def addSock(self, socket, on_connected, on_read, on_closed, on_failed,
on_except):
"""Adds a socket. Called by a foreign thread"""
handlers = 0
if on_connected != None: handlers += 1
if on_read != None: handlers += 1
if on_closed != None: handlers += 1
if on_failed != None: handlers += 1
if on_except != None: handlers += 1
with self.sock_meta_lock:
if socket.fileno() in self.sockhandlers:
print("ALREADY CONNECTED!!!!")
return
self.socks.append(socket)
self.sockhandlers[socket._fileno] = (on_connected, on_read,
on_closed, on_failed,
on_except)
self.sock_tcbs[socket._fileno] = S.loc.tcb
self.handlers[socket._fileno] = handlers
self.tid_to_sock[S.loc.tcb.tid].append(socket)
if not socket.is_client and not socket.issued_on_connected:
socket.issued_on_connected = True
if on_connected != None:
S.schedule(S.loc.tcb, on_connected, socket)
S.loc.tcb.handlers += handlers
def deliver_reply_to(self, remote_tid: int, target_tid: int, obj: object, msg: SynchronousMessage):
with self.metalock:
try:
tid_waiting_for_reply, callback = self.messages[msg.uuid]
if tid_waiting_for_reply != target_tid: raise KeyError
except KeyError:
return # invalid!
with S.syslock:
try:
tcb = S.tcbs[target_tid]
except KeyError:
return
del self.messages[msg.uuid]
self.uuids_by_tid[target_tid].remove(msg.uuid)
if len(self.uuids_by_tid[target_tid]) == 0:
del self.uuids_by_tid[target_tid]
self.rev_uuids_by_tid[remote_tid].remove(msg.uuid)
if len(self.rev_uuids_by_tid[remote_tid]) == 0:
del self.rev_uuids_by_tid[remote_tid]
tcb.handlers -= 1
S.schedule(tcb, callback, obj)
def run(self):
while not self.terminated:
time.sleep(1)
with self.metalock:
try:
now = time.time()
while self.events[0].run_at < now:
handler = heapq.heappop(self.events)
if handler.cancelled:
handler.tcb.handlers -= 1
continue
if handler.cyclic:
S.schedule(handler.tcb, handler.callback)
handler.run_at = now + handler.interval
heapq.heappush(self.events, handler)
else:
S.schedule(handler.tcb, handler.callback)
handler.tcb.handlers -= 1
# TODO: race condition?
except IndexError:
pass
while self.pending_terminations.qsize() > 0:
term = self.pending_terminations.get()
with self.metalock:
events = []
for handler in self.events:
if handler.tcb != term:
events.append(handler)
heapq.heapify(events)
self.events = events
def deliver_reply_to(self, remote_tid: int, target_tid: int, obj: object,
msg: SynchronousMessage):
with self.metalock:
try:
tid_waiting_for_reply, callback = self.messages[msg.uuid]
if tid_waiting_for_reply != target_tid: raise KeyError
except KeyError:
return # invalid!
with S.syslock:
try:
tcb = S.tcbs[target_tid]
except KeyError:
return
del self.messages[msg.uuid]
self.uuids_by_tid[target_tid].remove(msg.uuid)
if len(self.uuids_by_tid[target_tid]) == 0:
del self.uuids_by_tid[target_tid]
self.rev_uuids_by_tid[remote_tid].remove(msg.uuid)
if len(self.rev_uuids_by_tid[remote_tid]) == 0:
del self.rev_uuids_by_tid[remote_tid]
tcb.handlers -= 1
S.schedule(tcb, callback, obj)
def send_sync_to(self, from_tcb: TaskletControlBlock, target_tid: int,
obj: object, handler: callable):
"""
Called from tasklet. Send a sync message from local tasklet to target tasklet
"""
if not S.isLocal(target_tid):
raise NotImplementedError("No IPC for now, sorry!")
smsg = SynchronousMessage(obj, from_tcb.tid, target_tid,
self.uuidgen.next())
with S.syslock:
if target_tid not in S.tcbs:
S.schedule(from_tcb, handler, Tasklet.DoesNotExist)
else:
S.schedule(S.tcbs[target_tid],
S.tcb_inst[target_tid].on_message, from_tcb.tid,
smsg)
with self.metalock:
self.messages[smsg.uuid] = (from_tcb.tid, handler)
self.rev_uuids_by_tid[target_tid].append(smsg.uuid)
self.uuids_by_tid[from_tcb.tid].append(smsg.uuid)
from_tcb.handlers += 1
def run(self):
while not self.terminated:
time.sleep(1)
with self.metalock:
try:
now = time.time()
while self.events[0].run_at < now:
handler = heapq.heappop(self.events)
if handler.cancelled:
handler.tcb.handlers -= 1
continue
if handler.cyclic:
S.schedule(handler.tcb, handler.callback)
handler.run_at = now + handler.interval
heapq.heappush(self.events, handler)
else:
S.schedule(handler.tcb, handler.callback)
handler.tcb.handlers -= 1
# TODO: race condition?
except IndexError:
pass
while self.pending_terminations.qsize() > 0:
term = self.pending_terminations.get()
with self.metalock:
events = []
for handler in self.events:
if handler.tcb != term:
events.append(handler)
heapq.heapify(events)
self.events = events
def addSock(self, socket, on_connected, on_read, on_closed, on_failed, on_except):
"""Adds a socket. Called by a foreign thread"""
handlers = 0
if on_connected != None: handlers += 1
if on_read != None: handlers += 1
if on_closed != None: handlers += 1
if on_failed != None: handlers += 1
if on_except != None: handlers += 1
with self.sock_meta_lock:
if socket.fileno() in self.sockhandlers:
print("ALREADY CONNECTED!!!!")
return
self.socks.append(socket)
self.sockhandlers[socket._fileno] = (on_connected, on_read, on_closed, on_failed, on_except)
self.sock_tcbs[socket._fileno] = S.loc.tcb
self.handlers[socket._fileno] = handlers
self.tid_to_sock[S.loc.tcb.tid].append(socket)
if not socket.is_client and not socket.issued_on_connected:
socket.issued_on_connected = True
if on_connected != None:
S.schedule(S.loc.tcb, on_connected, socket)
S.loc.tcb.handlers += handlers
def reply(self, obj: object):
S.getSMP(self.sender).deliver_reply_to(self.target, self.sender, obj,
self)
# RIGHT NOW THIS DOES NOT REQUIRE ANY PATCHING
#import yos.ipc
#yos.ipc.SynchronousMessage = SynchronousMessageHandler
def get(key: str, result1: callable, catname: str = ''):
with CatalogHandler.catalog_lock:
try:
val = CatalogHandler.catalog_root[catname][key]
except KeyError:
S.schedule(S.loc.tcb, result1, Catalog.NotFoundError)
else:
S.schedule(S.loc.tcb, result1, val)
def get(key: str, result1: callable, catname: str=''):
with CatalogHandler.catalog_lock:
try:
val = CatalogHandler.catalog_root[catname][key]
except KeyError:
S.schedule(S.loc.tcb, result1, Catalog.NotFoundError)
else:
S.schedule(S.loc.tcb, result1, val)
def gather(keys, result1: callable, catname: str = ''):
result = {}
with CatalogHandler.catalog_lock:
for key in keys:
try:
result[key] = CatalogHandler.catalog_root[catname][key]
except KeyError:
result[key] = Catalog.NotFoundError
S.schedule(S.loc.tcb, result1, result)
def gather(keys, result1: callable, catname: str=''):
result = {}
with CatalogHandler.catalog_lock:
for key in keys:
try:
result[key] = CatalogHandler.catalog_root[catname][key]
except KeyError:
result[key] = Catalog.NotFoundError
S.schedule(S.loc.tcb, result1, result)
def open(tid: int, result1: callable):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[tid]
if not tcb.is_alive:
raise KeyError
except KeyError:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
S.schedule(current_tcb, result1, Tasklet(tcb.tid, tcb.user, tcb.group, tcb.name))
def run(self):
while not self.terminated:
try:
tcb, callable_, args, kwargs = self.events_to_process.get(True, 10)
except queue.Empty:
continue
if tcb.is_alive:
S.loc.tcb = tcb
callable_(*args, **kwargs)
tcb.pending -= 1
if tcb.shouldBeCollected():
tcb.is_alive = False
S.onTaskletTerminated(tcb)
def open(tid: int, result1: callable):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[tid]
if not tcb.is_alive:
raise KeyError
except KeyError:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
S.schedule(current_tcb, result1,
Tasklet(tcb.tid, tcb.user, tcb.group, tcb.name))
def run(self):
while not self.terminated:
try:
tcb, callable_, args, kwargs = self.events_to_process.get(
True, 10)
except queue.Empty:
continue
if tcb.is_alive:
S.loc.tcb = tcb
callable_(*args, **kwargs)
tcb.pending -= 1
if tcb.shouldBeCollected():
tcb.is_alive = False
S.onTaskletTerminated(tcb)
def start(taskletCls, newname='Tasklet', newgroup=None, newuser=None, result1=None, *args, **kwargs):
# Temporarily disable TCB, so that calling tasklet's context
# is not used for misled API calls
# essentially bug-prevention
prev_tcb = S.loc.tcb
S.loc.tcb = None
task = taskletCls(*args, **kwargs)
S.loc.tcb = prev_tcb
current_tcb = prev_tcb
if (newuser != None) and (current_tcb.user != 'SYSTEMYA'):
raise Tasklet.AccessDenied('Cannot set user, not SYSTEMYA')
newuser = newuser or current_tcb.user
if (newgroup != None) and (current_tcb.group != 'admin'):
raise Tasklet.AccessDenied('Cannot set group, not admin')
newgroup = newgroup or current_tcb.group
tid = S.getNextTID()
tcb = TaskletControlBlock(tid, newuser, newgroup, newname)
if isinstance(task, GCTasklet):
tcb.is_gc_on = True
S.registerNewTasklet(tcb, task)
S.schedule(tcb, task.on_startup)
if result1 != None:
S.schedule(current_tcb, result1, Tasklet(tid, newuser, newgroup, newname))
def socket_closed(self, sock):
"""yNEP determined that socket is closed, purge it and tell yEEP"""
fn = sock._fileno
hdlr = self.sockhandlers[fn][2]
if hdlr != None:
if self.sock_tcbs[fn].is_alive:
S.schedule(self.sock_tcbs[fn], hdlr, sock)
with self.sock_meta_lock:
tcb = self.sock_tcbs[fn]
del self.sock_tcbs[fn]
del self.sockhandlers[fn]
self.socks.remove(sock)
tcb.handlers -= self.handlers[fn]
del self.handlers[fn]
self.tid_to_sock[tcb.tid].remove(sock)
if len(self.tid_to_sock[tcb.tid]) == 0:
del self.tid_to_sock[tcb.tid]
def socket_closed(self, sock):
"""yNEP determined that socket is closed, purge it and tell yEEP"""
fn = sock._fileno
hdlr = self.sockhandlers[fn][2]
if hdlr != None:
if self.sock_tcbs[fn].is_alive:
S.schedule(self.sock_tcbs[fn], hdlr, sock)
with self.sock_meta_lock:
tcb = self.sock_tcbs[fn]
del self.sock_tcbs[fn]
del self.sockhandlers[fn]
self.socks.remove(sock)
tcb.handlers -= self.handlers[fn]
del self.handlers[fn]
self.tid_to_sock[tcb.tid].remove(sock)
if len(self.tid_to_sock[tcb.tid]) == 0:
del self.tid_to_sock[tcb.tid]
def send_sync_to(self, from_tcb: TaskletControlBlock, target_tid: int, obj: object, handler: callable):
"""
Called from tasklet. Send a sync message from local tasklet to target tasklet
"""
if not S.isLocal(target_tid):
raise NotImplementedError("No IPC for now, sorry!")
smsg = SynchronousMessage(obj, from_tcb.tid, target_tid, self.uuidgen.next())
with S.syslock:
if target_tid not in S.tcbs:
S.schedule(from_tcb, handler, Tasklet.DoesNotExist)
else:
S.schedule(S.tcbs[target_tid], S.tcb_inst[target_tid].on_message, from_tcb.tid, smsg)
with self.metalock:
self.messages[smsg.uuid] = (from_tcb.tid, handler)
self.rev_uuids_by_tid[target_tid].append(smsg.uuid)
self.uuids_by_tid[from_tcb.tid].append(smsg.uuid)
from_tcb.handlers += 1
def schedule(run_in, callback):
self = TimerHandler.__new__(TimerHandler)
self.__tep = S.getTEP(S.loc.tcb.tid)
# following accessible to TEP
self.tcb = S.loc.tcb
self.teid = self.__tep.teidgen.next()
self.callback = callback
self.run_at = time.time() + run_in
self.cancelled = False
self.cyclic = False
self.__tep.register(self)
return self
def schedule(run_in, callback):
self = TimerHandler.__new__(TimerHandler)
self.__tep = S.getTEP(S.loc.tcb.tid)
# following accessible to TEP
self.tcb = S.loc.tcb
self.teid = self.__tep.teidgen.next()
self.callback = callback
self.run_at = time.time() + run_in
self.cancelled = False
self.cyclic = False
self.__tep.register(self)
return self
def repeat(interval, callback):
self = TimerHandler.__new__(TimerHandler)
self.__tep = S.getTEP(S.loc.tcb.tid)
# following accessible to TEP
self.tcb = S.loc.tcb
self.teid = self.__tep.teidgen.next()
self.callback = callback
self.run_at = time.time() + interval
self.interval = interval
self.cancelled = False
self.cyclic = True
self.__tep.register(self)
return self
def repeat(interval, callback):
self = TimerHandler.__new__(TimerHandler)
self.__tep = S.getTEP(S.loc.tcb.tid)
# following accessible to TEP
self.tcb = S.loc.tcb
self.teid = self.__tep.teidgen.next()
self.callback = callback
self.run_at = time.time() + interval
self.interval = interval
self.cancelled = False
self.cyclic = True
self.__tep.register(self)
return self
def terminate(self, result1=None):
if self.user == 'SYSTEMYA':
if result1 != None:
S.schedule(S.loc.tcb, result1, Tasklet.AccessDenied)
try:
tcb = S.tcbs[self.tid]
if not tcb.is_alive:
raise KeyError
except KeyError:
if result1 != None:
S.schedule(S.loc.tcb, result1, Tasklet.DoesNotExist)
else:
# OK, we got the tasklet, kill'em
if result1 != None:
if S.loc.tcb != tcb:
S.schedule(S.loc.tcb, result1, True)
S.onTaskletTerminated(tcb)
def terminate(self, result1=None):
if self.user == 'SYSTEMYA':
if result1 != None:
S.schedule(S.loc.tcb, result1, Tasklet.AccessDenied)
try:
tcb = S.tcbs[self.tid]
if not tcb.is_alive:
raise KeyError
except KeyError:
if result1 != None:
S.schedule(S.loc.tcb, result1, Tasklet.DoesNotExist)
else:
# OK, we got the tasklet, kill'em
if result1 != None:
if S.loc.tcb != tcb:
S.schedule(S.loc.tcb, result1, True)
S.onTaskletTerminated(tcb)
def send_to(tid, obj: object, result1: callable=None):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[tid]
if not tcb.is_alive:
raise KeyError
tcb_inst = S.tcb_inst[tid]
except KeyError:
if result1 != None:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
if result1 != None:
S.schedule(current_tcb, result1, Tasklet(tcb.tid, tcb.user, tcb.group, tcb.name))
S.schedule(tcb, tcb_inst.on_message, current_tcb.tid, obj)
def send_to(tid, obj: object, result1: callable = None):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[tid]
if not tcb.is_alive:
raise KeyError
tcb_inst = S.tcb_inst[tid]
except KeyError:
if result1 != None:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
if result1 != None:
S.schedule(current_tcb, result1,
Tasklet(tcb.tid, tcb.user, tcb.group, tcb.name))
S.schedule(tcb, tcb_inst.on_message, current_tcb.tid, obj)
def send(self, obj: object, result1: int=None):
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[self.tid]
if not tcb.is_alive:
raise KeyError
tcb_inst = S.tcb_inst[self.tid]
except KeyError:
if result1 != None:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
S.schedule(tcb, tcb_inst.on_message, current_tcb.tid, obj)
if result1 != None:
S.schedule(current_tcb, result1, True)
def send(self, obj: object, result1: int = None):
current_tcb = S.loc.tcb
try:
tcb = S.tcbs[self.tid]
if not tcb.is_alive:
raise KeyError
tcb_inst = S.tcb_inst[self.tid]
except KeyError:
if result1 != None:
S.schedule(current_tcb, result1, Tasklet.DoesNotExist)
else:
S.schedule(tcb, tcb_inst.on_message, current_tcb.tid, obj)
if result1 != None:
S.schedule(current_tcb, result1, True)
def start(taskletCls,
newname='Tasklet',
newgroup=None,
newuser=None,
result1=None,
*args,
**kwargs):
# Temporarily disable TCB, so that calling tasklet's context
# is not used for misled API calls
# essentially bug-prevention
prev_tcb = S.loc.tcb
S.loc.tcb = None
task = taskletCls(*args, **kwargs)
S.loc.tcb = prev_tcb
current_tcb = prev_tcb
if (newuser != None) and (current_tcb.user != 'SYSTEMYA'):
raise Tasklet.AccessDenied('Cannot set user, not SYSTEMYA')
newuser = newuser or current_tcb.user
if (newgroup != None) and (current_tcb.group != 'admin'):
raise Tasklet.AccessDenied('Cannot set group, not admin')
newgroup = newgroup or current_tcb.group
tid = S.getNextTID()
tcb = TaskletControlBlock(tid, newuser, newgroup, newname)
if isinstance(task, GCTasklet):
tcb.is_gc_on = True
S.registerNewTasklet(tcb, task)
S.schedule(tcb, task.on_startup)
if result1 != None:
S.schedule(current_tcb, result1,
Tasklet(tid, newuser, newgroup, newname))
def send_sync_to(tid: int, obj: object, result1: callable):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
S.getSMP(S.loc.tcb.tid).send_sync_to(S.loc.tcb, tid, obj, result1)
def send_sync(self, obj: object, result1: callable):
S.getSMP(S.loc.tcb.tid).send_sync_to(S.loc.tcb, self.tid, obj, result1)
def iter(self):
# Prepare socket listing
with self.sock_meta_lock:
# terminate pending
while self.waiting_terminations.qsize() > 0:
tcb = self.waiting_terminations.get()
for sock in list(self.tid_to_sock[tcb.tid]): # we need a copy of the list
self.socket_closed(sock)
try:
sock.close()
except OSError:
pass
for sock in self.socks:
if sock.is_failed:
self.socket_failed(sock)
return
readables = self.socks
writables = [sock for sock in self.socks if len(sock.writebuf) > 0 or not sock.is_connected]
exceptables = self.socks
if len(readables) == len(writables) == len(exceptables) == 0:
time.sleep(0.01)
return
try:
rx, wx, ex = select(readables, writables, exceptables, 5)
except OSError as e:
# Go thru every socket, check if it's failed
for sock in self.socks:
try:
select((sock, ), (), (), 0)
except OSError:
self.socket_failed(sock)
return
rx, wx, ex = (), (), ()
# Process readables
for r in rx:
fn = r._fileno
data = r.handleRead()
if r.is_closed:
self.socket_closed(r)
elif r.is_failed:
self.socket_failed(r)
else:
h = self.sockhandlers[fn][1]
if h != None:
S.schedule(self.sock_tcbs[fn], h, r, data)
for w in wx:
if not w.is_connected:
w.is_connected = True
fn = w._fileno
h = self.sockhandlers[fn][0]
if h != None:
S.schedule(self.sock_tcbs[fn], h, w)
if len(w.writebuf) > 0:
try:
sl = w.socket.send(w.writebuf)
# Problem! Python may still be holding a writelock
# following line replaced del w.writebuf[:sl]
w.writebuf = w.writebuf[sl:]
except OSError:
w.is_failed = True
if len(w.writebuf) == 0 and w.close_on_all_write:
w.socket.close()
self.socket_closed(w)
for e in ex:
fn = e._fileno
h = self.sockhandlers[fn][4]
if h != None:
S.schedule(self.sock_tcbs[fn], h, e)
kwargs = {}
if len(elem) == 5:
user, group, name, cls, args = elem
kwargs = {}
if len(elem) == 6: user, group, name, cls, args, kwargs = elem
if isinstance(cls, str):
# attempt an import
try:
mod = importlib.import_module('.'.join(
cls.split('.')[:-1]))
cls = getattr(mod, cls.split('.')[-1])
except (ImportError, AttributeError):
print("INIT: Failed to import", cls)
continue
Tasklet.start(cls, name, group, user, None, *args, **kwargs)
print("INIT:", len(self.initlist), "tasklets spawned, exiting")
if __name__ == '__main__':
S.startup()
S.tidIssuer.adjustID(0) # 0th Page on 0th Frame
# manual bootstrap here
init = InitTasklet(initrd)
tcb = TaskletControlBlock(0, 'SYSTEMYA', 'admin', 'init')
S.registerNewTasklet(tcb, init)
S.schedule(tcb, init.on_startup)
print ("INIT: Init v1.0 (part of System y) started")
for elem in self.initlist:
if len(elem) == 4: user, group, name, cls = elem; args = (); kwargs = {}
if len(elem) == 5: user, group, name, cls, args = elem; kwargs = {}
if len(elem) == 6: user, group, name, cls, args, kwargs = elem
if isinstance(cls, str):
# attempt an import
try:
mod = importlib.import_module('.'.join(cls.split('.')[:-1]))
cls = getattr(mod, cls.split('.')[-1])
except (ImportError, AttributeError):
print("INIT: Failed to import", cls)
continue
Tasklet.start(cls, name, group, user, None, *args, **kwargs)
print("INIT:", len(self.initlist), "tasklets spawned, exiting")
if __name__ == '__main__':
S.startup()
S.tidIssuer.adjustID(0) # 0th Page on 0th Frame
# manual bootstrap here
init = InitTasklet(initrd)
tcb = TaskletControlBlock(0, 'SYSTEMYA', 'admin', 'init')
S.registerNewTasklet(tcb, init)
S.schedule(tcb, init.on_startup)
def reply(self, obj: object):
S.getSMP(self.sender).deliver_reply_to(self.target, self.sender, obj, self)
# RIGHT NOW THIS DOES NOT REQUIRE ANY PATCHING
#import yos.ipc
#yos.ipc.SynchronousMessage = SynchronousMessageHandler
def send_sync_to(tid: int, obj: object, result1: callable):
if not S.isLocal(tid):
raise NotImplementedError("Sorry, no IPC yet")
S.getSMP(S.loc.tcb.tid).send_sync_to(S.loc.tcb, tid, obj, result1)
def send_sync(self, obj: object, result1: callable):
S.getSMP(S.loc.tcb.tid).send_sync_to(S.loc.tcb, self.tid, obj, result1)
def register(self, on_readable, on_exception, on_connected, on_closed, on_failure):
S.getNEP(S.loc.tcb).addSock(self, on_connected, on_readable, on_closed, on_failure, on_exception)
def iter(self):
# Prepare socket listing
with self.sock_meta_lock:
# terminate pending
while self.waiting_terminations.qsize() > 0:
tcb = self.waiting_terminations.get()
for sock in list(self.tid_to_sock[
tcb.tid]): # we need a copy of the list
self.socket_closed(sock)
try:
sock.close()
except OSError:
pass
for sock in self.socks:
if sock.is_failed:
self.socket_failed(sock)
return
readables = self.socks
writables = [
sock for sock in self.socks
if len(sock.writebuf) > 0 or not sock.is_connected
]
exceptables = self.socks
if len(readables) == len(writables) == len(exceptables) == 0:
time.sleep(0.01)
return
try:
rx, wx, ex = select(readables, writables, exceptables, 5)
except OSError as e:
# Go thru every socket, check if it's failed
for sock in self.socks:
try:
select((sock, ), (), (), 0)
except OSError:
self.socket_failed(sock)
return
rx, wx, ex = (), (), ()
# Process readables
for r in rx:
fn = r._fileno
data = r.handleRead()
if r.is_closed:
self.socket_closed(r)
elif r.is_failed:
self.socket_failed(r)
else:
h = self.sockhandlers[fn][1]
if h != None:
S.schedule(self.sock_tcbs[fn], h, r, data)
for w in wx:
if not w.is_connected:
w.is_connected = True
fn = w._fileno
h = self.sockhandlers[fn][0]
if h != None:
S.schedule(self.sock_tcbs[fn], h, w)
if len(w.writebuf) > 0:
try:
sl = w.socket.send(w.writebuf)
# Problem! Python may still be holding a writelock
# following line replaced del w.writebuf[:sl]
w.writebuf = w.writebuf[sl:]
except OSError:
w.is_failed = True
if len(w.writebuf) == 0 and w.close_on_all_write:
w.socket.close()
self.socket_closed(w)
for e in ex:
fn = e._fileno
h = self.sockhandlers[fn][4]
if h != None:
S.schedule(self.sock_tcbs[fn], h, e)
def register(self, on_readable, on_exception, on_connected, on_closed, on_failure):
S.getNEP(S.loc.tcb).addSock(self, on_connected, on_readable, on_closed, on_failure, on_exception)
