Rework addition of Symbian splash screen to reduce the source impact (uses SVG from Bug 2414)
Notes: by using the OPTION SOURCEDIR parameter in the mifconv extension instructions, I can
arrange to use the same source file name in sfimage, without having to export over the original
Nokia file. This means that the name inside splashscreen.mbg is the same, which removes the need
for the conditional compilation in SplashScreen.cpp, and gets rid of sf_splashscreen.mmp.
/*
* This file is part of zsh, the Z shell.
*
* Copyright (c) 1992-1997 Paul Falstad
* All rights reserved.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and to distribute modified versions of this software for any
* purpose, provided that the above copyright notice and the following
* two paragraphs appear in all copies of this software.
*
* In no event shall Paul Falstad or the Zsh Development Group be liable
* to any party for direct, indirect, special, incidental, or consequential
* damages arising out of the use of this software and its documentation,
* even if Paul Falstad and the Zsh Development Group have been advised of
* the possibility of such damage.
*
* Paul Falstad and the Zsh Development Group specifically disclaim any
* warranties, including, but not limited to, the implied warranties of
* merchantability and fitness for a particular purpose. The software
* provided hereunder is on an "as is" basis, and Paul Falstad and the
* Zsh Development Group have no obligation to provide maintenance,
* support, updates, enhancements, or modifications.
*
*/
#include "zsh.mdh"
#include "signals.pro"
#ifdef __SYMBIAN32__
#include "dummy.h"
#endif //__SYMBIAN32__
#ifdef __SYMBIAN32__
#ifdef __WINSCW__
#pragma warn_unusedarg off
#endif//__WINSCW__
#endif//__SYMBIAN32__
/* Array describing the state of each signal: an element contains *
* 0 for the default action or some ZSIG_* flags ored together. */
/**/
mod_export int sigtrapped[VSIGCOUNT];
/* trap functions for each signal */
/**/
mod_export Eprog sigfuncs[VSIGCOUNT];
/* Total count of trapped signals */
/**/
mod_export int nsigtrapped;
/* Variables used by signal queueing */
/**/
mod_export int queueing_enabled, queue_front, queue_rear;
/**/
mod_export int signal_queue[MAX_QUEUE_SIZE];
/**/
mod_export sigset_t signal_mask_queue[MAX_QUEUE_SIZE];
/* Variables used by trap queueing */
/**/
mod_export int trap_queueing_enabled, trap_queue_front, trap_queue_rear;
/**/
mod_export int trap_queue[MAX_QUEUE_SIZE];
/* This is only used on machines that don't understand signal sets. *
* On SYSV machines this will represent the signals that are blocked *
* (held) using sighold. On machines which can't block signals at *
* all, we will simulate this by ignoring them and remembering them *
* in this variable. */
#if !defined(POSIX_SIGNALS) && !defined(BSD_SIGNALS)
static sigset_t blocked_set;
#endif
#ifdef POSIX_SIGNALS
# define signal_jmp_buf sigjmp_buf
# define signal_setjmp(b) sigsetjmp((b),1)
# define signal_longjmp(b,n) siglongjmp((b),(n))
#else
# define signal_jmp_buf jmp_buf
# define signal_setjmp(b) setjmp(b)
# define signal_longjmp(b,n) longjmp((b),(n))
#endif
#ifdef NO_SIGNAL_BLOCKING
# define signal_process(sig) signal_ignore(sig)
# define signal_reset(sig) install_handler(sig)
#else
# define signal_process(sig) ;
# define signal_reset(sig) ;
#endif
/* Install signal handler for given signal. *
* If possible, we want to make sure that interrupted *
* system calls are not restarted. */
/**/
mod_export void
install_handler(int sig)
{
#ifdef POSIX_SIGNALS
struct sigaction act;
act.sa_handler = (SIGNAL_HANDTYPE) zhandler;
sigemptyset(&act.sa_mask); /* only block sig while in handler */
act.sa_flags = 0;
# ifdef SA_INTERRUPT /* SunOS 4.x */
if (interact)
act.sa_flags |= SA_INTERRUPT; /* make sure system calls are not restarted */
# endif
#ifndef __SYMBIAN32__
sigaction(sig, &act, (struct sigaction *)NULL);
#endif
#else
# ifdef BSD_SIGNALS
struct sigvec vec;
vec.sv_handler = (SIGNAL_HANDTYPE) zhandler;
vec.sv_mask = sigmask(sig); /* mask out this signal while in handler */
# ifdef SV_INTERRUPT
vec.sv_flags = SV_INTERRUPT; /* make sure system calls are not restarted */
# endif
sigvec(sig, &vec, (struct sigvec *)NULL);
# else
# ifdef SYSV_SIGNALS
/* we want sigset rather than signal because it will *
* block sig while in handler. signal usually doesn't */
sigset(sig, zhandler);
# else /* NO_SIGNAL_BLOCKING (bummer) */
#ifndef __SYMBIAN32__
signal(sig, zhandler);
#endif
# endif /* SYSV_SIGNALS */
# endif /* BSD_SIGNALS */
#endif /* POSIX_SIGNALS */
}
/* enable ^C interrupts */
/**/
mod_export void
intr(void)
{
if (interact)
install_handler(SIGINT);
}
/* disable ^C interrupts */
#if 0 /**/
void
nointr(void)
{
if (interact)
signal_ignore(SIGINT);
}
#endif
/* temporarily block ^C interrupts */
/**/
mod_export void
holdintr(void)
{
if (interact)
signal_block(signal_mask(SIGINT));
}
/* release ^C interrupts */
/**/
mod_export void
noholdintr(void)
{
if (interact)
signal_unblock(signal_mask(SIGINT));
}
/* create a signal mask containing *
* only the given signal */
/**/
sigset_t
signal_mask(int sig)
{
sigset_t set;
sigemptyset(&set);
if (sig)
sigaddset(&set, sig);
return set;
}
/* Block the signals in the given signal *
* set. Return the old signal set. */
/**/
#ifdef POSIX_SIGNALS
/**/
mod_export sigset_t dummy_sigset1, dummy_sigset2;
/**/
#else
/**/
#ifndef BSD_SIGNALS
sigset_t
signal_block(sigset_t set)
{
sigset_t oset;
#ifdef SYSV_SIGNALS
int i;
oset = blocked_set;
for (i = 1; i <= NSIG; ++i) {
if (sigismember(&set, i) && !sigismember(&blocked_set, i)) {
sigaddset(&blocked_set, i);
sighold(i);
}
}
#else /* NO_SIGNAL_BLOCKING */
/* We will just ignore signals if the system doesn't have *
* the ability to block them. */
int i;
oset = blocked_set;
for (i = 1; i <= NSIG; ++i) {
if (sigismember(&set, i) && !sigismember(&blocked_set, i)) {
sigaddset(&blocked_set, i);
signal_ignore(i);
}
}
#endif /* SYSV_SIGNALS */
return oset;
}
/**/
#endif /* BSD_SIGNALS */
/**/
#endif /* POSIX_SIGNALS */
/* Unblock the signals in the given signal *
* set. Return the old signal set. */
#ifndef POSIX_SIGNALS
sigset_t
signal_unblock(sigset_t set)
{
sigset_t oset;
#ifndef __SYMBIAN32__
# ifdef BSD_SIGNALS
sigfillset(&oset);
oset = sigsetmask(oset);
sigsetmask(oset & ~set);
# else
# ifdef SYSV_SIGNALS
int i;
oset = blocked_set;
for (i = 1; i <= NSIG; ++i) {
if (sigismember(&set, i) && sigismember(&blocked_set, i)) {
sigdelset(&blocked_set, i);
sigrelse(i);
}
}
# else /* NO_SIGNAL_BLOCKING */
/* On systems that can't block signals, we are just ignoring them. So *
* to unblock signals, we just reenable the signal handler for them. */
int i;
oset = blocked_set;
for (i = 1; i <= NSIG; ++i) {
if (sigismember(&set, i) && sigismember(&blocked_set, i)) {
sigdelset(&blocked_set, i);
install_handler(i);
}
}
# endif /* SYSV_SIGNALS */
# endif /* BSD_SIGNALS */
#endif //__SYMBIAN32__
return oset;
}
#endif /* POSIX_SIGNALS */
/* set the process signal mask to *
* be the given signal mask */
/**/
mod_export sigset_t
signal_setmask(sigset_t set)
{
sigset_t oset;
#ifdef POSIX_SIGNALS
sigprocmask(35, &set, &oset);
#else
# ifdef BSD_SIGNALS
oset = sigsetmask(set);
# else
# ifdef SYSV_SIGNALS
int i;
oset = blocked_set;
for (i = 1; i <= NSIG; ++i) {
if (sigismember(&set, i) && !sigismember(&blocked_set, i)) {
sigaddset(&blocked_set, i);
sighold(i);
} else if (!sigismember(&set, i) && sigismember(&blocked_set, i)) {
sigdelset(&blocked_set, i);
sigrelse(i);
}
}
# else /* NO_SIGNAL_BLOCKING */
int i;
oset = blocked_set;
for (i = 1; i < NSIG; ++i) {
if (sigismember(&set, i) && !sigismember(&blocked_set, i)) {
sigaddset(&blocked_set, i);
signal_ignore(i);
} else if (!sigismember(&set, i) && sigismember(&blocked_set, i)) {
sigdelset(&blocked_set, i);
install_handler(i);
}
}
# endif /* SYSV_SIGNALS */
# endif /* BSD_SIGNALS */
#endif /* POSIX_SIGNALS */
return oset;
}
#if defined(NO_SIGNAL_BLOCKING)
static int suspend_longjmp = 0;
static signal_jmp_buf suspend_jmp_buf;
#endif
/**/
int
signal_suspend(int sig, int sig2)
{
int ret;
#ifdef POSIX_SIGNALS
sigset_t set;
#ifdef BROKEN_POSIX_SIGSUSPEND
sigset_t oset;
#endif /* BROKEN_POSIX_SIGSUSPEND */
if (isset(TRAPSASYNC)) {
sigemptyset(&set);
} else {
sigfillset(&set);
sigdelset(&set, sig);
sigdelset(&set, SIGHUP); /* still don't know why we add this? */
if (sig2)
sigdelset(&set, sig2);
}
#ifdef BROKEN_POSIX_SIGSUSPEND
sigprocmask(SIG_SETMASK, &set, &oset);
pause();
sigprocmask(SIG_SETMASK, &oset, NULL);
#else /* not BROKEN_POSIX_SIGSUSPEND */
ret = sigsuspend(&set);
#endif /* BROKEN_POSIX_SIGSUSPEND */
#else /* not POSIX_SIGNALS */
# ifdef BSD_SIGNALS
sigset_t set;
if (isset(TRAPSASYNC)) {
sigemptyset(&set);
} else {
sigfillset(&set);
sigdelset(&set, sig);
if (sig2)
sigdelset(&set, sig2);
ret = sigpause(set);
}
# else
# ifdef SYSV_SIGNALS
ret = sigpause(sig);
# else /* NO_SIGNAL_BLOCKING */
/* need to use signal_longjmp to make this race-free *
* between the child_unblock() and pause() */
if (signal_setjmp(suspend_jmp_buf) == 0) {
suspend_longjmp = 1; /* we want to signal_longjmp after catching signal */
child_unblock(); /* do we need to unblock sig2 as well? */
ret = pause();
}
suspend_longjmp = 0; /* turn off using signal_longjmp since we are past *
* the pause() function. */
# endif /* SYSV_SIGNALS */
# endif /* BSD_SIGNALS */
#endif /* POSIX_SIGNALS */
return ret;
}
/* the signal handler */
/**/
mod_export RETSIGTYPE
zhandler(int sig)
{
sigset_t newmask, oldmask;
#if defined(NO_SIGNAL_BLOCKING)
int do_jump;
signal_jmp_buf jump_to;
#endif
signal_process(sig);
sigfillset(&newmask);
oldmask = signal_block(newmask); /* Block all signals temporarily */
#if defined(NO_SIGNAL_BLOCKING)
do_jump = suspend_longjmp; /* do we need to longjmp to signal_suspend */
suspend_longjmp = 0; /* In case a SIGCHLD somehow arrives */
if (sig == SIGCHLD) { /* Traps can cause nested signal_suspend() */
if (do_jump)
jump_to = suspend_jmp_buf; /* Copy suspend_jmp_buf */
}
#endif
/* Are we queueing signals now? */
if (queueing_enabled) {
int temp_rear = ++queue_rear % MAX_QUEUE_SIZE;
DPUTS(temp_rear == queue_front, "BUG: signal queue full");
if (temp_rear != queue_front) { /* Make sure it's not full (extremely unlikely) */
queue_rear = temp_rear; /* ok, not full, so add to queue */
signal_queue[queue_rear] = sig; /* save signal caught */
signal_mask_queue[queue_rear] = oldmask; /* save current signal mask */
}
signal_reset(sig);
return;
}
signal_setmask(oldmask); /* Reset signal mask, signal traps ok now */
switch (sig) {
case SIGCHLD:
/* keep WAITING until no more child processes to reap */
for (;;)
cont: {
int old_errno = errno; /* save the errno, since WAIT may change it */
int status;
Job jn;
Process pn;
pid_t pid;
pid_t *procsubpid = &cmdoutpid;
int *procsubval = &cmdoutval;
struct execstack *es = exstack;
/*
* Reap the child process.
* If we want usage information, we need to use wait3.
*/
#ifdef HAVE_WAIT3
# ifdef HAVE_GETRUSAGE
struct rusage ru;
pid = wait3((void *)&status, WNOHANG|WUNTRACED, &ru);
# else
pid = wait3((void *)&status, WNOHANG|WUNTRACED, NULL);
# endif
#else
# ifdef HAVE_WAITPID
pid = waitpid(-1, &status, WNOHANG|WUNTRACED);
# else
pid = wait(&status);
# endif
#endif
if (!pid) /* no more children to reap */
break;
/* check if child returned was from process substitution */
for (;;) {
if (pid == *procsubpid) {
*procsubpid = 0;
if (WIFSIGNALED(status))
*procsubval = (0200 | WTERMSIG(status));
else
*procsubval = WEXITSTATUS(status);
get_usage();
goto cont;
}
if (!es)
break;
procsubpid = &es->cmdoutpid;
procsubval = &es->cmdoutval;
es = es->next;
}
/* check for WAIT error */
if (pid == -1) {
if (errno != ECHILD)
zerr("wait failed: %e", NULL, errno);
errno = old_errno; /* WAIT changed errno, so restore the original */
break;
}
/* Find the process and job containing this pid and update it. */
if (findproc(pid, &jn, &pn, 0)) {
#if defined(HAVE_WAIT3) && defined(HAVE_GETRUSAGE)
struct timezone dummy_tz;
gettimeofday(&pn->endtime, &dummy_tz);
pn->status = status;
pn->ti = ru;
#elif !defined(HAVE_GETRUSAGE)
update_process(pn, status);
#endif
update_job(jn);
} else if (findproc(pid, &jn, &pn, 1)) {
pn->status = status;
update_job(jn);
} else {
/* If not found, update the shell record of time spent by
* children in sub processes anyway: otherwise, this
* will get added on to the next found process that terminates.
*/
get_usage();
}
}
break;
case SIGHUP:
if (sigtrapped[SIGHUP])
dotrap(SIGHUP);
else {
stopmsg = 1;
zexit(SIGHUP, 1);
}
break;
case SIGINT:
if (sigtrapped[SIGINT])
dotrap(SIGINT);
else {
if ((isset(PRIVILEGED) || isset(RESTRICTED)) &&
isset(INTERACTIVE) && noerrexit < 0)
zexit(SIGINT, 1);
if (list_pipe || chline || simple_pline) {
breaks = loops;
errflag = 1;
inerrflush();
}
}
break;
#ifdef SIGWINCH
case SIGWINCH:
adjustwinsize(1); /* check window size and adjust */
if (sigtrapped[SIGWINCH])
dotrap(SIGWINCH);
break;
#endif
case SIGALRM:
if (sigtrapped[SIGALRM]) {
int tmout;
dotrap(SIGALRM);
if ((tmout = getiparam("TMOUT")))
alarm(tmout); /* reset the alarm */
} else {
int idle = ttyidlegetfn(NULL);
int tmout = getiparam("TMOUT");
if (idle >= 0 && idle < tmout)
alarm(tmout - idle);
else {
errflag = noerrs = 0;
zwarn("timeout", NULL, 0);
stopmsg = 1;
zexit(SIGALRM, 1);
}
}
break;
default:
dotrap(sig);
break;
} /* end of switch(sig) */
signal_reset(sig);
/* This is used to make signal_suspend() race-free */
#if defined(NO_SIGNAL_BLOCKING)
if (do_jump)
signal_longjmp(jump_to, 1);
#endif
} /* handler */
/* SIGHUP any jobs left running */
/**/
void
killrunjobs(int from_signal)
{
int i, killed = 0;
if (unset(HUP))
return;
for (i = 1; i <= maxjob; i++)
if ((from_signal || i != thisjob) && (jobtab[i].stat & STAT_LOCKED) &&
!(jobtab[i].stat & STAT_NOPRINT) &&
!(jobtab[i].stat & STAT_STOPPED)) {
if (jobtab[i].gleader != getpid() &&
killpg(jobtab[i].gleader, SIGHUP) != -1)
killed++;
}
if (killed)
zwarn("warning: %d jobs SIGHUPed", NULL, killed);
}
/* send a signal to a job (simply involves kill if monitoring is on) */
/**/
int
killjb(Job jn, int sig)
{
Process pn;
int err = 0;
if (jobbing) {
if (jn->stat & STAT_SUPERJOB) {
if (sig == SIGCONT) {
for (pn = jobtab[jn->other].procs; pn; pn = pn->next)
if (killpg(pn->pid, sig) == -1)
if (kill(pn->pid, sig) == -1 && errno != ESRCH)
err = -1;
for (pn = jn->procs; pn->next; pn = pn->next)
if (kill(pn->pid, sig) == -1 && errno != ESRCH)
err = -1;
if (!jobtab[jn->other].procs && pn)
if (kill(pn->pid, sig) == -1 && errno != ESRCH)
err = -1;
return err;
}
if (killpg(jobtab[jn->other].gleader, sig) == -1 && errno != ESRCH)
err = -1;
if (killpg(jn->gleader, sig) == -1 && errno != ESRCH)
err = -1;
return err;
}
else
return killpg(jn->gleader, sig);
}
for (pn = jn->procs; pn; pn = pn->next)
if ((err = kill(pn->pid, sig)) == -1 && errno != ESRCH && sig != 0)
return -1;
return err;
}
/*
* List for saving traps. We don't usually have that many traps
* at once, so just use a linked list.
*/
struct savetrap {
int sig, flags, local;
void *list;
};
static LinkList savetraps;
static int dontsavetrap;
/*
* Save the current trap by copying it. This does nothing to
* the existing value of sigtrapped or sigfuncs.
*/
static void
dosavetrap(int sig, int level)
{
struct savetrap *st;
st = (struct savetrap *)zalloc(sizeof(*st));
st->sig = sig;
st->local = level;
if ((st->flags = sigtrapped[sig]) & ZSIG_FUNC) {
/*
* Get the old function: this assumes we haven't added
* the new one yet.
*/
Shfunc shf, newshf = NULL;
if ((shf = (Shfunc)gettrapnode(sig, 1))) {
/* Copy the node for saving */
newshf = (Shfunc) zalloc(sizeof(*newshf));
newshf->nam = ztrdup(shf->nam);
newshf->flags = shf->flags;
newshf->funcdef = dupeprog(shf->funcdef, 0);
if (shf->flags & PM_UNDEFINED)
newshf->funcdef->shf = newshf;
}
#ifdef DEBUG
else dputs("BUG: no function present with function trap flag set.");
#endif
st->list = newshf;
} else if (sigtrapped[sig]) {
st->list = sigfuncs[sig] ? dupeprog(sigfuncs[sig], 0) : NULL;
} else {
DPUTS(sigfuncs[sig], "BUG: sigfuncs not null for untrapped signal");
st->list = NULL;
}
if (!savetraps)
savetraps = znewlinklist();
/*
* Put this at the front of the list
*/
zinsertlinknode(savetraps, (LinkNode)savetraps, st);
}
/**/
mod_export int
settrap(int sig, Eprog l)
{
if (sig == -1)
return 1;
if (jobbing && (sig == SIGTTOU || sig == SIGTSTP || sig == SIGTTIN)) {
zerr("can't trap SIG%s in interactive shells", sigs[sig], 0);
return 1;
}
/*
* Call unsettrap() unconditionally, to make sure trap is saved
* if necessary.
*/
queue_signals();
unsettrap(sig);
sigfuncs[sig] = l;
if (empty_eprog(l)) {
sigtrapped[sig] = ZSIG_IGNORED;
if (sig && sig <= SIGCOUNT &&
#ifdef SIGWINCH
sig != SIGWINCH &&
#endif
sig != SIGCHLD)
signal_ignore(sig);
} else {
nsigtrapped++;
sigtrapped[sig] = ZSIG_TRAPPED;
if (sig && sig <= SIGCOUNT &&
#ifdef SIGWINCH
sig != SIGWINCH &&
#endif
sig != SIGCHLD)
install_handler(sig);
}
/*
* Note that introducing the locallevel does not affect whether
* sigtrapped[sig] is zero or not, i.e. a test without a mask
* works just the same.
*/
sigtrapped[sig] |= (locallevel << ZSIG_SHIFT);
unqueue_signals();
return 0;
}
/**/
void
unsettrap(int sig)
{
HashNode hn;
queue_signals();
hn = removetrap(sig);
if (hn)
shfunctab->freenode(hn);
unqueue_signals();
}
/**/
HashNode
removetrap(int sig)
{
int trapped;
if (sig == -1 ||
(jobbing && (sig == SIGTTOU || sig == SIGTSTP || sig == SIGTTIN)))
return NULL;
queue_signals();
trapped = sigtrapped[sig];
/*
* Note that we save the trap here even if there isn't an existing
* one, to aid in removing this one. However, if there's
* already one at the current locallevel we just overwrite it.
*/
if (!dontsavetrap && (isset(LOCALTRAPS) || sig == SIGEXIT) &&
locallevel &&
(!trapped || locallevel > (sigtrapped[sig] >> ZSIG_SHIFT)))
dosavetrap(sig, locallevel);
if (!trapped) {
unqueue_signals();
return NULL;
}
if (sigtrapped[sig] & ZSIG_TRAPPED)
nsigtrapped--;
sigtrapped[sig] = 0;
if (sig == SIGINT && interact) {
/* PWS 1995/05/16: added test for interactive, also noholdintr() *
* as subshells ignoring SIGINT have it blocked from delivery */
intr();
noholdintr();
} else if (sig == SIGHUP)
install_handler(sig);
else if (sig && sig <= SIGCOUNT &&
#ifdef SIGWINCH
sig != SIGWINCH &&
#endif
sig != SIGCHLD)
signal_default(sig);
/*
* At this point we free the appropriate structs. If we don't
* want that to happen then either the function should already have been
* removed from shfunctab, or the entry in sigfuncs should have been set
* to NULL. This is no longer necessary for saving traps as that
* copies the structures, so here we are remove the originals.
* That causes a little inefficiency, but a good deal more reliability.
*/
if (trapped & ZSIG_FUNC) {
HashNode node = gettrapnode(sig, 1);
/*
* As in dosavetrap(), don't call removeshfuncnode() because
* that calls back into unsettrap();
*/
sigfuncs[sig] = NULL;
if (node)
removehashnode(shfunctab, node->nam);
unqueue_signals();
return node;
} else if (sigfuncs[sig]) {
freeeprog(sigfuncs[sig]);
sigfuncs[sig] = NULL;
}
unqueue_signals();
return NULL;
}
/**/
void
starttrapscope(void)
{
/* No special SIGEXIT behaviour inside another trap. */
if (intrap)
return;
/*
* SIGEXIT needs to be restored at the current locallevel,
* so give it the next higher one. dosavetrap() is called
* automatically where necessary.
*/
if (sigtrapped[SIGEXIT]) {
locallevel++;
unsettrap(SIGEXIT);
locallevel--;
}
}
/*
* Reset traps after the end of a function: must be called after
* endparamscope() so that the locallevel has been decremented.
*/
/**/
void
endtrapscope(void)
{
LinkNode ln;
struct savetrap *st;
int exittr;
void *exitfn = NULL;
/*
* Remember the exit trap, but don't run it until
* after all the other traps have been put back.
* Don't do this inside another trap.
*/
if (intrap)
exittr = 0;
else if ((exittr = sigtrapped[SIGEXIT])) {
if (exittr & ZSIG_FUNC) {
exitfn = removehashnode(shfunctab, "TRAPEXIT");
} else {
exitfn = sigfuncs[SIGEXIT];
}
sigfuncs[SIGEXIT] = NULL;
if (sigtrapped[SIGEXIT] & ZSIG_TRAPPED)
nsigtrapped--;
sigtrapped[SIGEXIT] = 0;
}
if (savetraps) {
while ((ln = firstnode(savetraps)) &&
(st = (struct savetrap *) ln->dat) &&
st->local > locallevel) {
int sig = st->sig;
remnode(savetraps, ln);
if (st->flags && (st->list != NULL)) {
Eprog prog = (st->flags & ZSIG_FUNC) ?
((Shfunc) st->list)->funcdef : (Eprog) st->list;
/* prevent settrap from saving this */
dontsavetrap++;
settrap(sig, prog);
dontsavetrap--;
/*
* counting of nsigtrapped should presumably be handled
* in settrap...
*/
DPUTS((sigtrapped[sig] ^ st->flags) & ZSIG_TRAPPED,
"BUG: settrap didn't restore correct ZSIG_TRAPPED");
if ((sigtrapped[sig] = st->flags) & ZSIG_FUNC)
shfunctab->addnode(shfunctab, ((Shfunc)st->list)->nam,
(Shfunc) st->list);
} else if (sigtrapped[sig])
unsettrap(sig);
zfree(st, sizeof(*st));
}
}
if (exittr) {
dotrapargs(SIGEXIT, &exittr, (exittr & ZSIG_FUNC) ?
((Shfunc)exitfn)->funcdef : (Eprog) exitfn);
if (exittr & ZSIG_FUNC)
shfunctab->freenode((HashNode)exitfn);
else
freeeprog(exitfn);
}
DPUTS(!locallevel && savetraps && firstnode(savetraps),
"BUG: still saved traps outside all function scope");
}
/* Execute a trap function for a given signal, possibly
* with non-standard sigtrapped & sigfuncs values
*/
/* Are we already executing a trap? */
/**/
int intrap;
/* Is the current trap a function? */
/**/
int trapisfunc;
/**/
void
dotrapargs(int sig, int *sigtr, void *sigfn)
{
LinkList args;
char *name, num[4];
int trapret = 0;
int obreaks = breaks;
int isfunc;
/* if signal is being ignored or the trap function *
* is NULL, then return *
* *
* Also return if errflag is set. In fact, the code in the *
* function will test for this, but this way we keep status flags *
* intact without working too hard. Special cases (e.g. calling *
* a trap for SIGINT after the error flag was set) are handled *
* by the calling code. (PWS 1995/06/08). *
* *
* This test is now replicated in dotrap(). */
if ((*sigtr & ZSIG_IGNORED) || !sigfn || errflag)
return;
/*
* Never execute special (synchronous) traps inside other traps.
* This can cause unexpected code execution when more than one
* of these is set.
*
* The down side is that it's harder to debug traps. I don't think
* that's a big issue.
*/
if (intrap) {
switch (sig) {
case SIGEXIT:
case SIGDEBUG:
case SIGZERR:
return;
}
}
intrap++;
*sigtr |= ZSIG_IGNORED;
lexsave();
execsave();
breaks = 0;
runhookdef(BEFORETRAPHOOK, NULL);
if (*sigtr & ZSIG_FUNC) {
int osc = sfcontext;
HashNode hn = gettrapnode(sig, 0);
args = znewlinklist();
/*
* In case of multiple names, try to get
* a hint of the name in use from the function table.
* In special cases, e.g. EXIT traps, the function
* has already been removed. Then it's OK to
* use the standard name.
*/
if (hn) {
name = ztrdup(hn->nam);
} else {
name = (char *) zalloc(5 + strlen(sigs[sig]));
sprintf(name, "TRAP%s", sigs[sig]);
}
zaddlinknode(args, name);
sprintf(num, "%d", sig);
zaddlinknode(args, num);
trapreturn = -1; /* incremented by doshfunc */
trapisfunc = isfunc = 1;
sfcontext = SFC_SIGNAL;
doshfunc(name, sigfn, args, 0, 1);
sfcontext = osc;
freelinklist(args, (FreeFunc) NULL);
zsfree(name);
} else {
trapreturn = -2; /* not incremented, used at current level */
trapisfunc = isfunc = 0;
execode(sigfn, 1, 0);
}
runhookdef(AFTERTRAPHOOK, NULL);
if (trapreturn > 0 && isfunc) {
/*
* Context was its own function. We propagate the return
* value specially. Return value zero means don't do
* anything special, so don't handle it.
*/
trapret = trapreturn;
} else if (trapreturn >= 0 && !isfunc) {
/*
* Context was an inline trap. If an explicit return value
* was used, we need to set `lastval'. Otherwise we use the
* value restored by execrestore. In this case, all return
* values indicate an explicit return from the current function,
* so always handle specially. trapreturn is always restored by
* execrestore.
*/
trapret = trapreturn + 1;
} else if (errflag)
trapret = 1;
execrestore();
lexrestore();
if (trapret > 0) {
if (isfunc) {
breaks = loops;
errflag = 1;
} else {
lastval = trapret-1;
}
} else {
breaks += obreaks;
if (breaks > loops)
breaks = loops;
}
/*
* If zle was running while the trap was executed, see if we
* need to restore the display.
*/
if (zleactive && resetneeded)
zrefresh();
if (*sigtr != ZSIG_IGNORED)
*sigtr &= ~ZSIG_IGNORED;
intrap--;
}
/* Standard call to execute a trap for a given signal. */
/**/
void
dotrap(int sig)
{
/* Copied from dotrapargs(). */
if ((sigtrapped[sig] & ZSIG_IGNORED) || !sigfuncs[sig] || errflag)
return;
dotrapargs(sig, sigtrapped+sig, sigfuncs[sig]);
}