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#
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
#
from six.moves import queue
import logging
import os
import threading
from thrift.protocol import TBinaryProtocol
from thrift.protocol.THeaderProtocol import THeaderProtocolFactory
from thrift.transport import TTransport
logger = logging.getLogger(__name__)
class TServer(object):
"""Base interface for a server, which must have a serve() method.
Three constructors for all servers:
1) (processor, serverTransport)
2) (processor, serverTransport, transportFactory, protocolFactory)
3) (processor, serverTransport,
inputTransportFactory, outputTransportFactory,
inputProtocolFactory, outputProtocolFactory)
"""
def __init__(self, *args):
if (len(args) == 2):
self.__initArgs__(args[0], args[1],
TTransport.TTransportFactoryBase(),
TTransport.TTransportFactoryBase(),
TBinaryProtocol.TBinaryProtocolFactory(),
TBinaryProtocol.TBinaryProtocolFactory())
elif (len(args) == 4):
self.__initArgs__(args[0], args[1], args[2], args[2], args[3], args[3])
elif (len(args) == 6):
self.__initArgs__(args[0], args[1], args[2], args[3], args[4], args[5])
def __initArgs__(self, processor, serverTransport,
inputTransportFactory, outputTransportFactory,
inputProtocolFactory, outputProtocolFactory):
self.processor = processor
self.serverTransport = serverTransport
self.inputTransportFactory = inputTransportFactory
self.outputTransportFactory = outputTransportFactory
self.inputProtocolFactory = inputProtocolFactory
self.outputProtocolFactory = outputProtocolFactory
input_is_header = isinstance(self.inputProtocolFactory, THeaderProtocolFactory)
output_is_header = isinstance(self.outputProtocolFactory, THeaderProtocolFactory)
if any((input_is_header, output_is_header)) and input_is_header != output_is_header:
raise ValueError("THeaderProtocol servers require that both the input and "
"output protocols are THeaderProtocol.")
def serve(self):
pass
class TSimpleServer(TServer):
"""Simple single-threaded server that just pumps around one transport."""
def __init__(self, *args):
TServer.__init__(self, *args)
def serve(self):
self.serverTransport.listen()
while True:
client = self.serverTransport.accept()
if not client:
continue
itrans = self.inputTransportFactory.getTransport(client)
iprot = self.inputProtocolFactory.getProtocol(itrans)
# for THeaderProtocol, we must use the same protocol instance for
# input and output so that the response is in the same dialect that
# the server detected the request was in.
if isinstance(self.inputProtocolFactory, THeaderProtocolFactory):
otrans = None
oprot = iprot
else:
otrans = self.outputTransportFactory.getTransport(client)
oprot = self.outputProtocolFactory.getProtocol(otrans)
try:
while True:
self.processor.process(iprot, oprot)
except TTransport.TTransportException:
pass
except Exception as x:
logger.exception(x)
itrans.close()
if otrans:
otrans.close()
class TThreadedServer(TServer):
"""Threaded server that spawns a new thread per each connection."""
def __init__(self, *args, **kwargs):
TServer.__init__(self, *args)
self.daemon = kwargs.get("daemon", False)
def serve(self):
self.serverTransport.listen()
while True:
try:
client = self.serverTransport.accept()
if not client:
continue
t = threading.Thread(target=self.handle, args=(client,))
t.daemon = self.daemon
t.start()
except KeyboardInterrupt:
raise
except Exception as x:
logger.exception(x)
def handle(self, client):
itrans = self.inputTransportFactory.getTransport(client)
iprot = self.inputProtocolFactory.getProtocol(itrans)
# for THeaderProtocol, we must use the same protocol instance for input
# and output so that the response is in the same dialect that the
# server detected the request was in.
if isinstance(self.inputProtocolFactory, THeaderProtocolFactory):
otrans = None
oprot = iprot
else:
otrans = self.outputTransportFactory.getTransport(client)
oprot = self.outputProtocolFactory.getProtocol(otrans)
try:
while True:
self.processor.process(iprot, oprot)
except TTransport.TTransportException:
pass
except Exception as x:
logger.exception(x)
itrans.close()
if otrans:
otrans.close()
class TThreadPoolServer(TServer):
"""Server with a fixed size pool of threads which service requests."""
def __init__(self, *args, **kwargs):
TServer.__init__(self, *args)
self.clients = queue.Queue()
self.threads = 10
self.daemon = kwargs.get("daemon", False)
def setNumThreads(self, num):
"""Set the number of worker threads that should be created"""
self.threads = num
def serveThread(self):
"""Loop around getting clients from the shared queue and process them."""
while True:
try:
client = self.clients.get()
self.serveClient(client)
except Exception as x:
logger.exception(x)
def serveClient(self, client):
"""Process input/output from a client for as long as possible"""
itrans = self.inputTransportFactory.getTransport(client)
iprot = self.inputProtocolFactory.getProtocol(itrans)
# for THeaderProtocol, we must use the same protocol instance for input
# and output so that the response is in the same dialect that the
# server detected the request was in.
if isinstance(self.inputProtocolFactory, THeaderProtocolFactory):
otrans = None
oprot = iprot
else:
otrans = self.outputTransportFactory.getTransport(client)
oprot = self.outputProtocolFactory.getProtocol(otrans)
try:
while True:
self.processor.process(iprot, oprot)
except TTransport.TTransportException:
pass
except Exception as x:
logger.exception(x)
itrans.close()
if otrans:
otrans.close()
def serve(self):
"""Start a fixed number of worker threads and put client into a queue"""
for i in range(self.threads):
try:
t = threading.Thread(target=self.serveThread)
t.daemon = self.daemon
t.start()
except Exception as x:
logger.exception(x)
# Pump the socket for clients
self.serverTransport.listen()
while True:
try:
client = self.serverTransport.accept()
if not client:
continue
self.clients.put(client)
except Exception as x:
logger.exception(x)
class TForkingServer(TServer):
"""A Thrift server that forks a new process for each request
This is more scalable than the threaded server as it does not cause
GIL contention.
Note that this has different semantics from the threading server.
Specifically, updates to shared variables will no longer be shared.
It will also not work on windows.
This code is heavily inspired by SocketServer.ForkingMixIn in the
Python stdlib.
"""
def __init__(self, *args):
TServer.__init__(self, *args)
self.children = []
def serve(self):
def try_close(file):
try:
file.close()
except IOError as e:
logger.warning(e, exc_info=True)
self.serverTransport.listen()
while True:
client = self.serverTransport.accept()
if not client:
continue
try:
pid = os.fork()
if pid: # parent
# add before collect, otherwise you race w/ waitpid
self.children.append(pid)
self.collect_children()
# Parent must close socket or the connection may not get
# closed promptly
itrans = self.inputTransportFactory.getTransport(client)
otrans = self.outputTransportFactory.getTransport(client)
try_close(itrans)
try_close(otrans)
else:
itrans = self.inputTransportFactory.getTransport(client)
iprot = self.inputProtocolFactory.getProtocol(itrans)
# for THeaderProtocol, we must use the same protocol
# instance for input and output so that the response is in
# the same dialect that the server detected the request was
# in.
if isinstance(self.inputProtocolFactory, THeaderProtocolFactory):
otrans = None
oprot = iprot
else:
otrans = self.outputTransportFactory.getTransport(client)
oprot = self.outputProtocolFactory.getProtocol(otrans)
ecode = 0
try:
try:
while True:
self.processor.process(iprot, oprot)
except TTransport.TTransportException:
pass
except Exception as e:
logger.exception(e)
ecode = 1
finally:
try_close(itrans)
if otrans:
try_close(otrans)
os._exit(ecode)
except TTransport.TTransportException:
pass
except Exception as x:
logger.exception(x)
def collect_children(self):
while self.children:
try:
pid, status = os.waitpid(0, os.WNOHANG)
except os.error:
pid = None
if pid:
self.children.remove(pid)
else:
break
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