def main():
global configuration
global configuration_file
global full_list_of_files
global sharing_directory
# logging configuration
logging.basicConfig(level=logging.DEBUG,
format="[%(levelname)s] (%(threadName)s) %(message)s",
filename="client.log",
filemode="w")
console = logging.StreamHandler()
if DEBUG:
# set the console logging level to debug
console.setLevel(logging.DEBUG)
else:
# set the console logging level to info
console.setLevel(logging.INFO)
formatter = logging.Formatter(
"[%(levelname)s] (%(threadName)s) %(message)s")
console.setFormatter(formatter)
logging.getLogger("").addHandler(console)
configuration_file = "configuration.json"
if os.path.isfile(configuration_file):
# load the configuration from the json file
configuration = json_load(configuration_file)
else:
# create and initialize the configuration file
configuration["server_host"] = "157.253.205.7"
configuration["server_port"] = 8080
configuration["listening_ip"] = "localhost"
configuration["listening_port"] = 0
configuration["sharing_directory"] = get_sharing_directory()
json_save(configuration_file, configuration)
logging.debug("configuration: " + str(configuration))
sharing_directory = configuration["sharing_directory"]
files_list = [
file_ for file_ in os.listdir(sharing_directory)
if os.path.isfile(os.path.join(sharing_directory, file_))
]
logging.debug("files_list: " + str(files_list))
server_address = (configuration["server_host"],
configuration["server_port"])
server = connection_init(server_address)
# start with an empty incoming message buffer
incoming_buffer = ""
# send HELLO command
############################################################################
if "username" in configuration:
send_message(server, "HELLO " + configuration["username"] + "\n\0")
else:
send_message(server, "HELLO\n\0")
unneeded, incoming_buffer = converse(server, incoming_buffer, "HELLO")
# send LISTENING command
############################################################################
listening_ip = configuration["listening_ip"]
listening_port = configuration["listening_port"]
queue = Queue.Queue()
# spawn listening thread
listening_thread = Thread(name="ListeningThread",
target=listen,
args=(listening_ip, listening_port, queue))
# TODO
# handle differently, terminate gracefully
listening_thread.daemon = True
listening_thread.start()
listening_ip, listening_port = queue.get()
listening_message = "LISTENING {} {}\n\0".format(listening_ip,
listening_port)
send_message(server, listening_message)
converse(server, incoming_buffer, "LISTENING")
# send LIST command
############################################################################
list_message = "LIST {}\n".format(len(files_list))
for file_ in files_list:
list_message += file_ + "\n"
list_message += "\0"
send_message(server, list_message)
converse(server, incoming_buffer, "LIST")
# send SENDLIST command
############################################################################
send_message(server, "SENDLIST " + "\n\0")
converse(server, incoming_buffer, "SENDLIST")
# options menu/loop
############################################################################
while True:
print()
print("options:")
print("1: SENDLIST : request the list of clients and shared files")
print(
"2: WHERE : request the IP address and port of the specified client"
)
print("4: SHARE : specify the sharing directory")
print("5: QUIT : exit the program")
option = raw_input()
if option in ["1", "sendlist", "SENDLIST"]:
send_message(server, "SENDLIST " + "\n\0")
converse(server, incoming_buffer, "SENDLIST")
elif option in ["2", "where", "WHERE"]:
print("Enter the username of the client:")
while True:
client = raw_input()
if client == configuration["username"]:
print("{} is you, try again: ".format(client))
continue
if client in [pair.split()[0] for pair in full_list_of_files]:
break
print("{} is an invalid client username, try again: ".format(
client))
send_message(server, "WHERE " + client + "\n\0")
(peer_ip,
peer_port), incoming_buffer = converse(server, incoming_buffer,
"WHERE")
peer = connection_init((peer_ip, peer_port))
give_me(peer)
elif option in ["4", "share", "SHARE"]:
configuration["sharing_directory"] = get_sharing_directory()
json_save(configuration_file, configuration)
elif option in ["5", "quit", "QUIT"]:
sys.exit(0)
else:
print("invalid option, try again")
def converse(server, incoming_buffer, own_previous_command):
"""
main recursive function used for communication of the client with the server
"""
global configuration
global full_list_of_files
global requested_file
# parse message
if "\0" not in incoming_buffer:
incoming_buffer += server.recv(4096)
return converse(server, incoming_buffer, own_previous_command)
else:
index = incoming_buffer.index("\0")
message = incoming_buffer[0:index - 1]
incoming_buffer = incoming_buffer[index + 1:]
logging.info("message received: " + message)
lines = message.split("\n")
fields = lines[0].split()
command = fields[0]
# protocol messages and answers
if command == "AVAILABLE":
username = fields[1]
username = get_name(username)
send_message(server, "IWANT " + username + "\n\0")
return converse(server, incoming_buffer, "IWANT")
elif command == "WELCOME":
username = fields[1]
configuration["username"] = username
json_save(configuration_file, configuration)
return None, incoming_buffer
elif command == "FULLLIST" and own_previous_command == "SENDLIST":
number_of_files = int(fields[1])
if number_of_files != (len(lines) - 1):
logging.warning("invalid FULLLIST message, wrong number of files")
send_message(server, "ERROR\n\0")
sys.exit(-1)
else:
full_list_of_files = lines[1:]
# cli_output
print()
print("full list of clients' files")
for line in lines[1:]:
print(line)
return None, incoming_buffer
elif command == "AT" and own_previous_command == "WHERE":
peer_ip = fields[1]
peer_port = int(fields[2])
return (peer_ip, peer_port), incoming_buffer
elif command == "OK" and own_previous_command in ("LIST", "LISTENING"):
return None, incoming_buffer
elif command == "ERROR":
logging.warning("ERROR message received, exiting")
sys.exit(-1)
else:
# TODO
# handle invalid commands
logging.warning(
'an invalid command was received: "{}"'.format(command))
sys.exit(-1)
def converse(connection, client, incoming_buffer, own_previous_command):
"""
handle messages, uses recursion if there are more incoming commands
"""
global configuration_file
global configuration
global clients_file
global clients
global connected_clients
if "\0" not in incoming_buffer:
return "", own_previous_command
else:
index = incoming_buffer.index("\0")
message = incoming_buffer[0:index-1]
incoming_buffer = incoming_buffer[index+1:]
# info message
logging.info("message received: " + str(message))
# split message into lines to handle them easier
lines = message.split("\n")
fields = lines[0].split()
command = fields[0]
if command == "HELLO":
# check if there is a username after the command
if len(fields) == 1:
configuration["username_offset"] += 1
json_save(configuration_file, configuration)
# create available username for the new client
username = "******".format(configuration["username_offset"])
# send answer to client and call converse recursively
send_message(connection, "AVAILABLE " + username + "\n\0")
return converse(connection, client, incoming_buffer, "AVAILABLE")
else:
username = fields[1]
if username in clients:
# tie the client connection tuple with its username
connected_clients[client] = username
logging.debug("connected_clients: " + str(connected_clients))
# send message WELCOME to client and call converse recursively
send_message(connection, "WELCOME " + username + "\n\0")
return converse(connection, client, incoming_buffer, "WELCOME")
else:
# otherwise send ERROR to client, don't need recursion here
# because we don't wait for an incoming command from the client
send_message(connection, "ERROR\n\0")
return incoming_buffer, "ERROR"
elif command == "IWANT":
username = fields[1]
# check if the username is valid
if username in clients:
configuration["username_offset"] += 1
json_save(configuration_file, configuration)
username = "******".format(configuration["username_offset"])
# send answer to client and call converse recursively
send_message(connection, "AVAILABLE " + username + "\n\0")
return converse(connection, client, incoming_buffer, "AVAILABLE")
else:
clients[username] = {"files": [], "listening_ip": "", "listening_port": None}
json_save(clients_file, clients)
logging.debug("clients: " + str(clients))
connected_clients[client] = username
logging.debug("connected_clients: " + str(connected_clients))
# send answer to client
send_message(connection, "WELCOME " + username + "\n\0")
return incoming_buffer, "WELCOME"
elif command == "LISTENING":
clients[connected_clients[client]]["listening_ip"] = fields[1]
clients[connected_clients[client]]["listening_port"] = fields[2]
json_save(clients_file, clients)
logging.debug("clients: " + str(clients))
# send answer to client
send_message(connection, "OK\n\0")
return incoming_buffer, "OK"
elif command == "LIST":
number_of_files = int(fields[1])
if number_of_files != (len(lines) - 1):
logging.warning("invalid LIST message, wrong number of files")
send_message(connection, "ERROR\n\0")
sys.exit(-1)
else:
clients[connected_clients[client]]["files"] = lines[1:]
json_save(clients_file, clients)
# send answer to client and call converse recursively
send_message(connection, "OK\n\0")
return incoming_buffer, "OK"
elif command == "SENDLIST":
number_of_all_clients_files = 0
for client_ in clients:
number_of_all_clients_files += len(clients[client_]["files"])
fulllist_message = "FULLLIST {}\n".format(number_of_all_clients_files)
for client_ in clients:
for file_ in clients[client_]["files"]:
fulllist_message += client_ + " " + file_ + "\n"
fulllist_message += "\0"
# sends list of clients and their files to the client that requested them
send_message(connection, fulllist_message)
return converse(connection, client, incoming_buffer, "FULLLIST")
elif command == "WHERE":
peer = fields[1]
# search for the peer in the clients dictionary.
# if valid, we sent to client the ip and port of the peer.
if peer in clients:
# get from dictionary ip and port
peer_ip = clients[peer]["listening_ip"]
peer_port = clients[peer]["listening_port"]
# send message to client with ip and port of the client that
# he wants to connect
at_message = "AT {} {}\n\0".format(peer_ip, peer_port)
send_message(connection, at_message)
return incoming_buffer, "WHERE"
else:
send_message(connection, "UNKNOWN\n\0")
return incoming_buffer, "UNKNOWN"
elif command == "ERROR":
logging.warning("ERROR message received, exiting")
sys.exit(-1)
else:
# TODO
# handle invalid commands
logging.warning('an invalid command was received: "{}"'.format(command))
sys.exit(-1)
def main():
global configuration_file
global configuration
global clients_file
global clients
# logging configuration
logging.basicConfig(level=logging.DEBUG,
format="[%(levelname)s] (%(threadName)s) %(message)s",
filename="server.log",
filemode="w")
console = logging.StreamHandler()
if DEBUG:
# set the console logging level to debug
console.setLevel(logging.DEBUG)
else:
# set the console logging level to info
console.setLevel(logging.INFO)
formatter = logging.Formatter("[%(levelname)s] (%(threadName)s) %(message)s")
console.setFormatter(formatter)
logging.getLogger("").addHandler(console)
configuration_file = "configuration.json"
clients_file = "clients.json"
if os.path.isfile(configuration_file):
# load the configuration from the json file
configuration = json_load(configuration_file)
else:
# create and initialize the configuration file
configuration["host"] = "localhost"
configuration["port"] = 45000
configuration["username_offset"] = 0
json_save(configuration_file, configuration)
logging.debug("configuration: " + str(configuration))
# load the list of known clients from the json file
if os.path.isfile(clients_file):
clients = json_load(clients_file)
else:
json_save(clients_file, clients)
logging.debug("clients: " + str(clients))
# create socket for connection
try:
server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
except socket.error:
logging.error("socket.socket error")
sys.exit(-1)
host = configuration["host"]
port = configuration["port"]
# bind socket
try:
server_socket.bind( (host, port) )
except socket.error:
# cli_output
logging.error("port {} in use, exiting".format(port))
sys.exit(-1)
# listen for incoming connections
server_socket.listen(5)
# cli_output
# output message
logging.info("server listening on {}:{}".format(host, str(port)))
# handle incoming client connections
client_counter = 0
while True:
connection, address = server_socket.accept()
# cli_output
# output message
logging.info("a client connected from {}:{}".format(address[0], str(address[1])))
# create a thread that runs the client_function
client_thread = Thread(name="client {}".format(client_counter),
target=client_function, args=(connection, address))
# TODO
# handle differently, terminate gracefully
client_thread.daemon = True
client_thread.start()
client_counter += 1
def main():
global configuration
global configuration_file
global full_list_of_files
global sharing_directory
# logging configuration
logging.basicConfig(level=logging.DEBUG,
format="[%(levelname)s] (%(threadName)s) %(message)s",
filename="client.log",
filemode="w")
console = logging.StreamHandler()
if DEBUG:
# set the console logging level to debug
console.setLevel(logging.DEBUG)
else:
# set the console logging level to info
console.setLevel(logging.INFO)
formatter = logging.Formatter("[%(levelname)s] (%(threadName)s) %(message)s")
console.setFormatter(formatter)
logging.getLogger("").addHandler(console)
configuration_file = "configuration.json"
if os.path.isfile(configuration_file):
# load the configuration from the json file
configuration = json_load(configuration_file)
else:
# create and initialize the configuration file
configuration["server_host"] = "localhost"
configuration["server_port"] = 45000
configuration["listening_ip"] = "localhost"
configuration["listening_port"] = 0
configuration["sharing_directory"] = get_sharing_directory()
json_save(configuration_file, configuration)
logging.debug("configuration: " + str(configuration))
sharing_directory = configuration["sharing_directory"]
files_list = [ file_ for file_ in os.listdir(sharing_directory) if os.path.isfile(os.path.join(sharing_directory, file_)) ]
logging.debug("files_list: " + str(files_list))
server_address = (configuration["server_host"], configuration["server_port"])
server = connection_init(server_address)
# start with an empty incoming message buffer
incoming_buffer = ""
# send HELLO command
############################################################################
if "username" in configuration:
send_message(server, "HELLO " + configuration["username"] + "\n\0")
else:
send_message(server, "HELLO\n\0")
unneeded, incoming_buffer = converse(server, incoming_buffer, "HELLO")
# send LISTENING command
############################################################################
listening_ip = configuration["listening_ip"]
listening_port = configuration["listening_port"]
queue = Queue.Queue()
# spawn listening thread
listening_thread = Thread(name="ListeningThread", target=listen,
args=(listening_ip, listening_port, queue))
# TODO
# handle differently, terminate gracefully
listening_thread.daemon = True
listening_thread.start()
listening_ip, listening_port = queue.get()
listening_message = "LISTENING {} {}\n\0".format(listening_ip, listening_port)
send_message(server, listening_message)
converse(server, incoming_buffer, "LISTENING")
# send LIST command
############################################################################
list_message = "LIST {}\n".format(len(files_list))
for file_ in files_list:
list_message += file_ + "\n"
list_message += "\0"
send_message(server, list_message)
converse(server, incoming_buffer, "LIST")
# send SENDLIST command
############################################################################
send_message(server, "SENDLIST " + "\n\0")
converse(server, incoming_buffer, "SENDLIST")
# options menu/loop
############################################################################
while True:
print()
print("options:")
print("1: SENDLIST : request the list of clients and shared files")
print("2: WHERE : request the IP address and port of the specified client")
print("4: SHARE : specify the sharing directory")
print("5: QUIT : exit the program")
option = raw_input()
if option in ["1", "sendlist", "SENDLIST"]:
send_message(server, "SENDLIST " + "\n\0")
converse(server, incoming_buffer, "SENDLIST")
elif option in ["2", "where", "WHERE"]:
print("Enter the username of the client:")
while True:
client = raw_input()
if client == configuration["username"]:
print("{} is you, try again: ".format(client))
continue
if client in [pair.split()[0] for pair in full_list_of_files]:
break
print("{} is an invalid client username, try again: ".format(client))
send_message(server, "WHERE " + client + "\n\0")
(peer_ip, peer_port), incoming_buffer = converse(server, incoming_buffer, "WHERE")
peer = connection_init( (peer_ip, peer_port) )
give_me(peer)
elif option in ["4", "share", "SHARE"]:
configuration["sharing_directory"] = get_sharing_directory()
json_save(configuration_file, configuration)
elif option in ["5", "quit", "QUIT"]:
sys.exit(0)
else:
print("invalid option, try again")
def converse(server, incoming_buffer, own_previous_command):
"""
main recursive function used for communication of the client with the server
"""
global configuration
global full_list_of_files
global requested_file
# parse message
if "\0" not in incoming_buffer:
incoming_buffer += server.recv(4096)
return converse(server, incoming_buffer, own_previous_command)
else:
index = incoming_buffer.index("\0")
message = incoming_buffer[0:index-1]
incoming_buffer = incoming_buffer[index+1:]
logging.info("message received: " + message)
lines = message.split("\n")
fields = lines[0].split()
command = fields[0]
# protocol messages and answers
if command == "AVAILABLE":
username = fields[1]
username = get_name(username)
send_message(server, "IWANT " + username + "\n\0")
return converse(server, incoming_buffer, "IWANT")
elif command == "WELCOME":
username = fields[1]
configuration["username"] = username
json_save(configuration_file, configuration)
return None, incoming_buffer
elif command == "FULLLIST" and own_previous_command == "SENDLIST":
number_of_files = int(fields[1])
if number_of_files != (len(lines) - 1):
logging.warning("invalid FULLLIST message, wrong number of files")
send_message(server, "ERROR\n\0")
sys.exit(-1)
else:
full_list_of_files = lines[1:]
# cli_output
print()
print("full list of clients' files")
for line in lines[1:]:
print(line)
return None, incoming_buffer
elif command == "AT" and own_previous_command =="WHERE":
peer_ip = fields[1]
peer_port = int(fields[2])
return (peer_ip, peer_port), incoming_buffer
elif command == "OK" and own_previous_command in ("LIST", "LISTENING"):
return None, incoming_buffer
elif command == "ERROR":
logging.warning("ERROR message received, exiting")
sys.exit(-1)
else:
# TODO
# handle invalid commands
logging.warning('an invalid command was received: "{}"'.format(command))
sys.exit(-1)
def main():
global configuration_file
global configuration
global clients_file
global clients
# basicConfig函数用来配置RootLogger
# 支持六个关键字参数,分别为filename,filemode,stream,format,datefmt,level
logging.basicConfig(level=logging.DEBUG,
format="[%(levelname)s] (%(threadName)s) %(message)s",
filename="server.log",
filemode="w")
# 创建一个handler,用于输出到控制台
console = logging.StreamHandler()
if DEBUG:
# 指定console被处理的信息级别为DEBUG,低于DEBUG级别的信息将被忽略
console.setLevel(logging.DEBUG)
else:
# 指定console被处理的信息级别为INFO,低于INFO级别的信息将被忽略
console.setLevel(logging.INFO)
# 定义handler的输出格式
formatter = logging.Formatter("[%(levelname)s] (%(threadName)s) %(message)s")
console.setFormatter(formatter)
# 定义RootLogger,给RootLogger添加handler
logging.getLogger("").addHandler(console)
configuration_file = "configuration.json"
clients_file = "clients.json"
if os.path.isfile(configuration_file):
# 从json文件中读入配置,并将其解码
configuration = json_load(configuration_file)
else:
# 创建并初始化配置文件,将字典解码格式化保存到配置文件中
configuration["host"] = "localhost"
configuration["port"] = 45000
configuration["username_offset"] = 0
json_save(configuration_file, configuration)
logging.debug("configuration: " + str(configuration))
# load the list of known clients from the json file
if os.path.isfile(clients_file):
clients = json_load(clients_file)
else:
json_save(clients_file, clients)
logging.debug("clients: " + str(clients))
# 创建socket
try:
server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
except socket.error:
logging.error("socket.socket error")
sys.exit(-1)
host = configuration["host"]
port = configuration["port"]
# 绑定socket
try:
server_socket.bind( (host, port) )
server_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
except socket.error:
# cli_output
logging.error("port {} in use, exiting".format(port))
sys.exit(-1)
# 开启监听,监听接入连接的主机
server_socket.listen(5)
# 控制台输出
# 输出消息
logging.info("server listening on {}:{}".format(host, str(port)))
# 对连接到服务器的主机进行下一步的处理
client_counter = 0
while True:
connection, address = server_socket.accept()
# cli_output
# output message
logging.info("a client connected from {}:{}".format(address[0], str(address[1])))
# create a thread that runs the client_function
# 设置实现的线程函数的名字,格式为client 1,client 2,...default:Thread-1,Thread-2
client_thread = Thread(name="client {}".format(client_counter),
target=client_function, args=(connection, address))
# TODO
# 设置daemon模式,即使主程序结束,这个子线程依然存在
# handle differently, terminate gracefully
client_thread.daemon = True
client_thread.start()
client_counter += 1