#!/usr/bin/env python3 """Simple multiprocess http server written using an event loop.""" import argparse import os import socket import signal import time import asyncio import aiohttp import aiohttp.server from aiohttp import websocket ARGS = argparse.ArgumentParser(description="Run simple http server.") ARGS.add_argument( '--host', action="store", dest='host', default='127.0.0.1', help='Host name') ARGS.add_argument( '--port', action="store", dest='port', default=8080, type=int, help='Port number') ARGS.add_argument( '--workers', action="store", dest='workers', default=2, type=int, help='Number of workers.') class HttpRequestHandler(aiohttp.server.ServerHttpProtocol): @asyncio.coroutine def handle_request(self, message, payload): print('{}: method = {!r}; path = {!r}; version = {!r}'.format( os.getpid(), message.method, message.path, message.version)) path = message.path if (not (path.isprintable() and path.startswith('/')) or '/.' in path): path = None else: path = '.' + path if not os.path.exists(path): path = None else: isdir = os.path.isdir(path) if not path: raise aiohttp.HttpProcessingError(code=404) if isdir and not path.endswith('/'): path = path + '/' raise aiohttp.HttpProcessingError( code=302, headers=(('URI', path), ('Location', path))) response = aiohttp.Response( self.writer, 200, http_version=message.version) response.add_header('Transfer-Encoding', 'chunked') # content encoding accept_encoding = message.headers.get('accept-encoding', '').lower() if 'deflate' in accept_encoding: response.add_header('Content-Encoding', 'deflate') response.add_compression_filter('deflate') elif 'gzip' in accept_encoding: response.add_header('Content-Encoding', 'gzip') response.add_compression_filter('gzip') response.add_chunking_filter(1025) if isdir: response.add_header('Content-type', 'text/html') response.send_headers() response.write(b'

' + bname + b'/
' + bname + b'

') else: response.add_header('Content-type', 'text/plain') response.send_headers() try: with open(path, 'rb') as fp: chunk = fp.read(8192) while chunk: response.write(chunk) chunk = fp.read(8192) except OSError: response.write(b'Cannot open') yield from response.write_eof() if response.keep_alive(): self.keep_alive(True) class ChildProcess: def __init__(self, up_read, down_write, args, sock): self.up_read = up_read self.down_write = down_write self.args = args self.sock = sock def start(self): # start server self.loop = loop = asyncio.new_event_loop() asyncio.set_event_loop(loop) def stop(): self.loop.stop() os._exit(0) loop.add_signal_handler(signal.SIGINT, stop) f = loop.create_server( lambda: HttpRequestHandler(debug=True, keep_alive=75), sock=self.sock) srv = loop.run_until_complete(f) x = srv.sockets[0] print('Starting srv worker process {} on {}'.format( os.getpid(), x.getsockname())) # heartbeat asyncio.async(self.heartbeat()) asyncio.get_event_loop().run_forever() os._exit(0) @asyncio.coroutine def heartbeat(self): # setup pipes read_transport, read_proto = yield from self.loop.connect_read_pipe( aiohttp.StreamProtocol, os.fdopen(self.up_read, 'rb')) write_transport, _ = yield from self.loop.connect_write_pipe( aiohttp.StreamProtocol, os.fdopen(self.down_write, 'wb')) reader = read_proto.reader.set_parser(websocket.WebSocketParser) writer = websocket.WebSocketWriter(write_transport) while True: try: msg = yield from reader.read() except: print('Supervisor is dead, {} stopping...'.format(os.getpid())) self.loop.stop() break if msg.tp == websocket.MSG_PING: writer.pong() elif msg.tp == websocket.MSG_CLOSE: break read_transport.close() write_transport.close() class Worker: _started = False def __init__(self, loop, args, sock): self.loop = loop self.args = args self.sock = sock self.start() def start(self): assert not self._started self._started = True up_read, up_write = os.pipe() down_read, down_write = os.pipe() args, sock = self.args, self.sock pid = os.fork() if pid: # parent os.close(up_read) os.close(down_write) asyncio.async(self.connect(pid, up_write, down_read)) else: # child os.close(up_write) os.close(down_read) # cleanup after fork asyncio.set_event_loop(None) # setup process process = ChildProcess(up_read, down_write, args, sock) process.start() @asyncio.coroutine def heartbeat(self, writer): while True: yield from asyncio.sleep(15) if (time.monotonic() - self.ping) < 30: writer.ping() else: print('Restart unresponsive worker process: {}'.format( self.pid)) self.kill() self.start() return @asyncio.coroutine def chat(self, reader): while True: try: msg = yield from reader.read() except: print('Restart unresponsive worker process: {}'.format( self.pid)) self.kill() self.start() return if msg.tp == websocket.MSG_PONG: self.ping = time.monotonic() @asyncio.coroutine def connect(self, pid, up_write, down_read): # setup pipes read_transport, proto = yield from self.loop.connect_read_pipe( aiohttp.StreamProtocol, os.fdopen(down_read, 'rb')) write_transport, _ = yield from self.loop.connect_write_pipe( aiohttp.StreamProtocol, os.fdopen(up_write, 'wb')) # websocket protocol reader = proto.reader.set_parser(websocket.WebSocketParser) writer = websocket.WebSocketWriter(write_transport) # store info self.pid = pid self.ping = time.monotonic() self.rtransport = read_transport self.wtransport = write_transport self.chat_task = asyncio.Task(self.chat(reader)) self.heartbeat_task = asyncio.Task(self.heartbeat(writer)) def kill(self): self._started = False self.chat_task.cancel() self.heartbeat_task.cancel() self.rtransport.close() self.wtransport.close() os.kill(self.pid, signal.SIGTERM) class Supervisor: def __init__(self, args): self.loop = asyncio.get_event_loop() self.args = args self.workers = [] def start(self): # bind socket sock = self.sock = socket.socket() sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.bind((self.args.host, self.args.port)) sock.listen(1024) sock.setblocking(False) # start processes for idx in range(self.args.workers): self.workers.append(Worker(self.loop, self.args, sock)) self.loop.add_signal_handler(signal.SIGINT, lambda: self.loop.stop()) self.loop.run_forever() def main(): if getattr(os, "fork", None) is None: print("os.fork isn't supported by your OS") return args = ARGS.parse_args() if ':' in args.host: args.host, port = args.host.split(':', 1) args.port = int(port) supervisor = Supervisor(args) supervisor.start() if __name__ == '__main__': main()