import select
import signal
import errno
+import time
from ganeti import utils
+class Timer(object):
+ def __init__(self, owner, timer_id, start, interval, repeat):
+ self.owner = owner
+ self.timer_id = timer_id
+ self.start = start
+ self.interval = interval
+ self.repeat = repeat
+
+
class Mainloop(object):
"""Generic mainloop for daemons
"""
def __init__(self):
- self._io_wait = []
+ """Constructs a new Mainloop instance.
+
+ """
+ self._io_wait = {}
+ self._io_wait_add = []
+ self._io_wait_remove = []
self._signal_wait = []
- self.sigchld_handler = {}
+ self._timer_id_last = 0
+ self._timer = {}
+ self._timer_add = []
+ self._timer_remove = []
- def Run(self):
- # TODO: Does not yet support adding new event sources while running
+ def Run(self, handle_sigchld=True, handle_sigterm=True, stop_on_empty=False):
+ """Runs the mainloop.
+
+ @type handle_sigchld: bool
+ @param handle_sigchld: Whether to install handler for SIGCHLD
+ @type handle_sigterm: bool
+ @param handle_sigterm: Whether to install handler for SIGTERM
+ @type stop_on_empty: bool
+ @param stop_on_empty: Whether to stop mainloop once all I/O waiters
+ unregistered
+
+ """
poller = select.poll()
- for (owner, fd, conditions) in self._io_wait:
- poller.register(fd, conditions)
- self.sigchld_handler = utils.SignalHandler([signal.SIGCHLD])
+ # Setup signal handlers
+ if handle_sigchld:
+ sigchld_handler = utils.SignalHandler([signal.SIGCHLD])
+ else:
+ sigchld_handler = None
try:
- while True:
- try:
- io_events = poller.poll(1000)
- except select.error, err:
- # EINTR can happen when signals are sent
- if err.args and err.args[0] in (errno.EINTR,):
- io_events = None
- else:
- raise
-
- if io_events:
- # Check for I/O events
- for (evfd, evcond) in io_events:
- for (owner, fd, conditions) in self._io_wait:
- if fd == evfd and evcond & conditions:
- owner.OnIO(fd, evcond)
-
- # Check whether signal was raised
- if self.sigchld_handler.called:
- for owner in self._signal_wait:
- owner.OnSignal(signal.SIGCHLD)
- self.sigchld_handler.Clear()
+ if handle_sigterm:
+ sigterm_handler = utils.SignalHandler([signal.SIGTERM])
+ else:
+ sigterm_handler = None
+
+ try:
+ running = True
+ timeout = None
+ timeout_needs_update = True
+
+ # Start actual main loop
+ while running:
+ # Entries could be added again afterwards, hence removing first
+ if self._io_wait_remove:
+ for fd in self._io_wait_remove:
+ try:
+ poller.unregister(fd)
+ except KeyError:
+ pass
+ try:
+ del self._io_wait[fd]
+ except KeyError:
+ pass
+ self._io_wait_remove = []
+
+ # Add new entries
+ if self._io_wait_add:
+ for (owner, fd, conditions) in self._io_wait_add:
+ self._io_wait[fd] = owner
+ poller.register(fd, conditions)
+ self._io_wait_add = []
+
+ # Add new timers
+ if self._timer_add:
+ timeout_needs_update = True
+ for timer in self._timer_add:
+ self._timer[timer.timer_id] = timer
+ del self._timer_add[:]
+
+ # Remove timers
+ if self._timer_remove:
+ timeout_needs_update = True
+ for timer_id in self._timer_remove:
+ try:
+ del self._timer[timer_id]
+ except KeyError:
+ pass
+ del self._timer_remove[:]
+
+ # Stop if nothing is listening anymore
+ if stop_on_empty and not (self._io_wait or self._timer):
+ break
+
+ # Calculate timeout again if required
+ if timeout_needs_update:
+ timeout = self._CalcTimeout(time.time())
+ timeout_needs_update = False
+
+ # Wait for I/O events
+ try:
+ io_events = poller.poll(timeout)
+ except select.error, err:
+ # EINTR can happen when signals are sent
+ if err.args and err.args[0] in (errno.EINTR,):
+ io_events = None
+ else:
+ raise
+
+ after_poll = time.time()
+
+ if io_events:
+ # Check for I/O events
+ for (evfd, evcond) in io_events:
+ owner = self._io_wait.get(evfd, None)
+ if owner:
+ owner.OnIO(evfd, evcond)
+
+ if self._timer:
+ self._CheckTimers(after_poll)
+
+ # Check whether signal was raised
+ if sigchld_handler and sigchld_handler.called:
+ self._CallSignalWaiters(signal.SIGCHLD)
+ sigchld_handler.Clear()
+
+ if sigterm_handler and sigterm_handler.called:
+ self._CallSignalWaiters(signal.SIGTERM)
+ running = False
+ sigterm_handler.Clear()
+ finally:
+ # Restore signal handlers
+ if sigterm_handler:
+ sigterm_handler.Reset()
finally:
- self.sigchld_handler.Reset()
- self.sigchld_handler = None
+ if sigchld_handler:
+ sigchld_handler.Reset()
+
+ def _CalcTimeout(self, now):
+ if not self._timer:
+ return None
+
+ timeout = None
+
+ # TODO: Repeating timers
+
+ min_timeout = 0.001
+
+ for timer in self._timer.itervalues():
+ time_left = (timer.start + timer.interval) - now
+ if timeout is None or time_left < timeout:
+ timeout = time_left
+ if timeout < 0:
+ timeout = 0
+ break
+ elif timeout < min_timeout:
+ timeout = min_timeout
+ break
+
+ return timeout * 1000.0
+
+ def _CheckTimers(self, now):
+ # TODO: Repeating timers
+ for timer in self._timer.itervalues():
+ if now < (timer.start + timer.interval):
+ continue
+
+ timer.owner.OnTimer(timer.timer_id)
+
+ # TODO: Repeating timers should not be removed
+ self._timer_remove.append(timer.timer_id)
+
+ def _CallSignalWaiters(self, signum):
+ """Calls all signal waiters for a certain signal.
+
+ @type signum: int
+ @param signum: Signal number
+
+ """
+ for owner in self._signal_wait:
+ owner.OnSignal(signal.SIGCHLD)
def RegisterIO(self, owner, fd, condition):
"""Registers a receiver for I/O notifications
(see select module)
"""
- self._io_wait.append((owner, fd, condition))
+ # select.Poller also supports file() like objects, but we don't.
+ assert isinstance(fd, (int, long)), \
+ "Only integers are supported for file descriptors"
+
+ self._io_wait_add.append((owner, fd, condition))
+
+ def UnregisterIO(self, fd):
+ """Unregister a file descriptor.
+
+ It'll be unregistered the next time the mainloop checks for it.
+
+ @type fd: int
+ @param fd: File descriptor
+
+ """
+ # select.Poller also supports file() like objects, but we don't.
+ assert isinstance(fd, (int, long)), \
+ "Only integers are supported for file descriptors"
+
+ self._io_wait_remove.append(fd)
def RegisterSignal(self, owner):
"""Registers a receiver for signal notifications
"""
self._signal_wait.append(owner)
+
+ def AddTimer(self, owner, interval, repeat):
+ """Add a new timer.
+
+ The receiver must support a "OnTimer(self, timer_id)" function.
+
+ @type owner: instance
+ @param owner: Receiver
+ @type interval: int or float
+ @param interval: Timer interval in seconds
+ @type repeat: bool
+ @param repeat: Whether this is a repeating timer or one-off
+
+ """
+ # TODO: Implement repeating timers
+ assert not repeat, "Repeating timers are not yet supported"
+
+ # Get new ID
+ self._timer_id_last += 1
+
+ timer_id = self._timer_id_last
+
+ self._timer_add.append(Timer(owner, timer_id, time.time(),
+ float(interval), repeat))
+
+ return timer_id
+
+ def RemoveTimer(self, timer_id):
+ """Removes a timer.
+
+ @type timer_id: int
+ @param timer_id: Timer ID
+
+ """
+ self._timer_remove.append(timer_id)