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/* timer.cc: posix timers
This file is part of Cygwin.
This software is a copyrighted work licensed under the terms of the
Cygwin license. Please consult the file "CYGWIN_LICENSE" for
details. */
#include "winsup.h"
#include "thread.h"
#include "cygtls.h"
#include "sigproc.h"
#include "path.h"
#include "fhandler.h"
#include "dtable.h"
#include "cygheap.h"
#include "posix_timer.h"
#include <sys/param.h>
#define OVR_DISARMED -1LL
timer_tracker NO_COPY itimer_tracker (CLOCK_REALTIME, NULL);
bool
timer_tracker::cancel ()
{
DWORD res;
if (!cancel_evt)
return false;
SetEvent (cancel_evt);
if (sync_thr)
{
ReleaseSRWLockExclusive (&srwlock);
res = WaitForSingleObject (sync_thr, INFINITE);
AcquireSRWLockExclusive (&srwlock);
if (res != WAIT_OBJECT_0)
debug_printf ("WFSO returned unexpected value %u, %E", res);
}
return true;
}
timer_tracker::timer_tracker (clockid_t c, const sigevent *e)
: magic (TT_MAGIC), clock_id (c), timer (NULL), cancel_evt (NULL),
sync_thr (NULL), interval (0), exp_ts (0), overrun_count_curr (0),
overrun_count (OVR_DISARMED)
{
srwlock = SRWLOCK_INIT;
if (e != NULL)
evp = *e;
else
{
evp.sigev_notify = SIGEV_SIGNAL;
evp.sigev_signo = SIGALRM;
evp.sigev_value.sival_ptr = this;
}
}
timer_tracker::~timer_tracker ()
{
AcquireSRWLockExclusive (&srwlock);
cancel ();
NtClose (cancel_evt);
NtClose (sync_thr);
NtClose (timer);
magic = 0;
ReleaseSRWLockExclusive (&srwlock);
}
/* Returns 0 if arming successful, -1 if a signal is already queued.
If so, it also increments overrun_count. Only call under lock! */
bool
timer_tracker::arm_overrun_event (LONG64 exp_cnt)
{
bool ret = (overrun_count != OVR_DISARMED);
overrun_count += exp_cnt;
return ret;
}
LONG
timer_tracker::disarm_overrun_event ()
{
LONG ret = 0;
AcquireSRWLockExclusive (&srwlock);
if (overrun_count != OVR_DISARMED)
{
LONG64 ov_cnt;
ov_cnt = overrun_count;
if (ov_cnt > DELAYTIMER_MAX || ov_cnt < 0)
overrun_count_curr = DELAYTIMER_MAX;
else
overrun_count_curr = ov_cnt;
ret = overrun_count_curr;
overrun_count = OVR_DISARMED;
}
ReleaseSRWLockExclusive (&srwlock);
return ret;
}
static void *
notify_thread_wrapper (void *arg)
{
timer_tracker *tt = (timer_tracker *) arg;
sigevent_t *evt = tt->sigevt ();
void * (*notify_func) (void *) = (void * (*) (void *))
evt->sigev_notify_function;
tt->disarm_overrun_event ();
return notify_func (evt->sigev_value.sival_ptr);
}
DWORD
timer_tracker::thread_func ()
{
HANDLE w4[2] = { timer, cancel_evt };
debug_printf ("%p timer armed", this);
while (1)
{
switch (WaitForMultipleObjects (2, w4, FALSE, INFINITE))
{
case WAIT_OBJECT_0:
debug_printf ("%p timer expired", this);
break;
case WAIT_OBJECT_0 + 1:
debug_printf ("%p timer disarmed, %E", this);
goto out;
default:
debug_printf ("%p wait failed, %E", this);
continue;
}
AcquireSRWLockExclusive (&srwlock);
/* Make sure we haven't been abandoned and/or disarmed in the meantime */
if (exp_ts == 0 && interval == 0)
{
ReleaseSRWLockExclusive (&srwlock);
goto out;
}
LONG64 exp_cnt = 0;
if (interval)
{
/* Compute expiration count. */
LONG64 now = get_clock_now ();
LONG64 ts = get_exp_ts ();
/* Make concessions for unexact realtime clock */
if (ts > now)
ts = now - 1;
exp_cnt = (now - ts + interval - 1) / interval;
ts += interval * exp_cnt;
set_exp_ts (ts);
/* NtSetTimer allows periods of up to 24 days only. If the time
is longer, we set the timer up as one-shot timer for each
interval. Restart timer here with new due time. */
if (interval > INT_MAX * (NS100PERSEC / MSPERSEC))
{
BOOLEAN Resume = (clock_id == CLOCK_REALTIME_ALARM
|| clock_id == CLOCK_BOOTTIME_ALARM);
LARGE_INTEGER DueTime = { QuadPart: -interval };
NtSetTimer (timer, &DueTime, NULL, NULL, Resume, 0, NULL);
}
}
switch (evp.sigev_notify)
{
case SIGEV_SIGNAL:
{
if (arm_overrun_event (exp_cnt))
{
debug_printf ("%p timer signal already queued", this);
break;
}
siginfo_t si = {0};
si.si_signo = evp.sigev_signo;
si.si_code = SI_TIMER;
si.si_tid = (timer_t) this;
si.si_sigval.sival_ptr = evp.sigev_value.sival_ptr;
debug_printf ("%p sending signal %d", this, evp.sigev_signo);
sig_send (myself_nowait, si);
break;
}
case SIGEV_THREAD:
{
if (arm_overrun_event (exp_cnt))
{
debug_printf ("%p timer thread already queued", this);
break;
}
pthread_t notify_thread;
debug_printf ("%p starting thread", this);
pthread_attr_t *attr;
pthread_attr_t default_attr;
if (evp.sigev_notify_attributes)
attr = evp.sigev_notify_attributes;
else
{
pthread_attr_init(attr = &default_attr);
pthread_attr_setdetachstate (attr, PTHREAD_CREATE_DETACHED);
}
int rc = pthread_create (¬ify_thread, attr,
notify_thread_wrapper, this);
if (rc)
{
debug_printf ("thread creation failed, %E");
return 0;
}
break;
}
}
/* one-shot timer? */
if (!interval)
{
memset (&time_spec, 0, sizeof time_spec);
exp_ts = 0;
overrun_count = OVR_DISARMED;
ReleaseSRWLockExclusive (&srwlock);
goto out;
}
ReleaseSRWLockExclusive (&srwlock);
debug_printf ("looping");
}
out:
_my_tls._ctinfo->auto_release (); /* automatically return the cygthread to the cygthread pool */
return 0;
}
static DWORD
timer_thread (VOID *x)
{
timer_tracker *tt = ((timer_tracker *) x);
return tt->thread_func ();
}
int
timer_tracker::gettime (itimerspec *curr_value, bool lock)
{
if (lock)
{
AcquireSRWLockExclusive (&srwlock);
if (!is_timer_tracker ())
{
ReleaseSRWLockExclusive (&srwlock);
return -EINVAL;
}
}
if (!time_spec.it_value.tv_sec && !time_spec.it_value.tv_nsec)
memset (curr_value, 0, sizeof (*curr_value));
else
{
LONG64 next_relative_exp = get_exp_ts () - get_clock_now ();
curr_value->it_value.tv_sec = next_relative_exp / NS100PERSEC;
next_relative_exp -= curr_value->it_value.tv_sec * NS100PERSEC;
curr_value->it_value.tv_nsec = next_relative_exp
* (NSPERSEC / NS100PERSEC);
curr_value->it_interval = time_spec.it_interval;
}
if (lock)
ReleaseSRWLockExclusive (&srwlock);
return 0;
}
int
timer_tracker::settime (int flags, const itimerspec *new_value,
itimerspec *old_value)
{
int ret = -1;
__try
{
if (!new_value || !valid_timespec (new_value->it_value)
|| !valid_timespec (new_value->it_interval))
{
ret = -EINVAL;
__leave;
}
AcquireSRWLockExclusive (&srwlock);
if (!is_timer_tracker ())
{
ReleaseSRWLockExclusive (&srwlock);
ret = -EINVAL;
__leave;
}
if (old_value)
gettime (old_value, false);
cancel ();
if (!new_value->it_value.tv_sec && !new_value->it_value.tv_nsec)
{
memset (&time_spec, 0, sizeof time_spec);
interval = 0;
exp_ts = 0;
}
else
{
LONG64 ts;
LARGE_INTEGER DueTime;
BOOLEAN Resume;
LONG Period;
NTSTATUS status;
if (!timer)
{
OBJECT_ATTRIBUTES attr;
InitializeObjectAttributes (&attr, NULL, 0, NULL, NULL);
status = NtCreateEvent (&cancel_evt, EVENT_ALL_ACCESS, &attr,
NotificationEvent, FALSE);
if (!NT_SUCCESS (status))
{
ret = -geterrno_from_nt_status (status);
__leave;
}
status = NtCreateEvent (&sync_thr, EVENT_ALL_ACCESS, &attr,
NotificationEvent, FALSE);
if (!NT_SUCCESS (status))
{
NtClose (cancel_evt);
cancel_evt = NULL;
ret = -geterrno_from_nt_status (status);
__leave;
}
status = NtCreateTimer (&timer, TIMER_ALL_ACCESS, &attr,
SynchronizationTimer);
if (!NT_SUCCESS (status))
{
NtClose (cancel_evt);
NtClose (sync_thr);
cancel_evt = sync_thr = NULL;
ret = -geterrno_from_nt_status (status);
__leave;
}
}
ResetEvent (cancel_evt);
ResetEvent (sync_thr);
NtCancelTimer (timer, NULL);
/* Convert incoming itimerspec into 100ns interval and timestamp */
interval = new_value->it_interval.tv_sec * NS100PERSEC
+ (new_value->it_interval.tv_nsec
+ (NSPERSEC / NS100PERSEC) - 1)
/ (NSPERSEC / NS100PERSEC);
ts = new_value->it_value.tv_sec * NS100PERSEC
+ (new_value->it_value.tv_nsec + (NSPERSEC / NS100PERSEC) - 1)
/ (NSPERSEC / NS100PERSEC);
if (flags & TIMER_ABSTIME)
{
if (clock_id == CLOCK_REALTIME)
DueTime.QuadPart = ts + FACTOR;
else /* non-REALTIME clocks require relative DueTime. */
{
DueTime.QuadPart = get_clock_now () - ts;
/* If the timestamp was earlier than now, compute number
of expirations and offset DueTime to expire immediately. */
if (DueTime.QuadPart >= 0)
DueTime.QuadPart = -1LL;
}
}
else
{
/* Keep relative timestamps relative for the timer, but store the
expiry timestamp absolute for the timer thread. */
DueTime.QuadPart = -ts;
ts += get_clock_now ();
}
set_exp_ts (ts);
time_spec = *new_value;
overrun_count_curr = 0;
overrun_count = OVR_DISARMED;
/* Note: Advanced Power Settings -> Sleep -> Allow Wake Timers
since W10 1709 */
Resume = (clock_id == CLOCK_REALTIME_ALARM
|| clock_id == CLOCK_BOOTTIME_ALARM);
if (interval > INT_MAX * (NS100PERSEC / MSPERSEC))
Period = 0;
else
Period = (interval + (NS100PERSEC / MSPERSEC) - 1)
/ (NS100PERSEC / MSPERSEC);
status = NtSetTimer (timer, &DueTime, NULL, NULL, Resume, Period,
NULL);
if (!NT_SUCCESS (status))
{
memset (&time_spec, 0, sizeof time_spec);
interval = 0;
exp_ts = 0;
ret = -geterrno_from_nt_status (status);
__leave;
}
new cygthread (timer_thread, this, "itimer", sync_thr);
}
ReleaseSRWLockExclusive (&srwlock);
ret = 0;
}
__except (EFAULT) {}
__endtry
return ret;
}
/* The timers are stored on the system heap in order to avoid accidental
leaking of timer ids into the child process. */
#define cnew(name, ...) \
({ \
void *ptr = (void *) HeapAlloc (GetProcessHeap (), 0, sizeof (name)); \
ptr ? new (ptr) name (__VA_ARGS__) : NULL; \
})
extern "C" int
timer_create (clockid_t clock_id, struct sigevent *__restrict evp,
timer_t *__restrict timerid)
{
int ret = -1;
__try
{
if (CLOCKID_IS_PROCESS (clock_id) || CLOCKID_IS_THREAD (clock_id))
{
set_errno (ENOTSUP);
__leave;
}
if (clock_id >= MAX_CLOCKS)
{
set_errno (EINVAL);
__leave;
}
*timerid = (timer_t) cnew (timer_tracker, clock_id, evp);
if (!*timerid)
__seterrno ();
else
ret = 0;
}
__except (EFAULT) {}
__endtry
return ret;
}
extern "C" int
timer_gettime (timer_t timerid, struct itimerspec *ovalue)
{
int ret = -1;
__try
{
timer_tracker *tt = (timer_tracker *) timerid;
if (!tt->is_timer_tracker ())
{
set_errno (EINVAL);
__leave;
}
ret = tt->gettime (ovalue, true);
if (ret < 0)
{
set_errno (-ret);
ret = -1;
}
}
__except (EFAULT) {}
__endtry
return ret;
}
extern "C" int
timer_settime (timer_t timerid, int flags,
const struct itimerspec *__restrict value,
struct itimerspec *__restrict ovalue)
{
int ret = -1;
__try
{
timer_tracker *tt = (timer_tracker *) timerid;
if (!tt->is_timer_tracker ())
{
set_errno (EINVAL);
__leave;
}
ret = tt->settime (flags, value, ovalue);
if (ret < 0)
{
set_errno (-ret);
ret = -1;
}
}
__except (EFAULT) {}
__endtry
return ret;
}
extern "C" int
timer_getoverrun (timer_t timerid)
{
int ret = -1;
__try
{
timer_tracker *tt = (timer_tracker *) timerid;
if (!tt->is_timer_tracker ())
{
set_errno (EINVAL);
__leave;
}
LONG64 ov_cnt = tt->getoverrun ();
if (ov_cnt > DELAYTIMER_MAX || ov_cnt < 0)
ret = DELAYTIMER_MAX;
else
ret = ov_cnt;
}
__except (EFAULT) {}
__endtry
return ret;
}
extern "C" int
timer_delete (timer_t timerid)
{
int ret = -1;
__try
{
timer_tracker *in_tt = (timer_tracker *) timerid;
if (!in_tt->is_timer_tracker () || in_tt == &itimer_tracker)
{
set_errno (EINVAL);
__leave;
}
delete in_tt;
ret = 0;
}
__except (EFAULT) {}
__endtry
return ret;
}
extern "C" int
setitimer (int which, const struct itimerval *__restrict value,
struct itimerval *__restrict ovalue)
{
int ret;
if (which != ITIMER_REAL)
{
set_errno (EINVAL);
ret = -1;
}
else
{
struct itimerspec spec_value, spec_ovalue;
spec_value.it_interval.tv_sec = value->it_interval.tv_sec;
spec_value.it_interval.tv_nsec = value->it_interval.tv_usec * 1000;
spec_value.it_value.tv_sec = value->it_value.tv_sec;
spec_value.it_value.tv_nsec = value->it_value.tv_usec * 1000;
ret = timer_settime ((timer_t) &itimer_tracker, 0,
&spec_value, &spec_ovalue);
if (ret)
ret = -1;
else if (ovalue)
{
ovalue->it_interval.tv_sec = spec_ovalue.it_interval.tv_sec;
ovalue->it_interval.tv_usec = spec_ovalue.it_interval.tv_nsec / 1000;
ovalue->it_value.tv_sec = spec_ovalue.it_value.tv_sec;
ovalue->it_value.tv_usec = spec_ovalue.it_value.tv_nsec / 1000;
}
}
syscall_printf ("%R = setitimer()", ret);
return ret;
}
extern "C" int
getitimer (int which, struct itimerval *ovalue)
{
int ret = -1;
if (which != ITIMER_REAL)
set_errno (EINVAL);
else
{
__try
{
struct itimerspec spec_ovalue;
ret = timer_gettime ((timer_t) &itimer_tracker, &spec_ovalue);
if (!ret)
{
ovalue->it_interval.tv_sec = spec_ovalue.it_interval.tv_sec;
ovalue->it_interval.tv_usec = spec_ovalue.it_interval.tv_nsec / 1000;
ovalue->it_value.tv_sec = spec_ovalue.it_value.tv_sec;
ovalue->it_value.tv_usec = spec_ovalue.it_value.tv_nsec / 1000;
}
}
__except (EFAULT) {}
__endtry
}
syscall_printf ("%R = getitimer()", ret);
return ret;
}
/* FIXME: POSIX - alarm survives exec */
extern "C" unsigned int
alarm (unsigned int seconds)
{
struct itimerspec newt = {}, oldt;
/* alarm cannot fail, but only needs not be
correct for arguments < 64k. Truncate */
if (seconds > (CLOCK_DELAY_MAX / 1000 - 1))
seconds = (CLOCK_DELAY_MAX / 1000 - 1);
newt.it_value.tv_sec = seconds;
timer_settime ((timer_t) &itimer_tracker, 0, &newt, &oldt);
int ret = oldt.it_value.tv_sec + (oldt.it_value.tv_nsec > 0);
syscall_printf ("%d = alarm(%u)", ret, seconds);
return ret;
}
extern "C" useconds_t
ualarm (useconds_t value, useconds_t interval)
{
struct itimerspec timer = {}, otimer;
/* ualarm cannot fail.
Interpret negative arguments as zero */
if (value > 0)
{
timer.it_value.tv_sec = value / USPERSEC;
timer.it_value.tv_nsec = (value % USPERSEC) * (NSPERSEC/USPERSEC);
}
if (interval > 0)
{
timer.it_interval.tv_sec = interval / USPERSEC;
timer.it_interval.tv_nsec = (interval % USPERSEC) * (NSPERSEC/USPERSEC);
}
timer_settime ((timer_t) &itimer_tracker, 0, &timer, &otimer);
useconds_t ret = otimer.it_value.tv_sec * USPERSEC
+ (otimer.it_value.tv_nsec + (NSPERSEC/USPERSEC) - 1)
/ (NSPERSEC/USPERSEC);
syscall_printf ("%d = ualarm(%ld , %ld)", ret, value, interval);
return ret;
}
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