def test_1_write(self): rsock = LoopSocket() wsock = LoopSocket() rsock.link(wsock) p = Packetizer(wsock) p.set_log(util.get_logger('paramiko.transport')) p.set_hexdump(True) encryptor = Cipher(algorithms.AES(zero_byte * 16), modes.CBC(x55 * 16), backend=default_backend()).encryptor() p.set_outbound_cipher(encryptor, 16, sha1, 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(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.assertEqual(44, len(data)) self.assertEqual( b'\x43\x91\x97\xbd\x5b\x50\xac\x25\x87\xc2\xc4\x6b\xc7\xe9\x38\xc0', data[:16])
def test_3_closed(self): if sys.platform.startswith("win"): # no SIGALRM on windows return rsock = LoopSocket() wsock = LoopSocket() rsock.link(wsock) p = Packetizer(wsock) p.set_log(util.get_logger('paramiko.transport')) p.set_hexdump(True) encryptor = Cipher(algorithms.AES(zero_byte * 16), modes.CBC(x55 * 16), backend=default_backend()).encryptor() p.set_outbound_cipher(encryptor, 16, sha1, 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(byte_chr(100)) m.add_int(100) m.add_int(1) m.add_int(900) wsock.send = lambda x: 0 from functools import wraps import errno import os import signal class TimeoutError(Exception): def __init__(self, error_message): if hasattr(errno, 'ETIME'): self.message = os.sterror(errno.ETIME) else: self.messaage = error_message def timeout(seconds=1, error_message='Timer expired'): def decorator(func): def _handle_timeout(signum, frame): raise TimeoutError(error_message) def wrapper(*args, **kwargs): signal.signal(signal.SIGALRM, _handle_timeout) signal.alarm(seconds) try: result = func(*args, **kwargs) finally: signal.alarm(0) return result return wraps(func)(wrapper) return decorator send = timeout()(p.send_message) self.assertRaises(EOFError, send, m)
def test_2_read(self): rsock = LoopSocket() wsock = LoopSocket() rsock.link(wsock) p = Packetizer(rsock) p.set_log(util.get_logger('paramiko.transport')) p.set_hexdump(True) cipher = AES.new(zero_byte * 16, AES.MODE_CBC, x55 * 16) p.set_inbound_cipher(cipher, 16, SHA, 12, x1f * 20) wsock.send( b'\x43\x91\x97\xbd\x5b\x50\xac\x25\x87\xc2\xc4\x6b\xc7\xe9\x38\xc0\x90\xd2\x16\x56\x0d\x71\x73\x61\x38\x7c\x4c\x3d\xfb\x97\x7d\xe2\x6e\x03\xb1\xa0\xc2\x1c\xd6\x41\x41\x4c\xb4\x59' ) cmd, m = p.read_message() self.assertEqual(100, cmd) self.assertEqual(100, m.get_int()) self.assertEqual(1, m.get_int()) self.assertEqual(900, m.get_int())
def test_3_closed(self): rsock = LoopSocket() wsock = LoopSocket() rsock.link(wsock) p = Packetizer(wsock) p.set_log(util.get_logger('paramiko.transport')) p.set_hexdump(True) cipher = AES.new(zero_byte * 16, AES.MODE_CBC, x55 * 16) p.set_outbound_cipher(cipher, 16, sha1, 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(byte_chr(100)) m.add_int(100) m.add_int(1) m.add_int(900) wsock.send = lambda x: 0 from functools import wraps import errno import os import signal class TimeoutError(Exception): pass def timeout(seconds=1, error_message=os.strerror(errno.ETIME)): def decorator(func): def _handle_timeout(signum, frame): raise TimeoutError(error_message) def wrapper(*args, **kwargs): signal.signal(signal.SIGALRM, _handle_timeout) signal.alarm(seconds) try: result = func(*args, **kwargs) finally: signal.alarm(0) return result return wraps(func)(wrapper) return decorator send = timeout()(p.send_message) self.assertRaises(EOFError, send, m)
def test_2_read(self): rsock = LoopSocket() wsock = LoopSocket() rsock.link(wsock) p = Packetizer(rsock) p.set_log(util.get_logger('paramiko.transport')) p.set_hexdump(True) decryptor = Cipher(algorithms.AES(zero_byte * 16), modes.CBC(x55 * 16), backend=default_backend()).decryptor() p.set_inbound_cipher(decryptor, 16, sha1, 12, x1f * 20) wsock.send( b'\x43\x91\x97\xbd\x5b\x50\xac\x25\x87\xc2\xc4\x6b\xc7\xe9\x38\xc0\x90\xd2\x16\x56\x0d\x71\x73\x61\x38\x7c\x4c\x3d\xfb\x97\x7d\xe2\x6e\x03\xb1\xa0\xc2\x1c\xd6\x41\x41\x4c\xb4\x59' ) cmd, m = p.read_message() self.assertEqual(100, cmd) self.assertEqual(100, m.get_int()) self.assertEqual(1, m.get_int()) self.assertEqual(900, m.get_int())
def init_loopback(): global sftp, tc socks = LoopSocket() sockc = LoopSocket() sockc.link(socks) tc = paramiko.Transport(sockc) ts = paramiko.Transport(socks) host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key')) ts.add_server_key(host_key) event = threading.Event() server = StubServer() ts.set_subsystem_handler('sftp', paramiko.SFTPServer, StubSFTPServer) ts.start_server(event, server) tc.connect(username='******', password='******') event.wait(1.0) sftp = paramiko.SFTP.from_transport(tc)
def setUp(self): self.socks = LoopSocket() self.sockc = LoopSocket() self.sockc.link(self.socks) self.tc = Transport(self.sockc) self.ts = Transport(self.socks)