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#!/usr/bin/python -t
import os, sys, string, time
import asynchat, asyncore, socket, httplib, urlparse
from heapq import heappush, heappop
try:
import cStringIO as StringIO
except ImportError:
import StringIO
ENDPOINTS = [
('10.2.2.11', 8888),
('10.3.1.2', 8888),
# ('10.1.1.156', 8888),
]
kB = 1024
#minimum entity size to start a paralel fetch
THRESHOLD = 512 * kB
#first fetch-range blocksize
INIT_BLOCKSIZE = 512 * kB
#lower bound of fetch-range blocksize optimization
MIN_BLOCKSIZE = 512 * kB
#time each fetcher spent on his range, calculated using
#speed measured while using INIT_BLOCKSIZE
TIME_SLICE = 5
#start a new fetcher on a endpoint X-bytes before the
#old one finished
FETCHER_JUMPSTART = 32 * kB
#################
class Fetcher(asynchat.async_chat):
def __init__(self, reader, proxy, url, headers, range):
self.reader = reader
self.proxy = proxy
self.url = url
self.headers = headers
self.range = range
self.pos = self.range[0]
self.start_time = 0
self.stop_time = 0
self.http_status = ""
self.http_header = ""
self.state = 0 #0=status, 1=header, 2=body
asynchat.async_chat.__init__(self)
self.set_terminator("\r\n")
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.connect(self.proxy)
def handle_connect (self):
print self, "Start"
self.send("GET http://%s:%s%s HTTP/1.0\r\n" % ( self.url.hostname, self.url.port or 80, self.url.path ))
for key in filter(lambda k: k not in ("range"), self.headers.keys()): #send origin request headers
self.send("%s: %s\r\n" % (key, self.headers[key]))
self.send("Range: bytes=%s-%s\r\n" % (self.range[0], self.range[1]))
self.send("\r\n")
self.start_time = time.time()
def time(self):
if self.stop_time == 0:
return time.time() - self.start_time
else:
return self.stop_time - self.start_time
def speed(self):
return (self.pos - self.range[0]) / self.time()
def collect_incoming_data(self, data):
if self.state==2: #body
self.reader.handle_incoming_data(self, data)
self.pos += len(data)
if self.pos >= self.range[1]:
self.stop_time = time.time()
print self, "finished"
#make sure the next fetcher will be started
self.reader.handle_incoming_data(self)
self.close()
elif self.state ==1: #header
self.http_header += data
else: #status
self.http_status += data
def found_terminator(self):
if self.state == 0: #got status-line
self.state = 1
self.set_terminator("\r\n\r\n")
elif self.state == 1: #got headers
self.state = 2
self.set_terminator(None)
self.reader.handle_incoming_http_header(self.http_header)
def __str__(self):
return "<Fetcher proxy=%s url=%s range=%s" % (self.proxy, urlparse.urlunparse(self.url), self.range)
class MultipleProxyReader(object):
def __init__(self, channel, url, header, content_length):
self.channel = channel
self.url = url
self.header = header
self.content_length = content_length
self.header_sent = False
self.fetch_pos = 0
self.write_pos = 0
self.buffer = ""
self.blocks = list()
self.fetchers = list()
for proxy in ENDPOINTS:
self.fetchers.append( Fetcher(self, proxy, self.url, self.header, self.next_range(INIT_BLOCKSIZE)) )
def handle_incoming_data(self, fetcher, data=None):
if not data:
self.fetchers = filter(lambda f: f != fetcher, self.fetchers)
else:
heappush(self.blocks, (fetcher.pos, data))
if fetcher.range[1] - fetcher.pos < FETCHER_JUMPSTART \
and self.fetch_pos + 1 < self.content_length and not self.channel.is_closed \
and len( filter( (lambda f: f.proxy == fetcher.proxy), self.fetchers) ) < 2:
#Start a new fetcher on this line if this fetchers is X-Bytes before finishing his jobs
blocksize = min(int(TIME_SLICE * fetcher.speed()), MIN_BLOCKSIZE)
fetch_range = self.next_range(blocksize)
print "Start new Fetcher, bs=%s range=%s" % (blocksize,fetch_range)
self.fetchers.append( Fetcher(self, fetcher.proxy, self.url, self.header, fetch_range) )
while self.send_next_data():
pass
def next_range(self, suggested_blocksize):
start = self.fetch_pos
self.fetch_pos = min(self.fetch_pos + suggested_blocksize, self.content_length)
return (start, self.fetch_pos-1)
def handle_incoming_http_header(self, header):
if self.header_sent:
pass
else:
self.header_sent = True
self.channel.push("HTTP/1.0 200 OK\r\n")
# Sends header from first response
headers = httplib.HTTPMessage(StringIO.StringIO(header))
for key in filter(lambda k: k not in ("content-range", "content-length"), headers.dict.keys()):
self.channel.push("%s: %s\r\n" % (key, headers.dict[key]))
self.channel.push("Content-Length: %s" % self.content_length)
self.channel.push("X-Proxy: Magicproxy (superpower activated)\r\n")
self.channel.push("\r\n")
def send_next_data(self):
if self.channel.is_closed:
print self, "request side closed the connection"
self.channel.close_when_done()
#XXX terminate all running fetcher
return False
#print self, "expect data at %s in" % self.write_pos, self.blocks.keys()
if len(self.blocks)>0 and min(self.blocks)[0] == self.write_pos:
item = heappop(self.blocks)
self.channel.push(item[1])
self.write_pos += len(item[1])
return True
if self.write_pos + 1 >= self.content_length:
print self, "job done %s blocks left" % len(self.blocks)
#XXX prevent next calls to send_next_data
self.channel.close_when_done()
return False
def __str__(self):
return "<MultipleProxyReader url=%s content_length=%s>" % (urlparse.urlunparse(self.url), self.content_length)
class HTTPChannel(asynchat.async_chat):
def __init__(self, server, sock, addr):
self.server = server
self.data = StringIO.StringIO()
self.is_closed = False
self.request = None
asynchat.async_chat.__init__(self, sock)
self.set_terminator("\r\n\r\n")
def handle_close(self):
self.is_closed = True
def collect_incoming_data(self, data):
self.data.write(data)
if self.data.tell() > 16384:
self.close_when_done()
def found_terminator(self):
if not self.request:
# parse http header
self.data.seek(0)
self.request = string.split(self.data.readline(), None, 2)
if len(self.request) != 3:
# badly formed request; just shut down
self.close_when_done()
else:
headers = httplib.HTTPMessage(self.data).dict
self.server.handle_request(self, self.request[0], self.request[1], headers)
else:
pass # ignore body data, for now
class HTTPProxyServer(asyncore.dispatcher):
def __init__(self):
self.port = 8080
asyncore.dispatcher.__init__(self)
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.set_reuse_addr()
self.bind(("", 8080))
self.listen(5)
def shutdown(self):
#TODO Hier Proxy sauber beenden
#self.channel.close_when_done()
sys.exit()
def handle_accept(self):
conn, addr = self.accept()
HTTPChannel(self, conn, addr)
def handle_request(self, channel, method, path, headers):
url = urlparse.urlparse(path)
if method != "GET" or url.query != "":
#do not handle non-GET or GET with Query (?foo=bla) requests
return self._bypass_request(channel, method, url, headers)
#check for content-length header with a HEAD request
conn = httplib.HTTPConnection(url.hostname, url.port or 80)
conn.request("HEAD", url.path)
resp = conn.getresponse()
content_length = filter(lambda it: it[0] == "content-length", resp.getheaders())
if len( content_length ) == 0:
# no content length given, bypass this request
print "missing content-length, bypass"
self._bypass_request(channel, "GET", url, headers)
else:
content_length = int(content_length[0][1])
if content_length < THRESHOLD:
self._bypass_request(channel, "GET", url, headers)
else:
MultipleProxyReader(channel, url, headers, content_length)
def _bypass_request(self, channel, method, url, headers):
print "_bypass request: %s %s" % (method, urlparse.urlunparse(url))
#XXX hier sollte nicht proxy gespielt werden sondern
#die daten 1-zu-1 durchgereicht werden.
#Weiterhin sollte sichergestellt werden, dass die requests
#zu Host X1 immer ueber Proxy Y1 geroutet werden
# etwa proxy=proxies[ stuff(hostname) % len(proxies) ]
conn = httplib.HTTPConnection(url.hostname, url.port or 80)
conn.request(method, url.path, body="", headers=headers)
resp = conn.getresponse()
channel.push("HTTP/1.0 200 OK\r\nX-Proxy: Magicproxy (superpower disabled)\r\n")
channel.push( "\r\n".join(map(lambda k: "%s: %s" % (k[0],k[1]), resp.getheaders())) )
channel.push("\r\n\r\n")
channel.push(resp.read())
channel.close_when_done()
if __name__ == "__main__":
proxy = HTTPProxyServer()
asyncore.loop()
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