# Copyright (C) 2003-2005 Robey Pointer # # This file is part of paramiko. # # Paramiko is free software; you can redistribute it and/or modify it under the # terms of the GNU Lesser General Public License as published by the Free # Software Foundation; either version 2.1 of the License, or (at your option) # any later version. # # Paramiko is distrubuted in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR # A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License # along with Paramiko; if not, write to the Free Software Foundation, Inc., # 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. """ Some unit tests for the ssh2 protocol in Transport. """ import sys, time, threading, unittest import select from paramiko import Transport, SecurityOptions, ServerInterface, RSAKey, DSSKey, \ SSHException, BadAuthenticationType, util from paramiko import AUTH_FAILED, AUTH_PARTIALLY_SUCCESSFUL, AUTH_SUCCESSFUL from paramiko import OPEN_SUCCEEDED from loop import LoopSocket class NullServer (ServerInterface): paranoid_did_password = False paranoid_did_public_key = False paranoid_key = DSSKey.from_private_key_file('tests/test_dss.key') def get_allowed_auths(self, username): if username == 'slowdive': return 'publickey,password' if username == 'paranoid': if not self.paranoid_did_password and not self.paranoid_did_public_key: return 'publickey,password' elif self.paranoid_did_password: return 'publickey' else: return 'password' return 'publickey' def check_auth_password(self, username, password): if (username == 'slowdive') and (password == 'pygmalion'): return AUTH_SUCCESSFUL if (username == 'paranoid') and (password == 'paranoid'): # 2-part auth (even openssh doesn't support this) self.paranoid_did_password = True if self.paranoid_did_public_key: return AUTH_SUCCESSFUL return AUTH_PARTIALLY_SUCCESSFUL return AUTH_FAILED def check_auth_publickey(self, username, key): if (username == 'paranoid') and (key == self.paranoid_key): # 2-part auth self.paranoid_did_public_key = True if self.paranoid_did_password: return AUTH_SUCCESSFUL return AUTH_PARTIALLY_SUCCESSFUL return AUTH_FAILED def check_channel_request(self, kind, chanid): return OPEN_SUCCEEDED def check_channel_exec_request(self, channel, command): if command != 'yes': return False return True def check_channel_shell_request(self, channel): return True def check_global_request(self, kind, msg): self._global_request = kind return False class TransportTest (unittest.TestCase): def setUp(self): self.socks = LoopSocket() self.sockc = LoopSocket() self.sockc.link(self.socks) self.tc = Transport(self.sockc) self.ts = Transport(self.socks) def tearDown(self): self.tc.close() self.ts.close() self.socks.close() self.sockc.close() def test_1_security_options(self): o = self.tc.get_security_options() self.assertEquals(type(o), SecurityOptions) self.assert_(('aes256-cbc', 'blowfish-cbc') != o.ciphers) o.ciphers = ('aes256-cbc', 'blowfish-cbc') self.assertEquals(('aes256-cbc', 'blowfish-cbc'), o.ciphers) try: o.ciphers = ('aes256-cbc', 'made-up-cipher') self.assert_(False) except ValueError: pass try: o.ciphers = 23 self.assert_(False) except TypeError: pass def test_2_compute_key(self): self.tc.K = 123281095979686581523377256114209720774539068973101330872763622971399429481072519713536292772709507296759612401802191955568143056534122385270077606457721553469730659233569339356140085284052436697480759510519672848743794433460113118986816826624865291116513647975790797391795651716378444844877749505443714557929L self.tc.H = util.unhexify('0C8307CDE6856FF30BA93684EB0F04C2520E9ED3') self.tc.session_id = self.tc.H key = self.tc._compute_key('C', 32) self.assertEquals('207E66594CA87C44ECCBA3B3CD39FDDB378E6FDB0F97C54B2AA0CFBF900CD995', util.hexify(key)) def test_3_simple(self): """ verify that we can establish an ssh link with ourselves across the loopback sockets. this is hardly "simple" but it's simpler than the later tests. :) """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.assertEquals(None, self.tc.get_username()) self.assertEquals(None, self.ts.get_username()) self.assertEquals(False, self.tc.is_authenticated()) self.assertEquals(False, self.ts.is_authenticated()) self.ts.start_server(event, server) self.tc.connect(hostkey=public_host_key, username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) self.assertEquals('slowdive', self.tc.get_username()) self.assertEquals('slowdive', self.ts.get_username()) self.assertEquals(True, self.tc.is_authenticated()) self.assertEquals(True, self.ts.is_authenticated()) def test_4_special(self): """ verify that the client can demand odd handshake settings, and can renegotiate keys in mid-stream. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) options = self.tc.get_security_options() options.ciphers = ('aes256-cbc',) options.digests = ('hmac-md5-96',) self.tc.connect(hostkey=public_host_key, username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) self.assertEquals('aes256-cbc', self.tc.local_cipher) self.assertEquals('aes256-cbc', self.tc.remote_cipher) self.assertEquals(12, self.tc.packetizer.get_mac_size_out()) self.assertEquals(12, self.tc.packetizer.get_mac_size_in()) self.tc.send_ignore(1024) self.assert_(self.tc.renegotiate_keys()) self.ts.send_ignore(1024) def test_5_keepalive(self): """ verify that the keepalive will be sent. """ self.tc.set_hexdump(True) host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.connect(hostkey=public_host_key, username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) self.assertEquals(None, getattr(server, '_global_request', None)) self.tc.set_keepalive(1) time.sleep(2) self.assertEquals('keepalive@lag.net', server._global_request) def test_6_bad_auth_type(self): """ verify that we get the right exception when an unsupported auth type is requested. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) try: self.tc.connect(hostkey=public_host_key, username='unknown', password='error') self.assert_(False) except: etype, evalue, etb = sys.exc_info() self.assertEquals(BadAuthenticationType, etype) self.assertEquals(['publickey'], evalue.allowed_types) def test_7_bad_password(self): """ verify that a bad password gets the right exception, and that a retry with the right password works. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) try: self.tc.auth_password(username='slowdive', password='error') self.assert_(False) except: etype, evalue, etb = sys.exc_info() self.assertEquals(SSHException, etype) self.tc.auth_password(username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) def test_8_multipart_auth(self): """ verify that multipart auth works. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) remain = self.tc.auth_password(username='paranoid', password='paranoid') self.assertEquals(['publickey'], remain) key = DSSKey.from_private_key_file('tests/test_dss.key') remain = self.tc.auth_publickey(username='paranoid', key=key) self.assertEquals([], remain) event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) def test_9_exec_command(self): """ verify that exec_command() does something reasonable. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) self.tc.auth_password(username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) chan = self.tc.open_session() schan = self.ts.accept(1.0) self.assert_(not chan.exec_command('no')) chan = self.tc.open_session() self.assert_(chan.exec_command('yes')) schan = self.ts.accept(1.0) schan.send('Hello there.\n') schan.send_stderr('This is on stderr.\n') schan.close() f = chan.makefile() self.assertEquals('Hello there.\n', f.readline()) self.assertEquals('', f.readline()) f = chan.makefile_stderr() self.assertEquals('This is on stderr.\n', f.readline()) self.assertEquals('', f.readline()) # now try it with combined stdout/stderr chan = self.tc.open_session() self.assert_(chan.exec_command('yes')) schan = self.ts.accept(1.0) schan.send('Hello there.\n') schan.send_stderr('This is on stderr.\n') schan.close() chan.set_combine_stderr(True) f = chan.makefile() self.assertEquals('Hello there.\n', f.readline()) self.assertEquals('This is on stderr.\n', f.readline()) self.assertEquals('', f.readline()) def test_A_invoke_shell(self): """ verify that invoke_shell() does something reasonable. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) self.tc.auth_password(username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) chan = self.tc.open_session() self.assert_(chan.invoke_shell()) schan = self.ts.accept(1.0) chan.send('communist j. cat\n') f = schan.makefile() self.assertEquals('communist j. cat\n', f.readline()) chan.close() self.assertEquals('', f.readline()) def test_B_exit_status(self): """ verify that get_exit_status() works. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) self.tc.auth_password(username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) chan = self.tc.open_session() schan = self.ts.accept(1.0) self.assert_(chan.exec_command('yes')) schan.send('Hello there.\n') # trigger an EOF schan.shutdown_read() schan.shutdown_write() schan.send_exit_status(23) schan.close() f = chan.makefile() self.assertEquals('Hello there.\n', f.readline()) self.assertEquals('', f.readline()) self.assertEquals(23, chan.recv_exit_status()) chan.close() def test_C_select(self): """ verify that select() on a channel works. """ host_key = RSAKey.from_private_key_file('tests/test_rsa.key') public_host_key = RSAKey(data=str(host_key)) self.ts.add_server_key(host_key) event = threading.Event() server = NullServer() self.assert_(not event.isSet()) self.ts.start_server(event, server) self.tc.ultra_debug = True self.tc.connect(hostkey=public_host_key) self.tc.auth_password(username='slowdive', password='pygmalion') event.wait(1.0) self.assert_(event.isSet()) self.assert_(self.ts.is_active()) chan = self.tc.open_session() self.assert_(chan.invoke_shell()) schan = self.ts.accept(1.0) # nothing should be ready r, w, e = select.select([chan], [], [], 0.1) self.assertEquals([], r) self.assertEquals([], w) self.assertEquals([], e) schan.send('hello\n') # something should be ready now (give it 1 second to appear) for i in range(10): r, w, e = select.select([chan], [], [], 0.1) if chan in r: break time.sleep(0.1) self.assertEquals([chan], r) self.assertEquals([], w) self.assertEquals([], e) self.assertEquals('hello\n', chan.recv(6)) # and, should be dead again now r, w, e = select.select([chan], [], [], 0.1) self.assertEquals([], r) self.assertEquals([], w) self.assertEquals([], e) schan.close() # detect eof? for i in range(10): r, w, e = select.select([chan], [], [], 0.1) if chan in r: break time.sleep(0.1) self.assertEquals([chan], r) self.assertEquals([], w) self.assertEquals([], e) self.assertEquals('', chan.recv(16)) chan.close()