def get(self): info_hash = global_info_hash peer_id = "XXX" ip = self.get_argument('remote_ip') port = self.get_argument('remote_port') if not ip or not port: self.write("FFF") return # store the peer info print "[+] storing FAKE peer %s:%s" % (ip, port) utils.store_peer_info(info_hash, peer_id, ip, port, 1) self.set_header('content-type', 'text/plain') self.write("OK")
def get(self): global global_info_hash failure_reason = '' warning_message = '' # get all the required parameters from the HTTP request. info_hash = self.get_argument('info_hash') if info_hash: global_info_hash = info_hash peer_id = self.get_argument('peer_id') try: ip = self.get_argument('remote_ip') except: ip = self.request.remote_ip if not ip: ip = self.request.remote_ip port = self.get_argument('port') # send appropirate error code. if not info_hash: return self.send_error(utils.MISSING_INFO_HASH) if not peer_id: return self.send_error(utils.MISSING_PEER_ID) if not port: return self.send_error(utils.MISSING_PORT) # if len(info_hash) != utils.INFO_HASH_LEN: # return self.send_error(utils.INVALID_INFO_HASH) # if len(peer_id) != utils.PEER_ID_LEN: # return self.send_error(utils.INVALID_PEER_ID) # get the optional parameters. # uploaded = int(self.get_argument('uploaded', 0)) # downloaded = int(self.get_argument('downloaded', 0)) # left = int(self.get_argument('left', 0)) compact = int(self.get_argument('compact', 0)) # no_peer_id = int(self.get_argument('no_peer_id', 0)) event = self.get_argument('event', '') numwant = int(self.get_argument('numwant', utils.DEFAULT_ALLOWED_PEERS)) if numwant > utils.MAX_ALLOWED_PEERS: # cannot request more than MAX_ALLOWED_PEERS. self.send_error(utils.INVALID_NUMWANT) # FIXME: What to do with these parameters? # key = self.get_argument('key', '') tracker_id = self.get_argument('trackerid', '') # store the peer info if event: print "[+] storing peer %s" % ip utils.store_peer_info(info_hash, peer_id, ip, port, event) # generate response response = {} # Interval in seconds that the client should wait between sending # regular requests to the tracker. response['interval'] = utils.get_config().getint('tracker', 'interval') # Minimum announce interval. If present clients must not re-announce # more frequently than this. response['min interval'] = utils.get_config().getint('tracker', 'min_interval') # FIXME response['tracker id'] = tracker_id response['complete'] = utils.no_of_seeders(info_hash) response['incomplete'] = utils.no_of_leechers(info_hash) # get the peer list for this announce response['peers'] = utils.get_peer_list(info_hash, numwant, compact, True) # set error and warning messages for the client if any. if failure_reason: response['failure reason'] = failure_reason if warning_message: response['warning message'] = warning_message # send the bencoded response as text/plain document. self.set_header('content-type', 'text/plain') print "<<<", response self.write(bencode(response))
def get(self): global global_info_hash failure_reason = '' warning_message = '' # get all the required parameters from the HTTP request. info_hash = self.get_argument('info_hash') if info_hash: global_info_hash = info_hash peer_id = self.get_argument('peer_id') try: ip = self.get_argument('remote_ip') except: ip = self.request.remote_ip if not ip: ip = self.request.remote_ip port = self.get_argument('port') # send appropirate error code. if not info_hash: return self.send_error(utils.MISSING_INFO_HASH) if not peer_id: return self.send_error(utils.MISSING_PEER_ID) if not port: return self.send_error(utils.MISSING_PORT) # if len(info_hash) != utils.INFO_HASH_LEN: # return self.send_error(utils.INVALID_INFO_HASH) # if len(peer_id) != utils.PEER_ID_LEN: # return self.send_error(utils.INVALID_PEER_ID) # get the optional parameters. # uploaded = int(self.get_argument('uploaded', 0)) # downloaded = int(self.get_argument('downloaded', 0)) # left = int(self.get_argument('left', 0)) compact = int(self.get_argument('compact', 0)) # no_peer_id = int(self.get_argument('no_peer_id', 0)) event = self.get_argument('event', '') numwant = int(self.get_argument('numwant', utils.DEFAULT_ALLOWED_PEERS)) if numwant > utils.MAX_ALLOWED_PEERS: # cannot request more than MAX_ALLOWED_PEERS. self.send_error(utils.INVALID_NUMWANT) # FIXME: What to do with these parameters? # key = self.get_argument('key', '') tracker_id = self.get_argument('trackerid', '') # store the peer info if event: print "[+] storing peer %s" % ip utils.store_peer_info(info_hash, peer_id, ip, port, event) # generate response response = {} # Interval in seconds that the client should wait between sending # regular requests to the tracker. response['interval'] = utils.get_config().getint('tracker', 'interval') # Minimum announce interval. If present clients must not re-announce # more frequently than this. response['min interval'] = utils.get_config().getint( 'tracker', 'min_interval') # FIXME response['tracker id'] = tracker_id response['complete'] = utils.no_of_seeders(info_hash) response['incomplete'] = utils.no_of_leechers(info_hash) # get the peer list for this announce response['peers'] = utils.get_peer_list(info_hash, numwant, compact, True) # set error and warning messages for the client if any. if failure_reason: response['failure reason'] = failure_reason if warning_message: response['warning message'] = warning_message # send the bencoded response as text/plain document. self.set_header('content-type', 'text/plain') print "<<<", response self.write(bencode(response))