Revert "[LABI] Added directory with mid-semester project"

This reverts commit 6db8c56290. Making it's own repository
2023-05-22 20:29:58 +01:00 · 2023-05-22 20:29:58 +01:00 · 47507bd484
parent 7b212ca3e2
commit 47507bd484
8 changed files with 0 additions and 1306 deletions
--- a/1ano/2semestre/labi/labi2023-ap-g6/README.md
+++ b/1ano/2semestre/labi/labi2023-ap-g6/README.md
@ -1,11 +0,0 @@
 # labiaprof
 Trabalho de aprofundamento de laboratórios de informática
 ## Grupo
 ### Rúben Gomes
 * 113435
 * rlcg@ua.pt
 ### Tiago Garcia
 * 114184
 * tiago.rgarcia@ua.pt
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/client.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/client.py
@ -1,394 +0,0 @@
 #!/usr/bin/python3
 import os
 import re
 import sys
 import socket
 import json
 import base64
 from common_comm import send_dict, recv_dict, sendrecv_dict
 from Crypto.Cipher import AES
 from Crypto.Hash import SHA256
 class Tcolors:
    HEADER = '\033[95m'
    OKBLUE = '\033[94m'
    OKCYAN = '\033[96m'
    OKGREEN = '\033[92m'
    WARNING = '\033[93m'
    FAIL = '\033[91m'
    ENDC = '\033[0m'
    BOLD = '\033[1m'
    UNDERLINE = '\033[4m'
 # Function to encript values for sending in json format
 # return int data encrypted in a 16 bytes binary string coded in base64
 def encrypt_intvalue(cipherkey, data):
    key = base64.b64decode(cipherkey)
    cipher = AES.new(key, AES.MODE_ECB)
    data = cipher.encrypt(bytes("%16d" % data, "utf8"))
    return str(base64.b64encode(data), "utf8")
 # Function to decript values received in json format
 # return int data decrypted from a 16 bytes binary strings coded in base64
 def decrypt_intvalue(cipherkey, data_arg):
    cipher = AES.new(base64.b64decode(cipherkey), AES.MODE_ECB)
    data = base64.b64decode(data_arg)
    data = cipher.decrypt(data)
    return int(str(data, "utf8"))
 # verify if response from server is valid or is an error message and act accordingly - já está implementada
 def validate_response(client_sock, response):
    if not response["status"]:
        print(f"{Tcolors.FAIL}Error: {response['error']}{Tcolors.ENDC}")
        client_sock.close()
        sys.exit(3)
 # process QUIT operation
 def quit_action(client_sock, has_started):
    print(f"{Tcolors.ENDC}Quitting...")
    if has_started:
        senddata = {"op": "QUIT"}
        recvdata = sendrecv_dict(client_sock, senddata)
        try:
            # status = False
            if not recvdata["status"]:
                print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: {recvdata['error']}{Tcolors.ENDC}")
                return
        except TypeError:
            print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: an error occurred with the server.{Tcolors.ENDC}")
            print(f"{Tcolors.ENDC}{Tcolors.WARNING}Client not removed from server, quitting...{Tcolors.ENDC}")
            client_sock.close()
            exit(1)
    # status = True
    print(f"{Tcolors.OKGREEN}Client quit with success")
    client_sock.close()
    exit(0)
 # Outcomming message structure:
 # { op = "START", client_id, [cipher] }
 # { op = "QUIT" }
 # { op = "NUMBER", number }
 # { op = "STOP", [shasum] }
 # { op = "GUESS", choice }
 #
 # Incomming message structure:
 # { op = "START", status }
 # { op = "QUIT" , status }
 # { op = "NUMBER", status }
 # { op = "STOP", status, value }
 # { op = "GUESS", status, result }
 #
 # Suport for executing the client pretended behaviour
 #
 # returns a valid number
 def returnValidNum():
    while 1:
        try:
            num = int(input(f"\n{Tcolors.ENDC}{Tcolors.BOLD}Number > {Tcolors.UNDERLINE}"))
        except ValueError:
            print(f"{Tcolors.ENDC}{Tcolors.WARNING}Invalid input{Tcolors.ENDC}")
            continue
        break
    return num
 # verify if port is valid
 def verify_port(port):
    # verify if port is a number
    if not port.isdigit():
        return {"status": False, "error": "Port must be an integer"}
    # verify if port is between 1024 and 65535
    if not (1024 <= int(port) <= 65535):
        return {"status": False, "error": "Port number must be between 1024 and 65535"}
    return {"status": True, "port": int(port)}
 # verify if hostname is valid
 def verify_hostname(hostname):
    if hostname == "localhost":
        return {"status": True}
    if not (re.match(r'^\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}$', hostname) and all(0 <= int(n) < 256 for n in hostname.split('.'))):
        return {"status": False, "error": "Invalid DNS address"}
    return {"status": True}
 def run_client(client_sock, client_id):
    # Print the welcome message
    print(f"{Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}\n")
    # client runtime global variables
    has_stopped = False
    has_started = False
    cipherkey = None
    numbers = []
    while 1:
        option = input(f"{Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}")
        # start option
        if option.upper() == "START":
            if has_started:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}Client already started\n{Tcolors.ENDC}")
                continue
            while 1:
                # ask user if cipher is needed
                choice = input(f"\n{Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}")
                if choice.upper() == "Y":
                    # create cipher key for server
                    cipherkey = base64.b64encode(os.urandom(16)).decode()
                    break
                elif choice.upper() == "N":
                    # do nothing since cipher will be None
                    break
                else:
                    # loop if invalid option
                    print(f"{Tcolors.ENDC}{Tcolors.WARNING}Invalid input{Tcolors.ENDC}")
                    continue
            # send dict and receive response
            senddata = {"op": "START", "client_id": client_id, "cipher": cipherkey}
            recvdata = sendrecv_dict(client_sock, senddata)
            try:
                # status = False
                if not recvdata["status"]:
                    print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: {recvdata['error']}{Tcolors.ENDC}")
                    print(f"{Tcolors.ENDC}{Tcolors.WARNING}Client not added, quitting...{Tcolors.ENDC}")
                    client_sock.close()
                    exit(1)
            except TypeError:
                print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: an error occurred with the server, try again later{Tcolors.ENDC}")
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}Client not added, quitting...{Tcolors.ENDC}")
                client_sock.close()
                exit(1)
            # status = True
            has_started = True
            print(f"{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}\n")
        elif option.upper() == "QUIT":
            quit_action(client_sock, has_started)
            continue
        elif option.upper() == "NUMBER":
            if not has_started:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}")
                continue
            if has_stopped:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You can't add more numbers\n{Tcolors.ENDC}")
                continue
            # verify if number is int
            num = returnValidNum()
            # encrypt the number is a cipher is being used
            if cipherkey is not None:
                encrypted_num = encrypt_intvalue(cipherkey, num)
            else:
                encrypted_num = num
            # send dict and receive response
            senddata = {"op": "NUMBER", "number": encrypted_num}
            recvdata = sendrecv_dict(client_sock, senddata)
            try:
                # status = False
                if not recvdata["status"]:
                    print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: {recvdata['error']}{Tcolors.ENDC}")
                    client_sock.close()
                    continue
                # status = True
                numbers.append(num)
                print(f"{Tcolors.ENDC}{Tcolors.OKGREEN}Number added with success{Tcolors.ENDC}\n")
            except TypeError:
                print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: an error occurred with the server\nSocket has been closed, try to start again{Tcolors.ENDC}")
                client_sock.close()
                has_started = False
                cipherkey = None
                numbers = []
                continue
        elif option.upper() == "STOP":
            # check if client has started the game
            if not has_started:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}")
                continue
            # check if client has stopped adding numbers
            if has_stopped:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You can't stop the game again\n{Tcolors.ENDC}")
                continue
            # creates the synthesis for the number list
            hasher = SHA256.new()
            for number in numbers:
                hasher.update(bytes(str(number), "utf8"))
            # send dict and receive response
            senddata = {"op": "STOP", "shasum": hasher.hexdigest()}
            recvdata = sendrecv_dict(client_sock, senddata)
            try:
                # status = False
                if not recvdata["status"]:
                    print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: {recvdata['error']}{Tcolors.ENDC}")
                    continue
            except TypeError:
                print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: an error occurred with the server\nSocket has been closed, try to start again{Tcolors.ENDC}")
                client_sock.close()
                has_started = False
                cipherkey = None
                numbers = []
                continue
            # decipher data if using encryption
            data = recvdata["value"]
            if cipherkey is not None:
                data = decrypt_intvalue(cipherkey, data)
            has_stopped = True
            # status = True
            print(f"{Tcolors.ENDC}{Tcolors.OKGREEN}\nChosen number: {Tcolors.UNDERLINE}{data}{Tcolors.ENDC}\n")
        elif option.upper() == "GUESS":
            # check if client has started the game
            if not has_started:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}")
                continue
            # check if client has stopped adding numbers
            if not has_stopped:
                print(f"{Tcolors.ENDC}{Tcolors.WARNING}You can't guess before stopping the game\n{Tcolors.ENDC}")
                continue
            # print the possible choices
            print(f"""
 {Tcolors.ENDC}Choose one of the following options:
 1 - first
 2 - last
 3 - min
 4 - max
 5 - median
 6 - min, first
 7 - max, first
 8 - min, last
 9 - max, last
 10 - median, first
 11 - median, last
 """)
            while True:
                try:
                    choice_num = int(input(f"{Tcolors.BOLD}\n> {Tcolors.UNDERLINE}"))
                    if choice_num == 1:
                        choice = ["first"]
                    elif choice_num == 2:
                        choice = ["last"]
                    elif choice_num == 3:
                        choice = ["min"]
                    elif choice_num == 4:
                        choice = ["max"]
                    elif choice_num == 5:
                        choice = ["median"]
                    elif choice_num == 6:
                        choice = ["min", "first"]
                    elif choice_num == 7:
                        choice = ["max", "first"]
                    elif choice_num == 8:
                        choice = ["min", "last"]
                    elif choice_num == 9:
                        choice = ["max", "last"]
                    elif choice_num == 10:
                        choice = ["median", "first"]
                    elif choice_num == 11:
                        choice = ["median", "last"]
                    else:
                        print(f"{Tcolors.ENDC}{Tcolors.WARNING}Invalid input{Tcolors.ENDC}")
                        continue
                    break
                except ValueError:
                    print(f"{Tcolors.ENDC}{Tcolors.WARNING}Invalid input{Tcolors.ENDC}")
                    continue
            # send dict and receive response
            senddata = {"op": "GUESS", "choice": choice}
            recvdata = sendrecv_dict(client_sock, senddata)
            try:
                # status = False
                if not recvdata["status"]:
                    print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: {recvdata['error']}{Tcolors.ENDC}")
                    continue
            except TypeError:
                print(f"{Tcolors.ENDC}{Tcolors.FAIL}Error: an error occurred with the server\nSocket has been closed, try to start again{Tcolors.ENDC}")
                client_sock.close()
                has_started = False
                cipherkey = None
                numbers = []
                continue
            # status = True
            print(f"\n\n{Tcolors.ENDC}{Tcolors.BOLD}{Tcolors.OKBLUE}{'='*15}\n\n{Tcolors.UNDERLINE}{Tcolors.OKCYAN}"
                  + ("You are right!" if recvdata["result"] else "You are wrong!")
                  + f"{Tcolors.ENDC}{Tcolors.BOLD}{Tcolors.OKBLUE}\n\n{'='*15}{Tcolors.ENDC}\n\n")
            quit_action(client_sock, has_started)
        else:
            print(f"{Tcolors.ENDC}{Tcolors.WARNING}Invalid option!\n{Tcolors.ENDC}")
    return None
 def main():
    # validate the number of arguments and eventually print error message and exit with error
    # verify type of arguments and eventually print error message and exit with error
    if len(sys.argv) not in [3, 4]:
        print(f"{Tcolors.WARNING}Usage: python3 client.py client_id port DNS{Tcolors.ENDC}")
        sys.exit(1)
    # check if indicated port is valid and get its value
    port = sys.argv[2]
    verified = verify_port(port)
    if not verified["status"]:
        print(f"{Tcolors.WARNING}{verified['error']}{Tcolors.ENDC}")
        sys.exit(1)
    port = verified["port"]
    # get the ip address of the DNS and get its value
    hostname = sys.argv[3] if len(sys.argv) == 4 else socket.gethostbyname(socket.gethostname())
    verified = verify_hostname(hostname)
    if not verified["status"]:
        print(f"{Tcolors.WARNING}{verified['error']}{Tcolors.ENDC}")
        sys.exit(1)
    # create the socket
    client_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    client_socket.bind(("0.0.0.0", 0))
    # catch error message if server does not exist in those specifications
    print(f"{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}")
    try:
        client_socket.connect((hostname, port))
    except OSError:
        print(f"{Tcolors.FAIL}Error: connection to server failed{Tcolors.ENDC}")
        sys.exit(1)
    # send confirmation about the connection
    print(f"{Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{sys.argv[1]}\n{Tcolors.ENDC}")
    # run the client
    run_client(client_socket, sys.argv[1])
    client_socket.close()
    sys.exit(0)
 if __name__ == "__main__":
    main()
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/common_comm.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/common_comm.py
@ -1,82 +0,0 @@
 import socket
 import json
 import base64
 #
 # Universal function to send a given amount of data to a TCP socket.
 # It returns True or False, depending on the success of 
 # sending all the data to the socket.
 #
 def exact_send(dst, data):
    try:
        while len(data) != 0:
            bytes_sent = dst.send(data)
            data = data[bytes_sent:]
        return True
    except OSError:
        return False
 #
 # Universal function to receive a given amount of data from a TCP socket.
 # It returns None or data, depending on the success of
 # receiving all the required data from the socket.
 #
 def exact_recv(src, count):
    data = bytearray(0)
    while count != 0:
        new_data = src.recv(count)
        if len(new_data) == 0: return None
        data += new_data
        count -= len(new_data)
    return data
 #
 # Universal function to send a dictionary message to a TCP socket.
 # It actually transmits a JSON object, prefixed by its length (in network byte order).
 #
 # The JSON object is created from the dictionary.
 # It returns True or False, depending on the success of sending the
 # message to the socket.
 #
 def send_dict(dst, msg):
    # DEBUG print ("Send: %s" % (msg))
    data = bytes(json.dumps(msg), "utf8")
    prefixed_data = len(data).to_bytes(4, "big") + data
    return exact_send(dst, prefixed_data)
 #
 # Universal function to receive a dictionary message from a TCP socket.
 # It actually receives a JSON object, prefixed by its length (in network byte order).
 # The dictionary is created from that JSON object.
 #
 def recv_dict(src):
    prefix = exact_recv(src, 4)
    if prefix == None: return None
    length = int.from_bytes(prefix, "big")
    data = exact_recv(src, length)
    if data == None: return None
    msg = json.loads(str(data, "utf8"))
    # DEBUG print ("Recv: %s" % (msg))
    return msg
 #
 # Universal function to send and receive a dictionary to/from a TCP socket peer.
 # It returns None upon an error.
 #
 def sendrecv_dict(peer, msg):
    if send_dict(peer, msg):
        return recv_dict(peer)
    else:
        return None
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/server.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/server.py
@ -1,384 +0,0 @@
 #!/usr/bin/python3
 import sys
 import socket
 import select
 import json
 import base64
 import csv
 import random
 from common_comm import send_dict, recv_dict, sendrecv_dict
 from Crypto.Cipher import AES
 from Crypto.Hash import SHA256
 # Dicionário com a informação relativa aos clientes
 users = {}
 # return the client_id of a socket or None
 def find_client_id(client_sock):
    for client_id in users:
        if users[client_id]["socket"] == client_sock:
            return client_id
    return None
 # Função para encriptar valores a enviar em formato json com codificação base64
 # return int data encrypted in a 16 bytes binary string and coded base64
 def encrypt_intvalue(client_id, data_arg):
    key = base64.b64decode(users[client_id]["cipher"])
    cipher = AES.new(key, AES.MODE_ECB)
    data = cipher.encrypt(bytes("%16d" % data_arg, "utf8"))
    return str(base64.b64encode(data), "utf8")
 # Função para desencriptar valores recebidos em formato json com codificação base64
 # return int data decrypted from a 16 bytes binary string and coded base64
 def decrypt_intvalue(client_id, data_arg):
    key = base64.b64decode(users[client_id]["cipher"])
    cipher = AES.new(key, AES.MODE_ECB)
    data = base64.b64decode(data_arg)
    data = cipher.decrypt(data)
    return int(str(data, "utf8"))
 # Função auxiliar para gerar o resultado - já está implementada
 # return int value and list of description strings identifying the characteristic of the value
 def generate_result(list_values):
    if len(list_values) % 2 == 1:
        test = 4
    else:
        test = 3
    minimal = min(list_values)
    maximal = max(list_values)
    first = list_values[0]
    last = list_values[-1]
    choice = random.randint(0, test)
    if choice == 0:
        if minimal == first:
            return first, ["min", "first"]
        elif maximal == first:
            return first, ["max", "first"]
        else:
            return first, ["first"]
    elif choice == 1:
        if minimal == last:
            return last, ["min", "last"]
        elif maximal == last:
            return last, ["max", "last"]
        else:
            return last, ["last"]
    elif choice == 2:
        if minimal == first:
            return first, ["min", "first"]
        elif minimal == last:
            return last, ["min", "last"]
        else:
            return minimal, ["min"]
    elif choice == 3:
        if maximal == first:
            return first, ["max", "first"]
        elif maximal == last:
            return last, ["max", "last"]
        else:
            return maximal, ["max"]
    elif choice == 4:
        list_values.sort()
        median = list_values[len(list_values) // 2]
        if median == first:
            return first, ["median", "first"]
        elif median == last:
            return last, ["median", "last"]
        else:
            return median, ["median"]
    else:
        return None
 # Incomming message structure:
 # { op = "START", client_id, [cipher] }
 # { op = "QUIT" }
 # { op = "NUMBER", number }
 # { op = "STOP", [shasum] }
 # { op = "GUESS", choice }
 #
 # Outcomming message structure:
 # { op = "START", status }
 # { op = "QUIT" , status }
 # { op = "NUMBER", status }
 # { op = "STOP", status, value }
 # { op = "GUESS", status, result }
 #
 # Suporte de descodificação da operação pretendida pelo cliente - já está implementada
 #
 def new_msg(client_sock):
    request = recv_dict(client_sock)
    # print( "Command: %s" % (str(request)) )
    op = request["op"]
    if op == "START":
        response = new_client(client_sock, request)
    elif op == "QUIT":  #
        response = quit_client(client_sock, request)
    elif op == "NUMBER":  #
        response = number_client(client_sock, request)
    elif op == "STOP":  #
        response = stop_client(client_sock, request)
    elif op == "GUESS":  #
        response = guess_client(client_sock, request)
    else:
        response = {"op": op, "status": False, "error": "Invalid operation"}
    # print (response)
    send_dict(client_sock, response)
 #
 # Suporte da criação de um novo cliente - operação START
 #
 # detect the client in the request
 # verify the appropriate conditions for executing this operation
 # process the client in the dictionary
 # return response message with or without error message
 def new_client(client_sock, request):
    client_id = request["client_id"]
    # check if the client_id is in users
    if client_id in users:
        response = {"op": "START", "status": False, "error": "Client already exists"}
        print("Failed to add client %s\nReason: %s" % (client_id, response["error"]))
    else:
        cipher = None
        # verify if client wants to use cipher
        if request["cipher"] is not None:
            cipher = request["cipher"]
        users[client_id] = {"socket": client_sock, "cipher": cipher, "numbers": [], "has_stopped": False}
        response = {"op": "START", "status": True}
        print("Client %s added\n" % client_id)
    return response
 #
 # Suporte da eliminação de um cliente - já está implementada
 #
 # obtain the client_id from his socket and delete from the dictionary
 def clean_client(client_sock):
    client_id = find_client_id(client_sock)
    # check if the client_id is in users
    if client_id is not None:
        print("Client %s removed\n" % client_id)
        del users[client_id]
 #
 # Suporte do pedido de desistência de um cliente - operação QUIT
 #
 # obtain the client_id from his socket
 # verify the appropriate conditions for executing this operation
 # process the report file with the QUIT result
 # eliminate client from dictionary using the function clean_client
 # return response message with or without error message
 def quit_client(client_sock, request):
    client_id = find_client_id(client_sock)
    # check if the client_id is in users
    if client_id is None:
        response = {"op": "QUIT", "status": False, "error": "Client does not exist"}
        print("Failed to remove client %s\nReason: %s" % (client_id, response["error"]))
    else:
        # remove client
        clean_client(client_sock)
        response = {"op": "QUIT", "status": True}
    return response
 #
 # Suporte da criação de um ficheiro csv com o respetivo cabeçalho - já está implementada
 #
 def create_file():
    with open("result.csv", "w", newline="") as csvfile:
        columns = ["client_id", "number_of_numbers", "guess"]
        fw = csv.DictWriter(csvfile, delimiter=",", fieldnames=columns)
        fw.writeheader()
 #
 # Suporte da actualização de um ficheiro csv com a informação do cliente
 #
 # update report csv file with the simulation of the client
 def update_file(client_id, size, guess):
    with open("result.csv", "a", newline="") as csvfile:
        writer = csv.DictWriter(csvfile, delimiter=',', fieldnames=["client_id", "number_of_numbers", "guess"])
        writer.writerow({"client_id": client_id, "number_of_numbers": size, "guess": guess})
 #
 # Suporte do processamento do número de um cliente - operação NUMBER
 #
 # obtain the client_id from his socket
 # verify the appropriate conditions for executing this operation
 # return response message with or without error message
 def number_client(client_sock, request):
    client_id = find_client_id(client_sock)
    # check if the client_id is in users
    if client_id is None:
        response = {"op": "NUMBER", "status": False, "error": "Client does not exist"}
        print("Failed to add number to client %s\nReason: %s" % (client_id, response["error"]))
    # check if client has stopped adding numbers
    elif users[client_id]["has_stopped"]:
        response = {"op": "NUMBER", "status": False, "error": "Client has stopped"}
        print("Failed to add number to client %s\nReason: %s" % (client_id, response["error"]))
    else:
        num = request["number"]
        # decrypt the number if a cipher is being used
        if users[client_id]["cipher"] is not None:
            num = decrypt_intvalue(client_id, num)
        users[client_id]["numbers"].append(num)
        response = {"op": "NUMBER", "status": True}
        print("Number %d added to client %s\n" % (num, client_id))
    return response
 #
 # Suporte do pedido de terminação de um cliente - operação STOP
 #
 # obtain the client_id from his socket
 # verify the appropriate conditions for executing this operation
 # randomly generate a value to return using the function generate_result
 # process the report file with the result
 # return response message with result or error message
 def stop_client(client_sock, request):
    client_id = find_client_id(client_sock)
    if client_id is None:
        response = {"op": "STOP", "status": False, "error": "Client does not exist"}
        print("Failed to stop client %s\nReason: %s" % (client_id, response["error"]))
    elif len(users[client_id]["numbers"]) < 1:
        response = {"op": "STOP", "status": False, "error": "Client has not yet sent any number"}
        print("Failed to stop client %s\nReason: %s" % (client_id, response["error"]))
    else:
        # creates the synthesis for the list
        hasher = SHA256.new()
        for number in users[client_id]["numbers"]:
            hasher.update(bytes(str(number), "utf8"))
        # compares the synthesis of the server and the client to see if they match
        if hasher.hexdigest() != request["shasum"]:
            response = {"op": "STOP", "status": False, "error": "Server numbers list synthesis doesn't match with client list"}
            print("Failed to stop client %s\nReason: %s" % (client_id, response["error"]))
        else:
            # generates the result
            value, solution = generate_result(users[client_id]["numbers"])
            # encrypts the value if a cipher is being used
            if users[client_id]["cipher"] is not None:
                encripted_value = encrypt_intvalue(client_id, value)
            else:
                encripted_value = value
            update_file(client_id, len(users[client_id]["numbers"]), solution)
            response = {"op": "STOP", "status": True, "value": encripted_value}
            users[client_id]["solution"] = solution
            users[client_id]["has_stopped"] = True
            print("Client %s stopped\nChosen number: %d\nSolution: %s" % (client_id, value, solution))
    return response
 #
 # Suporte da adivinha de um cliente - operação GUESS
 #
 # obtain the client_id from his socket
 # verify the appropriate conditions for executing this operation
 # eliminate client from dictionary
 # return response message with result or error message
 def guess_client(client_sock, request):
    client_id = find_client_id(client_sock)
    if client_id is None:
        response = {"op": "GUESS", "status": False, "error": "Client does not exist"}
        print("Failed to guess client %s\nReason: %s" % (client_id, response["error"]))
    elif not users[client_id]["has_stopped"]:
        response = {"op": "GUESS", "status": False, "error": "Client has not yet stopped"}
        print("Failed to guess client %s\nReason: %s" % (client_id, response["error"]))
    else:
        choice = request["choice"]
        response = {"op": "GUESS", "status": True, "result": choice == users[client_id]["solution"]}
        print("Client %s guessed %s\n" % (client_id, choice))
    return response
 def verify_port(port):
    # verify if port is a number
    if not port.isdigit():
        return {"status": False, "error": "Port must be an integer"}
    # verify if port is between 1024 and 65535
    if not (1024 <= int(port) <= 65535):
        return {"status": False, "error": "Port number must be between 1024 and 65535"}
    return {"status": True, "port": int(port)}
 def main():
    # validate the number of arguments and eventually print error message and exit with error
    # verify type of arguments and eventually print error message and exit with error
    if len(sys.argv) != 2:
        print("Usage: python3 %s <port>" % sys.argv[0])
        sys.exit(1)
    # obtain the port number
    port = sys.argv[1]
    verified = verify_port(port)
    if not verified["status"]:
        print(f"{verified['error']}")
        sys.exit(1)
    port = verified["port"]
    # create the server socket
    try:
        hostname = socket.gethostbyname(socket.gethostname())
        server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        server_socket.bind((hostname, port))
        print(f"Server started.\nHostname: {hostname}\nPort: {port}\n-----------------------------------------------------\n")
    # handle errors while creating server socket and exit with error
    except OSError:
        print(f"Failed to create server socket, maybe the port is already in use?\n")
        sys.exit(1)
    server_socket.listen()
    clients = []
    create_file()
    while True:
        try:
            available = select.select([server_socket] + clients, [], [])[0]
        except ValueError:
            # Sockets may have been closed, check for that
            for client_sock in clients:
                if client_sock.fileno() == -1:
                    clients.remove(client_sock)  # closed
            continue  # Reiterate select
        for client_sock in available:
            # New client?
            if client_sock is server_socket:
                newclient, addr = server_socket.accept()
                clients.append(newclient)
            # Or an existing client
            else:
                # See if client sent a message
                if len(client_sock.recv(1, socket.MSG_PEEK)) != 0:
                    # client socket has a message
                    # print ("server" + str (client_sock))
                    new_msg(client_sock)
                else:  # Or just disconnected
                    clients.remove(client_sock)
                    clean_client(client_sock)
                    client_sock.close()
                    break  # Reiterate select
 if __name__ == "__main__":
    main()
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_client.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_client.py
@ -1,344 +0,0 @@
 import socket
 from subprocess import Popen
 from subprocess import PIPE
 import pytest
 # class for colors in terminal
 class Tcolors:
    HEADER = '\033[95m'
    OKBLUE = '\033[94m'
    OKCYAN = '\033[96m'
    OKGREEN = '\033[92m'
    WARNING = '\033[93m'
    FAIL = '\033[91m'
    ENDC = '\033[0m'
    BOLD = '\033[1m'
    UNDERLINE = '\033[4m'
 def test_arguments():
    # start of testing lack of or too many sys.argv
    proc = Popen("python3 client.py", stdout=PIPE, shell=True)
    output = proc.stdout.read()
    assert output == f"{Tcolors.WARNING}Usage: python3 client.py client_id port DNS{Tcolors.ENDC}\n".encode("utf-8")
    proc = Popen("python3 client.py test", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Usage: python3 client.py client_id port DNS{Tcolors.ENDC}\n"
    proc = Popen("python3 client.py test 2000 123.245.14.25 123", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Usage: python3 client.py client_id port DNS{Tcolors.ENDC}\n"
    # end of testing lack of or too many sys.argv
 def test_invalid_port():
    # start of testing invalid port
    proc = Popen("python3 client.py test 1000", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Port number must be between 1024 and 65535{Tcolors.ENDC}\n"
    proc = Popen("python3 client.py test 1000000", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Port number must be between 1024 and 65535{Tcolors.ENDC}\n"
    proc = Popen("python3 client.py test test", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Port must be an integer{Tcolors.ENDC}\n"
    # end of testing invalid port
 def test_invalid_ip():
    # start of testing invalid IP address
    proc = Popen("python3 client.py test 2000 2154", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Invalid DNS address{Tcolors.ENDC}\n"
    proc = Popen("python3 client.py test 2000 256.256.256.256", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Invalid DNS address{Tcolors.ENDC}\n"
    proc = Popen("python3 client.py test 2000 255.255.str.255", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    assert output == f"{Tcolors.WARNING}Invalid DNS address{Tcolors.ENDC}\n"
    # end of testing invalid IP address
 def test_invalid_connection():
    # start of testing an invalid connection to server
    proc = Popen("python3 client.py test 2040", stdout=PIPE, shell=True)
    output = proc.stdout.read().decode("utf-8")
    hostname = socket.gethostbyname(socket.gethostname())
    port = proc.args.split(" ")[3]
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.FAIL}Error: connection to server failed{Tcolors.ENDC}\n"""
    # end of testing an invalid connection to server
 def test_valid_connection():
    # start of testing a valid connection to server
    server = Popen("python3 server.py 2000", stdout=PIPE, shell=True)
    client_test = Popen("python3 client.py test 2000", stdout=PIPE, shell=True)
    output = client_test.stdout.read().decode("utf-8")
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}"""
    # end of testing a valid connection to server
 def test_start_option():
    # start of testing the START option
    server = Popen("python3 server.py 3000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 3000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the START option
 def test_quit_option():
    # start of testing the QUIT option
    server = Popen("python3 server.py 4000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 4000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"quit")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}Quitting...
 {Tcolors.OKGREEN}Client quit with success\n""".encode("utf-8")
    # end of testing the QUIT option
 def test_number_option():
    # start of testing the NUMBER option
    server = Popen("python3 server.py 5000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 5000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny\nnumber\n200")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}{Tcolors.BOLD}Number > {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}Number added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the NUMBER option
 def test_guess_without_stopping():
    # start of testing the GUESS option without a number
    server = Popen("python3 server.py 6000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 6000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny\nguess")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.WARNING}You can't guess before stopping the game\n{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the GUESS option without a number
 def test_stop_option():
    # start of testing the STOP option
    server = Popen("python3 server.py 7000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 7000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny\nnumber\n200\nstop")[0]
    data = 200
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}{Tcolors.BOLD}Number > {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}Number added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nChosen number: {Tcolors.UNDERLINE}{data}{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the STOP option
 def test_guess_without_starting():
    # start of testing the GUESS option without starting the game
    server = Popen("python3 server.py 8000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 8000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"guess")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the GUESS option without starting the game
 def test_number_without_starting():
    # start of testing the NUMBER option without starting the game
    server = Popen("python3 server.py 9000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 9000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"number")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the NUMBER option without starting the game
 def test_stop_without_starting():
    # start of testing the STOP option without starting the game
    server = Popen("python3 server.py 10000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 10000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"stop")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.WARNING}You must start the game first\n{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the STOP option without starting the game
 def test_stop_without_numbers():
    # start of testing the STOP option after stopping the game
    server = Popen("python3 server.py 11000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 11000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny\nstop")[0]
    client_test.terminate()
    server.terminate()
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.FAIL}Error: Client has not yet sent any number{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
    # end of testing the STOP option after stopping the game
 def test_stop_after_stopping():
    # start of testing the STOP option after stopping the game
    server = Popen("python3 server.py 12000", stdout=PIPE, shell=True, close_fds=True)
    client_test = Popen("python3 client.py test 12000", stdout=PIPE, stdin=PIPE, shell=True)
    port = client_test.args.split(" ")[3]
    hostname = socket.gethostbyname(socket.gethostname())
    output = client_test.communicate(input=b"start\ny\nnumber\n123\nstop\nstop")[0]
    client_test.terminate()
    server.terminate()
    data = 123
    assert output == f"""{Tcolors.WARNING}Connecting to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.WARNING}...{Tcolors.ENDC}
 {Tcolors.OKGREEN}Connected to {Tcolors.UNDERLINE}{hostname}:{port}{Tcolors.ENDC}{Tcolors.OKGREEN} as client {Tcolors.UNDERLINE}{client_test.args.split(" ")[2]}\n{Tcolors.ENDC}
 {Tcolors.OKCYAN}{Tcolors.BOLD}{Tcolors.UNDERLINE}Number characteristics guesser game!{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}Do you wish to use a cipher? {Tcolors.BOLD}(Y/N)\n> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nClient added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}
 {Tcolors.ENDC}{Tcolors.BOLD}Number > {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}Number added with success{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.OKGREEN}\nChosen number: {Tcolors.UNDERLINE}{data}{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}{Tcolors.ENDC}{Tcolors.WARNING}You can't stop the game again\n{Tcolors.ENDC}
 {Tcolors.ENDC}\nOperation? (START, QUIT, NUMBER, STOP, GUESS)\n{Tcolors.BOLD}> {Tcolors.UNDERLINE}""".encode("utf-8")
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_server.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_server.py
@ -1,39 +0,0 @@
 import socket
 from subprocess import Popen
 from subprocess import PIPE
 import pytest
 def test_lack_args():
    # no args
    proc = Popen("python3 server.py", stdout=PIPE, shell=True, close_fds=True)
    output = proc.communicate()[0]
    assert output == "Usage: python3 server.py <port>\n".encode("utf-8")
 def test_too_many_args():
    # too many args
    proc = Popen("python3 server.py 1234 1234", stdout=PIPE, shell=True, close_fds=True)
    output = proc.communicate()[0]
    assert output == "Usage: python3 server.py <port>\n".encode("utf-8")
 def test_str_port():
    proc = Popen("python3 server.py abc", stdout=PIPE, shell=True, close_fds=True)
    output = proc.communicate()[0]
    proc.terminate()
    assert output == "Port must be an integer\n".encode("utf-8")
 def test_port_in_use():
    Popen("python3 server.py 50000", stdout=PIPE, shell=True, close_fds=True)
    proc2 = Popen("python3 server.py 50000", stdout=PIPE, shell=True, close_fds=True)
    output = proc2.communicate()[0]
    proc2.terminate()
    hostname = socket.gethostbyname(socket.gethostname())
    port = 50000
    assert output == f"Failed to create server socket, maybe the port is already in use?\n\n".encode("utf-8")
--- a/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_units.py
+++ b/1ano/2semestre/labi/labi2023-ap-g6/client_server/test_units.py
@ -1,50 +0,0 @@
 import random
 import socket
 import subprocess
 import sys
 from subprocess import Popen
 from subprocess import PIPE
 import pytest
 import client
 import server
 def test_client_verify_port():
    assert client.verify_port("0") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert client.verify_port("1023") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert client.verify_port("1024") == {'status': True, "port": 1024}
    assert client.verify_port("65535") == {'status': True, "port": 65535}
    assert client.verify_port("65536") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert client.verify_port("100000") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert client.verify_port("example") == {'status': False, 'error': 'Port must be an integer'}
    assert client.verify_port("test") == {'status': False, 'error': 'Port must be an integer'}
 def test_verify_hostname():
    assert client.verify_hostname("localhost") == {'status': True}
    assert client.verify_hostname("123.123.123.123") == {'status': True}
    assert client.verify_hostname("example.com") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("test") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("123.123.123") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("413.123.123.123") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("123.413.123.123") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("123.123.413.123") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("123.123.123.413") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("-1.-1.-1.-1") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("256.256.256.256") == {'status': False, 'error': 'Invalid DNS address'}
    assert client.verify_hostname("0.0.0.0") == {'status': True}
    assert client.verify_hostname("255.255.255.255") == {'status': True}
 def test_server_verify_port():
    assert server.verify_port("0") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert server.verify_port("1023") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert server.verify_port("1024") == {'status': True, "port": 1024}
    assert server.verify_port("65535") == {'status': True, "port": 65535}
    assert server.verify_port("65536") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert server.verify_port("100000") == {'status': False, 'error': 'Port number must be between 1024 and 65535'}
    assert server.verify_port("example") == {'status': False, 'error': 'Port must be an integer'}
    assert server.verify_port("test") == {'status': False, 'error': 'Port must be an integer'}
--- a/1ano/2semestre/labi/labi2023-ap-g6/readme.txt
+++ b/1ano/2semestre/labi/labi2023-ap-g6/readme.txt
@ -1,2 +0,0 @@
 Nome: Rúben Gomes, NMec: 113435, Email: rlcg@ua.pt, Trabalho: 50%
 Nome: Tiago Garcia, NMec: 114184, Email: tiago.rgarcia@ua.pt, Trabalho: 50%
		`@ -1,2 +0,0 @@`
			`Nome: Rúben Gomes, NMec: 113435, Email: rlcg@ua.pt, Trabalho: 50%`
			`Nome: Tiago Garcia, NMec: 114184, Email: tiago.rgarcia@ua.pt, Trabalho: 50%`