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|
/*
* io.c --- routines for dealing with input and output and records
*/
/*
* Copyright (C) 1986, 1988, 1989, 1991-2011 the Free Software Foundation, Inc.
*
* This file is part of GAWK, the GNU implementation of the
* AWK Programming Language.
*
* GAWK 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.
*
* GAWK is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/* For OSF/1 to get struct sockaddr_storage */
#if defined(__osf__) && !defined(_OSF_SOURCE)
#define _OSF_SOURCE
#endif
#include "awk.h"
#ifdef HAVE_SYS_PARAM_H
#undef RE_DUP_MAX /* avoid spurious conflict w/regex.h */
#include <sys/param.h>
#endif /* HAVE_SYS_PARAM_H */
#ifdef HAVE_SYS_IOCTL_H
#include <sys/ioctl.h>
#endif /* HAVE_SYS_IOCTL_H */
#ifndef O_ACCMODE
#define O_ACCMODE (O_RDONLY|O_WRONLY|O_RDWR)
#endif
#ifdef HAVE_TERMIOS_H
#include <termios.h>
#endif
#ifdef HAVE_STROPTS_H
#include <stropts.h>
#endif
#ifdef HAVE_SOCKETS
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#else
#include <socket.h>
#endif /* HAVE_SYS_SOCKET_H */
#ifdef HAVE_NETINET_IN_H
#include <netinet/in.h>
#ifdef HAVE_ARPA_INET_H
#include <arpa/inet.h>
#endif
#else /* ! HAVE_NETINET_IN_H */
#include <in.h>
#endif /* HAVE_NETINET_IN_H */
#ifdef HAVE_NETDB_H
#include <netdb.h>
#endif /* HAVE_NETDB_H */
#ifndef HAVE_GETADDRINFO
#include "missing_d/getaddrinfo.h"
#endif
#ifndef AI_ADDRCONFIG /* This is a recent symbol, not everyone has it */
#define AI_ADDRCONFIG 0
#endif /* AI_ADDRCONFIG */
#ifndef HAVE_SOCKADDR_STORAGE
#define sockaddr_storage sockaddr /* for older systems */
#endif /* HAVE_SOCKADDR_STORAGE */
#endif /* HAVE_SOCKETS */
#ifndef AF_UNSPEC
#define AF_UNSPEC 0
#endif
#ifndef AF_INET
#define AF_INET 2
#endif
#ifndef AF_INET6
#define AF_INET6 10
#endif
#ifdef HAVE_LIMITS_H
#include <limits.h>
#endif
#ifdef __EMX__
#include <process.h>
#endif
#ifndef ENFILE
#define ENFILE EMFILE
#endif
#ifdef HAVE_SOCKETS
#ifndef SHUT_RD
#define SHUT_RD 0
#endif
#ifndef SHUT_WR
#define SHUT_WR 1
#endif
#ifndef SHUT_RDWR
#define SHUT_RDWR 2
#endif
#endif /* HAVE_SOCKETS */
#if defined(GAWK_AIX)
#undef TANDEM /* AIX defines this in one of its header files */
#endif
#if defined(__DJGPP__) || defined(__MINGW32__)
#define PIPES_SIMULATED
#endif
typedef enum { CLOSE_ALL, CLOSE_TO, CLOSE_FROM } two_way_close_type;
/* Several macros make the code a bit clearer: */
/* */
/* */
/* <defines and enums>= */
#define at_eof(iop) (((iop)->flag & IOP_AT_EOF) != 0)
#define has_no_data(iop) ((iop)->dataend == NULL)
#define no_data_left(iop) ((iop)->off >= (iop)->dataend)
/* The key point to the design is to split out the code that searches through */
/* a buffer looking for the record and the terminator into separate routines, */
/* with a higher-level routine doing the reading of data and buffer management. */
/* This makes the code easier to manage; the buffering code is the same independent */
/* of how we find a record. Communication is via the return value: */
/* */
/* */
/* <defines and enums>= */
typedef enum recvalues {
REC_OK, /* record and terminator found, recmatch struct filled in */
NOTERM, /* no terminator found, give me more input data */
TERMATEND, /* found terminator at end of buffer */
TERMNEAREND /* found terminator close to end of buffer, for RE might be bigger */
} RECVALUE;
/* Between calls to a scanning routine, the state is stored in */
/* an [[enum scanstate]] variable. Not all states apply to all */
/* variants, but the higher code doesn't really care. */
/* */
/* */
/* <defines and enums>= */
typedef enum scanstate {
NOSTATE, /* scanning not started yet (all) */
INLEADER, /* skipping leading data (RS = "") */
INDATA, /* in body of record (all) */
INTERM /* scanning terminator (RS = "", RS = regexp) */
} SCANSTATE;
/* When a record is seen ([[REC_OK]] or [[TERMATEND]]), the following */
/* structure is filled in. */
/* */
/* */
/* <recmatch>= */
struct recmatch {
char *start; /* record start */
size_t len; /* length of record */
char *rt_start; /* start of terminator */
size_t rt_len; /* length of terminator */
};
static int iop_close(IOBUF *iop);
struct redirect *redirect(NODE *redir_exp, int redirtype, int *errflg);
static void close_one(void);
static int close_redir(struct redirect *rp, int exitwarn, two_way_close_type how);
#ifndef PIPES_SIMULATED
static int wait_any(int interesting);
#endif
static IOBUF *gawk_popen(const char *cmd, struct redirect *rp);
static IOBUF *iop_alloc(int fd, const char *name, IOBUF *buf, int do_openhooks);
static int gawk_pclose(struct redirect *rp);
static int str2mode(const char *mode);
static int two_way_open(const char *str, struct redirect *rp);
static int pty_vs_pipe(const char *command);
static void find_open_hook(IOBUF *iop);
static RECVALUE rs1scan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state);
static RECVALUE rsnullscan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state);
static RECVALUE rsrescan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state);
static RECVALUE (*matchrec)(IOBUF *iop, struct recmatch *recm, SCANSTATE *state) = rs1scan;
static int get_a_record(char **out, IOBUF *iop, int *errcode);
static void free_rp(struct redirect *rp);
static int inetfile(const char *str, int *length, int *family);
#if defined(HAVE_POPEN_H)
#include "popen.h"
#endif
static struct redirect *red_head = NULL;
static NODE *RS;
static Regexp *RS_re_yes_case;
static Regexp *RS_re_no_case;
static Regexp *RS_regexp;
int RS_is_null;
extern int output_is_tty;
extern NODE *ARGC_node;
extern NODE *ARGV_node;
extern NODE *ARGIND_node;
extern NODE *ERRNO_node;
extern NODE **fields_arr;
#if defined(__DJGPP__) || defined(__MINGW32__) || defined(__EMX__) || defined(__CYGWIN__)
/* binmode --- convert BINMODE to string for fopen */
static const char *
binmode(const char *mode)
{
switch (mode[0]) {
case 'r':
if ((BINMODE & 1) != 0)
mode = "rb";
break;
case 'w':
case 'a':
if ((BINMODE & 2) != 0)
mode = (mode[0] == 'w' ? "wb" : "ab");
break;
}
return mode;
}
#else
#define binmode(mode) (mode)
#endif
#ifdef VMS
/* File pointers have an extra level of indirection, and there are cases where
`stdin' can be null. That can crash gawk if fileno() is used as-is. */
static int vmsrtl_fileno(FILE *);
static int vmsrtl_fileno(fp) FILE *fp; { return fileno(fp); }
#undef fileno
#define fileno(FP) (((FP) && *(FP)) ? vmsrtl_fileno(FP) : -1)
#endif /* VMS */
void
after_beginfile(IOBUF **curfile)
{
IOBUF *iop;
iop = *curfile;
assert(iop != NULL);
if (iop->fd == INVALID_HANDLE) {
const char *fname;
int errcode;
fname = iop->name;
errcode = iop->errcode;
iop->errcode = 0;
errno = 0;
update_ERRNO();
iop_close(iop);
*curfile = NULL;
if (errcode == EISDIR && ! do_traditional) {
warning(_("command line argument `%s' is a directory: skipped"), fname);
return; /* read next file */
}
fatal(_("cannot open file `%s' for reading (%s)"),
fname, strerror(errcode));
}
/*
* Open hooks could have been changed by BEGINFILE,
* so delay check until now.
*/
find_open_hook(iop);
}
/* nextfile --- move to the next input data file */
int
nextfile(IOBUF **curfile, int skipping)
{
static long i = 1;
static int files = FALSE;
NODE *arg, *tmp;
static IOBUF mybuf;
const char *fname;
int fd = INVALID_HANDLE;
int errcode;
IOBUF *iop = *curfile;
if (skipping) { /* for 'nextfile' call */
errcode = 0;
if (iop != NULL) {
errcode = iop->errcode;
(void) iop_close(iop);
}
*curfile = NULL;
return (errcode == 0);
}
if (iop != NULL) {
if (at_eof(iop)) {
assert(iop->fd != INVALID_HANDLE);
(void) iop_close(iop);
*curfile = NULL;
return 1; /* run endfile block */
} else
return 0;
}
for (; i < (long) (ARGC_node->lnode->numbr); i++) {
tmp = make_number((AWKNUM) i);
(void) force_string(tmp);
arg = in_array(ARGV_node, tmp);
unref(tmp);
if (arg == NULL || arg->stlen == 0)
continue;
arg = force_string(arg);
arg->stptr[arg->stlen] = '\0';
if (! do_traditional) {
unref(ARGIND_node->var_value);
ARGIND_node->var_value = make_number((AWKNUM) i);
}
if (! arg_assign(arg->stptr, FALSE)) {
files = TRUE;
fname = arg->stptr;
errno = 0;
fd = devopen(fname, binmode("r"));
errcode = errno;
if (! do_traditional)
update_ERRNO();
/* This is a kludge. */
unref(FILENAME_node->var_value);
FILENAME_node->var_value = dupnode(arg);
FNR = 0;
iop = *curfile = iop_alloc(fd, fname, &mybuf, FALSE);
if (fd == INVALID_HANDLE)
iop->errcode = errcode;
else
iop->errcode = 0;
iop->flag |= IOP_NOFREE_OBJ;
return ++i; /* run beginfile block */
}
}
if (files == FALSE) {
files = TRUE;
/* no args. -- use stdin */
/* FNR is init'ed to 0 */
errno = 0;
if (! do_traditional)
update_ERRNO();
unref(FILENAME_node->var_value);
FILENAME_node->var_value = make_string("-", 1);
FILENAME_node->var_value->flags |= MAYBE_NUM; /* be pedantic */
fname = "-";
iop = *curfile = iop_alloc(fileno(stdin), fname, &mybuf, FALSE);
iop->flag |= IOP_NOFREE_OBJ;
if (iop->fd == INVALID_HANDLE) {
errcode = errno;
errno = 0;
update_ERRNO();
(void) iop_close(iop);
*curfile = NULL;
fatal(_("cannot open file `%s' for reading (%s)"),
fname, strerror(errcode));
}
return ++i; /* run beginfile block */
}
return -1; /* end of input, run end block or Op_atexit */
}
/* set_FNR --- update internal FNR from awk variable */
void
set_FNR()
{
FNR = (long) FNR_node->var_value->numbr;
}
/* set_NR --- update internal NR from awk variable */
void
set_NR()
{
NR = (long) NR_node->var_value->numbr;
}
/* inrec --- This reads in a record from the input file */
int
inrec(IOBUF *iop, int *errcode)
{
char *begin;
int cnt;
int retval = 0;
if (at_eof(iop) && no_data_left(iop))
cnt = EOF;
else if ((iop->flag & IOP_CLOSED) != 0)
cnt = EOF;
else
cnt = get_a_record(&begin, iop, errcode);
if (cnt == EOF) {
retval = 1;
if (*errcode > 0)
update_ERRNO_saved(*errcode);
} else {
NR += 1;
FNR += 1;
set_record(begin, cnt);
}
return retval;
}
/* remap_std_file --- reopen a standard descriptor on /dev/null */
static int
remap_std_file(int oldfd)
{
int newfd;
int ret = -1;
/*
* Give OS-specific routines in gawkmisc.c chance to interpret
* "/dev/null" as appropriate for their platforms.
*/
newfd = os_devopen("/dev/null", O_RDWR);
if (newfd == INVALID_HANDLE)
newfd = open("/dev/null", O_RDWR);
if (newfd >= 0) {
/* dup2() will close oldfd for us first. */
ret = dup2(newfd, oldfd);
if (ret == 0)
close(newfd);
} else
ret = 0;
return ret;
}
/* iop_close --- close an open IOP */
static int
iop_close(IOBUF *iop)
{
int ret;
if (iop == NULL)
return 0;
if (iop->fd == INVALID_HANDLE) { /* from nextfile(...) above */
assert(iop->buf == NULL);
assert((iop->flag & IOP_NOFREE_OBJ) != 0);
return 0;
}
errno = 0;
iop->flag &= ~IOP_AT_EOF;
iop->flag |= IOP_CLOSED; /* there may be dangling pointers */
iop->dataend = NULL;
/*
* Closing standard files can cause crufty code elsewhere to lose.
* So we remap the standard file to /dev/null.
* Thanks to Jim Meyering for the suggestion.
*/
if (iop->fd == fileno(stdin)
|| iop->fd == fileno(stdout)
|| iop->fd == fileno(stderr))
ret = remap_std_file(iop->fd);
else
ret = close(iop->fd);
if (iop->close_func != NULL)
(*iop->close_func)(iop);
if (ret == -1)
warning(_("close of fd %d (`%s') failed (%s)"), iop->fd,
iop->name, strerror(errno));
/*
* Be careful -- $0 may still reference the buffer even though
* an explicit close is being done; in the future, maybe we
* can do this a bit better.
*/
if (iop->buf) {
if ((fields_arr[0]->stptr >= iop->buf)
&& (fields_arr[0]->stptr < (iop->buf + iop->size))) {
NODE *t;
t = make_string(fields_arr[0]->stptr,
fields_arr[0]->stlen);
unref(fields_arr[0]);
fields_arr[0] = t;
/*
* 1/27/2003: This used to be here:
*
* reset_record();
*
* Don't do that; reset_record() throws away all fields,
* saves FS etc. We just need to make sure memory isn't
* corrupted and that references to $0 and fields work.
*/
}
efree(iop->buf);
iop->buf = NULL;
}
if ((iop->flag & IOP_NOFREE_OBJ) == 0)
efree(iop);
return ret == -1 ? 1 : 0;
}
/* redflags2str --- turn redirection flags into a string, for debugging */
const char *
redflags2str(int flags)
{
static const struct flagtab redtab[] = {
{ RED_FILE, "RED_FILE" },
{ RED_PIPE, "RED_PIPE" },
{ RED_READ, "RED_READ" },
{ RED_WRITE, "RED_WRITE" },
{ RED_APPEND, "RED_APPEND" },
{ RED_NOBUF, "RED_NOBUF" },
{ RED_EOF, "RED_EOF" },
{ RED_TWOWAY, "RED_TWOWAY" },
{ RED_PTY, "RED_PTY" },
{ RED_SOCKET, "RED_SOCKET" },
{ RED_TCP, "RED_TCP" },
{ 0, NULL }
};
return genflags2str(flags, redtab);
}
/* redirect --- Redirection for printf and print commands */
struct redirect *
redirect(NODE *redir_exp, int redirtype, int *errflg)
{
struct redirect *rp;
char *str;
int tflag = 0;
int outflag = 0;
const char *direction = "to";
const char *mode;
int fd;
const char *what = NULL;
int new_rp = FALSE;
int len; /* used with /inet */
static struct redirect *save_rp = NULL; /* hold onto rp that should
* be freed for reuse
*/
if (do_sandbox)
fatal(_("redirection not allowed in sandbox mode"));
switch (redirtype) {
case redirect_append:
tflag = RED_APPEND;
/* FALL THROUGH */
case redirect_output:
outflag = (RED_FILE|RED_WRITE);
tflag |= outflag;
if (redirtype == redirect_output)
what = ">";
else
what = ">>";
break;
case redirect_pipe:
tflag = (RED_PIPE|RED_WRITE);
what = "|";
break;
case redirect_pipein:
tflag = (RED_PIPE|RED_READ);
what = "|";
break;
case redirect_input:
tflag = (RED_FILE|RED_READ);
what = "<";
break;
case redirect_twoway:
tflag = (RED_READ|RED_WRITE|RED_TWOWAY);
what = "|&";
break;
default:
cant_happen();
}
if (do_lint && (redir_exp->flags & STRCUR) == 0)
lintwarn(_("expression in `%s' redirection only has numeric value"),
what);
redir_exp = force_string(redir_exp);
str = redir_exp->stptr;
if (str == NULL || *str == '\0')
fatal(_("expression for `%s' redirection has null string value"),
what);
if (do_lint && (strncmp(str, "0", redir_exp->stlen) == 0
|| strncmp(str, "1", redir_exp->stlen) == 0))
lintwarn(_("filename `%s' for `%s' redirection may be result of logical expression"),
str, what);
/*
* XXX: Use /inet4 and /inet6 with plain /inet being whatever
* we get back from the system.
*/
#ifdef HAVE_SOCKETS
if (inetfile(str, & len, NULL)) {
tflag |= RED_SOCKET;
if (strncmp(str + len, "tcp/", 4) == 0)
tflag |= RED_TCP; /* use shutdown when closing */
}
#endif /* HAVE_SOCKETS */
for (rp = red_head; rp != NULL; rp = rp->next) {
#ifndef PIPES_SIMULATED
/*
* This is an efficiency hack. We want to
* recover the process slot for dead children,
* if at all possible. Messing with signal() for
* SIGCLD leads to lots of headaches. However, if
* we've gotten EOF from a child input pipeline, it's
* good bet that the child has died. So recover it.
*/
if ((rp->flag & RED_EOF) && redirtype == redirect_pipein) {
if (rp->pid != -1)
wait_any(0);
}
#endif /* PIPES_SIMULATED */
/* now check for a match */
if (strlen(rp->value) == redir_exp->stlen
&& memcmp(rp->value, str, redir_exp->stlen) == 0
&& ((rp->flag & ~(RED_NOBUF|RED_EOF|RED_PTY)) == tflag
|| (outflag != 0
&& (rp->flag & (RED_FILE|RED_WRITE)) == outflag))) {
int rpflag = (rp->flag & ~(RED_NOBUF|RED_EOF|RED_PTY));
int newflag = (tflag & ~(RED_NOBUF|RED_EOF|RED_PTY));
if (do_lint && rpflag != newflag)
lintwarn(
_("unnecessary mixing of `>' and `>>' for file `%.*s'"),
(int) redir_exp->stlen, rp->value);
break;
}
}
if (rp == NULL) {
new_rp = TRUE;
if (save_rp != NULL) {
rp = save_rp;
efree(rp->value);
} else
emalloc(rp, struct redirect *, sizeof(struct redirect), "redirect");
emalloc(str, char *, redir_exp->stlen + 1, "redirect");
memcpy(str, redir_exp->stptr, redir_exp->stlen);
str[redir_exp->stlen] = '\0';
rp->value = str;
rp->flag = tflag;
rp->fp = NULL;
rp->iop = NULL;
rp->pid = -1;
rp->status = 0;
} else
str = rp->value; /* get \0 terminated string */
save_rp = rp;
while (rp->fp == NULL && rp->iop == NULL) {
if (! new_rp && rp->flag & RED_EOF) {
/*
* encountered EOF on file or pipe -- must be cleared
* by explicit close() before reading more
*/
save_rp = NULL;
return rp;
}
mode = NULL;
errno = 0;
switch (redirtype) {
case redirect_output:
mode = binmode("w");
if ((rp->flag & RED_USED) != 0)
mode = (rp->mode[1] == 'b') ? "ab" : "a";
break;
case redirect_append:
mode = binmode("a");
break;
case redirect_pipe:
/* synchronize output before new pipe */
(void) flush_io();
os_restore_mode(fileno(stdin));
if ((rp->fp = popen(str, binmode("w"))) == NULL)
fatal(_("can't open pipe `%s' for output (%s)"),
str, strerror(errno));
/* set close-on-exec */
os_close_on_exec(fileno(rp->fp), str, "pipe", "to");
rp->flag |= RED_NOBUF;
break;
case redirect_pipein:
direction = "from";
if (gawk_popen(str, rp) == NULL)
fatal(_("can't open pipe `%s' for input (%s)"),
str, strerror(errno));
break;
case redirect_input:
direction = "from";
fd = devopen(str, binmode("r"));
if (fd == INVALID_HANDLE && errno == EISDIR) {
*errflg = EISDIR;
/* do not free rp, saving it for reuse (save_rp = rp) */
return NULL;
}
rp->iop = iop_alloc(fd, str, NULL, TRUE);
break;
case redirect_twoway:
direction = "to/from";
if (! two_way_open(str, rp)) {
#ifdef HAVE_SOCKETS
if (inetfile(str, NULL, NULL)) {
*errflg = errno;
/* do not free rp, saving it for reuse (save_rp = rp) */
return NULL;
} else
#endif
fatal(_("can't open two way pipe `%s' for input/output (%s)"),
str, strerror(errno));
}
break;
default:
cant_happen();
}
if (mode != NULL) {
errno = 0;
fd = devopen(str, mode);
if (fd > INVALID_HANDLE) {
if (fd == fileno(stdin))
rp->fp = stdin;
else if (fd == fileno(stdout))
rp->fp = stdout;
else if (fd == fileno(stderr))
rp->fp = stderr;
else {
const char *omode = mode;
#if defined(F_GETFL) && defined(O_APPEND)
int fd_flags;
fd_flags = fcntl(fd, F_GETFL);
if (fd_flags != -1 && (fd_flags & O_APPEND) == O_APPEND)
omode = binmode("a");
#endif
os_close_on_exec(fd, str, "file", "");
rp->fp = fdopen(fd, (const char *) omode);
rp->mode = (const char *) mode;
/* don't leak file descriptors */
if (rp->fp == NULL)
close(fd);
}
if (rp->fp != NULL && os_isatty(fd))
rp->flag |= RED_NOBUF;
/* Move rp to the head of the list. */
if (! new_rp && red_head != rp) {
if ((rp->prev->next = rp->next) != NULL)
rp->next->prev = rp->prev;
red_head->prev = rp;
rp->prev = NULL;
rp->next = red_head;
red_head = rp;
}
}
}
if (rp->fp == NULL && rp->iop == NULL) {
/* too many files open -- close one and try again */
if (errno == EMFILE || errno == ENFILE)
close_one();
#if defined __MINGW32__ || defined __sun
else if (errno == 0) /* HACK! */
close_one();
#endif
#ifdef VMS
/* Alpha/VMS V7.1's C RTL is returning this instead
of EMFILE (haven't tried other post-V6.2 systems) */
#define SS$_EXQUOTA 0x001C
else if (errno == EIO && vaxc$errno == SS$_EXQUOTA)
close_one();
#endif
else {
/*
* Some other reason for failure.
*
* On redirection of input from a file,
* just return an error, so e.g. getline
* can return -1. For output to file,
* complain. The shell will complain on
* a bad command to a pipe.
*/
if (errflg != NULL)
*errflg = errno;
if (redirtype == redirect_output
|| redirtype == redirect_append
) {
/* multiple messages make life easier for translators */
if (*direction == 'f')
fatal(_("can't redirect from `%s' (%s)"),
str, strerror(errno));
else
fatal(_("can't redirect to `%s' (%s)"),
str, strerror(errno));
} else {
/* do not free rp, saving it for reuse (save_rp = rp) */
return NULL;
}
}
}
}
if (new_rp) {
/*
* It opened successfully, hook it into the list.
* Maintain the list in most-recently-used first order.
*/
if (red_head != NULL)
red_head->prev = rp;
rp->prev = NULL;
rp->next = red_head;
red_head = rp;
}
save_rp = NULL;
return rp;
}
/* getredirect --- find the struct redirect for this file or pipe */
struct redirect *
getredirect(const char *str, int len)
{
struct redirect *rp;
for (rp = red_head; rp != NULL; rp = rp->next)
if (strlen(rp->value) == len && memcmp(rp->value, str, len) == 0)
return rp;
return NULL;
}
/* close_one --- temporarily close an open file to re-use the fd */
static void
close_one()
{
struct redirect *rp;
struct redirect *rplast = NULL;
static short warned = FALSE;
if (do_lint && ! warned) {
warned = TRUE;
lintwarn(_("reached system limit for open files: starting to multiplex file descriptors"));
}
/* go to end of list first, to pick up least recently used entry */
for (rp = red_head; rp != NULL; rp = rp->next)
rplast = rp;
/* now work back up through the list */
for (rp = rplast; rp != NULL; rp = rp->prev) {
/* don't close standard files! */
if (rp->fp == NULL || rp->fp == stderr || rp->fp == stdout)
continue;
if ((rp->flag & (RED_FILE|RED_WRITE)) == (RED_FILE|RED_WRITE)) {
rp->flag |= RED_USED;
errno = 0;
if (/* do_lint && */ fclose(rp->fp) != 0)
warning(_("close of `%s' failed (%s)."),
rp->value, strerror(errno));
rp->fp = NULL;
break;
}
}
if (rp == NULL)
/* surely this is the only reason ??? */
fatal(_("too many pipes or input files open"));
}
/* do_close --- completely close an open file or pipe */
NODE *
do_close(int nargs)
{
NODE *tmp, *tmp2;
struct redirect *rp;
two_way_close_type how = CLOSE_ALL; /* default */
if (nargs == 2) {
/* 2nd arg if present: "to" or "from" for two-way pipe */
/* DO NOT use _() on the strings here! */
tmp2 = POP_STRING();
if (strcasecmp(tmp2->stptr, "to") == 0)
how = CLOSE_TO;
else if (strcasecmp(tmp2->stptr, "from") == 0)
how = CLOSE_FROM;
else {
DEREF(tmp2);
fatal(_("close: second argument must be `to' or `from'"));
}
DEREF(tmp2);
}
tmp = POP_STRING(); /* 1st arg: redir to close */
for (rp = red_head; rp != NULL; rp = rp->next) {
if (strlen(rp->value) == tmp->stlen
&& memcmp(rp->value, tmp->stptr, tmp->stlen) == 0)
break;
}
if (rp == NULL) { /* no match, return -1 */
char *cp;
if (do_lint)
lintwarn(_("close: `%.*s' is not an open file, pipe or co-process"),
(int) tmp->stlen, tmp->stptr);
if (! do_traditional) {
/* update ERRNO manually, using errno = ENOENT is a stretch. */
cp = _("close of redirection that was never opened");
unref(ERRNO_node->var_value);
ERRNO_node->var_value = make_string(cp, strlen(cp));
}
DEREF(tmp);
return make_number((AWKNUM) -1.0);
}
DEREF(tmp);
fflush(stdout); /* synchronize regular output */
tmp = make_number((AWKNUM) close_redir(rp, FALSE, how));
rp = NULL;
/*
* POSIX says close() returns 0 on success, non-zero otherwise.
* For POSIX, at this point we just return 0. Otherwise we
* return the exit status of the process or of pclose(), depending.
* This whole business is a mess.
*/
if (do_posix) {
unref(tmp);
return make_number((AWKNUM) 0);
}
return tmp;
}
/* close_rp --- separate function to just do closing */
static int
close_rp(struct redirect *rp, two_way_close_type how)
{
int status = 0;
errno = 0;
if ((rp->flag & RED_TWOWAY) != 0) { /* two-way pipe */
/* write end: */
if ((how == CLOSE_ALL || how == CLOSE_TO) && rp->fp != NULL) {
#ifdef HAVE_SOCKETS
if ((rp->flag & RED_TCP) != 0)
(void) shutdown(fileno(rp->fp), SHUT_WR);
#endif /* HAVE_SOCKETS */
if ((rp->flag & RED_PTY) != 0) {
fwrite("\004\n", sizeof("\004\n") - 1, 1, rp->fp);
fflush(rp->fp);
}
status = fclose(rp->fp);
rp->fp = NULL;
}
/* read end: */
if (how == CLOSE_ALL || how == CLOSE_FROM) {
if ((rp->flag & RED_SOCKET) != 0 && rp->iop != NULL) {
#ifdef HAVE_SOCKETS
if ((rp->flag & RED_TCP) != 0)
(void) shutdown(rp->iop->fd, SHUT_RD);
#endif /* HAVE_SOCKETS */
(void) iop_close(rp->iop);
} else
status = gawk_pclose(rp);
rp->iop = NULL;
}
} else if ((rp->flag & (RED_PIPE|RED_WRITE)) == (RED_PIPE|RED_WRITE)) { /* write to pipe */
status = pclose(rp->fp);
if ((BINMODE & 1) != 0)
os_setbinmode(fileno(stdin), O_BINARY);
rp->fp = NULL;
} else if (rp->fp != NULL) { /* write to file */
status = fclose(rp->fp);
rp->fp = NULL;
} else if (rp->iop != NULL) { /* read from pipe/file */
if ((rp->flag & RED_PIPE) != 0) /* read from pipe */
status = gawk_pclose(rp);
/* gawk_pclose sets rp->iop to null */
else { /* read from file */
status = iop_close(rp->iop);
rp->iop = NULL;
}
}
return status;
}
/* close_redir --- close an open file or pipe */
static int
close_redir(struct redirect *rp, int exitwarn, two_way_close_type how)
{
int status = 0;
if (rp == NULL)
return 0;
if (rp->fp == stdout || rp->fp == stderr)
goto checkwarn; /* bypass closing, remove from list */
if (do_lint && (rp->flag & RED_TWOWAY) == 0 && how != CLOSE_ALL)
lintwarn(_("close: redirection `%s' not opened with `|&', second argument ignored"),
rp->value);
status = close_rp(rp, how);
/* SVR4 awk checks and warns about status of close */
if (status != 0) {
int save_errno = errno;
char *s = strerror(save_errno);
/*
* Too many people have complained about this.
* As of 2.15.6, it is now under lint control.
*/
if (do_lint) {
if ((rp->flag & RED_PIPE) != 0)
lintwarn(_("failure status (%d) on pipe close of `%s' (%s)"),
status, rp->value, s);
else
lintwarn(_("failure status (%d) on file close of `%s' (%s)"),
status, rp->value, s);
}
if (! do_traditional) {
/* set ERRNO too so that program can get at it */
update_ERRNO_saved(save_errno);
}
}
checkwarn:
if (exitwarn) {
/*
* Don't use lintwarn() here. If lint warnings are fatal,
* doing so prevents us from closing other open redirections.
*
* Using multiple full messages instead of string parameters
* for the types makes message translation easier.
*/
if ((rp->flag & RED_SOCKET) != 0)
warning(_("no explicit close of socket `%s' provided"),
rp->value);
else if ((rp->flag & RED_TWOWAY) != 0)
warning(_("no explicit close of co-process `%s' provided"),
rp->value);
else if ((rp->flag & RED_PIPE) != 0)
warning(_("no explicit close of pipe `%s' provided"),
rp->value);
else
warning(_("no explicit close of file `%s' provided"),
rp->value);
}
/* remove it from the list if closing both or both ends have been closed */
if (how == CLOSE_ALL || (rp->iop == NULL && rp->fp == NULL)) {
if (rp->next != NULL)
rp->next->prev = rp->prev;
if (rp->prev != NULL)
rp->prev->next = rp->next;
else
red_head = rp->next;
free_rp(rp);
}
return status;
}
/* flush_io --- flush all open output files */
int
flush_io()
{
struct redirect *rp;
int status = 0;
errno = 0;
if (fflush(stdout)) {
warning(_("error writing standard output (%s)"), strerror(errno));
status++;
}
if (fflush(stderr)) {
warning(_("error writing standard error (%s)"), strerror(errno));
status++;
}
for (rp = red_head; rp != NULL; rp = rp->next)
/* flush both files and pipes, what the heck */
if ((rp->flag & RED_WRITE) && rp->fp != NULL) {
if (fflush(rp->fp)) {
if (rp->flag & RED_PIPE)
warning(_("pipe flush of `%s' failed (%s)."),
rp->value, strerror(errno));
else if (rp->flag & RED_TWOWAY)
warning(_("co-process flush of pipe to `%s' failed (%s)."),
rp->value, strerror(errno));
else
warning(_("file flush of `%s' failed (%s)."),
rp->value, strerror(errno));
status++;
}
}
if (status != 0)
status = -1; /* canonicalize it */
return status;
}
/* close_io --- close all open files, called when exiting */
int
close_io(int *stdio_problem)
{
struct redirect *rp;
struct redirect *next;
int status = 0;
errno = 0;
for (rp = red_head; rp != NULL; rp = next) {
next = rp->next;
/*
* close_redir() will print a message if needed
* if do_lint, warn about lack of explicit close
*/
if (close_redir(rp, do_lint, CLOSE_ALL))
status++;
rp = NULL;
}
/*
* Some of the non-Unix os's have problems doing an fclose
* on stdout and stderr. Since we don't really need to close
* them, we just flush them, and do that across the board.
*/
*stdio_problem = FALSE;
if (fflush(stdout)) {
warning(_("error writing standard output (%s)"), strerror(errno));
status++;
*stdio_problem = TRUE;
}
if (fflush(stderr)) {
warning(_("error writing standard error (%s)"), strerror(errno));
status++;
*stdio_problem = TRUE;
}
return status;
}
/* str2mode --- convert a string mode to an integer mode */
static int
str2mode(const char *mode)
{
int ret;
const char *second = & mode[1];
if (*second == 'b')
second++;
switch(mode[0]) {
case 'r':
ret = O_RDONLY;
if (*second == '+' || *second == 'w')
ret = O_RDWR;
break;
case 'w':
ret = O_WRONLY|O_CREAT|O_TRUNC;
if (*second == '+' || *second == 'r')
ret = O_RDWR|O_CREAT|O_TRUNC;
break;
case 'a':
ret = O_WRONLY|O_APPEND|O_CREAT;
if (*second == '+')
ret = O_RDWR|O_APPEND|O_CREAT;
break;
default:
ret = 0; /* lint */
cant_happen();
}
if (strchr(mode, 'b') != NULL)
ret |= O_BINARY;
return ret;
}
#ifdef HAVE_SOCKETS
/* socketopen --- open a socket and set it into connected state */
static int
socketopen(int family, int type, const char *localpname,
const char *remotepname, const char *remotehostname)
{
struct addrinfo *lres, *lres0;
struct addrinfo lhints;
struct addrinfo *rres, *rres0;
struct addrinfo rhints;
int lerror;
int rerror;
int socket_fd = INVALID_HANDLE;
int any_remote_host = (strcmp(remotehostname, "0") == 0);
memset (&lhints, '\0', sizeof (lhints));
lhints.ai_flags = AI_PASSIVE | AI_ADDRCONFIG;
lhints.ai_socktype = type;
lhints.ai_family = family;
lerror = getaddrinfo (NULL, localpname, &lhints, &lres);
if (lerror) {
if (strcmp(localpname, "0") != 0)
fatal(_("local port %s invalid in `/inet'"), localpname);
lres0 = NULL;
lres = &lhints;
} else
lres0 = lres;
while (lres != NULL) {
memset (&rhints, '\0', sizeof (rhints));
rhints.ai_flags = lhints.ai_flags;
rhints.ai_socktype = lhints.ai_socktype;
rhints.ai_family = lhints.ai_family;
rhints.ai_protocol = lhints.ai_protocol;
rerror = getaddrinfo (any_remote_host ? NULL : remotehostname, remotepname, &rhints, &rres);
if (rerror) {
if (lres0 != NULL)
freeaddrinfo(lres0);
fatal(_("remote host and port information (%s, %s) invalid"), remotehostname, remotepname);
}
rres0 = rres;
socket_fd = INVALID_HANDLE;
while (rres != NULL) {
socket_fd = socket(rres->ai_family,
rres->ai_socktype, rres->ai_protocol);
if (socket_fd < 0 || socket_fd == INVALID_HANDLE)
goto nextrres;
if (type == SOCK_STREAM) {
int on = 1;
#ifdef SO_LINGER
struct linger linger;
memset(& linger, '\0', sizeof(linger));
#endif
setsockopt(socket_fd, SOL_SOCKET, SO_REUSEADDR,
(char *) & on, sizeof(on));
#ifdef SO_LINGER
linger.l_onoff = 1;
linger.l_linger = 30; /* linger for 30/100 second */
setsockopt(socket_fd, SOL_SOCKET, SO_LINGER,
(char *) & linger, sizeof(linger));
#endif
}
if (bind(socket_fd, lres->ai_addr, lres->ai_addrlen) != 0)
goto nextrres;
if (! any_remote_host) { /* not ANY => create a client */
if (connect(socket_fd, rres->ai_addr, rres->ai_addrlen) == 0)
break;
} else { /* remote host is ANY => create a server */
if (type == SOCK_STREAM) {
int clientsocket_fd = INVALID_HANDLE;
struct sockaddr_storage remote_addr;
socklen_t namelen = sizeof (remote_addr);
if (listen(socket_fd, 1) >= 0
&& (clientsocket_fd = accept(socket_fd,
(struct sockaddr *) &remote_addr,
&namelen)) >= 0) {
close(socket_fd);
socket_fd = clientsocket_fd;
break;
}
} else if (type == SOCK_DGRAM) {
#ifdef MSG_PEEK
char buf[10];
struct sockaddr_storage remote_addr;
socklen_t readle;
if (recvfrom(socket_fd, buf, 1, MSG_PEEK,
(struct sockaddr *) & remote_addr,
& readle) >= 0
&& readle
&& connect(socket_fd,
(struct sockaddr *)& remote_addr,
readle) == 0)
break;
#endif
}
}
nextrres:
if (socket_fd != INVALID_HANDLE)
close(socket_fd);
socket_fd = INVALID_HANDLE;
rres = rres->ai_next;
}
freeaddrinfo(rres0);
if (socket_fd != INVALID_HANDLE)
break;
lres = lres->ai_next;
}
if (lres0)
freeaddrinfo(lres0);
return socket_fd;
}
#endif /* HAVE_SOCKETS */
/* devopen --- handle /dev/std{in,out,err}, /dev/fd/N, regular files */
/*
* Strictly speaking, "name" is not a "const char *" because we temporarily
* change the string.
*/
int
devopen(const char *name, const char *mode)
{
int openfd;
char *cp;
char *ptr;
int flag = 0;
int len;
int family;
flag = str2mode(mode);
if (strcmp(name, "-") == 0)
return fileno(stdin);
openfd = INVALID_HANDLE;
if (do_traditional)
goto strictopen;
if ((openfd = os_devopen(name, flag)) != INVALID_HANDLE) {
os_close_on_exec(openfd, name, "file", "");
return openfd;
}
if (strncmp(name, "/dev/", 5) == 0) {
cp = (char *) name + 5;
if (strcmp(cp, "stdin") == 0 && (flag & O_ACCMODE) == O_RDONLY)
openfd = fileno(stdin);
else if (strcmp(cp, "stdout") == 0 && (flag & O_ACCMODE) == O_WRONLY)
openfd = fileno(stdout);
else if (strcmp(cp, "stderr") == 0 && (flag & O_ACCMODE) == O_WRONLY)
openfd = fileno(stderr);
else if (strncmp(cp, "fd/", 3) == 0) {
struct stat sbuf;
cp += 3;
openfd = (int) strtoul(cp, &ptr, 10);
if (openfd <= INVALID_HANDLE || ptr == cp
|| fstat(openfd, &sbuf) < 0)
openfd = INVALID_HANDLE;
}
/* do not set close-on-exec for inherited fd's */
if (openfd != INVALID_HANDLE)
return openfd;
} else if (inetfile(name, & len, & family)) {
#ifdef HAVE_SOCKETS
/* /inet/protocol/localport/hostname/remoteport */
int protocol;
char *hostname;
char *hostnameslastcharp;
char *localpname;
char *localpnamelastcharp;
cp = (char *) name + len;
/* which protocol? */
if (strncmp(cp, "tcp/", 4) == 0)
protocol = SOCK_STREAM;
else if (strncmp(cp, "udp/", 4) == 0)
protocol = SOCK_DGRAM;
else {
protocol = SOCK_STREAM; /* shut up the compiler */
fatal(_("no (known) protocol supplied in special filename `%s'"),
name);
}
cp += 4;
/* which localport? */
localpname = cp;
while (*cp != '/' && *cp != '\0')
cp++;
/*
* Require a port, let them explicitly put 0 if
* they don't care.
*/
if (*cp != '/' || cp == localpname)
fatal(_("special file name `%s' is incomplete"), name);
/*
* We change the special file name temporarily because we
* need a 0-terminated string here for conversion with atoi().
* By using atoi() the use of decimal numbers is enforced.
*/
*cp = '\0';
localpnamelastcharp = cp;
/* which hostname? */
cp++;
hostname = cp;
while (*cp != '/' && *cp != '\0')
cp++;
if (*cp != '/' || cp == hostname) {
*localpnamelastcharp = '/';
fatal(_("must supply a remote hostname to `/inet'"));
}
*cp = '\0';
hostnameslastcharp = cp;
/* which remoteport? */
cp++;
/*
* The remote port ends the special file name.
* This means there already is a 0 at the end of the string.
* Therefore no need to patch any string ending.
*
* Here too, require a port, let them explicitly put 0 if
* they don't care.
*/
if (*cp == '\0') {
*localpnamelastcharp = '/';
*hostnameslastcharp = '/';
fatal(_("must supply a remote port to `/inet'"));
}
{
#define DEFAULT_RETRIES 20
static unsigned long def_retries = DEFAULT_RETRIES;
static int first_time = TRUE;
unsigned long retries = 0;
static long msleep = 1000;
if (first_time) {
char *cp, *end;
unsigned long count = 0;
char *ms2;
first_time = FALSE;
if ((cp = getenv("GAWK_SOCK_RETRIES")) != NULL) {
count = strtoul(cp, &end, 10);
if (end != cp && count > 0)
def_retries = count;
}
/*
* Env var is in milliseconds, paramter to usleep()
* is microseconds, make the conversion. Default is
* 1 millisecond.
*/
if ((ms2 = getenv("GAWK_MSEC_SLEEP")) != NULL) {
msleep = strtol(ms2, &end, 10);
if (end == ms2 || msleep < 0)
msleep = 1000;
else
msleep *= 1000;
}
}
retries = def_retries;
do {
openfd = socketopen(family, protocol, localpname, cp, hostname);
retries--;
} while (openfd == INVALID_HANDLE && retries > 0 && usleep(msleep) == 0);
}
*localpnamelastcharp = '/';
*hostnameslastcharp = '/';
#else /* ! HAVE_SOCKETS */
fatal(_("TCP/IP communications are not supported"));
#endif /* HAVE_SOCKETS */
}
strictopen:
if (openfd == INVALID_HANDLE)
openfd = open(name, flag, 0666);
#ifdef __EMX__
if (openfd == INVALID_HANDLE && errno == EACCES) {
/* on OS/2 directory access via open() is not permitted */
struct stat buf;
if (stat(name, &buf) == 0 && S_ISDIR(buf.st_mode))
errno = EISDIR;
}
#endif
if (openfd != INVALID_HANDLE) {
if (os_isdir(openfd)) {
(void) close(openfd); /* don't leak fds */
/* Set useful error number. */
errno = EISDIR;
return INVALID_HANDLE;
}
if (openfd > fileno(stderr))
os_close_on_exec(openfd, name, "file", "");
}
/*
* XXX: FIXME: if fd is INVALID_HANDLE, see if an open hook
* can do something.
*/
return openfd;
}
/* two_way_open --- open a two way communications channel */
static int
two_way_open(const char *str, struct redirect *rp)
{
static int no_ptys = FALSE;
#ifdef HAVE_SOCKETS
/* case 1: socket */
if (inetfile(str, NULL, NULL)) {
int fd, newfd;
fd = devopen(str, "rw");
if (fd == INVALID_HANDLE)
return FALSE;
rp->fp = fdopen(fd, "w");
if (rp->fp == NULL) {
close(fd);
return FALSE;
}
newfd = dup(fd);
if (newfd < 0) {
fclose(rp->fp);
return FALSE;
}
os_close_on_exec(newfd, str, "socket", "to/from");
rp->iop = iop_alloc(newfd, str, NULL, TRUE);
if (rp->iop == NULL) {
fclose(rp->fp);
return FALSE;
}
rp->flag |= RED_SOCKET;
return TRUE;
}
#endif /* HAVE_SOCKETS */
#if defined(HAVE_TERMIOS_H) && ! defined(ZOS_USS)
/* case 2: use ptys for two-way communications to child */
if (! no_ptys && pty_vs_pipe(str)) {
static int initialized = FALSE;
static char first_pty_letter;
#ifdef HAVE_GRANTPT
static int have_dev_ptmx;
#endif
char slavenam[32];
char c;
int master, dup_master;
int slave;
int save_errno;
pid_t pid;
struct stat statb;
struct termios st;
/* Use array of chars to avoid ascii / ebcdic issues */
static char pty_chars[] = "pqrstuvwxyzabcdefghijklmno";
int i;
if (! initialized) {
initialized = TRUE;
#ifdef HAVE_GRANTPT
have_dev_ptmx = (stat("/dev/ptmx", &statb) >= 0);
#endif
i = 0;
do {
c = pty_chars[i++];
sprintf(slavenam, "/dev/pty%c0", c);
if (stat(slavenam, &statb) >= 0) {
first_pty_letter = c;
break;
}
} while (pty_chars[i] != '\0');
}
#ifdef HAVE_GRANTPT
if (have_dev_ptmx) {
master = open("/dev/ptmx", O_RDWR);
if (master >= 0) {
char *tem;
grantpt(master);
unlockpt(master);
tem = ptsname(master);
if (tem != NULL) {
strcpy(slavenam, tem);
goto got_the_pty;
}
(void) close(master);
}
}
#endif
if (first_pty_letter) {
/*
* Assume /dev/ptyXNN and /dev/ttyXN naming system.
* The FIRST_PTY_LETTER gives the first X to try. We try in the
* sequence FIRST_PTY_LETTER, .., 'z', 'a', .., FIRST_PTY_LETTER.
* Is this worthwhile, or just over-zealous?
*/
c = first_pty_letter;
do {
int i;
char *cp;
for (i = 0; i < 16; i++) {
sprintf(slavenam, "/dev/pty%c%x", c, i);
if (stat(slavenam, &statb) < 0) {
no_ptys = TRUE; /* bypass all this next time */
goto use_pipes;
}
if ((master = open(slavenam, O_RDWR)) >= 0) {
slavenam[sizeof("/dev/") - 1] = 't';
if (access(slavenam, R_OK | W_OK) == 0)
goto got_the_pty;
close(master);
}
}
/* move to next character */
cp = strchr(pty_chars, c);
if (cp[1] != '\0')
cp++;
else
cp = pty_chars;
c = *cp;
} while (c != first_pty_letter);
} else
no_ptys = TRUE;
/* Couldn't find a pty. Fall back to using pipes. */
goto use_pipes;
got_the_pty:
if ((slave = open(slavenam, O_RDWR)) < 0) {
close(master);
fatal(_("could not open `%s', mode `%s'"),
slavenam, "r+");
}
#ifdef I_PUSH
/*
* Push the necessary modules onto the slave to
* get terminal semantics.
*/
ioctl(slave, I_PUSH, "ptem");
ioctl(slave, I_PUSH, "ldterm");
#endif
tcgetattr(slave, &st);
st.c_iflag &= ~(ISTRIP | IGNCR | INLCR | IXOFF);
st.c_iflag |= (ICRNL | IGNPAR | BRKINT | IXON);
st.c_oflag &= ~OPOST;
st.c_cflag &= ~CSIZE;
st.c_cflag |= CREAD | CS8 | CLOCAL;
st.c_lflag &= ~(ECHO | ECHOE | ECHOK | NOFLSH | TOSTOP);
st.c_lflag |= ISIG;
#if 0
st.c_cc[VMIN] = 1;
st.c_cc[VTIME] = 0;
#endif
/* Set some control codes to default values */
#ifdef VINTR
st.c_cc[VINTR] = '\003'; /* ^c */
#endif
#ifdef VQUIT
st.c_cc[VQUIT] = '\034'; /* ^| */
#endif
#ifdef VERASE
st.c_cc[VERASE] = '\177'; /* ^? */
#endif
#ifdef VKILL
st.c_cc[VKILL] = '\025'; /* ^u */
#endif
#ifdef VEOF
st.c_cc[VEOF] = '\004'; /* ^d */
#endif
tcsetattr(slave, TCSANOW, &st);
switch (pid = fork ()) {
case 0:
/* Child process */
setsid();
#ifdef TIOCSCTTY
ioctl(slave, TIOCSCTTY, 0);
#endif
if (close(master) == -1)
fatal(_("close of master pty failed (%s)"), strerror(errno));
if (close(1) == -1)
fatal(_("close of stdout in child failed (%s)"),
strerror(errno));
if (dup(slave) != 1)
fatal(_("moving slave pty to stdout in child failed (dup: %s)"), strerror(errno));
if (close(0) == -1)
fatal(_("close of stdin in child failed (%s)"),
strerror(errno));
if (dup(slave) != 0)
fatal(_("moving slave pty to stdin in child failed (dup: %s)"), strerror(errno));
if (close(slave))
fatal(_("close of slave pty failed (%s)"), strerror(errno));
/* stderr does NOT get dup'ed onto child's stdout */
signal(SIGPIPE, SIG_DFL);
execl("/bin/sh", "sh", "-c", str, NULL);
_exit(errno == ENOENT ? 127 : 126);
case -1:
save_errno = errno;
close(master);
errno = save_errno;
return FALSE;
}
/* parent */
if (close(slave)) {
close(master);
(void) kill(pid, SIGKILL); /* overkill? (pardon pun) */
fatal(_("close of slave pty failed (%s)"), strerror(errno));
}
rp->pid = pid;
rp->iop = iop_alloc(master, str, NULL, TRUE);
if (rp->iop == NULL) {
(void) close(master);
(void) kill(pid, SIGKILL); /* overkill? (pardon pun) */
return FALSE;
}
/*
* Force read and write ends of two-way connection to
* be different fd's so they can be closed independently.
*/
if ((dup_master = dup(master)) < 0
|| (rp->fp = fdopen(dup_master, "w")) == NULL) {
iop_close(rp->iop);
rp->iop = NULL;
(void) close(master);
(void) kill(pid, SIGKILL); /* overkill? (pardon pun) */
if (dup_master > 0)
(void) close(dup_master);
return FALSE;
}
rp->flag |= RED_PTY;
os_close_on_exec(master, str, "pipe", "from");
os_close_on_exec(dup_master, str, "pipe", "to");
first_pty_letter = '\0'; /* reset for next command */
return TRUE;
}
#endif /* defined(HAVE_TERMIOS_H) && ! defined(ZOS_USS) */
use_pipes:
#ifndef PIPES_SIMULATED /* real pipes */
/* case 3: two way pipe to a child process */
{
int ptoc[2], ctop[2];
int pid;
int save_errno;
#ifdef __EMX__
int save_stdout, save_stdin;
#endif
if (pipe(ptoc) < 0)
return FALSE; /* errno set, diagnostic from caller */
if (pipe(ctop) < 0) {
save_errno = errno;
close(ptoc[0]);
close(ptoc[1]);
errno = save_errno;
return FALSE;
}
#ifdef __EMX__
save_stdin = dup(0); /* duplicate stdin */
save_stdout = dup(1); /* duplicate stdout */
if (save_stdout == -1 || save_stdin == -1) {
/* if an error occurrs close all open file handles */
save_errno = errno;
if (save_stdin != -1)
close(save_stdin);
if (save_stdout != -1)
close(save_stdout);
close(ptoc[0]); close(ptoc[1]);
close(ctop[0]); close(ctop[1]);
errno = save_errno;
return FALSE;
}
/* connect pipes to stdin and stdout */
close(1); /* close stdout */
if (dup(ctop[1]) != 1) { /* connect pipe input to stdout */
close(save_stdin); close(save_stdout);
close(ptoc[0]); close(ptoc[1]);
close(ctop[0]); close(ctop[1]);
fatal(_("moving pipe to stdout in child failed (dup: %s)"), strerror(errno));
}
close(0); /* close stdin */
if (dup(ptoc[0]) != 0) { /* connect pipe output to stdin */
close(save_stdin); close(save_stdout);
close(ptoc[0]); close(ptoc[1]);
close(ctop[0]); close(ctop[1]);
fatal(_("moving pipe to stdin in child failed (dup: %s)"), strerror(errno));
}
/* none of these handles must be inherited by the child process */
(void) close(ptoc[0]); /* close pipe output, child will use stdin instead */
(void) close(ctop[1]); /* close pipe input, child will use stdout instead */
os_close_on_exec(ptoc[1], str, "pipe", "from"); /* pipe input: output of the parent process */
os_close_on_exec(ctop[0], str, "pipe", "from"); /* pipe output: input of the parent process */
os_close_on_exec(save_stdin, str, "pipe", "from"); /* saved stdin of the parent process */
os_close_on_exec(save_stdout, str, "pipe", "from"); /* saved stdout of the parent process */
/* stderr does NOT get dup'ed onto child's stdout */
pid = spawnl(P_NOWAIT, "/bin/sh", "sh", "-c", str, NULL);
/* restore stdin and stdout */
close(1);
if (dup(save_stdout) != 1) {
close(save_stdin); close(save_stdout);
close(ptoc[1]); close(ctop[0]);
fatal(_("restoring stdout in parent process failed\n"));
}
close(save_stdout);
close(0);
if (dup(save_stdin) != 0) {
close(save_stdin);
close(ptoc[1]); close(ctop[0]);
fatal(_("restoring stdin in parent process failed\n"));
}
close(save_stdin);
if (pid < 0) { /* spawnl() failed */
save_errno = errno;
close(ptoc[1]);
close(ctop[0]);
errno = save_errno;
return FALSE;
}
#else /* NOT __EMX__ */
if ((pid = fork()) < 0) {
save_errno = errno;
close(ptoc[0]); close(ptoc[1]);
close(ctop[0]); close(ctop[1]);
errno = save_errno;
return FALSE;
}
if (pid == 0) { /* child */
if (close(1) == -1)
fatal(_("close of stdout in child failed (%s)"),
strerror(errno));
if (dup(ctop[1]) != 1)
fatal(_("moving pipe to stdout in child failed (dup: %s)"), strerror(errno));
if (close(0) == -1)
fatal(_("close of stdin in child failed (%s)"),
strerror(errno));
if (dup(ptoc[0]) != 0)
fatal(_("moving pipe to stdin in child failed (dup: %s)"), strerror(errno));
if ( close(ptoc[0]) == -1 || close(ptoc[1]) == -1
|| close(ctop[0]) == -1 || close(ctop[1]) == -1)
fatal(_("close of pipe failed (%s)"), strerror(errno));
/* stderr does NOT get dup'ed onto child's stdout */
execl("/bin/sh", "sh", "-c", str, NULL);
_exit(errno == ENOENT ? 127 : 126);
}
#endif /* NOT __EMX__ */
/* parent */
rp->pid = pid;
rp->iop = iop_alloc(ctop[0], str, NULL, TRUE);
if (rp->iop == NULL) {
(void) close(ctop[0]);
(void) close(ctop[1]);
(void) close(ptoc[0]);
(void) close(ptoc[1]);
(void) kill(pid, SIGKILL); /* overkill? (pardon pun) */
return FALSE;
}
rp->fp = fdopen(ptoc[1], "w");
if (rp->fp == NULL) {
iop_close(rp->iop);
rp->iop = NULL;
(void) close(ctop[0]);
(void) close(ctop[1]);
(void) close(ptoc[0]);
(void) close(ptoc[1]);
(void) kill(pid, SIGKILL); /* overkill? (pardon pun) */
return FALSE;
}
#ifndef __EMX__
os_close_on_exec(ctop[0], str, "pipe", "from");
os_close_on_exec(ptoc[1], str, "pipe", "from");
(void) close(ptoc[0]);
(void) close(ctop[1]);
#endif
return TRUE;
}
#else /*PIPES_SIMULATED*/
fatal(_("`|&' not supported"));
/*NOTREACHED*/
return FALSE;
#endif
}
#ifndef PIPES_SIMULATED /* real pipes */
/* wait_any --- wait for a child process, close associated pipe */
static int
wait_any(int interesting) /* pid of interest, if any */
{
RETSIGTYPE (*hstat)(int), (*istat)(int), (*qstat)(int);
int pid;
int status = 0;
struct redirect *redp;
hstat = signal(SIGHUP, SIG_IGN);
istat = signal(SIGINT, SIG_IGN);
qstat = signal(SIGQUIT, SIG_IGN);
for (;;) {
#ifdef HAVE_SYS_WAIT_H /* POSIX compatible sys/wait.h */
pid = wait(&status);
#else
pid = wait((union wait *)&status);
#endif
if (interesting && pid == interesting) {
break;
} else if (pid != -1) {
for (redp = red_head; redp != NULL; redp = redp->next)
if (pid == redp->pid) {
redp->pid = -1;
redp->status = status;
break;
}
}
if (pid == -1 && errno == ECHILD)
break;
}
signal(SIGHUP, hstat);
signal(SIGINT, istat);
signal(SIGQUIT, qstat);
return status;
}
/* gawk_popen --- open an IOBUF on a child process */
static IOBUF *
gawk_popen(const char *cmd, struct redirect *rp)
{
int p[2];
int pid;
#ifdef __EMX__
int save_stdout;
#endif
/*
* used to wait for any children to synchronize input and output,
* but this could cause gawk to hang when it is started in a pipeline
* and thus has a child process feeding it input (shell dependent)
*/
/*(void) wait_any(0);*/ /* wait for outstanding processes */
if (pipe(p) < 0)
fatal(_("cannot open pipe `%s' (%s)"), cmd, strerror(errno));
#ifdef __EMX__
save_stdout = dup(1); /* save stdout */
rp->iop = NULL;
if (save_stdout == -1) {
close(p[0]); close(p[1]);
return rp->iop; /* failed */
}
close(1); /* close stdout */
if (dup(p[1]) != 1) {
close(p[0]); close(p[1]);
fatal(_("moving pipe to stdout in child failed (dup: %s)"), strerror(errno));
}
/* none of these handles must be inherited by the child process */
close(p[1]); /* close pipe input */
os_close_on_exec(p[0], cmd, "pipe", "from"); /* pipe output: input of the parent process */
os_close_on_exec(save_stdout, cmd, "pipe", "from"); /* saved stdout of the parent process */
pid = spawnl(P_NOWAIT, "/bin/sh", "sh", "-c", cmd, NULL);
/* restore stdout */
close(1);
if (dup(save_stdout) != 1) {
close(p[0]);
fatal(_("restoring stdout in parent process failed\n"));
}
close(save_stdout);
#else /* NOT __EMX__ */
if ((pid = fork()) == 0) {
if (close(1) == -1)
fatal(_("close of stdout in child failed (%s)"),
strerror(errno));
if (dup(p[1]) != 1)
fatal(_("moving pipe to stdout in child failed (dup: %s)"), strerror(errno));
if (close(p[0]) == -1 || close(p[1]) == -1)
fatal(_("close of pipe failed (%s)"), strerror(errno));
execl("/bin/sh", "sh", "-c", cmd, NULL);
_exit(errno == ENOENT ? 127 : 126);
}
#endif /* NOT __EMX__ */
if (pid == -1) {
close(p[0]); close(p[1]);
fatal(_("cannot create child process for `%s' (fork: %s)"), cmd, strerror(errno));
}
rp->pid = pid;
#ifndef __EMX__
if (close(p[1]) == -1) {
close(p[0]);
fatal(_("close of pipe failed (%s)"), strerror(errno));
}
#endif
os_close_on_exec(p[0], cmd, "pipe", "from");
rp->iop = iop_alloc(p[0], cmd, NULL, TRUE);
if (rp->iop == NULL)
(void) close(p[0]);
return rp->iop;
}
/* gawk_pclose --- close an open child pipe */
static int
gawk_pclose(struct redirect *rp)
{
if (rp->iop != NULL)
(void) iop_close(rp->iop);
rp->iop = NULL;
/* process previously found, return stored status */
if (rp->pid == -1)
return rp->status;
rp->status = wait_any(rp->pid);
rp->pid = -1;
return rp->status;
}
#else /* PIPES_SIMULATED */
/*
* use temporary file rather than pipe
* except if popen() provides real pipes too
*/
/* gawk_popen --- open an IOBUF on a child process */
static IOBUF *
gawk_popen(const char *cmd, struct redirect *rp)
{
FILE *current;
os_restore_mode(fileno(stdin));
current = popen(cmd, binmode("r"));
if ((BINMODE & 1) != 0)
os_setbinmode(fileno(stdin), O_BINARY);
if (current == NULL)
return NULL;
os_close_on_exec(fileno(current), cmd, "pipe", "from");
rp->iop = iop_alloc(fileno(current), cmd, NULL, TRUE);
if (rp->iop == NULL) {
(void) pclose(current);
current = NULL;
}
rp->ifp = current;
return rp->iop;
}
/* gawk_pclose --- close an open child pipe */
static int
gawk_pclose(struct redirect *rp)
{
int rval, aval, fd = rp->iop->fd;
if (rp->iop != NULL) {
rp->iop->fd = dup(fd); /* kludge to allow close() + pclose() */
rval = iop_close(rp->iop);
}
rp->iop = NULL;
aval = pclose(rp->ifp);
rp->ifp = NULL;
return (rval < 0 ? rval : aval);
}
#endif /* PIPES_SIMULATED */
/* do_getline --- read in a line, into var and with redirection */
NODE *
do_getline_redir(int intovar, int redirtype)
{
struct redirect *rp = NULL;
IOBUF *iop;
int cnt = EOF;
char *s = NULL;
int errcode;
NODE *redir_exp = NULL;
NODE **lhs = NULL;
int redir_error = 0;
if (intovar)
lhs = POP_ADDRESS();
assert(redirtype != 0);
redir_exp = TOP();
rp = redirect(redir_exp, redirtype, &redir_error);
DEREF(redir_exp);
decr_sp();
if (rp == NULL) {
if (redir_error) { /* failed redirect */
if (! do_traditional)
update_ERRNO_saved(redir_error);
}
return make_number((AWKNUM) -1.0);
}
iop = rp->iop;
if (iop == NULL) /* end of input */
return make_number((AWKNUM) 0.0);
errcode = 0;
cnt = get_a_record(&s, iop, &errcode);
if (errcode != 0) {
if (! do_traditional && (errcode != -1))
update_ERRNO_saved(errcode);
return make_number((AWKNUM) -1.0);
}
if (cnt == EOF) {
/*
* Don't do iop_close() here if we are
* reading from a pipe; otherwise
* gawk_pclose will not be called.
*/
if ((rp->flag & (RED_PIPE|RED_TWOWAY)) == 0) {
(void) iop_close(iop);
rp->iop = NULL;
}
rp->flag |= RED_EOF; /* sticky EOF */
return make_number((AWKNUM) 0.0);
}
if (lhs == NULL) /* no optional var. */
set_record(s, cnt);
else { /* assignment to variable */
unref(*lhs);
*lhs = make_string(s, cnt);
(*lhs)->flags |= MAYBE_NUM;
}
return make_number((AWKNUM) 1.0);
}
/* do_getline --- read in a line, into var and without redirection */
NODE *
do_getline(int intovar, IOBUF *iop)
{
int cnt = EOF;
char *s = NULL;
int errcode;
if (iop == NULL) { /* end of input */
if (intovar)
(void) POP_ADDRESS();
return make_number((AWKNUM) 0.0);
}
errcode = 0;
cnt = get_a_record(&s, iop, &errcode);
if (errcode != 0) {
if (! do_traditional && (errcode != -1))
update_ERRNO_saved(errcode);
if (intovar)
(void) POP_ADDRESS();
return make_number((AWKNUM) -1.0);
}
if (cnt == EOF)
return NULL; /* try next file */
NR++;
FNR++;
if (! intovar) /* no optional var. */
set_record(s, cnt);
else { /* assignment to variable */
NODE **lhs;
lhs = POP_ADDRESS();
unref(*lhs);
*lhs = make_string(s, cnt);
(*lhs)->flags |= MAYBE_NUM;
}
return make_number((AWKNUM) 1.0);
}
static char **awkpath = NULL; /* array containing library search paths */
static int max_pathlen; /* length of the longest item in awkpath */
/* init_awkpath --- split path(=$AWKPATH) into components */
static void
init_awkpath(char *path)
{
char *start, *end, *p;
int len, i;
static int max_path = 0;
#define INC_PATH 5
max_pathlen = 0;
if (path == NULL || *path == '\0')
path = defpath;
for (i = 0; i < max_path && awkpath[i]; i++) {
efree(awkpath[i]);
awkpath[i] = NULL;
}
if (max_path == 0) {
max_path = INC_PATH;
emalloc(awkpath, char **, (max_path + 1) * sizeof(char *), "init_awkpath");
memset(awkpath, 0, (max_path + 1) * sizeof(char *));
}
end = start = path;
i = 0;
while (*start) {
while (*end && *end != envsep)
end++;
len = end - start;
if (len > 0) {
emalloc(p, char *, len + 2, "init_awkpath");
memcpy(p, start, len);
/* add directory punctuation if necessary */
if (! isdirpunct(*(end - 1)))
p[len++] = '/';
p[len] = '\0';
if (i == max_path) {
max_path += INC_PATH;
erealloc(awkpath, char **, (max_path + 1) * sizeof(char *), "init_awkpath");
memset(awkpath + i, 0, (INC_PATH + 1) * sizeof(char *));
}
awkpath[i++] = p;
if (len > max_pathlen)
max_pathlen = len;
}
/* skip one or more envsep char */
while (*end && *end == envsep)
end++;
start = end;
}
awkpath[i] = NULL;
#undef INC_PATH
}
/* do_find_source --- search $AWKPATH for file, return NULL if not found */
static char *
do_find_source(const char *src, struct stat *stb, int *errcode)
{
char *path;
int i;
assert(errcode != NULL);
/* some kind of path name, no search */
if (ispath(src)) {
emalloc(path, char *, strlen(src) + 1, "do_find_source");
strcpy(path, src);
if (stat(path, stb) == 0)
return path;
*errcode = errno;
efree(path);
return NULL;
}
/* try current directory before path search */
if (stat(src, stb) == 0) {
emalloc(path, char *, strlen(src) + 1, "do_find_source");
strcpy(path, src);
return path;
}
if (awkpath == NULL)
init_awkpath(getenv("AWKPATH"));
emalloc(path, char *, max_pathlen + strlen(src) + 1, "do_find_source");
for (i = 0; awkpath[i] != NULL; i++) {
if (strcmp(awkpath[i], "./") == 0 || strcmp(awkpath[i], ".") == 0) {
*path = '\0';
} else
strcpy(path, awkpath[i]);
strcat(path, src);
if (stat(path, stb) == 0)
return path;
}
/* not found, give up */
*errcode = errno;
efree(path);
return NULL;
}
/* find_source --- find source file with default file extension handling */
char *
find_source(const char *src, struct stat *stb, int *errcode)
{
char *path;
*errcode = 0;
if (src == NULL || *src == '\0')
return NULL;
path = do_find_source(src, stb, errcode);
#ifdef DEFAULT_FILETYPE
if (! do_traditional && path == NULL) {
char *file_awk;
int save = errno;
#ifdef VMS
int vms_save = vaxc$errno;
#endif
/* append ".awk" and try again */
emalloc(file_awk, char *, strlen(src) +
sizeof(DEFAULT_FILETYPE) + 1, "find_source");
sprintf(file_awk, "%s%s", src, DEFAULT_FILETYPE);
path = do_find_source(file_awk, stb, errcode);
efree(file_awk);
if (path == NULL) {
errno = save;
#ifdef VMS
vaxc$errno = vms_save;
#endif
}
}
#endif /*DEFAULT_FILETYPE*/
return path;
}
/* srcopen --- open source file */
int
srcopen(SRCFILE *s)
{
if (s->stype == SRC_STDIN)
return (0);
if (s->stype == SRC_FILE || s->stype == SRC_INC)
return devopen(s->fullpath, "r");
return INVALID_HANDLE;
}
#ifdef TEST
int bufsize = 8192;
void
fatal(const char *s)
{
printf("%s\n", s);
exit(EXIT_FAILURE);
}
#endif
/* open hooks, mainly for use by extension functions */
static struct open_hook {
struct open_hook *next;
void *(*open_func)(IOBUF *);
} *open_hooks;
/* register_open_hook --- add an open hook to the list */
void
register_open_hook(void *(*open_func)(IOBUF *))
{
struct open_hook *oh;
emalloc(oh, struct open_hook *, sizeof(*oh), "register_open_hook");
oh->open_func = open_func;
oh->next = open_hooks;
open_hooks = oh;
}
/* find_open_hook --- search the list of open hooks */
static void
find_open_hook(IOBUF *iop)
{
struct open_hook *oh;
/* walk through open hooks, stop at first one that responds */
for (oh = open_hooks; oh != NULL; oh = oh->next) {
if ((iop->opaque = (*oh->open_func)(iop)) != NULL)
break;
}
}
/* iop_alloc --- allocate an IOBUF structure for an open fd */
static IOBUF *
iop_alloc(int fd, const char *name, IOBUF *iop, int do_openhooks)
{
struct stat sbuf;
int iop_malloced = FALSE;
if (iop == NULL) {
emalloc(iop, IOBUF *, sizeof(IOBUF), "iop_alloc");
iop_malloced = TRUE;
}
memset(iop, '\0', sizeof(IOBUF));
iop->flag = 0;
iop->fd = fd;
iop->name = name;
if (do_openhooks)
find_open_hook(iop);
else if (iop->fd == INVALID_HANDLE)
return iop;
/* test reached if tried to find open hook and could not */
if (iop->fd == INVALID_HANDLE) {
if (iop_malloced)
efree(iop);
return NULL;
}
if (os_isatty(iop->fd))
iop->flag |= IOP_IS_TTY;
iop->readsize = iop->size = optimal_bufsize(iop->fd, & sbuf);
iop->sbuf = sbuf;
if (do_lint && S_ISREG(sbuf.st_mode) && sbuf.st_size == 0)
lintwarn(_("data file `%s' is empty"), name);
errno = 0;
iop->count = iop->scanoff = 0;
emalloc(iop->buf, char *, iop->size += 2, "iop_alloc");
iop->off = iop->buf;
iop->dataend = NULL;
iop->end = iop->buf + iop->size;
iop->flag |= IOP_AT_START;
return iop;
}
#define set_RT_to_null() \
(void)(! do_traditional && (unref(RT_node->var_value), \
RT_node->var_value = Nnull_string))
#define set_RT(str, len) \
(void)(! do_traditional && (unref(RT_node->var_value), \
RT_node->var_value = make_string(str, len)))
/* grow must increase size of buffer, set end, make sure off and dataend point at */
/* right spot. */
/* */
/* */
/* <growbuffer>= */
/* grow_iop_buffer --- grow the buffer */
static void
grow_iop_buffer(IOBUF *iop)
{
size_t valid = iop->dataend - iop->off;
size_t off = iop->off - iop->buf;
size_t newsize;
/*
* Lop off original extra two bytes, double the size,
* add them back.
*/
newsize = ((iop->size - 2) * 2) + 2;
/* Check for overflow */
if (newsize <= iop->size)
fatal(_("could not allocate more input memory"));
/* Make sure there's room for a disk block */
if (newsize - valid < iop->readsize)
newsize += iop->readsize + 2;
/* Check for overflow, again */
if (newsize <= iop->size)
fatal(_("could not allocate more input memory"));
iop->size = newsize;
erealloc(iop->buf, char *, iop->size, "grow_iop_buffer");
iop->off = iop->buf + off;
iop->dataend = iop->off + valid;
iop->end = iop->buf + iop->size;
}
/* Here are the routines. */
/* */
/* */
/* <rs1scan>= */
/* rs1scan --- scan for a single character record terminator */
static RECVALUE
rs1scan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state)
{
char *bp;
char rs;
#if MBS_SUPPORT
size_t mbclen = 0;
mbstate_t mbs;
#endif
memset(recm, '\0', sizeof(struct recmatch));
rs = RS->stptr[0];
*(iop->dataend) = rs; /* set sentinel */
recm->start = iop->off; /* beginning of record */
bp = iop->off;
if (*state == INDATA) /* skip over data we've already seen */
bp += iop->scanoff;
#if MBS_SUPPORT
/*
* From: Bruno Haible <bruno@clisp.org>
* To: Aharon Robbins <arnold@skeeve.com>, gnits@gnits.org
* Subject: Re: multibyte locales: any way to find if a character isn't multibyte?
* Date: Mon, 23 Jun 2003 12:20:16 +0200
* Cc: isamu@yamato.ibm.com
*
* Hi,
*
* > Is there any way to make the following query to the current locale?
* >
* > Given an 8-bit value, can this value ever appear as part of
* > a multibyte character?
*
* There is no simple answer here. The easiest solution I see is to
* get the current locale's codeset (via locale_charset() which is a
* wrapper around nl_langinfo(CODESET)), and then perform a case-by-case
* treatment of the known multibyte encodings, from GB2312 to EUC-JISX0213;
* for the unibyte encodings, a single btowc() call will tell you.
*
* > This is particularly critical for me for ASCII newline ('\n'). If I
* > can be guaranteed that it never shows up as part of a multibyte character,
* > I can speed up gawk considerably in mulitbyte locales.
*
* This is much simpler to answer!
* In all ASCII based multibyte encodings used for locales today (this
* excludes EBCDIC based doublebyte encodings from IBM, and also excludes
* ISO-2022-JP which is used for email exchange but not as a locale encoding)
* ALL bytes in the range 0x00..0x2F occur only as a single character, not
* as part of a multibyte character.
*
* So it's safe to assume, but deserves a comment in the source.
*
* Bruno
***************************************************************
* From: Bruno Haible <bruno@clisp.org>
* To: Aharon Robbins <arnold@skeeve.com>
* Subject: Re: multibyte locales: any way to find if a character isn't multibyte?
* Date: Mon, 23 Jun 2003 14:27:49 +0200
*
* On Monday 23 June 2003 14:11, you wrote:
*
* > if (rs != '\n' && MB_CUR_MAX > 1) {
*
* If you assume ASCII, you can even write
*
* if (rs >= 0x30 && MB_CUR_MAX > 1) {
*
* (this catches also the space character) but if portability to EBCDIC
* systems is desired, your code is fine as is.
*
* Bruno
*/
/* Thus, the check for \n here; big speedup ! */
if (rs != '\n' && gawk_mb_cur_max > 1) {
int len = iop->dataend - bp;
int found = 0;
memset(&mbs, 0, sizeof(mbstate_t));
do {
if (*bp == rs)
found = 1;
if (is_valid_character(*bp))
mbclen = 1;
else
mbclen = mbrlen(bp, len, &mbs);
if ( (mbclen == 1)
|| (mbclen == (size_t) -1)
|| (mbclen == (size_t) -2)
|| (mbclen == 0)) {
/* We treat it as a singlebyte character. */
mbclen = 1;
}
len -= mbclen;
bp += mbclen;
} while (len > 0 && ! found);
/* Check that newline found isn't the sentinel. */
if (found && (bp - mbclen) < iop->dataend) {
/*
* set len to what we have so far, in case this is
* all there is
*/
recm->len = bp - recm->start - mbclen;
recm->rt_start = bp - mbclen;
recm->rt_len = mbclen;
*state = NOSTATE;
return REC_OK;
} else {
/* also set len */
recm->len = bp - recm->start;
*state = INDATA;
iop->scanoff = bp - iop->off;
return NOTERM;
}
}
#endif
while (*bp != rs)
bp++;
/* set len to what we have so far, in case this is all there is */
recm->len = bp - recm->start;
if (bp < iop->dataend) { /* found it in the buffer */
recm->rt_start = bp;
recm->rt_len = 1;
*state = NOSTATE;
return REC_OK;
} else {
*state = INDATA;
iop->scanoff = bp - iop->off;
return NOTERM;
}
}
/* <rsrescan>= */
/* rsrescan --- search for a regex match in the buffer */
static RECVALUE
rsrescan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state)
{
char *bp;
size_t restart = 0, reend = 0;
Regexp *RSre = RS_regexp;
int regex_flags = RE_NEED_START;
memset(recm, '\0', sizeof(struct recmatch));
recm->start = iop->off;
bp = iop->off;
if (*state == INDATA)
bp += iop->scanoff;
if ((iop->flag & IOP_AT_START) == 0)
regex_flags |= RE_NO_BOL;
again:
/* case 1, no match */
if (research(RSre, bp, 0, iop->dataend - bp, regex_flags) == -1) {
/* set len, in case this all there is. */
recm->len = iop->dataend - iop->off;
return NOTERM;
}
/* ok, we matched within the buffer, set start and end */
restart = RESTART(RSre, iop->off);
reend = REEND(RSre, iop->off);
/* case 2, null regex match, grow buffer, try again */
if (restart == reend) {
*state = INDATA;
iop->scanoff = reend + 1;
/*
* If still room in buffer, skip over null match
* and restart search. Otherwise, return.
*/
if (bp + iop->scanoff < iop->dataend) {
bp += iop->scanoff;
goto again;
}
recm->len = (bp - iop->off) + restart;
return NOTERM;
}
/*
* At this point, we have a non-empty match.
*
* First, fill in rest of data. The rest of the cases return
* a record and terminator.
*/
recm->len = restart;
recm->rt_start = bp + restart;
recm->rt_len = reend - restart;
*state = NOSTATE;
/*
* 3. Match exactly at end:
* if re is a simple string match
* found a simple string match at end, return REC_OK
* else
* grow buffer, add more data, try again
* fi
*/
if (iop->off + reend >= iop->dataend) {
if (reisstring(RS->stptr, RS->stlen, RSre, iop->off))
return REC_OK;
else
return TERMATEND;
}
/*
* 4. Match within xxx bytes of end & maybe islong re:
* return TERMNEAREND
*/
/*
* case 4, match succeeded, but there may be more in
* the next input buffer.
*
* Consider an RS of xyz(abc)? where the
* exact end of the buffer is xyza and the
* next two, unread, characters are bc.
*
* This matches the "xyz" and ends up putting the
* "abc" into the front of the next record. Ooops.
*
* The remaybelong() function looks to see if the
* regex contains one of: + * ? |. This is a very
* simple heuristic, but in combination with the
* "end of match within a few bytes of end of buffer"
* check, should keep things reasonable.
*/
/*
* XXX: The reisstring and remaybelong tests should
* really be done once when RS is assigned to and
* then tested as flags here. Maybe one day.
*/
/* succession of tests is easier to trace in GDB. */
if (remaybelong(RS->stptr, RS->stlen)) {
char *matchend = iop->off + reend;
if (iop->dataend - matchend < RS->stlen)
return TERMNEAREND;
}
return REC_OK;
}
/* <rsnullscan>= */
/* rsnullscan --- handle RS = "" */
static RECVALUE
rsnullscan(IOBUF *iop, struct recmatch *recm, SCANSTATE *state)
{
char *bp;
if (*state == NOSTATE || *state == INLEADER)
memset(recm, '\0', sizeof(struct recmatch));
recm->start = iop->off;
bp = iop->off;
if (*state != NOSTATE)
bp += iop->scanoff;
/* set sentinel */
*(iop->dataend) = '\n';
if (*state == INTERM)
goto find_longest_terminator;
else if (*state == INDATA)
goto scan_data;
/* else
fall into things from beginning,
either NOSTATE or INLEADER */
/* skip_leading: */
/* leading newlines are ignored */
while (*bp == '\n' && bp < iop->dataend)
bp++;
if (bp >= iop->dataend) { /* LOTS of leading newlines, sheesh. */
*state = INLEADER;
iop->scanoff = bp - iop->off;
return NOTERM;
}
iop->off = recm->start = bp; /* real start of record */
scan_data:
while (*bp++ != '\n')
continue;
if (bp >= iop->dataend) { /* no full terminator */
iop->scanoff = recm->len = bp - iop->off - 1;
if (bp == iop->dataend) { /* half a terminator */
recm->rt_start = bp - 1;
recm->rt_len = 1;
}
*state = INDATA;
return NOTERM;
}
/* found one newline before end of buffer, check next char */
if (*bp != '\n')
goto scan_data;
/* we've now seen at least two newlines */
*state = INTERM;
recm->len = bp - iop->off - 1;
recm->rt_start = bp - 1;
find_longest_terminator:
/* find as many newlines as we can, to set RT */
while (*bp == '\n' && bp < iop->dataend)
bp++;
recm->rt_len = bp - recm->rt_start;
iop->scanoff = bp - iop->off;
if (bp >= iop->dataend)
return TERMATEND;
return REC_OK;
}
/* <getarecord>= */
/* get_a_record --- read a record from IOP into out, return length of EOF, set RT */
static int
get_a_record(char **out, /* pointer to pointer to data */
IOBUF *iop, /* input IOP */
int *errcode) /* pointer to error variable */
{
struct recmatch recm;
SCANSTATE state;
RECVALUE ret;
int retval;
NODE *rtval = NULL;
static RECVALUE (*lastmatchrec)(IOBUF *iop, struct recmatch *recm, SCANSTATE *state) = NULL;
if (at_eof(iop) && no_data_left(iop))
return EOF;
if (iop->get_record != NULL)
return (*iop->get_record)(out, iop, errcode);
/* <fill initial buffer>= */
if (has_no_data(iop) || no_data_left(iop)) {
iop->count = read(iop->fd, iop->buf, iop->readsize);
if (iop->count == 0) {
iop->flag |= IOP_AT_EOF;
return EOF;
} else if (iop->count == -1) {
iop->flag |= IOP_AT_EOF;
if (errcode != NULL)
*errcode = errno;
return EOF;
} else {
iop->dataend = iop->buf + iop->count;
iop->off = iop->buf;
}
}
/* <loop through file to find a record>= */
state = NOSTATE;
for (;;) {
size_t dataend_off;
ret = (*matchrec)(iop, & recm, & state);
iop->flag &= ~IOP_AT_START;
if (ret == REC_OK)
break;
/* need to add more data to buffer */
/* <shift data down in buffer>= */
dataend_off = iop->dataend - iop->off;
memmove(iop->buf, iop->off, dataend_off);
iop->off = iop->buf;
iop->dataend = iop->buf + dataend_off;
/* <adjust recm contents>= */
recm.start = iop->off;
if (recm.rt_start != NULL)
recm.rt_start = iop->off + recm.len;
/* <read more data, break if EOF>= */
{
#define min(x, y) (x < y ? x : y)
/* subtract one in read count to leave room for sentinel */
size_t room_left = iop->end - iop->dataend - 1;
size_t amt_to_read = min(iop->readsize, room_left);
if (amt_to_read < iop->readsize) {
grow_iop_buffer(iop);
/* <adjust recm contents>= */
recm.start = iop->off;
if (recm.rt_start != NULL)
recm.rt_start = iop->off + recm.len;
/* recalculate amt_to_read */
room_left = iop->end - iop->dataend - 1;
amt_to_read = min(iop->readsize, room_left);
}
while (amt_to_read + iop->readsize < room_left)
amt_to_read += iop->readsize;
#ifdef SSIZE_MAX
/*
* POSIX limits read to SSIZE_MAX. There are (bizarre)
* systems where this amount is small.
*/
amt_to_read = min(amt_to_read, SSIZE_MAX);
#endif
iop->count = read(iop->fd, iop->dataend, amt_to_read);
if (iop->count == -1) {
*errcode = errno;
iop->flag |= IOP_AT_EOF;
break;
} else if (iop->count == 0) {
/*
* hit EOF before matching RS, so end
* the record and set RT to ""
*/
iop->flag |= IOP_AT_EOF;
break;
} else
iop->dataend += iop->count;
}
}
/* <set record, RT, return right value>= */
/*
* rtval is not a static pointer to avoid dangling pointer problems
* in case awk code assigns to RT. A remote possibility, to be sure,
* but Bitter Experience teaches us not to make ``that'll never
* happen'' kinds of assumptions.
*/
rtval = RT_node->var_value;
if (recm.rt_len == 0) {
set_RT_to_null();
lastmatchrec = NULL;
} else {
assert(recm.rt_start != NULL);
/*
* Optimization. For rs1 case, don't set RT if
* character is same as last time. This knocks a
* chunk of time off something simple like
*
* gawk '{ print }' /some/big/file
*
* Similarly, for rsnull case, if length of new RT is
* shorter than current RT, just bump length down in RT.
*
* Make sure that matchrec didn't change since the last
* check. (Ugh, details, details, details.)
*/
if (lastmatchrec == NULL || lastmatchrec != matchrec) {
lastmatchrec = matchrec;
set_RT(recm.rt_start, recm.rt_len);
} else if (matchrec == rs1scan) {
if (rtval->stlen != 1 || rtval->stptr[0] != recm.rt_start[0])
set_RT(recm.rt_start, recm.rt_len);
/* else
leave it alone */
} else if (matchrec == rsnullscan) {
if (rtval->stlen >= recm.rt_len) {
rtval->stlen = recm.rt_len;
free_wstr(rtval);
} else
set_RT(recm.rt_start, recm.rt_len);
} else
set_RT(recm.rt_start, recm.rt_len);
}
if (recm.len == 0) {
*out = NULL;
retval = 0;
} else {
assert(recm.start != NULL);
*out = recm.start;
retval = recm.len;
}
iop->off += recm.len + recm.rt_len;
if (recm.len == 0 && recm.rt_len == 0 && at_eof(iop))
return EOF;
else
return retval;
}
/* set_RS --- update things as appropriate when RS is set */
void
set_RS()
{
static NODE *save_rs = NULL;
/*
* Don't use cmp_nodes(), which pays attention to IGNORECASE.
*/
if (save_rs
&& RS_node->var_value->stlen == save_rs->stlen
&& memcmp(RS_node->var_value->stptr, save_rs->stptr, save_rs->stlen) == 0) {
/*
* It could be that just IGNORECASE changed. If so,
* update the regex and then do the same for FS.
* set_IGNORECASE() relies on this routine to call
* set_FS().
*/
RS_regexp = (IGNORECASE ? RS_re_no_case : RS_re_yes_case);
goto set_FS;
}
unref(save_rs);
save_rs = dupnode(RS_node->var_value);
RS_is_null = FALSE;
RS = force_string(RS_node->var_value);
/*
* used to be if (RS_regexp != NULL) { refree(..); refree(..); ...; }.
* Please do not remerge the if condition; hinders memory deallocation
* in case of fatal error in make_regexp.
*/
refree(RS_re_yes_case); /* NULL argument is ok */
refree(RS_re_no_case);
RS_re_yes_case = RS_re_no_case = RS_regexp = NULL;
if (RS->stlen == 0) {
RS_is_null = TRUE;
matchrec = rsnullscan;
} else if (RS->stlen > 1) {
static short warned = FALSE;
RS_re_yes_case = make_regexp(RS->stptr, RS->stlen, FALSE, TRUE, TRUE);
RS_re_no_case = make_regexp(RS->stptr, RS->stlen, TRUE, TRUE, TRUE);
RS_regexp = (IGNORECASE ? RS_re_no_case : RS_re_yes_case);
matchrec = rsrescan;
if (do_lint && ! warned) {
lintwarn(_("multicharacter value of `RS' is a gawk extension"));
warned = TRUE;
}
} else
matchrec = rs1scan;
set_FS:
if (current_field_sep() == Using_FS)
set_FS();
}
/* pty_vs_pipe --- return true if should use pty instead of pipes for `|&' */
/*
* This works by checking if PROCINFO["command", "pty"] exists and is true.
*/
static int
pty_vs_pipe(const char *command)
{
#ifdef HAVE_TERMIOS_H
char *full_index;
size_t full_len;
NODE *val;
NODE *sub;
if (PROCINFO_node == NULL)
return FALSE;
full_len = strlen(command)
+ SUBSEP_node->var_value->stlen
+ 3 /* strlen("pty") */
+ 1; /* string terminator */
emalloc(full_index, char *, full_len, "pty_vs_pipe");
sprintf(full_index, "%s%.*spty", command,
(int) SUBSEP_node->var_value->stlen, SUBSEP_node->var_value->stptr);
sub = make_string(full_index, strlen(full_index));
val = in_array(PROCINFO_node, sub);
unref(sub);
efree(full_index);
if (val) {
if (val->flags & MAYBE_NUM)
(void) force_number(val);
if (val->flags & NUMBER)
return (val->numbr != 0.0);
else
return (val->stlen != 0);
}
#endif /* HAVE_TERMIOS_H */
return FALSE;
}
/* iopflags2str --- make IOP flags printable */
const char *
iopflags2str(int flag)
{
static const struct flagtab values[] = {
{ IOP_IS_TTY, "IOP_IS_TTY" },
{ IOP_NOFREE_OBJ, "IOP_NOFREE_OBJ" },
{ IOP_AT_EOF, "IOP_AT_EOF" },
{ IOP_CLOSED, "IOP_CLOSED" },
{ IOP_AT_START, "IOP_AT_START" },
{ 0, NULL }
};
return genflags2str(flag, values);
}
/* free_rp --- release the memory used by rp */
static void
free_rp(struct redirect *rp)
{
efree(rp->value);
efree(rp);
}
/* inetfile --- return true for a /inet special file, set other values */
static int
inetfile(const char *str, int *length, int *family)
{
int ret = FALSE;
if (strncmp(str, "/inet/", 6) == 0) {
ret = TRUE;
if (length != NULL)
*length = 6;
if (family != NULL)
*family = AF_UNSPEC;
} else if (strncmp(str, "/inet4/", 7) == 0) {
ret = TRUE;
if (length != NULL)
*length = 7;
if (family != NULL)
*family = AF_INET;
} else if (strncmp(str, "/inet6/", 7) == 0) {
ret = TRUE;
if (length != NULL)
*length = 7;
if (family != NULL)
*family = AF_INET6;
#ifndef HAVE_GETADDRINFO
fatal(_("IPv6 communication is not supported"));
#endif
}
return ret;
}
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