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glibc/sysdeps/mach/hurd/setitimer.c
Zack Weinberg 4a39c34c4f Change most internal uses of __gettimeofday to __clock_gettime. 
Since gettimeofday will shortly be implemented in terms of
clock_gettime on all platforms, internal code should use clock_gettime
directly; in addition to removing a layer of indirection, this will
allow us to remove the PLT-bypass gunk for gettimeofday.  (We can't
quite do that yet, but it'll be coming later in this patch series.)
In many cases, the changed code does fewer conversions.

The changed code always assumes __clock_gettime (CLOCK_REALTIME)
cannot fail.  Most of the call sites were assuming gettimeofday could
not fail, but a few places were checking for errors.  POSIX says
clock_gettime can only fail if the clock constant is invalid or
unsupported, and CLOCK_REALTIME is the one and only clock constant
that's required to be supported.  For consistency I grepped the entire
source tree for any other places that checked for errors from
__clock_gettime (CLOCK_REALTIME), found one, and changed it too.

(For the record, POSIX also says gettimeofday can never fail.)

(It would be nice if we could declare that GNU systems will always
support CLOCK_MONOTONIC as well as CLOCK_REALTIME; there are several
places where we are using CLOCK_REALTIME where _MONOTONIC would be
more appropriate, and/or trying to use _MONOTONIC and then falling
back to _REALTIME.  But the Hurd doesn't support CLOCK_MONOTONIC yet,
and it looks like adding it would involve substantial changes to
gnumach's internals and API.  Oh well.)

A few Hurd-specific files were changed to use __host_get_time instead
of __clock_gettime, as this seemed tidier.  We also assume this cannot
fail.  Skimming the code in gnumach leads me to believe the only way
it could fail is if __mach_host_self also failed, and our
Hurd-specific code consistently assumes that can't happen, so I'm
going with that.

With the exception of support/support_test_main.c, test cases are not
modified, mainly because I didn't want to have to figure out which
test cases were testing gettimeofday specifically.

The definition of GETTIME in sysdeps/generic/memusage.h had a typo and
was not reading tv_sec at all.  I fixed this.  It appears nobody has been
generating malloc traces on a machine that doesn't have a superseding
definition.

There are a whole bunch of places where the code could be simplified
by factoring out timespec subtraction and/or comparison logic, but I
want to keep this patch as mechanical as possible.

Checked on x86_64-linux-gnu, i686-linux-gnu, powerpc64le-linux-gnu,
powerpc64-linux-gnu, powerpc-linux-gnu, and aarch64-linux-gnu.

Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
Reviewed-by: Lukasz Majewski <lukma@denx.de>
2019-10-30 17:04:10 -03:00

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/* Copyright (C) 1994-2019 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#include <stddef.h>
#include <errno.h>
#include <sys/time.h>
#include <time.h>
#include <hurd.h>
#include <hurd/signal.h>
#include <hurd/sigpreempt.h>
#include <hurd/msg_request.h>
#include <mach.h>
#include <mach/message.h>
/* XXX Temporary cheezoid implementation of ITIMER_REAL/SIGALRM. */
spin_lock_t _hurd_itimer_lock = SPIN_LOCK_INITIALIZER;
struct itimerval _hurd_itimerval; /* Current state of the timer. */
mach_port_t _hurd_itimer_port; /* Port the timer thread blocks on. */
thread_t _hurd_itimer_thread; /* Thread waiting for timeout. */
int _hurd_itimer_thread_suspended; /* Nonzero if that thread is suspended. */
vm_address_t _hurd_itimer_thread_stack_base; /* Base of its stack. */
vm_size_t _hurd_itimer_thread_stack_size; /* Size of its stack. */
struct timeval _hurd_itimer_started; /* Time the thread started waiting. */
static void
quantize_timeval (struct timeval *tv)
{
static time_t quantum = -1;
if (quantum == -1)
quantum = 1000000 / __getclktck ();
tv->tv_usec = ((tv->tv_usec + (quantum - 1)) / quantum) * quantum;
if (tv->tv_usec >= 1000000)
{
++tv->tv_sec;
tv->tv_usec -= 1000000;
}
}
static inline void
subtract_timeval (struct timeval *from, const struct timeval *subtract)
{
from->tv_usec -= subtract->tv_usec;
from->tv_sec -= subtract->tv_sec;
while (from->tv_usec < 0)
{
--from->tv_sec;
from->tv_usec += 1000000;
}
}
/* Function run by the itimer thread.
This code must be very careful not ever to require a MiG reply port. */
static void
timer_thread (void)
{
while (1)
{
error_t err;
/* The only message we ever expect to receive is the reply from the
signal thread to a sig_post call we did. We never examine the
contents. */
struct
{
mach_msg_header_t header;
error_t return_code;
} msg;
/* Wait for a message on a port that noone sends to. The purpose is
the receive timeout. Notice interrupts so that if we are
thread_abort'd, we will loop around and fetch new values from
_hurd_itimerval. */
err = __mach_msg (&msg.header,
MACH_RCV_MSG|MACH_RCV_TIMEOUT|MACH_RCV_INTERRUPT,
0, 0, _hurd_itimer_port,
_hurd_itimerval.it_value.tv_sec * 1000
+ _hurd_itimerval.it_value.tv_usec / 1000,
MACH_PORT_NULL);
switch (err)
{
case MACH_RCV_TIMED_OUT:
/* We got the expected timeout. Send a message to the signal
thread to tell it to post a SIGALRM signal. We use
_hurd_itimer_port as the reply port just so we will block until
the signal thread has frobnicated things to reload the itimer or
has terminated this thread. */
__msg_sig_post_request (_hurd_msgport,
_hurd_itimer_port,
MACH_MSG_TYPE_MAKE_SEND_ONCE,
SIGALRM, 0, __mach_task_self ());
break;
case MACH_RCV_INTERRUPTED:
/* We were thread_abort'd. This is to tell us that
_hurd_itimerval has changed and we need to reexamine it
and start waiting with the new timeout value. */
break;
case MACH_MSG_SUCCESS:
/* We got the reply message from the sig_post_request above.
Ignore it and reexamine the timer value. */
__mach_msg_destroy (&msg.header); /* Just in case. */
break;
default:
/* Unexpected lossage. Oh well, keep trying. */
break;
}
}
}
/* Forward declaration. */
static int setitimer_locked (const struct itimerval *new,
struct itimerval *old, void *crit,
int hurd_siglocked);
static sighandler_t
restart_itimer (struct hurd_signal_preemptor *preemptor,
struct hurd_sigstate *ss,
int *signo, struct hurd_signal_detail *detail)
{
/* This function gets called in the signal thread
each time a SIGALRM is arriving (even if blocked). */
struct itimerval it;
/* Either reload or disable the itimer. */
__spin_lock (&_hurd_itimer_lock);
it.it_value = it.it_interval = _hurd_itimerval.it_interval;
setitimer_locked (&it, NULL, NULL, 1);
/* Continue with normal delivery (or hold, etc.) of SIGALRM. */
return SIG_ERR;
}
/* Called before any normal SIGALRM signal is delivered.
Reload the itimer, or disable the itimer. */
static int
setitimer_locked (const struct itimerval *new, struct itimerval *old,
void *crit, int hurd_siglocked)
{
struct itimerval newval;
struct timeval now, remaining, elapsed;
struct timeval old_interval;
error_t err;
inline void kill_itimer_thread (void)
{
__thread_terminate (_hurd_itimer_thread);
__vm_deallocate (__mach_task_self (),
_hurd_itimer_thread_stack_base,
_hurd_itimer_thread_stack_size);
_hurd_itimer_thread = MACH_PORT_NULL;
}
if (!new)
{
/* Just return the current value in OLD without changing anything.
This is what BSD does, even though it's not documented. */
if (old)
*old = _hurd_itimerval;
spin_unlock (&_hurd_itimer_lock);
_hurd_critical_section_unlock (crit);
return 0;
}
newval = *new;
quantize_timeval (&newval.it_interval);
quantize_timeval (&newval.it_value);
if ((newval.it_value.tv_sec | newval.it_value.tv_usec) != 0)
{
/* Make sure the itimer thread is set up. */
/* Set up a signal preemptor global for all threads to
run `restart_itimer' each time a SIGALRM would arrive. */
static struct hurd_signal_preemptor preemptor =
{
__sigmask (SIGALRM), SI_TIMER, SI_TIMER,
&restart_itimer,
};
if (!hurd_siglocked)
__mutex_lock (&_hurd_siglock);
if (! preemptor.next && _hurdsig_preemptors != &preemptor)
{
preemptor.next = _hurdsig_preemptors;
_hurdsig_preemptors = &preemptor;
_hurdsig_preempted_set |= preemptor.signals;
}
if (!hurd_siglocked)
__mutex_unlock (&_hurd_siglock);
if (_hurd_itimer_port == MACH_PORT_NULL)
{
/* Allocate a receive right that the itimer thread will
block waiting for a message on. */
if (err = __mach_port_allocate (__mach_task_self (),
MACH_PORT_RIGHT_RECEIVE,
&_hurd_itimer_port))
goto out;
}
if (_hurd_itimer_thread == MACH_PORT_NULL)
{
/* Start up the itimer thread running `timer_thread' (below). */
if (err = __thread_create (__mach_task_self (),
&_hurd_itimer_thread))
goto out;
_hurd_itimer_thread_stack_base = 0; /* Anywhere. */
_hurd_itimer_thread_stack_size = __vm_page_size; /* Small stack. */
if ((err = __mach_setup_thread (__mach_task_self (),
_hurd_itimer_thread,
&timer_thread,
&_hurd_itimer_thread_stack_base,
&_hurd_itimer_thread_stack_size))
|| (err = __mach_setup_tls(_hurd_itimer_thread)))
{
__thread_terminate (_hurd_itimer_thread);
_hurd_itimer_thread = MACH_PORT_NULL;
goto out;
}
_hurd_itimer_thread_suspended = 1;
}
}
if ((newval.it_value.tv_sec | newval.it_value.tv_usec) != 0 || old != NULL)
{
/* Calculate how much time is remaining for the pending alarm. */
{
time_value_t tv;
__host_get_time (__mach_host_self (), &tv);
now.tv_sec = tv.seconds;
now.tv_usec = tv.microseconds;
}
elapsed = now;
subtract_timeval (&elapsed, &_hurd_itimer_started);
remaining = _hurd_itimerval.it_value;
if (timercmp (&remaining, &elapsed, <))
{
/* Hmm. The timer should have just gone off, but has not been reset.
This is a possible timing glitch. The alarm will signal soon. */
/* XXX wrong */
remaining.tv_sec = 0;
remaining.tv_usec = 0;
}
else
subtract_timeval (&remaining, &elapsed);
/* Remember the old reload interval before changing it. */
old_interval = _hurd_itimerval.it_interval;
/* Record the starting time that the timer interval relates to. */
_hurd_itimer_started = now;
}
/* Load the new itimer value. */
_hurd_itimerval = newval;
if ((newval.it_value.tv_sec | newval.it_value.tv_usec) == 0)
{
/* Disable the itimer. */
if (_hurd_itimer_thread && !_hurd_itimer_thread_suspended)
{
/* Suspend the itimer thread so it does nothing. Then abort its
kernel context so that when the thread is resumed, mach_msg
will return to timer_thread (below) and it will fetch new
values from _hurd_itimerval. */
if ((err = __thread_suspend (_hurd_itimer_thread))
|| (err = __thread_abort (_hurd_itimer_thread)))
/* If we can't save it for later, nuke it. */
kill_itimer_thread ();
else
_hurd_itimer_thread_suspended = 1;
}
}
/* See if the timeout changed. If so, we must alert the itimer thread. */
else if (remaining.tv_sec != newval.it_value.tv_sec
|| remaining.tv_usec != newval.it_value.tv_usec)
{
/* The timeout value is changing. Tell the itimer thread to
reexamine it and start counting down. If the itimer thread is
marked as suspended, either we just created it, or it was
suspended and thread_abort'd last time the itimer was disabled;
either way it will wake up and start waiting for the new timeout
value when we resume it. If it is not suspended, the itimer
thread is waiting to deliver a pending alarm that we will override
(since it would come later than the new alarm being set);
thread_abort will make mach_msg return MACH_RCV_INTERRUPTED, so it
will loop around and use the new timeout value. */
if (err = (_hurd_itimer_thread_suspended
? __thread_resume : __thread_abort) (_hurd_itimer_thread))
{
kill_itimer_thread ();
goto out;
}
_hurd_itimer_thread_suspended = 0;
}
__spin_unlock (&_hurd_itimer_lock);
_hurd_critical_section_unlock (crit);
if (old != NULL)
{
old->it_value = remaining;
old->it_interval = old_interval;
}
return 0;
out:
__spin_unlock (&_hurd_itimer_lock);
_hurd_critical_section_unlock (crit);
return __hurd_fail (err);
}
/* Set the timer WHICH to *NEW. If OLD is not NULL,
set *OLD to the old value of timer WHICH.
Returns 0 on success, -1 on errors. */
int
__setitimer (enum __itimer_which which, const struct itimerval *new,
struct itimerval *old)
{
void *crit;
switch (which)
{
default:
return __hurd_fail (EINVAL);
case ITIMER_VIRTUAL:
case ITIMER_PROF:
return __hurd_fail (ENOSYS);
case ITIMER_REAL:
break;
}
crit = _hurd_critical_section_lock ();
__spin_lock (&_hurd_itimer_lock);
return setitimer_locked (new, old, crit, 0);
}
static void
fork_itimer (void)
{
/* We must restart the itimer in the child. */
struct itimerval it;
__spin_lock (&_hurd_itimer_lock);
_hurd_itimer_thread = MACH_PORT_NULL;
it = _hurd_itimerval;
it.it_value = it.it_interval;
setitimer_locked (&it, NULL, NULL, 0);
(void) &fork_itimer; /* Avoid gcc optimizing out the function. */
}
text_set_element (_hurd_fork_child_hook, fork_itimer);
weak_alias (__setitimer, setitimer)
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