BiztProtoBois/client
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client
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pseudokod
continuous-integration/drone/push Build is passing Details

This commit is contained in:
Torma Kristóf 2021-04-23 18:47:55 +02:00
parent eca394e7b7
commit 31dee1b7d5
Signed by: tormakris
GPG Key ID: DC83C4F2C41B1047
2 changed files with 65 additions and 30 deletions
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7
client/client.py
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@ -1,10 +1,11 @@
import os, sys, getopt, json import getopt
import json
import os
import sys
from Crypto.PublicKey import RSA from Crypto.PublicKey import RSA
from Crypto.PublicKey.RSA import RsaKey from Crypto.PublicKey.RSA import RsaKey
import ftplib
ABSOLUTE_PATH = os.path.abspath(os.path.dirname(sys.argv[0])) ABSOLUTE_PATH = os.path.abspath(os.path.dirname(sys.argv[0]))
DOWNLOAD_LOCATION = ABSOLUTE_PATH + os.path.sep + 'download' + os.path.sep DOWNLOAD_LOCATION = ABSOLUTE_PATH + os.path.sep + 'download' + os.path.sep
CONFIG_LOCATION = ABSOLUTE_PATH + os.path.sep + 'config' + os.path.sep + 'config.txt' CONFIG_LOCATION = ABSOLUTE_PATH + os.path.sep + 'config' + os.path.sep + 'config.txt'

88
client/netwrapper.py
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@ -5,57 +5,91 @@ from netsim import network_interface
class NetWrapper: class NetWrapper:
SERVER_ADDRESS = 'A' SERVER_ADDRESS = 'A'
def __init__(self, publicKey: str, privateKey: str, clientAddress: str, username: str, cipherKey: str = ""):
def __init__(self, publicKey: str, privateKey: str, clientAddress: str, cipherKey: str = ""):
# Create network_interface: network_interface(path, addr) path root is shared with network / addr is own address # Create network_interface: network_interface(path, addr) path root is shared with network / addr is own address
self.network = network_interface('./network/',clientAddress) self.network = network_interface('./network/', clientAddress)
self.username = username
self.publicKey = publicKey self.publicKey = publicKey
self.privateKey = privateKey self.privateKey = privateKey
self.cipherKey = cipherKey self.cipherKey = cipherKey
def identifyServer(self,message: bytes) -> bytes: def identifyServer(self) -> bytes:
#Message is coded with Server RSA public key in string byte format # Message is coded with Server RSA public key in string byte format
#Creat json with format: # Creat json with format:
# json = { # fos = {
# 'type':'IDY', # 'type':'IDY',
# 'source':self.network.own_addr, # 'source':self.network.own_addr,
# 'message': message # 'username': self.username,
# 'message': message <- random generalt, hogy biztos ne legyen elore ismert a challange
# } # }
#message = json.dump() # jsonmsg = json.dump(fos)
#message.encode('utf-8') # asd = jsonmsg.encode('UTF-8')
#network_interface.send_msg(self.SERVER_ADDRESS,message) # network_interface.send_msg(self.SERVER_ADDRESS,asd)
#Listen for response # Listen for response
#status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message # status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message
#return status, msg # truemsg = msg.decode('UTF-8') nezd meg, h ez tenyleg bajttomb-e, testverem
# jsonmsg = json.loads(truemsg)
# plaintextrcvmsg = jsonmsg['message'] dekodolod rsa-val
# if (plaintextrcvmsg == message): akkor goodness else: fail
# return status, msg
pass pass
def authenticate(self, username: str, password: str): def createEncryptedChannel(self):
# json = { # pyDH-t hasznalsz
# pydh = pyDH() #alapertelmezett cuccok jok
# mypubkey = pydh.gen_public_key()
# 'type':'DH',
# 'source':self.network.own_addr
# fos = {,
# 'message': mypubkey <- pls titkosisd a szerver publikus rsa kulcsaval, hogy authentikalt legyen a dh procedura
# }
# jsonmsg = json.dump(fos)
# asd = jsonmsg.encode('UTF-8')
# self.network.send_msg(asd)
# status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message
# truemsg = msg.decode('UTF-8') nezd meg, h ez tenyleg bajttomb-e, testverem
# jsonmsg = json.loads(truemsg)
# self.sharedkey = pydh.gen_shared_key(jsonmsg['message']<-dekoldold a sajat publikus rsa kulccsal)
# self.chachageci = ChaChaGeci(self.sharedkey) <- a lenyeg, h a kapott osztott kulccsal legyen egy chacha stream ciphered
pass
def authenticate(self, password: str):
# message = self.chachageci.titkosisd_jol_testverem(f'LIN %self.username% %password%')
# fos = {
# 'type':'AUT', # 'type':'AUT',
# 'source':self.network.own_addr, # 'source':self.network.own_addr,
# 'message': message # 'message': message
# } # }
# jsonmsg = json.dump(fos)
# asd = jsonmsg.encode('UTF-8')
# network_interface.send_msg(self.SERVER_ADDRESS,asd)
# status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message
# truemsg = msg.decode('UTF-8') nezd meg, h ez tenyleg bajttomb-e, testverem
# jsonmsg = json.loads(truemsg)
# #
pass pass
def connectToServer(self):
#self.identifyServer()
#self.createEncryptedChannel()
#self.authenticate()
pass
def sendMessage(self, message: bytes): def sendMessage(self, message: bytes):
#message: encoding message with chacha20 # message: encoding message with chacha20
#json = { # json = {
# 'type':'CMD', # 'type':'CMD',
# 'source':self.network.own_addr, # 'source':self.network.own_addr,
# 'message': message # 'message': message
#} # }
#message = json.dump() # message = json.dump()
#message.encode('utf-8') # message.encode('utf-8')
#network_interface.send_msg(self.SERVER_ADDRESS,message) # network_interface.send_msg(self.SERVER_ADDRESS,message)
pass pass
def recieveMessage(self, message: bytes): def recieveMessage(self, message: bytes):
#status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message # status, msg = network_interface.receive_msg(blocking=True) -> status is boolean flag, msg is message
#Decode the message with chacha20 # Decode the message with chacha20
pass pass