def decryption_procedure(stego_image_name, key):
# Decryption Procedure
stego_image_name = output_path + "/" + stego_image_name
steganography.decode(stego_image_name, output_path)
shuffle.shuffle_unshuffle(output_path + "/" + encrypted_image_name)
RC4.rc4_decryption(output_path + "/" + encrypted_image_name, key,
output_path, decrypted_image_name_without_extension)
def receive2(self, dt):
global recv_sock, imageStart, mood_detect, RC4_on, message
if not imageStart:
return
try:
print("receive")
mode, stringData = customRecv(recv_sock)
if mode == 50:
data = np.fromstring(stringData, dtype='uint8')
if RC4_on:
KeyBytes = RC4.text_to_bytes('key.txt')
data = RC4.crypt(data, KeyBytes)
decimg = cv2.imdecode(data, 1)
if mood_detect:
decimg = fd.face_detect(decimg)
buf = b''.join(decimg)
image_texture = Texture.create(size=(640, 480), colorfmt='bgr')
image_texture.blit_buffer(buf,
colorfmt='bgr',
bufferfmt='ubyte')
self.texture = image_texture
elif mode == 10:
message = stringData.decode()
except:
pass
def encryption_procedure(sec_image_name, cov_image_name, key):
# Encryption Procedure
sec_image_name = input_path + sec_image_name
cov_image_name = input_path + cov_image_name
RC4.rc4_encryption(sec_image_name, key, output_path, encrypted_image_name)
shuffle.shuffle_unshuffle(output_path + "/" + encrypted_image_name)
steganography.encode(output_path + "/" + encrypted_image_name, output_path,
cov_image_name)
def threaded_client(conn):
while True:
data = conn.recv(1024)
if not data:
break
x = RC4.decrypt(data)
m = RC4.getMessage(x)
print("\nRECEIVED: ", m)
if not data:
break
conn.close()
def generate_keys(self):
self.key_material()
self.conn.read_key = self.conn.key_material[:16]
self.conn.write_key = self.conn.key_material[16:]
self.hexprint("generate_keys:\n", self.conn.read_key)
self.hexprint("", self.conn.write_key)
d = RC4.RC4()
self.conn.rc4_read_key = d.RC4_set_key(self.conn.read_key)
del d
d = RC4.RC4()
self.conn.rc4_write_key = d.RC4_set_key(self.conn.write_key)
del d
def connection_manager(clientSocket, clientAddress, inbox):
clientIP, PORT = clientAddress
if clientIP and PORT:
print "\n\nACCEPTED connection from: ", clientIP, " on port number: ", PORT
cipherText = clientSocket.recv(
BUFFER_SIZE) #retrieve the message from the client
if not cipherText:
print "\nMESSAGE WAS INVALID\n"
else:
dmessage = RC4.decrypt(
cipherText, 20,
"password") #decryption; 20 rounds of key scheduling
print "\nMESSAGE RECEIVED >> \r\n", dmessage
LocalTime = time.asctime(time.localtime(
time.time())) #get current time
savedMessage = "TIME RECEIVED: " + LocalTime + "\n\nMESSAGE: " + dmessage #add time to message
inbox.append(
savedMessage) ###STORE MESSAGE IN RECEIVED MESSAGES LIST
clientSocket.close()
def read_ssl(self, len=0):
buf = self.recvstuff(self.sck, 2)
if not buf:
raise OpenSSLException, "read_ssl: recv returned nothing. (IIS with no SSL config?)"
a = struct.unpack(">B", buf[0])[0]
b = struct.unpack(">B", buf[1])[0]
if not (a & 0x80):
read_len = ((a & 0x3f) << 8) | b
buf = self.recvstuff(self.sck, 1)
padding = struct.unpack(">B", buf[0])[0]
else:
read_len = ((a & 0x7f) << 8) | b
padding = 0
if len:
if read_len <= 0 or read_len > len:
print "warning! ssl_returned read_len: %d user_asked len: %d" % (
read_len, len)
if self.debug:
print "read_len %d padding %d" % (read_len, padding)
buf = self.recvstuff(self.sck, read_len)
if self.conn.encrypted:
if (MD5_DIGEST_LENGTH + padding) >= read_len:
if struct.unpack("B",
buf[0])[0] == SSL2_MT_ERROR and read_len == 3:
raise OpenSSLException, "error in read_ssl: crypto related."
else:
raise OpenSSLException, "read_ssl: short ssl packet."
else:
return buf
self.hexprint("read_ssl enc(md5+pad+text): ", buf)
d = RC4.RC4()
#self.hexprint("read_key: ", self.conn.read_key)
#d.RC4_set_key(self.conn.read_key)
text = d.RC4_update(self.conn.rc4_read_key, buf)
if padding > 0:
text = text[MD5_DIGEST_LENGTH:-padding]
else:
text = text[MD5_DIGEST_LENGTH:]
#text = MD5_DIGEST + clear text + padding
#strip padding and MD5_DIGEST
self.hexprint("read_ssl clear text:\n", text)
if struct.unpack("B", text[0])[0] == SSL2_MT_ERROR:
if read_len != 3:
raise OpenSSLException, "read_ssl: bad reply from server"
else:
raise OpenSSLException, "read_ssl: error from server"
return text
def encrypt(enc_type, message, key):
if enc_type == 2:
message = bbs.encrypt(message, key)
elif enc_type == 0:
message = des.encrypt(message, key)
elif enc_type == 1:
message = RC4.encrypt(message, key)
message = message + str(hmac.hmac(key, message))
return message
def client(conn):
while True:
reply = input("\nSEND: ")
if reply == "exit":
break
reply = "\nversion: 0.2" + "\r\nfrom: Jason" + "\r\nto: Friend" + "\r\n" + "\r\n" + reply
reply = RC4.secret(reply)
conn.send(reply)
print("[DISCONNECTED]")
conn.close()
def getInfo(): # 接受消息
while True:
data = ck.recv(1024) # 用于接受服务器发送的信息
key = "569716548"
box = RC4.init_box(key)
mingwen = RC4.ex_decrypt(data, box) # 解密消息
p = chaifen(mingwen) # 返回一个包含明文和签名的元组
print("拆分出的签名:")
print(p[1])
s = p[1]
s = s[2:len(s) - 1] #base前两位字符是b' ,所以从第三个字符开始才是签名
s = s.encode(encoding="utf-8")
m = MD5.md5(p[0]) # 对明文部分使用md5算法生成摘要
# signal2=KEY.sign(m)
v = RSA.Verify(m, s) # 验证签名
judge(v) # 判断安全性
text.insert(tkinter.INSERT, p[0])
def WEP64():
passphrase, keys = set_passphrase()
index = get_index(keys)
IV = 'a03177'.upper()
# IV = gen_iv()
#hex_IV = hex(IV)
#shex_IV = (hex_IV[2:]).zfill(6)
shex_IV = IV
key = (shex_IV + index).upper()
text = ''
print('Hex IV is: 0x%s' % shex_IV)
print('Working key is: %s' % key)
text = input('Text to encrypt or decrypt: ')
choice = input('Should text be encrypted? (y/n): ')
if choice == 'y':
text = RC4.encode(key, text)
elif choice == 'n':
text = RC4.decode(key, text)
print('Changed text:\n%s' % text)
def decrypt(dec_type, message, key):
mac = message[-40:]
message = message[:-40]
if dec_type == 2:
message = ecc.decrypt(message, key)
elif dec_type == 0:
message = des.decrypt(message, key)
elif dec_type == 1:
message = RC4.decrypt(message, key)
if (hmac.hmac(key, message) == mac):
return -1
return message
def sendMail():
friend = efriend.get() #发给谁
sendStr = esend.get() #发送的消息
#用MD5生成消息摘要
abstract = MD5.md5(sendStr)
#用RSA算法对消息摘要进行签名
signal1 = RSA.sign(str(abstract))
#生成消息
message = sendStr + '@' + str(signal1)
#用RC4算法对消息进行加密
key = "569716548"
box = RC4.init_box(key)
cipher = RC4.ex_encrypt(message, box)
#发送消息
sendStr = friend + ":" + cipher
ck.send(sendStr.encode("utf-8"))
def sender():
global conn_addr, RC4_on, send_sock
print("prepare to send\n")
sleep(2)
send_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
send_sock.connect(conn_addr)
encode_param = [int(cv2.IMWRITE_JPEG_QUALITY), 90]
ret, frame = capture.read()
while ret:
print("send")
result, imgencode = cv2.imencode('.jpg', np.fliplr(np.flipud(frame)),
encode_param)
data = np.array(imgencode)
if RC4_on:
KeyBytes = RC4.text_to_bytes('key.txt')
data = RC4.crypt(data, KeyBytes)
stringData = data.tostring()
customSend(send_sock, 50, stringData) # mode = 50 (Video send)
ret, frame = capture.read()
sleep(0.1)
send_sock.close()
cv2.destroyAllWindows()
def check(key):
"""
Encrypt the IV with the given key and checks with the keystream
"""
rc4 = RC4.RC4(key)
keystream = rc4.getKeystream(CHALLENGE_LEN)[16:]
#keystream = rc4.getKeystream(CHALLENGE_LEN)
if keystream == KEY_STREAM:
secret_key = unconvert_key(key)
print('\n -----KEY FOUNDED----\n\nKey : {0}\n'.format(secret_key))
raise Exception("Key founded stopping pool")
def connection_manager(clientSocket, clientAddress):
clientIP, PORT = clientAddress
if clientIP and PORT:
print "Accepted connection from: ", clientIP, " on port number: ", PORT
cipherText = clientSocket.recv(BUFFER_SIZE)
if cipherText:
dmessage = RC4.decrypt(cipherText, 200, "test")
print "\nMESSAGE RECEIVED >> ", dmessage
else:
print "\nMESSAGE WAS INVALID\n"
clientSocket.close()
def write_ssl(self, data):
if self.conn.encrypted:
total_len = len(data) + MD5_DIGEST_LENGTH
else:
total_len = len(data)
if total_len + 2 > MAX_BUFSIZ:
raise OpenSSLException, "write_ssl: buffer size too big"
if self.debug:
print "write_ssl total_len %d" % total_len
buf = struct.pack(">H", total_len | 0x8000)
if self.debug:
print "write seq: %d" % self.conn.write_seq
if self.conn.encrypted:
d = md5.new()
d.update(self.conn.write_key)
d.update(data)
seq = struct.pack(">L", self.conn.write_seq)
self.hexprint("sequence: ", seq)
d.update(seq)
self.hexprint("MD5 digest: \n", d.digest())
#RC4 encrypt the md5_hash+data
r = RC4.RC4()
#r.RC4_set_key(self.conn.write_key)
buf += r.RC4_update(self.conn.rc4_write_key, (d.digest() + data))
#append
else:
buf += data
if self.conn.encrypted:
self.hexprint("write_ssl encrypt text:\n", buf)
self.sendstuff(self.sck, buf)
self.conn.write_seq += 1
def main():
#get the config instance
config = Config()
scrap = scrap_website(config.getUserId(), config.getCourseNumber())
soup = BeautifulSoup(scrap.text, "html.parser")
ciphertext = soup.find('input', {"name": "Ciphertext"})['value']
if ciphertext:
key = config.getKey()
ciphertext, key = parsing_key_ciphertext(key, ciphertext)
rc4 = RC4()
rc4.set_key(key)
for i in range(len(ciphertext)):
ciphertext[i] ^= rc4.decrypt(i)
#verify our key
for i in range(20, 2):
if (ciphertext[i] != ciphertext[i + 1]):
print("wrong key")
return
res = ciphertext[20:len(ciphertext)].decode("ascii")
print(res)
elif ciphertext == None:
print("We couldnt find any input text called ciphertext")
print("Check to ensure you have the right website")
return
else:
print("No grade to show at the moment")
mess = raw_input("What would you like to hash?\n")
start = time.clock()
md5.init_mess(mess)
out_put = md5.hex_digest()
print out_put
end = time.clock()
print('--------------------------MD5 end--------------------------\n')
print('Cost ' + str(end - start) + 's\n')
costdic[choose] = end - start
elif choose == 7:
print('--------------------------RC4--------------------------\n')
mode = raw_input("1 Encrypt or 2 Decode \n")
if mode == '1':
start = time.clock()
message = RC4.get_message()
key = RC4.get_key()
box = RC4.init_box(key)
RC4.ex_encrypt(message, box, mode)
end = time.clock()
elif mode == '2':
message = RC4.get_message()
key = RC4.get_key()
box = RC4.init_box(key)
RC4.ex_encrypt(message, box, mode)
print('--------------------------RC4 end--------------------------\n')
print('Cost ' + str(end - start) + 's\n')
costdic[choose] = end - start
elif choose == 8:
print('--------------------------A5--------------------------\n')
mkey = b""
for line in tbslog.readlines():
line = line.strip()
if not line:
continue
flag = line[:len_of_mkey][:3]
if flag != b"013":
log_data += line
continue
else:
log_data_list.append((mkey, log_data))
log_data = line[len_of_mkey:]
mkey = RC4.decrypt(line[:len_of_mkey][3:], key_of_mkey)
if len(mkey) != 13:
mkey = b""
continue
if mkey and log_data:
log_data_list.append((mkey, log_data))
for key, value in log_data_list:
if not key or not value:
continue
log = RC4.decrypt(value, key)
pass
log_list = [
RC4.decrypt(value, key) for key, value in log_data_list
if key and value
NNSTU IRIT 16-V-2
Student: Shunin Kirill
1 10 2019
"""
# coding=utf-8
import RC4
n = 12
key = '12345'
with open('text.txt', 'r', encoding='utf-8') as input_data:
# Открываем исходный файл и записываем данные из него в переменную data.
data = input_data.read()
# Генерируем ключевой поток и шифруем исходные данные
s_block = RC4.s_block_generate(data, key, n)
encoded_data = RC4.encode(data, s_block)
with open('encoded.txt', 'w', encoding='utf-8') as out_data:
# Выводим шифр в файл encoded.txt
for element in encoded_data:
out_data.write(str(element) + ' ')
with open('encoded.txt', 'r', encoding='utf-8') as inpt_data:
# Открываем файл с шифром и записываем данные из него в переменную data.
data = inpt_data.read().split()
# Повторно генерируем ключевой поток и расшифровываем данные.
s_block = RC4.s_block_generate(data, key, n)
decoded_data = RC4.decode(data, s_block)
if clientSocket == None:
clientSocket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
try:
clientSocket.connect((phone_book[test], TCP_PORT))
except socket.error as msg:
print("\nError Message #" + str(errorCount + 1))
print("There was an ERROR with the connection :(")
clientSocket.close()
clientSocket = None
errorCount += 1
if clientSocket != None:
MESSAGE = raw_input("Enter a message to send: ")
TEST = MESSAGE
eMESSAGE = RC4.encrypt(MESSAGE, times, key)
print("The encrypted message is: ")
length = len(eMESSAGE)
toPrint = []
for i in range(0, length):
toPrint.append(eMESSAGE[i])
toShow = ''.join(toPrint)
print(toShow)
clientSocket.send(eMESSAGE) #data = s.recv(BUFFER_SIZE)
print("Sent message: ", eMESSAGE)
clientSocket.close()
def main():
name = ""
unable_to_connect = 1
valid_responseY = ["yes", "Yes", "YES", "y", "Y"]
valid_responseN = ["no", "No", "NO", "n", "N"]
option = ""
sent_messages = []
inbox = []
phone_book = {}
fileName = "phoneBook.txt"
welcome = "WELCOME TO TAUNET"
print_alternate_color(welcome)
phone_book = load_addresses(
fileName) #load usernames and addresses included in phoneBook.txt file
##START SERVER on its own thread##
thread.start_new_thread(
run_server, (inbox, 5)) #will queue 5 connections before refusing
##while not exit
while option != "7":
option = menu()
if option == "1": ##DISPLAY CONTACTS
print "\nHere are the listed contacts >>\n"
for j, k in phone_book.iteritems():
print "Username: "******"..........Address: " + k
if option == "2":
option = "2" ##ADD A CONTACT
already_exists = 1
while already_exists == 1: #while the user already exists in the dictionary
newUser = raw_input(
"\nEnter a new user name >> ") #prompt for a user name
if newUser in phone_book: #if user name already in book-->error
print("\nIt looks like that user ALREADY EXISTS!\n")
already_exists = 1
else:
already_exists = 0
if already_exists == 0:
newAddress = raw_input(
"\nEnter the address here >> ") #prompt for an address
addresses = phone_book.values() #store addresses in a list
if newAddress in addresses: #if address already in book-->error
already_exists = 1
print(
"\nIt looks like another user ALREADY has that address!!\n"
)
##END while user already exists loop
phone_book[newUser] = newAddress #else-->add to dictionary
if option == "3": #REMOVE A CONTACT
already_exists = 0
while already_exists == 0: #while the user entered is NOT in the dictionary
toRemove = raw_input("\nEnter a user name to remove >> "
) #prompt for a user name
if toRemove not in phone_book: #if user name not in book-->error
print("\nIt looks like that user DOES NOT EXIST!\n")
already_exists = 0
else:
already_exists = 1
choice = are_you_sure()
if choice in valid_responseY: #yes, remove this contact
del phone_book[toRemove]
##END REMOVE CONTACT OPTION
if option == "4": ##SEND A MESSAGE
unable_to_connect = 1
name = ""
while unable_to_connect == 1:
choice = "no"
while choice in valid_responseN:
while name not in phone_book: #user name NOT in phone book
name = raw_input(
"\nEnter a username to send a message to >> ")
if name not in phone_book: #if user entered does NOT exist
print "\nUsername is NOT in phone book. Make sure it's correct (including case).\n"
print "\nThe address of", name, "is", phone_book[
name], "\n"
choice = ""
while (choice not in valid_responseY
and choice not in valid_responseN
): #while user input is invalid
choice = raw_input(
"\nAre you sure this is who you want to send a message to? Enter 'yes' or 'no' >> "
)
if (choice not in valid_responseY
and choice not in valid_responseN):
print "\nEnter a VALID response!\n"
##end while choice != "yes" and choice != "no" loop
if choice in valid_responseN: #no
name = "" #clear name
##end while choice == "no" loop
choice = ""
clientSocket = socket.socket(socket.AF_INET,
socket.SOCK_STREAM)
keylength = raw_input("\nEnter the keystream byte size: ")
key = raw_input("\nEnter a key (for encryption): ")
times = int(input("\nEnter the key scheduling count: "))
errorCount = 0
error = 1
while (error == 1 and errorCount < 3):
if clientSocket == None:
clientSocket = socket.socket(socket.AF_INET,
socket.SOCK_STREAM)
try:
clientSocket.connect((phone_book[name], TCP_PORT))
print "\nTrying to CONNECT to " + phone_book[
name] + "\n"
except socket.error as msg: #if cannot connect to user name provided (i.e. user is unavailable)
print "\nError Message #" + str(errorCount + 1)
print "\nThere was an ERROR with the connection :(\n"
clientSocket.close()
clientSocket = None
errorCount += 1
if clientSocket:
error = 0 #no error
if errorCount == 3: #failed to connect after 3 attempts
unable_to_connect = 1
errorCount = 0
print "\nIt looks like " + name + " is UNAVAILABLE...\n"
name = ""
break ##go back to MENU
else:
print "\nCONNECTION SUCCESSFUL :):):)\n"
unable_to_connect = 0
##end while unable_to_connect loop
if unable_to_connect == 0: #if CONNECTED
ready_to_send = 0
response = ""
while ready_to_send == 0:
message = ""
count = 0
finished = "DONE"
full_message = ""
while 1:
if count == 0:
message = raw_input(
"\nEnter a message to send to '" + name +
"'. \nEnter 'DONE' followed by hitting the 'ENTER' button to finish your input. \nEnter your input here >> "
)
else:
message = raw_input(
"\nEnter the NEXT LINE of the message here >> "
)
if message.strip(
) == finished: #if user wants to stop entering lines, and enteres "DONE"
break #leave message input loop
else:
if (count > 0):
message = "\t" + message + "\r\n"
else:
message = message + "\r\n"
full_message += message
count += 1
while (response not in valid_responseY
and response not in valid_responseN):
print "\nHere's the message you entered:\n\n >>\n\t" + full_message + " <<\n"
response = raw_input(
"\nAre you sure you want to send this? Enter 'yes' or 'no' (*Note* Entering 'no' will erase the previously entered message >> "
)
if (response not in valid_responseY
and response not in valid_responseN):
print "\nEnter a VALID response!\n"
#END while invalid response loop
if response in valid_responseY:
ready_to_send = 1
else: #response = 'NO'
response = ""
ready_to_send = 0
#END while NOT ready to send loop
version = "version: 0.2\r\n"
sender = "from: Josh\r\n"
recipient = "to: " + name + "\r\n\r\n\t"
header = version + sender + recipient
hmessage = header + full_message #prepend header to message
##STORE MESSAGE W/ HEADER IN SENT MESSAGES FILE
LocalTime = time.asctime(time.localtime(
time.time())) #get current time
savedMessage = "TIME SENT: " + LocalTime + "\n\nMESSAGE: " + hmessage #add time to message
#savedMessage = LocalTime + "\n" + hmessage #add time to message
sent_messages.append(savedMessage) #add to sent messages list
emessage = RC4.encrypt(
hmessage, times, key
) #encrypt message; prepend IV to encrypted message --> cipherText
clientSocket.send(emessage) #send
clientSocket.close()
#END IF CONNECTED statement
#END IF OPTION == 3; return to main loop (menu)
if option == "5":
option = "5" ##DISPLAY SENT MESSAGES
count = len(sent_messages)
if count != 0:
print "\nHere are your SENT messages:\n"
for j in range(0, count):
print str(j + 1) + "). " + sent_messages[j] + "\n"
else:
print "\nYou haven't sent any messages yet!\n"
if option == "6":
option = "6" ##DISPLAY RECEIVED MESSAGES
count = len(inbox) #get number of messages in the inbox
if count != 0:
print "\nHere are your RECEIVED messages:\n"
for j in range(0, count):
print str(j + 1) + "). " + inbox[j] + "\n"
else:
print "\nYou haven't received any messages yet!\n"
if option == "7":
option = "7" ##EXIT PROGRAM
#SAVE address to phoneBOOK.txt file
file = open(fileName, "w") #open file to save addresses
for username, address in phone_book.iteritems():
file.write(
username + "\n" + address + "\n"
) #write usernames and address to a file; each separated by a newline
file.close() #close file
print "\n\nEXITING THE PROGRAM...\n\n\n\n...GOODBYE...\n\n\n"
with open('cipher_simple.txt', 'r') as cfile:
for line in cfile:
for c in line:
if c != ' ' and c != '\n':
cipher += c
print('\nPlaintext challenge: \n%s\n' % plain)
print(len(plain))
print('\nCiphertext response: \n%s\n' % cipher)
print(len(cipher))
wait = input('Enter to start')
while current != 'FFFFFFFFFF':
working_text = RC4.decode(combo, cipher)
#print('Plantext: %s' % plain)
#print('Working: %s' % working_text)
if plain in working_text:
print('PASSWORD FOUND! %s' % combo)
print('Plaintext: %s' % plain)
print('Working: %s' % working_text)
break
else:
#print('Incrementing %s ' % current),
current_int = int(current, 16)
current_int += 1
current = ((hex(current_int))[2:]).zfill(10)
#print('to %s' % current)
combo = (IV + current).upper()
print('Incrementing to %s' % combo)
with open('cipher_simple.txt', 'r') as cfile:
for line in cfile:
for c in line:
if c != ' ' and c != '\n':
cipher += c
print('\nPlaintext challenge: \n%s\n' % plain)
print(len(plain))
print('\nCiphertext response: \n%s\n' % cipher)
print(len(cipher))
wait = input('Enter to start')
while current != 'FFFFFFFFFF':
working_text = RC4.decode(combo, cipher)
#print('Plantext: %s' % plain)
#print('Working: %s' % working_text)
if plain in working_text:
print('PASSWORD FOUND! %s' % combo)
print('Plaintext: %s' % plain)
print('Working: %s' % working_text)
break
else:
#print('Incrementing %s ' % current),
current_int = int(current, 16)
current_int += 1
current = ((hex(current_int))[2:]).zfill(10)
#print('to %s' % current)
combo = (IV + current).upper()
print('Incrementing to %s' % combo)