Exemple #1
0
    def test_2_read(self):
        rsock = LoopSocket()
        wsock = LoopSocket()
        rsock.link(wsock)
        p = Packetizer(rsock)
        p.set_log(util.get_logger('ssh.transport'))
        p.set_hexdump(True)
        cipher = AES.new('\x00' * 16, AES.MODE_CBC, '\x55' * 16)
        p.set_inbound_cipher(cipher, 16, SHA, 12, '\x1f' * 20)

        wsock.send('C\x91\x97\xbd[P\xac%\x87\xc2\xc4k\xc7\xe98\xc0' + \
                   '\x90\xd2\x16V\rqsa8|L=\xfb\x97}\xe2n\x03\xb1\xa0\xc2\x1c\xd6AAL\xb4Y')
        cmd, m = p.read_message()
        self.assertEquals(100, cmd)
        self.assertEquals(100, m.get_int())
        self.assertEquals(1, m.get_int())
        self.assertEquals(900, m.get_int())
Exemple #2
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    def test_1_write (self):
        rsock = LoopSocket()
        wsock = LoopSocket()
        rsock.link(wsock)
        p = Packetizer(wsock)
        p.set_log(util.get_logger('ssh.transport'))
        p.set_hexdump(True)
        cipher = AES.new('\x00' * 16, AES.MODE_CBC, '\x55' * 16)
        p.set_outbound_cipher(cipher, 16, SHA, 12, '\x1f' * 20)

        # message has to be at least 16 bytes long, so we'll have at least one
        # block of data encrypted that contains zero random padding bytes
        m = Message()
        m.add_byte(chr(100))
        m.add_int(100)
        m.add_int(1)
        m.add_int(900)
        p.send_message(m)
        data = rsock.recv(100)
        # 32 + 12 bytes of MAC = 44
        self.assertEquals(44, len(data))
        self.assertEquals('\x43\x91\x97\xbd\x5b\x50\xac\x25\x87\xc2\xc4\x6b\xc7\xe9\x38\xc0', data[:16])
Exemple #3
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 def test_2_read (self):
     rsock = LoopSocket()
     wsock = LoopSocket()
     rsock.link(wsock)
     p = Packetizer(rsock)
     p.set_log(util.get_logger('ssh.transport'))
     p.set_hexdump(True)
     cipher = AES.new('\x00' * 16, AES.MODE_CBC, '\x55' * 16)
     p.set_inbound_cipher(cipher, 16, SHA, 12, '\x1f' * 20)
     
     wsock.send('C\x91\x97\xbd[P\xac%\x87\xc2\xc4k\xc7\xe98\xc0' + \
                '\x90\xd2\x16V\rqsa8|L=\xfb\x97}\xe2n\x03\xb1\xa0\xc2\x1c\xd6AAL\xb4Y')
     cmd, m = p.read_message()
     self.assertEquals(100, cmd)
     self.assertEquals(100, m.get_int())
     self.assertEquals(1, m.get_int())
     self.assertEquals(900, m.get_int())
Exemple #4
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    def test_1_write (self):
        rsock = LoopSocket()
        wsock = LoopSocket()
        rsock.link(wsock)
        p = Packetizer(wsock)
        p.set_log(util.get_logger('ssh.transport'))
        p.set_hexdump(True)
        cipher = AES.new('\x00' * 16, AES.MODE_CBC, '\x55' * 16)
        p.set_outbound_cipher(cipher, 16, SHA, 12, '\x1f' * 20)

        # message has to be at least 16 bytes long, so we'll have at least one
        # block of data encrypted that contains zero random padding bytes
        m = Message()
        m.add_byte(chr(100))
        m.add_int(100)
        m.add_int(1)
        m.add_int(900)
        p.send_message(m)
        data = rsock.recv(100)
        # 32 + 12 bytes of MAC = 44
        self.assertEquals(44, len(data))
        self.assertEquals('\x43\x91\x97\xbd\x5b\x50\xac\x25\x87\xc2\xc4\x6b\xc7\xe9\x38\xc0', data[:16])