#!/usr/bin/env python # # Public Domain 2014-2017 MongoDB, Inc. # Public Domain 2008-2014 WiredTiger, Inc. # # This is free and unencumbered software released into the public domain. # # Anyone is free to copy, modify, publish, use, compile, sell, or # distribute this software, either in source code form or as a compiled # binary, for any purpose, commercial or non-commercial, and by any # means. # # In jurisdictions that recognize copyright laws, the author or authors # of this software dedicate any and all copyright interest in the # software to the public domain. We make this dedication for the benefit # of the public at large and to the detriment of our heirs and # successors. We intend this dedication to be an overt act of # relinquishment in perpetuity of all present and future rights to this # software under copyright law. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, # EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. # IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR # OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, # ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR # OTHER DEALINGS IN THE SOFTWARE. # # test_encrypt04.py # Test mismatches error conditions with encryption. # import os, run, random import wiredtiger, wttest from wtscenario import make_scenarios from suite_subprocess import suite_subprocess # Test basic encryption with mismatched configuration class test_encrypt04(wttest.WiredTigerTestCase, suite_subprocess): uri='table:test_encrypt04' # For tests that are mismatching, we use a secretkey. The 'rotn' # encryptor without a secretkey is too simple, and may leave # substantional portions of its input unchanged - a root page decoded # with simply the wrong keyid may appear valid when initially verified, # but may result in error on first use. The odds that a real encryptor # would leave a lot of its input unchanged is infinitesimally small. # # When both self.forceerror1 and self.forceerror2 occur, we set a config # flag when loading the rotn encryptor, which forces a particular error # return in rotn.decrypt. We look for that return back from # wiredtiger_open. encrypt_scen_1 = [ ('none', dict( name1='none', keyid1='', secretkey1='')), ('rotn17abc', dict( name1='rotn', keyid1='17', secretkey1='ABC', forceerror1=True)), ('rotn11abc', dict( name1='rotn', keyid1='11', secretkey1='ABC')), ('rotn11xyz', dict( name1='rotn', keyid1='11', secretkey1='XYZ')), ('rotn11xyz_and_clear', dict( name1='rotn', keyid1='11', secretkey1='XYZ', fileinclear1=True)) ] encrypt_scen_2 = [ ('none', dict( name2='none', keyid2='', secretkey2='')), ('rotn17abc', dict( name2='rotn', keyid2='17', secretkey2='ABC')), ('rotn11abc', dict( name2='rotn', keyid2='11', secretkey2='ABC')), ('rotn11xyz', dict( name2='rotn', keyid2='11', secretkey2='XYZ', forceerror2=True)), ('rotn11xyz_and_clear', dict( name2='rotn', keyid2='11', secretkey2='XYZ', fileinclear2=True)) ] scenarios = make_scenarios(encrypt_scen_1, encrypt_scen_2) nrecords = 5000 bigvalue = "abcdefghij" * 1001 # len(bigvalue) = 10010 def __init__(self, *args, **kwargs): wttest.WiredTigerTestCase.__init__(self, *args, **kwargs) self.part = 1 def conn_extensions(self, extlist): extarg = None if self.expect_forceerror: extarg='(config=\"rotn_force_error=true\")' extlist.skip_if_missing = True extlist.extension('encryptors', self.name, extarg) # Override WiredTigerTestCase, we have extensions. def setUpConnectionOpen(self, dir): self.expect_forceerror = False if self.part == 1: self.name = self.name1 self.keyid = self.keyid1 self.secretkey = self.secretkey1 self.fileinclear = self.fileinclear1 if \ hasattr(self, 'fileinclear1') else False else: self.name = self.name2 self.keyid = self.keyid2 self.secretkey = self.secretkey2 self.fileinclear = self.fileinclear2 if \ hasattr(self, 'fileinclear2') else False if hasattr(self, 'forceerror1') and hasattr(self, 'forceerror2'): self.expect_forceerror = True self.got_forceerror = False encarg = 'encryption=(name={0},keyid={1},secretkey={2}),'.format( self.name, self.keyid, self.secretkey) # If forceerror is set for this test, conn_extensions adds a # config arg to the extension string. That signals rotn to # return a (-1000) error code, which we'll detect here. extarg = self.extensionsConfig() self.pr('encarg = ' + encarg + ' extarg = ' + extarg) completed = False try: conn = self.wiredtiger_open(dir, 'create,error_prefix="{0}",{1}{2}'.format( self.shortid(), encarg, extarg)) except (BaseException) as err: # Capture the recognizable error created by rotn if str(-1000) in str(err): self.got_forceerror = True raise self.pr(`conn`) return conn def create_records(self, cursor, r, low, high): for idx in xrange(low, high): start = r.randint(0,9) key = self.bigvalue[start:r.randint(0,100)] + str(idx) val = self.bigvalue[start:r.randint(0,10000)] + str(idx) cursor.set_key(key) cursor.set_value(val) cursor.insert() def check_records(self, cursor, r, low, high): for idx in xrange(low, high): start = r.randint(0,9) key = self.bigvalue[start:r.randint(0,100)] + str(idx) val = self.bigvalue[start:r.randint(0,10000)] + str(idx) cursor.set_key(key) self.assertEqual(cursor.search(), 0) self.assertEquals(cursor.get_value(), val) # Evaluate expression, which either must succeed (if expect_okay) # or must fail (if !expect_okay). def check_okay(self, expect_okay, expr): completed = False if expect_okay: expr() else: # expect an error, and maybe error messages, # so turn off stderr checking. with self.expectedStderrPattern(''): try: expr() completed = True except: pass self.assertEqual(False, completed) return expect_okay # Create a table with encryption values that are in error. def test_encrypt(self): params = 'key_format=S,value_format=S' if self.name == 'none' or self.fileinclear: params += ',encryption=(name=none)' else: params += ',encryption=(name=' + self.name + \ ',keyid=' + self.keyid + ')' self.session.create(self.uri, params) cursor = self.session.open_cursor(self.uri, None) r = random.Random() r.seed(0) self.create_records(cursor, r, 0, self.nrecords) cursor.close() # Now intentially expose the test to mismatched configuration self.part = 2 self.name = self.name2 self.keyid = self.keyid2 self.secretkey = self.secretkey2 is_same = (self.name1 == self.name2 and self.keyid1 == self.keyid2 and self.secretkey1 == self.secretkey2) # We expect an error if we specified different # encryption from one open to the next. expect_okay = is_same # Force the cache to disk, so we read # compressed/encrypted pages from disk. if self.check_okay(expect_okay, lambda: self.reopen_conn()): cursor = self.session.open_cursor(self.uri, None) r.seed(0) self.check_records(cursor, r, 0, self.nrecords) if not is_same: # With a configuration that has changed, we do a further test. # Add some more items with the current configuration. self.create_records(cursor, r, self.nrecords, self.nrecords * 2) cursor.close() # Force the cache to disk, so we read # compressed/encrypted pages from disk. # Now read both sets of data. self.reopen_conn() cursor = self.session.open_cursor(self.uri, None) r.seed(0) self.check_records(cursor, r, 0, self.nrecords) self.check_records(cursor, r, self.nrecords, self.nrecords * 2) cursor.close() self.assertEqual(self.expect_forceerror, self.got_forceerror) if __name__ == '__main__': wttest.run()