mod_export Heap
new_heaps(void)
{
Heap h;
queue_signals();
h = heaps;
fheap = heaps = NULL;
unqueue_signals();
#ifdef ZSH_HEAP_DEBUG
if (heap_debug_verbosity & HDV_NEW) {
fprintf(stderr, "HEAP DEBUG: heap " HEAPID_FMT
" saved, new heaps created.\n", h->heap_id);
}
if (!heaps_saved)
heaps_saved = znewlinklist();
zpushnode(heaps_saved, h);
#endif
return h;
}
static int
bin_zselect(char *nam, char **args, UNUSED(Options ops), UNUSED(int func))
{
#ifdef HAVE_SELECT
int i, fd, fdsetind = 0, fdmax = 0, fdcount;
fd_set fdset[3];
const char fdchar[3] = "rwe";
struct timeval tv, *tvptr = NULL;
char *outarray = "reply", **outdata, **outptr;
char *outhash = NULL;
LinkList fdlist;
for (i = 0; i < 3; i++)
FD_ZERO(fdset+i);
for (; *args; args++) {
char *argptr = *args, *endptr;
zlong tempnum;
if (*argptr == '-') {
for (argptr++; *argptr; argptr++) {
switch (*argptr) {
/*
* Array name for reply, if not $reply.
* This gets set to e.g. `-r 0 -w 1' if 0 is ready
* for reading and 1 is ready for writing.
*/
case 'a':
case 'A':
i = *argptr;
if (argptr[1])
argptr++;
else if (args[1]) {
argptr = *++args;
} else {
zwarnnam(nam, "argument expected after -%c", *argptr);
return 1;
}
if (idigit(*argptr) || !isident(argptr)) {
zwarnnam(nam, "invalid array name: %s", argptr);
return 1;
}
if (i == 'a')
outarray = argptr;
else
outhash = argptr;
/* set argptr to next to last char because of increment */
while (argptr[1])
argptr++;
break;
/* Following numbers indicate fd's for reading */
case 'r':
fdsetind = 0;
break;
/* Following numbers indicate fd's for writing */
case 'w':
fdsetind = 1;
break;
/* Following numbers indicate fd's for errors */
case 'e':
fdsetind = 2;
break;
/*
* Get a timeout value in hundredths of a second
* (same units as KEYTIMEOUT). 0 means just poll.
* If not given, blocks indefinitely.
*/
case 't':
if (argptr[1])
argptr++;
else if (args[1]) {
argptr = *++args;
} else {
zwarnnam(nam, "argument expected after -%c", *argptr);
return 1;
}
if (!idigit(*argptr)) {
zwarnnam(nam, "number expected after -t");
return 1;
}
tempnum = zstrtol(argptr, &endptr, 10);
if (*endptr) {
zwarnnam(nam, "garbage after -t argument: %s",
endptr);
return 1;
}
/* timevalue now active */
tvptr = &tv;
tv.tv_sec = (long)(tempnum / 100);
tv.tv_usec = (long)(tempnum % 100) * 10000L;
/* remember argptr is incremented at end of loop */
argptr = endptr - 1;
break;
/* Digits following option without arguments are fd's. */
default:
if (handle_digits(nam, argptr, fdset+fdsetind,
&fdmax))
return 1;
}
}
} else if (handle_digits(nam, argptr, fdset+fdsetind, &fdmax))
return 1;
}
errno = 0;
do {
i = select(fdmax, (SELECT_ARG_2_T)fdset, (SELECT_ARG_2_T)(fdset+1),
(SELECT_ARG_2_T)(fdset+2), tvptr);
} while (i < 0 && errno == EINTR && !errflag);
if (i <= 0) {
if (i < 0)
zwarnnam(nam, "error on select: %e", errno);
/* else no fd's set. Presumably a timeout. */
return 1;
}
/*
* Make a linked list of all file descriptors which are ready.
* These go into an array preceded by -r, -w or -e for read, write,
* error as appropriate. Typically there will only be one set
* so this looks rather like overkill.
*/
fdlist = znewlinklist();
for (i = 0; i < 3; i++) {
int doneit = 0;
for (fd = 0; fd < fdmax; fd++) {
if (FD_ISSET(fd, fdset+i)) {
char buf[BDIGBUFSIZE];
if (outhash) {
/*
* Key/value pairs; keys are fd's (as strings),
* value is a (possibly improper) subset of "rwe".
*/
LinkNode nptr;
int found = 0;
convbase(buf, fd, 10);
for (nptr = firstnode(fdlist); nptr;
nptr = nextnode(nextnode(nptr))) {
if (!strcmp((char *)getdata(nptr), buf)) {
/* Already there, add new character. */
void **dataptr = getaddrdata(nextnode(nptr));
char *data = (char *)*dataptr, *ptr;
found = 1;
if (!strchr(data, fdchar[i])) {
strcpy(buf, data);
for (ptr = buf; *ptr; ptr++)
;
*ptr++ = fdchar[i];
*ptr = '\0';
zsfree(data);
*dataptr = ztrdup(buf);
}
break;
}
}
if (!found) {
/* Add new key/value pair. */
zaddlinknode(fdlist, ztrdup(buf));
buf[0] = fdchar[i];
buf[1] = '\0';
zaddlinknode(fdlist, ztrdup(buf));
}
} else {
/* List of fd's preceded by -r, -w, -e. */
if (!doneit) {
buf[0] = '-';
buf[1] = fdchar[i];
buf[2] = 0;
zaddlinknode(fdlist, ztrdup(buf));
doneit = 1;
}
convbase(buf, fd, 10);
zaddlinknode(fdlist, ztrdup(buf));
}
}
}
}
/* convert list to array */
fdcount = countlinknodes(fdlist);
outptr = outdata = (char **)zalloc((fdcount+1)*sizeof(char *));
while (nonempty(fdlist))
*outptr++ = getlinknode(fdlist);
*outptr = NULL;
/* and store in array parameter */
if (outhash)
sethparam(outhash, outdata);
else
setaparam(outarray, outdata);
freelinklist(fdlist, NULL);
return 0;
#else
/* TODO: use poll */
zerrnam(nam, "your system does not implement the select system call.");
return 2;
#endif
}
static int
raw_getbyte(long do_keytmout, char *cptr)
{
int ret;
struct ztmout tmout;
#if defined(HAS_TIO) && \
(defined(sun) || (!defined(HAVE_POLL) && !defined(HAVE_SELECT)))
struct ttyinfo ti;
#endif
#ifndef HAVE_POLL
# ifdef HAVE_SELECT
fd_set foofd, errfd;
FD_ZERO(&errfd);
# endif
#endif
calc_timeout(&tmout, do_keytmout);
/*
* Handle timeouts and watched fd's. If a watched fd or a function
* timeout triggers we restart any key timeout. This is likely to
* be harmless: the combination is extremely rare and a function
* is likely to occupy the user for a little while anyway. We used
* to make timeouts take precedence, but we can't now that the
* timeouts may be external, so we may have both a permanent watched
* fd and a long-term timeout.
*/
if ((nwatch || tmout.tp != ZTM_NONE)) {
#if defined(HAVE_SELECT) || defined(HAVE_POLL)
int i, errtry = 0, selret;
# ifdef HAVE_POLL
int nfds;
struct pollfd *fds;
# endif
# if defined(HAS_TIO) && defined(sun)
/*
* Yes, I know this is complicated. Yes, I know we
* already have three bits of code to poll the terminal
* down below. No, I don't want to do this either.
* However, it turns out on certain OSes, specifically
* Solaris, that you can't poll typeahead for love nor
* money without actually trying to read it. But
* if we are trying to select (and we need to if we
* are watching other fd's) we won't pick that up.
* So we just try and read it without blocking in
* the time-honoured (i.e. absurdly baroque) termios
* fashion.
*/
gettyinfo(&ti);
ti.tio.c_cc[VMIN] = 0;
settyinfo(&ti);
winch_unblock();
ret = read(SHTTY, cptr, 1);
winch_block();
ti.tio.c_cc[VMIN] = 1;
settyinfo(&ti);
if (ret > 0)
return 1;
# endif
# ifdef HAVE_POLL
nfds = 1 + nwatch;
/* First pollfd is SHTTY, following are the nwatch fds */
fds = zalloc(sizeof(struct pollfd) * nfds);
fds[0].fd = SHTTY;
/*
* POLLIN, POLLIN, POLLIN,
* Keep those fd's POLLIN...
*/
fds[0].events = POLLIN;
for (i = 0; i < nwatch; i++) {
fds[i+1].fd = watch_fds[i].fd;
fds[i+1].events = POLLIN;
}
# endif
for (;;) {
# ifdef HAVE_POLL
int poll_timeout;
if (tmout.tp != ZTM_NONE)
poll_timeout = tmout.exp100ths * 10;
else
poll_timeout = -1;
winch_unblock();
selret = poll(fds, errtry ? 1 : nfds, poll_timeout);
winch_block();
# else
int fdmax = SHTTY;
struct timeval *tvptr;
struct timeval expire_tv;
FD_ZERO(&foofd);
FD_SET(SHTTY, &foofd);
if (!errtry) {
for (i = 0; i < nwatch; i++) {
int fd = watch_fds[i].fd;
if (FD_ISSET(fd, &errfd))
continue;
FD_SET(fd, &foofd);
if (fd > fdmax)
fdmax = fd;
}
}
FD_ZERO(&errfd);
if (tmout.tp != ZTM_NONE) {
expire_tv.tv_sec = tmout.exp100ths / 100;
expire_tv.tv_usec = (tmout.exp100ths % 100) * 10000L;
tvptr = &expire_tv;
}
else
tvptr = NULL;
winch_unblock();
selret = select(fdmax+1, (SELECT_ARG_2_T) & foofd,
NULL, NULL, tvptr);
winch_block();
# endif
/*
* Make sure a user interrupt gets passed on straight away.
*/
if (selret < 0 && (errflag || retflag || breaks || exit_pending))
break;
/*
* Try to avoid errors on our special fd's from
* messing up reads from the terminal. Try first
* with all fds, then try unsetting the special ones.
*/
if (selret < 0 && !errtry) {
errtry = 1;
continue;
}
if (selret == 0) {
/*
* Nothing ready and no error, so we timed out.
*/
switch (tmout.tp) {
case ZTM_NONE:
/* keeps compiler happy if not debugging */
#ifdef DEBUG
dputs("BUG: timeout fired with no timeout set.");
#endif
/* treat as if a key timeout triggered */
/*FALLTHROUGH*/
case ZTM_KEY:
/* Special value -2 signals nothing ready */
selret = -2;
break;
case ZTM_FUNC:
while (firstnode(timedfns)) {
Timedfn tfdat = (Timedfn)getdata(firstnode(timedfns));
/*
* It's possible a previous function took
* a long time to run (though it can't
* call zle recursively), so recalculate
* the time on each iteration.
*/
time_t now = time(NULL);
if (tfdat->when > now)
break;
tfdat->func();
}
/* Function may have messed up the display */
if (resetneeded)
zrefresh();
/* We need to recalculate the timeout */
/*FALLTHROUGH*/
case ZTM_MAX:
/*
* Reached the limit of our range, but not the
* actual timeout; recalculate the timeout.
* We're cheating with the key timeout here:
* if one clashed with a function timeout we
* reconsider the key timeout from scratch.
* The effect of this is microscopic.
*/
calc_timeout(&tmout, do_keytmout);
break;
}
/*
* If we handled the timeout successfully,
* carry on.
*/
if (selret == 0)
continue;
}
/* If error or unhandled timeout, give up. */
if (selret < 0)
break;
/*
* If there's user input handle it straight away.
* This improves the user's ability to handle exceptional
* conditions like runaway output.
*/
if (
# ifdef HAVE_POLL
(fds[0].revents & POLLIN)
# else
FD_ISSET(SHTTY, &foofd)
# endif
)
break;
if (nwatch && !errtry) {
/*
* Copy the details of the watch fds in case the
* user decides to delete one from inside the
* handler function.
*/
int lnwatch = nwatch;
Watch_fd lwatch_fds = zalloc(lnwatch*sizeof(struct watch_fd));
memcpy(lwatch_fds, watch_fds, lnwatch*sizeof(struct watch_fd));
for (i = 0; i < lnwatch; i++)
lwatch_fds[i].func = ztrdup(lwatch_fds[i].func);
for (i = 0; i < lnwatch; i++) {
Watch_fd lwatch_fd = lwatch_fds + i;
if (
# ifdef HAVE_POLL
(fds[i+1].revents & (POLLIN|POLLERR|POLLHUP|POLLNVAL))
# else
FD_ISSET(lwatch_fd->fd, &foofd) ||
FD_ISSET(lwatch_fd->fd, &errfd)
# endif
) {
/* Handle the fd. */
char *fdbuf;
{
char buf[BDIGBUFSIZE];
convbase(buf, lwatch_fd->fd, 10);
fdbuf = ztrdup(buf);
}
if (lwatch_fd->widget) {
zlecallhook(lwatch_fd->func, fdbuf);
zsfree(fdbuf);
} else {
LinkList funcargs = znewlinklist();
zaddlinknode(funcargs, ztrdup(lwatch_fd->func));
zaddlinknode(funcargs, fdbuf);
# ifdef HAVE_POLL
# ifdef POLLERR
if (fds[i+1].revents & POLLERR)
zaddlinknode(funcargs, ztrdup("err"));
# endif
# ifdef POLLHUP
if (fds[i+1].revents & POLLHUP)
zaddlinknode(funcargs, ztrdup("hup"));
# endif
# ifdef POLLNVAL
if (fds[i+1].revents & POLLNVAL)
zaddlinknode(funcargs, ztrdup("nval"));
# endif
# else
if (FD_ISSET(lwatch_fd->fd, &errfd))
zaddlinknode(funcargs, ztrdup("err"));
# endif
callhookfunc(lwatch_fd->func, funcargs, 0, NULL);
freelinklist(funcargs, freestr);
}
if (errflag) {
/* No sensible way of handling errors here */
errflag &= ~ERRFLAG_ERROR;
/*
* Paranoia: don't run the hooks again this
* time.
*/
errtry = 1;
}
}
}
/* Function may have invalidated the display. */
if (resetneeded)
zrefresh();
for (i = 0; i < lnwatch; i++)
zsfree(lwatch_fds[i].func);
zfree(lwatch_fds, lnwatch*sizeof(struct watch_fd));
# ifdef HAVE_POLL
/* Function may have added or removed handlers */
nfds = 1 + nwatch;
if (nfds > 1) {
fds = zrealloc(fds, sizeof(struct pollfd) * nfds);
for (i = 0; i < nwatch; i++) {
/*
* This is imperfect because it assumes fds[] and
* watch_fds[] remain in sync, which may be false
* if handlers are shuffled. However, it should
* be harmless (e.g., produce one extra pass of
* the loop) in the event they fall out of sync.
*/
if (fds[i+1].fd == watch_fds[i].fd &&
(fds[i+1].revents & (POLLERR|POLLHUP|POLLNVAL))) {
fds[i+1].events = 0; /* Don't poll this */
} else {
fds[i+1].fd = watch_fds[i].fd;
fds[i+1].events = POLLIN;
}
fds[i+1].revents = 0;
}
}
# endif
}
}
# ifdef HAVE_POLL
zfree(fds, sizeof(struct pollfd) * nfds);
# endif
if (selret < 0)
return selret;
#else
# ifdef HAS_TIO
ti = shttyinfo;
ti.tio.c_lflag &= ~ICANON;
ti.tio.c_cc[VMIN] = 0;
ti.tio.c_cc[VTIME] = tmout.exp100ths / 10;
# ifdef HAVE_TERMIOS_H
tcsetattr(SHTTY, TCSANOW, &ti.tio);
# else
ioctl(SHTTY, TCSETA, &ti.tio);
# endif
winch_unblock();
ret = read(SHTTY, cptr, 1);
winch_block();
# ifdef HAVE_TERMIOS_H
tcsetattr(SHTTY, TCSANOW, &shttyinfo.tio);
# else
ioctl(SHTTY, TCSETA, &shttyinfo.tio);
# endif
return (ret <= 0) ? ret : *cptr;
# endif
#endif
}
winch_unblock();
ret = read(SHTTY, cptr, 1);
winch_block();
return ret;
}
int
boot_(UNUSED(Module m))
{
ztcp_sessions = znewlinklist();
return 0;
}
