+class threadpool(handler):
+ def __init__(self, *, min=0, max=20, live=300, **kw):
+ super().__init__(**kw)
+ self.current = set()
+ self.free = set()
+ self.lk = threading.RLock()
+ self.pcond = threading.Condition(self.lk)
+ self.rcond = threading.Condition(self.lk)
+ self.wreq = None
+ self.min = min
+ self.max = max
+ self.live = live
+ for i in range(self.min):
+ self.newthread()
+
+ @classmethod
+ def parseargs(cls, *, min=None, max=None, live=None, **args):
+ ret = super().parseargs(**args)
+ if min:
+ ret["min"] = int(min)
+ if max:
+ ret["max"] = int(max)
+ if live:
+ ret["live"] = int(live)
+ return ret
+
+ def newthread(self):
+ with self.lk:
+ th = reqthread(target=self.loop)
+ th.start()
+ while not th in self.current:
+ self.pcond.wait()
+
+ def _handle(self, req):
+ try:
+ env = req.mkenv()
+ with perf.request(env) as reqevent:
+ respiter = req.handlewsgi(env, req.startreq)
+ for data in respiter:
+ req.write(data)
+ if req.status:
+ reqevent.response([req.status, req.headers])
+ req.flushreq()
+ self.ckflush(req)
+ except closed:
+ pass
+ except:
+ log.error("exception occurred when handling request", exc_info=True)
+ finally:
+ req.close()
+
+ def loop(self):
+ th = threading.current_thread()
+ with self.lk:
+ self.current.add(th)
+ try:
+ while True:
+ with self.lk:
+ self.free.add(th)
+ try:
+ self.pcond.notify_all()
+ now = start = time.time()
+ while self.wreq is None:
+ self.rcond.wait(start + self.live - now)
+ now = time.time()
+ if now - start > self.live:
+ if len(self.current) > self.min:
+ self.current.remove(th)
+ return
+ else:
+ start = now
+ req, self.wreq = self.wreq, None
+ self.pcond.notify_all()
+ finally:
+ self.free.remove(th)
+ self._handle(req)
+ req = None
+ finally:
+ with self.lk:
+ try:
+ self.current.remove(th)
+ except KeyError:
+ pass
+ self.pcond.notify_all()
+
+ def handle(self, req):
+ while True:
+ with self.lk:
+ if len(self.free) < 1 and len(self.current) < self.max:
+ self.newthread()
+ while self.wreq is not None:
+ self.pcond.wait()
+ if self.wreq is None:
+ self.wreq = req
+ self.rcond.notify(1)
+ return
+
+ def close(self):
+ self.live = 0
+ self.min = 0
+ with self.lk:
+ while len(self.current) > 0:
+ self.rcond.notify_all()
+ self.pcond.wait(1)
+
+class resplex(handler):
+ def __init__(self, **kw):
+ super().__init__(**kw)
+ self.current = set()
+ self.lk = threading.Lock()
+ self.cqueue = queue.Queue(5)
+ self.cnpipe = os.pipe()
+ self.rthread = reqthread(name="Response thread", target=self.handle2)
+ self.rthread.start()
+
+ def ckflush(self, req):
+ raise Exception("resplex handler does not support the write() function")
+
+ def handle(self, req):
+ reqthread(target=self.handle1, args=[req]).start()
+
+ def handle1(self, req):
+ try:
+ th = threading.current_thread()
+ with self.lk:
+ self.current.add(th)
+ try:
+ env = req.mkenv()
+ respobj = req.handlewsgi(env, req.startreq)
+ respiter = iter(respobj)
+ if not req.status:
+ log.error("request handler returned without calling start_request")
+ if hasattr(respiter, "close"):
+ respiter.close()
+ return
+ else:
+ self.cqueue.put((req, respiter))
+ os.write(self.cnpipe[1], b" ")
+ req = None
+ finally:
+ self.current.remove(th)
+ except closed:
+ pass
+ except:
+ log.error("exception occurred when handling request", exc_info=True)
+ finally:
+ if req is not None:
+ req.close()
+
+ def handle2(self):
+ try:
+ rp = self.cnpipe[0]
+ current = {}
+
+ def closereq(req):
+ respiter = current[req]
+ try:
+ if respiter is not None and hasattr(respiter, "close"):
+ respiter.close()
+ except:
+ log.error("exception occurred when closing iterator", exc_info=True)
+ try:
+ req.close()
+ except:
+ log.error("exception occurred when closing request", exc_info=True)
+ del current[req]
+ def ckiter(req):
+ respiter = current[req]
+ if respiter is not None:
+ rem = False
+ try:
+ data = next(respiter)
+ except StopIteration:
+ rem = True
+ req.flushreq()
+ except:
+ rem = True
+ log.error("exception occurred when iterating response", exc_info=True)
+ if not rem:
+ if data:
+ req.flushreq()
+ req.writedata(data)
+ else:
+ current[req] = None
+ try:
+ if hasattr(respiter, "close"):
+ respiter.close()
+ except:
+ log.error("exception occurred when closing iterator", exc_info=True)
+ respiter = None
+ if respiter is None and not req.buffer:
+ closereq(req)
+
+ while True:
+ bufl = list(req for req in current.keys() if req.buffer)
+ rls, wls, els = select.select([rp], bufl, [rp] + bufl)
+ if rp in rls:
+ ret = os.read(rp, 1024)
+ if not ret:
+ os.close(rp)
+ return
+ try:
+ while True:
+ req, respiter = self.cqueue.get(False)
+ current[req] = respiter
+ ckiter(req)
+ except queue.Empty:
+ pass
+ for req in wls:
+ try:
+ req.flush()
+ except closed:
+ closereq(req)
+ except:
+ log.error("exception occurred when writing response", exc_info=True)
+ closereq(req)
+ else:
+ if len(req.buffer) < 65536:
+ ckiter(req)
+ except:
+ log.critical("unexpected exception occurred in response handler thread", exc_info=True)
+ os.abort()
+
+ def close(self):
+ while True:
+ with self.lk:
+ if len(self.current) > 0:
+ th = next(iter(self.current))
+ else:
+ break
+ th.join()
+ os.close(self.cnpipe[1])
+ self.rthread.join()
+
+names = {"single": single,
+ "free": freethread,
+ "pool": threadpool,
+ "rplex": resplex}
+
+def parsehspec(spec):
+ if ":" not in spec:
+ return spec, {}
+ nm, spec = spec.split(":", 1)
+ args = {}
+ while spec:
+ if "," in spec:
+ part, spec = spec.split(",", 1)
+ else:
+ part, spec = spec, None
+ if "=" in part:
+ key, val = part.split("=", 1)
+ else:
+ key, val = part, ""
+ args[key] = val
+ return nm, args