#endif
/* If the -p, -e or -s flags were given, but input is not coming from the
terminal, turn them off. */
if ((prompt || edit || silent) && input_is_tty == 0)
{
prompt = (char *)NULL;
#if defined (READLINE)
itext = (char *)NULL;
#endif
edit = silent = 0;
}
#if defined (READLINE)
if (edit)
add_unwind_protect (xfree, rlbuf);
#endif
pass_next = 0; /* Non-zero signifies last char was backslash. */
saw_escape = 0; /* Non-zero signifies that we saw an escape char */
if (tmsec > 0 || tmusec > 0)
{
/* Turn off the timeout if stdin is a regular file (e.g. from
input redirection). */
if ((fstat (fd, &tsb) < 0) || S_ISREG (tsb.st_mode))
tmsec = tmusec = 0;
}
if (tmsec > 0 || tmusec > 0)
{
code = setjmp_nosigs (alrmbuf);
if (code)
{
sigalrm_seen = 0;
/* Tricky. The top of the unwind-protect stack is the free of
input_string. We want to run all the rest and use input_string,
so we have to save input_string temporarily, run the unwind-
protects, then restore input_string so we can use it later */
orig_input_string = 0;
input_string[i] = '\0'; /* make sure it's terminated */
if (i == 0)
{
t = (char *)xmalloc (1);
t[0] = 0;
}
else
t = savestring (input_string);
run_unwind_frame ("read_builtin");
input_string = t;
retval = 128+SIGALRM;
goto assign_vars;
}
if (interactive_shell == 0)
initialize_terminating_signals ();
old_alrm = set_signal_handler (SIGALRM, sigalrm);
add_unwind_protect (reset_alarm, (char *)NULL);
#if defined (READLINE)
if (edit)
{
add_unwind_protect (reset_attempted_completion_function, (char *)NULL);
add_unwind_protect (bashline_reset_event_hook, (char *)NULL);
}
#endif
falarm (tmsec, tmusec);
}
/* If we've been asked to read only NCHARS chars, or we're using some
character other than newline to terminate the line, do the right
thing to readline or the tty. */
if (nchars > 0 || delim != '\n')
{
#if defined (READLINE)
if (edit)
{
if (nchars > 0)
{
unwind_protect_int (rl_num_chars_to_read);
rl_num_chars_to_read = nchars;
}
if (delim != '\n')
{
set_eol_delim (delim);
add_unwind_protect (reset_eol_delim, (char *)NULL);
}
}
else
#endif
if (input_is_tty)
{
/* ttsave() */
termsave.fd = fd;
ttgetattr (fd, &ttattrs);
termsave.attrs = ttattrs;
ttset = ttattrs;
i = silent ? ttfd_cbreak (fd, &ttset) : ttfd_onechar (fd, &ttset);
if (i < 0)
sh_ttyerror (1);
tty_modified = 1;
add_unwind_protect ((Function *)ttyrestore, (char *)&termsave);
if (interactive_shell == 0)
initialize_terminating_signals ();
}
}
else if (silent) /* turn off echo but leave term in canonical mode */
{
/* ttsave (); */
termsave.fd = fd;
ttgetattr (fd, &ttattrs);
termsave.attrs = ttattrs;
ttset = ttattrs;
i = ttfd_noecho (fd, &ttset); /* ttnoecho (); */
if (i < 0)
sh_ttyerror (1);
tty_modified = 1;
add_unwind_protect ((Function *)ttyrestore, (char *)&termsave);
if (interactive_shell == 0)
initialize_terminating_signals ();
}
/* This *must* be the top unwind-protect on the stack, so the manipulation
of the unwind-protect stack after the realloc() works right. */
add_unwind_protect (xfree, input_string);
CHECK_ALRM;
if ((nchars > 0) && (input_is_tty == 0) && ignore_delim) /* read -N */
unbuffered_read = 2;
else if ((nchars > 0) || (delim != '\n') || input_is_pipe)
unbuffered_read = 1;
if (prompt && edit == 0)
{
fprintf (stderr, "%s", prompt);
fflush (stderr);
}
#if defined (__CYGWIN__) && defined (O_TEXT)
setmode (0, O_TEXT);
#endif
ps2 = 0;
for (print_ps2 = eof = retval = 0;;)
{
CHECK_ALRM;
#if defined (READLINE)
if (edit)
{
if (rlbuf && rlbuf[rlind] == '\0')
{
free (rlbuf);
rlbuf = (char *)0;
}
if (rlbuf == 0)
{
reading = 1;
rlbuf = edit_line (prompt ? prompt : "", itext);
reading = 0;
rlind = 0;
}
if (rlbuf == 0)
{
eof = 1;
break;
}
c = rlbuf[rlind++];
}
else
{
#endif
if (print_ps2)
{
if (ps2 == 0)
ps2 = get_string_value ("PS2");
fprintf (stderr, "%s", ps2 ? ps2 : "");
fflush (stderr);
print_ps2 = 0;
}
reading = 1;
CHECK_ALRM;
if (unbuffered_read == 2)
retval = posixly_correct ? zreadintr (fd, &c, 1) : zreadn (fd, &c, nchars - nr);
else if (unbuffered_read)
retval = posixly_correct ? zreadintr (fd, &c, 1) : zread (fd, &c, 1);
else
retval = posixly_correct ? zreadcintr (fd, &c) : zreadc (fd, &c);
reading = 0;
if (retval <= 0)
{
if (retval < 0 && errno == EINTR)
{
check_signals (); /* in case we didn't call zread via zreadc */
lastsig = LASTSIG();
if (lastsig == 0)
lastsig = trapped_signal_received;
run_pending_traps (); /* because interrupt_immediately is not set */
}
else
lastsig = 0;
if (terminating_signal && tty_modified)
ttyrestore (&termsave); /* fix terminal before exiting */
CHECK_TERMSIG;
eof = 1;
break;
}
QUIT; /* in case we didn't call check_signals() */
#if defined (READLINE)
}
#endif
if (retval <= 0) /* XXX shouldn't happen */
CHECK_ALRM;
/* XXX -- use i + mb_cur_max (at least 4) for multibyte/read_mbchar */
if (i + (mb_cur_max > 4 ? mb_cur_max : 4) >= size)
{
char *t;
t = (char *)xrealloc (input_string, size += 128);
/* Only need to change unwind-protect if input_string changes */
if (t != input_string)
{
input_string = t;
remove_unwind_protect ();
add_unwind_protect (xfree, input_string);
}
}
/* If the next character is to be accepted verbatim, a backslash
newline pair still disappears from the input. */
if (pass_next)
{
pass_next = 0;
if (c == '\n')
{
if (skip_ctlesc == 0 && i > 0)
i--; /* back up over the CTLESC */
if (interactive && input_is_tty && raw == 0)
print_ps2 = 1;
}
else
goto add_char;
continue;
}
/* This may cause problems if IFS contains CTLESC */
if (c == '\\' && raw == 0)
{
pass_next++;
if (skip_ctlesc == 0)
{
saw_escape++;
input_string[i++] = CTLESC;
}
continue;
}
if (ignore_delim == 0 && (unsigned char)c == delim)
break;
if (c == '\0' && delim != '\0')
continue; /* skip NUL bytes in input */
if ((skip_ctlesc == 0 && c == CTLESC) || (skip_ctlnul == 0 && c == CTLNUL))
{
saw_escape++;
input_string[i++] = CTLESC;
}
add_char:
input_string[i++] = c;
CHECK_ALRM;
#if defined (HANDLE_MULTIBYTE)
/* XXX - what if C == 127? Can DEL introduce a multibyte sequence? */
if (mb_cur_max > 1 && is_basic (c) == 0)
{
input_string[i] = '\0'; /* for simplicity and debugging */
/* If we got input from readline, grab the next multibyte char from
rlbuf. */
# if defined (READLINE)
if (edit)
{
size_t clen;
clen = mbrlen (rlbuf + rlind - 1, mb_cur_max, (mbstate_t *)NULL);
/* We only deal with valid multibyte sequences longer than one
byte. If we get anything else, we leave the one character
copied and move on to the next. */
if ((int)clen > 1)
{
memcpy (input_string+i, rlbuf+rlind, clen-1);
i += clen - 1;
rlind += clen - 1;
}
}
else
# endif
if (locale_utf8locale == 0 || ((c & 0x80) != 0))
i += read_mbchar (fd, input_string, i, c, unbuffered_read);
}
#endif
nr++;
if (nchars > 0 && nr >= nchars)
break;
}
input_string[i] = '\0';
CHECK_ALRM;
#if defined (READLINE)
if (edit)
free (rlbuf);
#endif
if (retval < 0)
{
t_errno = errno;
if (errno != EINTR)
builtin_error (_("read error: %d: %s"), fd, strerror (errno));
run_unwind_frame ("read_builtin");
return ((t_errno != EINTR) ? EXECUTION_FAILURE : 128+lastsig);
}
if (tmsec > 0 || tmusec > 0)
reset_alarm ();
if (nchars > 0 || delim != '\n')
{
#if defined (READLINE)
if (edit)
{
if (nchars > 0)
rl_num_chars_to_read = 0;
if (delim != '\n')
reset_eol_delim ((char *)NULL);
}
else
#endif
if (input_is_tty)
ttyrestore (&termsave);
}
else if (silent)
ttyrestore (&termsave);
if (unbuffered_read == 0)
zsyncfd (fd);
discard_unwind_frame ("read_builtin");
retval = eof ? EXECUTION_FAILURE : EXECUTION_SUCCESS;
assign_vars:
#if defined (ARRAY_VARS)
/* If -a was given, take the string read, break it into a list of words,
an assign them to `arrayname' in turn. */
if (arrayname)
{
if (legal_identifier (arrayname) == 0)
{
sh_invalidid (arrayname);
free (input_string);
return (EXECUTION_FAILURE);
}
var = find_or_make_array_variable (arrayname, 1);
if (var == 0)
{
free (input_string);
return EXECUTION_FAILURE; /* readonly or noassign */
}
if (assoc_p (var))
{
builtin_error (_("%s: cannot convert associative to indexed array"), arrayname);
free (input_string);
return EXECUTION_FAILURE; /* existing associative array */
}
else if (invisible_p (var))
VUNSETATTR (var, att_invisible);
array_flush (array_cell (var));
alist = list_string (input_string, ifs_chars, 0);
if (alist)
{
if (saw_escape)
dequote_list (alist);
else
word_list_remove_quoted_nulls (alist);
assign_array_var_from_word_list (var, alist, 0);
dispose_words (alist);
}
free (input_string);
return (retval);
}
#endif /* ARRAY_VARS */
/* If there are no variables, save the text of the line read to the
variable $REPLY. ksh93 strips leading and trailing IFS whitespace,
so that `read x ; echo "$x"' and `read ; echo "$REPLY"' behave the
same way, but I believe that the difference in behaviors is useful
enough to not do it. Without the bash behavior, there is no way
to read a line completely without interpretation or modification
unless you mess with $IFS (e.g., setting it to the empty string).
If you disagree, change the occurrences of `#if 0' to `#if 1' below. */
if (list == 0)
{
#if 0
orig_input_string = input_string;
for (t = input_string; ifs_chars && *ifs_chars && spctabnl(*t) && isifs(*t); t++)
;
input_string = t;
input_string = strip_trailing_ifs_whitespace (input_string, ifs_chars, saw_escape);
#endif
if (saw_escape)
{
t = dequote_string (input_string);
var = bind_variable ("REPLY", t, 0);
free (t);
}
else
var = bind_variable ("REPLY", input_string, 0);
if (var == 0 || readonly_p (var) || noassign_p (var))
retval = EXECUTION_FAILURE;
else
VUNSETATTR (var, att_invisible);
free (input_string);
return (retval);
}
/* This code implements the Posix.2 spec for splitting the words
read and assigning them to variables. */
orig_input_string = input_string;
/* Remove IFS white space at the beginning of the input string. If
$IFS is null, no field splitting is performed. */
for (t = input_string; ifs_chars && *ifs_chars && spctabnl(*t) && isifs(*t); t++)
;
input_string = t;
for (; list->next; list = list->next)
{
varname = list->word->word;
#if defined (ARRAY_VARS)
if (legal_identifier (varname) == 0 && valid_array_reference (varname, vflags) == 0)
#else
if (legal_identifier (varname) == 0)
#endif
{
sh_invalidid (varname);
free (orig_input_string);
return (EXECUTION_FAILURE);
}
/* If there are more variables than words read from the input,
the remaining variables are set to the empty string. */
if (*input_string)
{
/* This call updates INPUT_STRING. */
t = get_word_from_string (&input_string, ifs_chars, &e);
if (t)
*e = '\0';
/* Don't bother to remove the CTLESC unless we added one
somewhere while reading the string. */
if (t && saw_escape)
{
t1 = dequote_string (t);
var = bind_read_variable (varname, t1);
free (t1);
}
else
var = bind_read_variable (varname, t ? t : "");
}
else
{
t = (char *)0;
var = bind_read_variable (varname, "");
}
FREE (t);
if (var == 0)
{
free (orig_input_string);
return (EXECUTION_FAILURE);
}
stupidly_hack_special_variables (varname);
VUNSETATTR (var, att_invisible);
}
/* Now assign the rest of the line to the last variable argument. */
#if defined (ARRAY_VARS)
if (legal_identifier (list->word->word) == 0 && valid_array_reference (list->word->word, vflags) == 0)
#else
if (legal_identifier (list->word->word) == 0)
#endif
{
sh_invalidid (list->word->word);
free (orig_input_string);
return (EXECUTION_FAILURE);
}
#if 0
/* This has to be done this way rather than using string_list
and list_string because Posix.2 says that the last variable gets the
remaining words and their intervening separators. */
input_string = strip_trailing_ifs_whitespace (input_string, ifs_chars, saw_escape);
#else
/* Check whether or not the number of fields is exactly the same as the
number of variables. */
tofree = NULL;
if (*input_string)
{
t1 = input_string;
t = get_word_from_string (&input_string, ifs_chars, &e);
if (*input_string == 0)
tofree = input_string = t;
else
{
input_string = strip_trailing_ifs_whitespace (t1, ifs_chars, saw_escape);
tofree = t;
}
}
#endif
if (saw_escape && input_string && *input_string)
{
t = dequote_string (input_string);
var = bind_read_variable (list->word->word, t);
free (t);
}
else
var = bind_read_variable (list->word->word, input_string ? input_string : "");
if (var)
{
stupidly_hack_special_variables (list->word->word);
VUNSETATTR (var, att_invisible);
}
else
retval = EXECUTION_FAILURE;
FREE (tofree);
free (orig_input_string);
return (retval);
}
static SHELL_VAR *
bind_read_variable (name, value)
char *name, *value;
{
SHELL_VAR *v;
#if defined (ARRAY_VARS)
if (valid_array_reference (name, assoc_expand_once ? (VA_NOEXPAND|VA_ONEWORD) : 0) == 0)
v = bind_variable (name, value, 0);
else
v = assign_array_element (name, value, assoc_expand_once ? ASS_NOEXPAND : 0);
#else /* !ARRAY_VARS */
v = bind_variable (name, value, 0);
#endif /* !ARRAY_VARS */
return (v == 0 ? v
: ((readonly_p (v) || noassign_p (v)) ? (SHELL_VAR *)NULL : v));
}
#if defined (HANDLE_MULTIBYTE)
static int
read_mbchar (fd, string, ind, ch, unbuffered)
int fd;
char *string;
int ind, ch, unbuffered;
{
char mbchar[MB_LEN_MAX + 1];
int i, n, r;
char c;
size_t ret;
mbstate_t ps, ps_back;
wchar_t wc;
memset (&ps, '\0', sizeof (mbstate_t));
memset (&ps_back, '\0', sizeof (mbstate_t));
mbchar[0] = ch;
i = 1;
for (n = 0; n <= MB_LEN_MAX; n++)
{
ps_back = ps;
ret = mbrtowc (&wc, mbchar, i, &ps);
if (ret == (size_t)-2)
{
ps = ps_back;
/* We don't want to be interrupted during a multibyte char read */
if (unbuffered == 2)
r = zreadn (fd, &c, 1);
else if (unbuffered)
r = zread (fd, &c, 1);
else
r = zreadc (fd, &c);
if (r <= 0)
goto mbchar_return;
mbchar[i++] = c;
continue;
}
else if (ret == (size_t)-1 || ret == (size_t)0 || ret > (size_t)0)
break;
}
mbchar_return:
if (i > 1) /* read a multibyte char */
/* mbchar[0] is already string[ind-1] */
for (r = 1; r < i; r++)
string[ind+r-1] = mbchar[r];
return i - 1;
}
#endif
static void
ttyrestore (ttp)
struct ttsave *ttp;
{
ttsetattr (ttp->fd, &(ttp->attrs));
tty_modified = 0;
}
void
read_tty_cleanup ()
{
if (tty_modified)
ttyrestore (&termsave);
}
int
read_tty_modified ()
{
return (tty_modified);
}
#if defined (READLINE)
static rl_completion_func_t *old_attempted_completion_function = 0;
static rl_hook_func_t *old_startup_hook;
static char *deftext;
static void
reset_attempted_completion_function (cp)
char *cp;
{
if (rl_attempted_completion_function == 0 && old_attempted_completion_function)
rl_attempted_completion_function = old_attempted_completion_function;
}
static int
set_itext ()
{
int r1, r2;
r1 = r2 = 0;
if (old_startup_hook)
r1 = (*old_startup_hook) ();
if (deftext)
{
r2 = rl_insert_text (deftext);
deftext = (char *)NULL;
rl_startup_hook = old_startup_hook;
old_startup_hook = (rl_hook_func_t *)NULL;
}
return (r1 || r2);
}
static char *
edit_line (p, itext)
char *p;
char *itext;
{
char *ret;
int len;
if (bash_readline_initialized == 0)
initialize_readline ();
old_attempted_completion_function = rl_attempted_completion_function;
rl_attempted_completion_function = (rl_completion_func_t *)NULL;
bashline_set_event_hook ();
if (itext)
{
old_startup_hook = rl_startup_hook;
rl_startup_hook = set_itext;
deftext = itext;
}
ret = readline (p);
rl_attempted_completion_function = old_attempted_completion_function;
old_attempted_completion_function = (rl_completion_func_t *)NULL;
bashline_reset_event_hook ();
if (ret == 0)
return ret;
len = strlen (ret);
ret = (char *)xrealloc (ret, len + 2);
ret[len++] = delim;
ret[len] = '\0';
return ret;
}
static int old_delim_ctype;
static rl_command_func_t *old_delim_func;
static int old_newline_ctype;
static rl_command_func_t *old_newline_func;
static unsigned char delim_char;
static void
set_eol_delim (c)
int c;
{
Keymap cmap;
if (bash_readline_initialized == 0)
initialize_readline ();
cmap = rl_get_keymap ();
/* Change newline to self-insert */
old_newline_ctype = cmap[RETURN].type;
old_newline_func = cmap[RETURN].function;
cmap[RETURN].type = ISFUNC;
cmap[RETURN].function = rl_insert;
/* Bind the delimiter character to accept-line. */
old_delim_ctype = cmap[c].type;
old_delim_func = cmap[c].function;
cmap[c].type = ISFUNC;
cmap[c].function = rl_newline;
delim_char = c;
}
static void
reset_eol_delim (cp)
char *cp;
{
Keymap cmap;
cmap = rl_get_keymap ();
cmap[RETURN].type = old_newline_ctype;
cmap[RETURN].function = old_newline_func;
cmap[delim_char].type = old_delim_ctype;
cmap[delim_char].function = old_delim_func;
}
#endif