import time
import Queue as queue
-class Processor(threading.Thread):
+from processor import Session, Dispatcher, Shared
- def __init__(self):
- self.shared = None
- self.lock = threading.Lock()
- self.sessions = []
- threading.Thread.__init__(self)
- self.daemon = True
-
- def add_session(self, session):
- with self.lock:
- self.sessions.append(session)
-
- def run(self):
- if self.shared is None:
- raise TypeError("self.shared not set in Processor")
- while not self.shared.stopped():
- # Deep copy entire sessions list and blank it
- # This is done to minimise lock contention
- with self.lock:
- sessions = self.sessions[:]
- self.sessions = []
- for session in sessions:
- if not session.stopped():
- # If session is still alive then re-add it back
- # to our internal register
- self.add_session(session)
- self.process(session)
-
- def process(self, session):
- request = session.pop_request()
- print "New request", request
- # Execute and when ready, you call
- # session.push_response(response)
-
-class Session:
+class TcpSession(Session):
def __init__(self, connection, address):
self._connection = connection
self.address = address
- self._stopped = False
- self.lock = threading.Lock()
-
- self.request_queue = queue.Queue()
- self.response_queue = queue.Queue()
-
- def stop(self):
- self._connection.close()
- print "Terminating connection:", self.address[0]
- with self.lock:
- self._stopped = True
-
- def stopped(self):
- with self.lock:
- return self._stopped
+ Session.__init__(self)
def connection(self):
if self.stopped():
else:
return self._connection
- def push_request(self, item):
- self.request_queue.put(item)
-
- def pop_request(self):
- return self.request_queue.get()
-
- def push_response(self):
- self.response_queue.put(item)
-
- def pop_response(self):
- return self.response_queue.get()
+ def stop(self):
+ self._connection.close()
+ print "Terminating connection:", self.address[0]
+ with self.lock:
+ self._stopped = True
-class TcpClientResponder(threading.Thread):
+ def send_response(self, response):
+ raw_response = json.dumps(response)
+ # Possible race condition here by having session
+ # close connection?
+ # I assume Python connections are thread safe interfaces
+ try:
+ connection = self.connection()
+ connection.send(raw_response + "\n")
+ except:
+ self.stop()
- def __init__(self, shared, session):
- self.shared = shared
- self.session = session
- threading.Thread.__init__(self)
- def run(self):
- while not self.shared.stopped() or self.session.stopped():
- response = self.session.pop_response()
- raw_response = json.dumps(response)
- # Possible race condition here by having session
- # close connection?
- # I assume Python connections are thread safe interfaces
- connection = self.session.connection()
- try:
- connection.send(raw_response + "\n")
- except:
- self.session.stop()
class TcpClientRequestor(threading.Thread):
- def __init__(self, shared, session):
+ def __init__(self, shared, processor, session):
self.shared = shared
+ self.processor = processor
self.message = ""
self.session = session
threading.Thread.__init__(self)
def run(self):
while not self.shared.stopped():
if not self.update():
- self.session.stop()
- return
+ break
+
+ while self.parse():
+ pass
def update(self):
data = self.receive()
- if data is None:
+ if not data:
# close_session
- self.stop()
+ self.session.stop()
return False
self.message += data
- if not self.parse():
- return False
return True
def receive(self):
try:
return self.session.connection().recv(1024)
- except socket.error:
- return None
+ except:
+ return ''
def parse(self):
- while True:
- raw_buffer = self.message.find('\n')
- if raw_buffer == -1:
- return True
-
- command = self.message[0:raw_buffer].strip()
- self.message = self.message[raw_buffer + 1:]
- if command == 'quit':
- return False
-
- try:
- command = json.loads(command)
- except:
- print "json error", repr(command)
- continue
-
- try:
- # Try to load vital fields, and return an error if
- # unsuccessful.
- message_id = command['id']
- method = command['method']
- except KeyError:
- # This should return an error JSON in response.
- print "syntax error", repr(command), self.session.address[0]
- else:
- self.session.push_request(command)
+ raw_buffer = self.message.find('\n')
+ if raw_buffer == -1:
+ return False
+
+ raw_command = self.message[0:raw_buffer].strip()
+ self.message = self.message[raw_buffer + 1:]
+ if raw_command == 'quit':
+ self.session.stop()
+ return False
+
+ try:
+ command = json.loads(raw_command)
+ except:
+ self.processor.push_response({"error": "bad JSON", "request": raw_command})
+ return True
+
+ try:
+ # Try to load vital fields, and return an error if
+ # unsuccessful.
+ message_id = command['id']
+ method = command['method']
+ except KeyError:
+ # Return an error JSON in response.
+ self.processor.push_response({"error": "syntax error", "request": raw_command})
+ else:
+ self.processor.push_request(self.session,command)
+
+ return True
class TcpServer(threading.Thread):
- def __init__(self, shared, processor):
+ def __init__(self, shared, processor, host, port):
self.shared = shared
self.processor = processor
- self.clients = []
threading.Thread.__init__(self)
self.daemon = True
+ self.host = host
+ self.port = port
+ self.lock = threading.Lock()
def run(self):
print "TCP server started."
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- sock.bind(("localhost", 50001))
+ sock.bind((self.host, self.port))
sock.listen(1)
while not self.shared.stopped():
- session = Session(*sock.accept())
- client_req = TcpClientRequestor(self.shared, session)
+ session = TcpSession(*sock.accept())
+ client_req = TcpClientRequestor(self.shared, self.processor, session)
client_req.start()
- client_res = TcpClientResponder(self.shared, session)
- client_res.start()
self.processor.add_session(session)
+ self.processor.collect_garbage()
-class Shared:
- def __init__(self):
- self.lock = threading.Lock()
- self._stopped = False
-
- def stop(self):
- print "Stopping Stratum"
- with self.lock:
- self._stopped = True
- def stopped(self):
- with self.lock:
- return self._stopped
class Stratum:
processor.shared = shared
processor.start()
# Create various transports we need
- transports = TcpServer(shared, processor),
+ transports = TcpServer(shared, processor, "176.31.24.241", 50001),
for server in transports:
server.start()
while not shared.stopped():