def RegisterUser(self, request, context):
key = self.CH.hash(request.username)
print(f'RegisterUser - Server {SERVER_ID} / Username {request.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'RegisterUser - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
return stub.RegisterUser(request)
except Exception as e:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details('User Already exists')
return API_pb2.AuthResponse()
print(f'RegisterUser - Server {SERVER_ID} executing the action')
error, data = users.register_user(self.LSMT, request, context)
if error:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details(data['msg'])
return API_pb2.AuthResponse()
else:
pb_auth_response = API_pb2.AuthResponse()
pb_auth_response.user.id = data['user']['id']
pb_auth_response.user.username = data['user']['username']
pb_auth_response.user.user_type = data['user']['user_type']
pb_auth_response.user.email = data['user']['email']
pb_auth_response.user.token = data['token']
return pb_auth_response
def GetMessages(self, request, context):
key = self.CH.hash(request.username)
print(f'GetMessages - Server {SERVER_ID} / Username {request.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'GetMessages - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
for message in stub.GetMessages(request):
yield message
except Exception as e:
print(e)
yield API_pb2.Message()
else:
print(f'GetMessages - Server {SERVER_ID} executing the action')
error, data = messages.get_messages(self.LSMT, request, context)
for message in data['messages']:
pb_message = API_pb2.Message()
pb_message.id = message['id']
pb_message.message = message['message']
pb_message.user.username = message['username']
pb_message.user.user_type = message['user_type']
yield pb_message
def GetMatches(self, request, context):
key = self.CH.hash(request.username)
print(f'GetMatches - Server {SERVER_ID} / Username {request.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'GetMatches - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
for match in stub.GetMatches(request):
yield match
except Exception as e:
print(e)
yield API_pb2.Match()
else:
print(f'GetMatches - Server {SERVER_ID} executing the action')
error, data = matches.get_matches(self.LSMT, request, context)
for match in data['matches']:
pb_match = API_pb2.Match()
pb_match.id = match['id']
pb_match.recruiter.username = match['recruiter']
pb_match.employee.username = match['employee']
pb_match.recruiter_match = match['recruiter_match']
pb_match.employee_match = match['employee_match']
yield pb_match
def SendMessage(self, request, context):
"""The messages need to be replicated across the chord"""
print(f'SendMessage - Server {SERVER_ID} / Username {request.user.username}')
replicated_message = API_pb2.ReplicatedMessage()
replicated_message.message.user.username = request.user.username
replicated_message.message.user.user_type = request.user.user_type
replicated_message.message.user.token = request.user.token
replicated_message.message.message = request.message
nodes = self.CH.get_reachable_nodes()
for node in nodes:
pb_node = replicated_message.nodes.add()
pb_node.id = str(node.id)
pb_node.server_id = node.server_id
pb_node = replicated_message.nodes.add()
pb_node.id = str(self.CH.node.id)
pb_node.server_id = self.CH.node.server_id
for node in nodes:
if node.server_id == SERVER_ID:
continue
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
stub.ReplicateMessage(replicated_message)
except Exception as e:
print(e)
continue
error, data = messages.send_message(self.LSMT, request, context)
if error:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details(data['msg'])
return API_pb2.Message()
else:
pb_message = API_pb2.Message()
pb_message.id = data['message']['id']
pb_message.user.username = data['message']['username']
pb_message.user.user_type = data['message']['user_type']
pb_message.message = data['message']['message']
return pb_message
def RejectMatch(self, request, context):
key = self.CH.hash(request.employee.username)
print(f'RejectMatch - Employee Server {SERVER_ID} / Username {request.employee.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'RejectMatch - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
return stub.RejectMatch(request)
except Exception as e:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details('Wrong Credentials')
return API_pb2.Match()
key = self.CH.hash(request.recruiter.username)
print(f'RejectMatch - Recruiter Server {SERVER_ID} / Username {request.recruiter.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'RejectMatch - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
stub.ReplicateRejectMatch(request)
except Exception as e:
print(e)
print(f'RejectMatch - Server {SERVER_ID} executing the action')
error, data = matches.reject_match(self.LSMT, request, context)
if error:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details(data['msg'])
return API_pb2.Match()
else:
pb_match = API_pb2.Match()
pb_match.id = data['match']['id']
pb_match.recruiter.username = data['match']['recruiter']
pb_match.employee.username = data['match']['employee']
return pb_match
def to_pb(self):
node = API_pb2.Node()
node.id = str(self.id)
node.server_id = self.server_id
node.host = self.host
node.port = self.port
if self.predecessor:
node.predecessor.CopyFrom(self.predecessor.to_pb())
return node
def Authenticate(self, request, context):
key = self.CH.hash(request.username)
print(f'Authenticate - Server {SERVER_ID} / Username {request.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'Authenticate - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
return stub.Authenticate(request)
except Exception as e:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details('Wrong Credentials')
return API_pb2.AuthResponse()
print(f'Authenticate - Server {SERVER_ID} executing the action')
error, data = authentication.authenticate(self.LSMT, request, context)
if error:
context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
context.set_details(data['msg'])
return API_pb2.AuthResponse()
else:
pb_auth_response = API_pb2.AuthResponse()
pb_auth_response.user.id = data['user']['id']
pb_auth_response.user.username = data['user']['username']
pb_auth_response.user.user_type = data['user']['user_type']
pb_auth_response.user.email = data['user']['email']
for match in data['matches']:
pb_match = pb_auth_response.matches.add()
pb_match.id = match['id']
pb_match.recruiter.username = match['recruiter']
pb_match.employee.username = match['employee']
pb_match.employee.email = match['employee_email']
pb_match.recruiter_match = match['recruiter_match']
pb_match.employee_match = match['employee_match']
return pb_auth_response
def _initialize_finger_table(self):
for i in range(self.m):
id = (self.node.id + (2 ** i)) % (2 ** self.m)
try:
with grpc.insecure_channel(f'{self.connect_host}:{self.connect_port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
pb_request_find_successor = API_pb2.RequestFindSuccessor(key=str(id))
pb_node = stub.FindSuccessor(pb_request_find_successor)
node = Node(pb=pb_node)
self.finger_table[i] = {
'id': id,
'succ': node
}
except Exception as e:
print(e)
def _join(self):
print(f'Joining: {self.connect_host} {self.connect_port}')
while True:
try:
with grpc.insecure_channel(f'{self.connect_host}:{self.connect_port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
pb_request_find_successor = API_pb2.RequestFindSuccessor(key=str(self.node.id))
pb_node_succ = stub.FindSuccessor(pb_request_find_successor)
node_succ = Node(pb=pb_node_succ)
self.finger_table[0]['succ'] = node_succ
break
except Exception as e:
pass
self._initialize_stabilize()
self._initialize_fix_fingers()
def ReplicateRejectMatch(self, request, context):
key = self.CH.hash(request.recruiter.username)
print(f'ReplicateRejectMatch - Recruiter Server {SERVER_ID} / Username {request.recruiter.username} / Username key: {key}')
node = self.CH.find_successor(key)
if node.server_id != SERVER_ID:
print(f'ReplicateRejectMatch - Redirected to server {node.server_id}')
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
return stub.ReplicateRejectMatch(request)
except Exception as e:
print(e)
else:
print(f'ReplicateRejectMatch - Server {SERVER_ID} executing the action')
empty = API_pb2.Empty()
matches.reject_match(self.LSMT, request, context)
return empty
def _find_successor(self, key):
if self.node.predecessor is not None and self._in_interval(key, self.node.predecessor.id, self.node.id, inclusive_right=True):
return self.node
elif self._in_interval(key, self.node.id, self.finger_table[0]['succ'].id, inclusive_right=True):
return self.finger_table[0]['succ']
else:
preceding_node = self._closest_preceding_node(key)
try:
with grpc.insecure_channel(f'{preceding_node.host}:{preceding_node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
pb_request_find_successor = API_pb2.RequestFindSuccessor(key=str(preceding_node.id))
pb_node = stub.FindSuccessor(pb_request_find_successor)
node = Node(pb=pb_node)
return node
except Exception as e:
print('Node not working')
print(e)
return None
def ReplicateMessage(self, request, context):
print(f'ReplicateMessage - Server {SERVER_ID} executing the action')
messages.send_message(self.LSMT, request.message, context)
replicated_message = request
nodes = self.CH.get_reachable_nodes()
for node in nodes:
exists = next((x for x in replicated_message.nodes if x.id == str(node.id)), None)
if not exists:
pb_node = replicated_message.nodes.add()
pb_node.id = str(node.id)
pb_node.server_id = node.server_id
try:
with grpc.insecure_channel(f'{node.host}:{node.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
stub.ReplicateMessage(replicated_message)
except Exception as e:
print(e)
continue
empty = API_pb2.Empty()
return empty
def _stabilize(self):
skip = False
successor = self.finger_table[0]['succ']
if not skip:
with grpc.insecure_channel(f'{successor.host}:{successor.port}') as channel:
stub = API_pb2_grpc.APIStub(channel)
pb_node = stub.GetPredecessor(API_pb2.Empty())
x = Node(pb=pb_node)
# print(f"In stabilize receive predecessor {x.server_id} from successor {successor.server_id}")
if x.id == -1:
skip = True
if not skip:
if x is not None and self._in_interval(x.id, self.node.id, successor.id):
self.finger_table[0]['succ'] = x
self._notify(self.finger_table[0]['succ'])
t = Timer(ConsistentHashing.STABILIZE_TIME, self._stabilize)
t.start()
def Notify(self, request, context):
self.CH.notify(request)
return API_pb2.Empty()