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"""tests for passlib.context""" #============================================================================= # imports #============================================================================= # core from __future__ import with_statement from passlib.utils.compat import PY3 if PY3: from configparser import NoSectionError else: from ConfigParser import NoSectionError import datetime from functools import partial import logging; log = logging.getLogger(__name__) import os import warnings # site # pkg from passlib import hash from passlib.context import CryptContext, LazyCryptContext from passlib.exc import PasslibConfigWarning, PasslibHashWarning from passlib.utils import tick, to_unicode from passlib.utils.compat import irange, u, unicode, str_to_uascii, PY2, PY26 import passlib.utils.handlers as uh from passlib.tests.utils import (TestCase, set_file, TICK_RESOLUTION, quicksleep, time_call, handler_derived_from) from passlib.registry import (register_crypt_handler_path, _has_crypt_handler as has_crypt_handler, _unload_handler_name as unload_handler_name, get_crypt_handler, ) # local #============================================================================= # support #============================================================================= here = os.path.abspath(os.path.dirname(__file__)) def merge_dicts(first, *args, **kwds): target = first.copy() for arg in args: target.update(arg) if kwds: target.update(kwds) return target #============================================================================= # #============================================================================= class CryptContextTest(TestCase): descriptionPrefix = "CryptContext" # TODO: these unittests could really use a good cleanup # and reorganizing, to ensure they're getting everything. #=================================================================== # sample configurations used in tests #=================================================================== #--------------------------------------------------------------- # sample 1 - typical configuration #--------------------------------------------------------------- sample_1_schemes = ["des_crypt", "md5_crypt", "bsdi_crypt", "sha512_crypt"] sample_1_handlers = [get_crypt_handler(name) for name in sample_1_schemes] sample_1_dict = dict( schemes = sample_1_schemes, default = "md5_crypt", all__vary_rounds = 0.1, bsdi_crypt__max_rounds = 30001, bsdi_crypt__default_rounds = 25001, sha512_crypt__max_rounds = 50000, sha512_crypt__min_rounds = 40000, ) sample_1_resolved_dict = merge_dicts(sample_1_dict, schemes = sample_1_handlers) sample_1_unnormalized = u("""\ [passlib] schemes = des_crypt, md5_crypt, bsdi_crypt, sha512_crypt default = md5_crypt ; this is using %... all__vary_rounds = 10%% bsdi_crypt__default_rounds = 25001 bsdi_crypt__max_rounds = 30001 sha512_crypt__max_rounds = 50000 sha512_crypt__min_rounds = 40000 """) sample_1_unicode = u("""\ [passlib] schemes = des_crypt, md5_crypt, bsdi_crypt, sha512_crypt default = md5_crypt all__vary_rounds = 0.1 bsdi_crypt__default_rounds = 25001 bsdi_crypt__max_rounds = 30001 sha512_crypt__max_rounds = 50000 sha512_crypt__min_rounds = 40000 """) #--------------------------------------------------------------- # sample 1 external files #--------------------------------------------------------------- # sample 1 string with '\n' linesep sample_1_path = os.path.join(here, "sample1.cfg") # sample 1 with '\r\n' linesep sample_1b_unicode = sample_1_unicode.replace(u("\n"), u("\r\n")) sample_1b_path = os.path.join(here, "sample1b.cfg") # sample 1 using UTF-16 and alt section sample_1c_bytes = sample_1_unicode.replace(u("[passlib]"), u("[mypolicy]")).encode("utf-16") sample_1c_path = os.path.join(here, "sample1c.cfg") # enable to regenerate sample files if False: set_file(sample_1_path, sample_1_unicode) set_file(sample_1b_path, sample_1b_unicode) set_file(sample_1c_path, sample_1c_bytes) #--------------------------------------------------------------- # sample 2 & 12 - options patch #--------------------------------------------------------------- sample_2_dict = dict( # using this to test full replacement of existing options bsdi_crypt__min_rounds = 29001, bsdi_crypt__max_rounds = 35001, bsdi_crypt__default_rounds = 31001, # using this to test partial replacement of existing options sha512_crypt__min_rounds=45000, ) sample_2_unicode = """\ [passlib] bsdi_crypt__min_rounds = 29001 bsdi_crypt__max_rounds = 35001 bsdi_crypt__default_rounds = 31001 sha512_crypt__min_rounds = 45000 """ # sample 2 overlayed on top of sample 1 sample_12_dict = merge_dicts(sample_1_dict, sample_2_dict) #--------------------------------------------------------------- # sample 3 & 123 - just changing default from sample 1 #--------------------------------------------------------------- sample_3_dict = dict( default="sha512_crypt", ) # sample 3 overlayed on 2 overlayed on 1 sample_123_dict = merge_dicts(sample_12_dict, sample_3_dict) #--------------------------------------------------------------- # sample 4 - used by api tests #--------------------------------------------------------------- sample_4_dict = dict( schemes = [ "des_crypt", "md5_crypt", "phpass", "bsdi_crypt", "sha256_crypt"], deprecated = [ "des_crypt", ], default = "sha256_crypt", bsdi_crypt__max_rounds = 31, bsdi_crypt__default_rounds = 25, bsdi_crypt__vary_rounds = 0, sha256_crypt__max_rounds = 3000, sha256_crypt__min_rounds = 2000, sha256_crypt__default_rounds = 3000, phpass__ident = "H", phpass__default_rounds = 7, ) #=================================================================== # setup #=================================================================== def setUp(self): super(CryptContextTest, self).setUp() warnings.filterwarnings("ignore", "The 'all' scheme is deprecated.*") warnings.filterwarnings("ignore", ".*'scheme' keyword is deprecated as of Passlib 1.7.*") #=================================================================== # constructors #=================================================================== def test_01_constructor(self): """test class constructor""" # test blank constructor works correctly ctx = CryptContext() self.assertEqual(ctx.to_dict(), {}) # test sample 1 with scheme=names ctx = CryptContext(**self.sample_1_dict) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 with scheme=handlers ctx = CryptContext(**self.sample_1_resolved_dict) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 2: options w/o schemes ctx = CryptContext(**self.sample_2_dict) self.assertEqual(ctx.to_dict(), self.sample_2_dict) # test sample 3: default only ctx = CryptContext(**self.sample_3_dict) self.assertEqual(ctx.to_dict(), self.sample_3_dict) # test unicode scheme names (issue 54) ctx = CryptContext(schemes=[u("sha256_crypt")]) self.assertEqual(ctx.schemes(), ("sha256_crypt",)) def test_02_from_string(self): """test from_string() constructor""" # test sample 1 unicode ctx = CryptContext.from_string(self.sample_1_unicode) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 with unnormalized inputs ctx = CryptContext.from_string(self.sample_1_unnormalized) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 utf-8 ctx = CryptContext.from_string(self.sample_1_unicode.encode("utf-8")) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 w/ '\r\n' linesep ctx = CryptContext.from_string(self.sample_1b_unicode) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 using UTF-16 and alt section ctx = CryptContext.from_string(self.sample_1c_bytes, section="mypolicy", encoding="utf-16") self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test wrong type self.assertRaises(TypeError, CryptContext.from_string, None) # test missing section self.assertRaises(NoSectionError, CryptContext.from_string, self.sample_1_unicode, section="fakesection") def test_03_from_path(self): """test from_path() constructor""" # make sure sample files exist if not os.path.exists(self.sample_1_path): raise RuntimeError("can't find data file: %r" % self.sample_1_path) # test sample 1 ctx = CryptContext.from_path(self.sample_1_path) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 w/ '\r\n' linesep ctx = CryptContext.from_path(self.sample_1b_path) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test sample 1 encoding using UTF-16 and alt section ctx = CryptContext.from_path(self.sample_1c_path, section="mypolicy", encoding="utf-16") self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test missing file self.assertRaises(EnvironmentError, CryptContext.from_path, os.path.join(here, "sample1xxx.cfg")) # test missing section self.assertRaises(NoSectionError, CryptContext.from_path, self.sample_1_path, section="fakesection") def test_04_copy(self): """test copy() method""" cc1 = CryptContext(**self.sample_1_dict) # overlay sample 2 onto copy cc2 = cc1.copy(**self.sample_2_dict) self.assertEqual(cc1.to_dict(), self.sample_1_dict) self.assertEqual(cc2.to_dict(), self.sample_12_dict) # check that repeating overlay makes no change cc2b = cc2.copy(**self.sample_2_dict) self.assertEqual(cc1.to_dict(), self.sample_1_dict) self.assertEqual(cc2b.to_dict(), self.sample_12_dict) # overlay sample 3 on copy cc3 = cc2.copy(**self.sample_3_dict) self.assertEqual(cc3.to_dict(), self.sample_123_dict) # test empty copy creates separate copy cc4 = cc1.copy() self.assertIsNot(cc4, cc1) self.assertEqual(cc1.to_dict(), self.sample_1_dict) self.assertEqual(cc4.to_dict(), self.sample_1_dict) # ... and that modifying copy doesn't affect original cc4.update(**self.sample_2_dict) self.assertEqual(cc1.to_dict(), self.sample_1_dict) self.assertEqual(cc4.to_dict(), self.sample_12_dict) def test_09_repr(self): """test repr()""" cc1 = CryptContext(**self.sample_1_dict) # NOTE: "0x-1234" format used by Pyston 0.5.1 (support deprecated 2019-11) self.assertRegex(repr(cc1), "^<CryptContext at 0x-?[0-9a-f]+>$") #=================================================================== # modifiers #=================================================================== def test_10_load(self): """test load() / load_path() method""" # NOTE: load() is the workhorse that handles all policy parsing, # compilation, and validation. most of its features are tested # elsewhere, since all the constructors and modifiers are just # wrappers for it. # source_type 'auto' ctx = CryptContext() # detect dict ctx.load(self.sample_1_dict) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # detect unicode string ctx.load(self.sample_1_unicode) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # detect bytes string ctx.load(self.sample_1_unicode.encode("utf-8")) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # anything else - TypeError self.assertRaises(TypeError, ctx.load, None) # NOTE: load_path() tested by from_path() # NOTE: additional string tests done by from_string() # update flag - tested by update() method tests # encoding keyword - tested by from_string() & from_path() # section keyword - tested by from_string() & from_path() # test load empty ctx = CryptContext(**self.sample_1_dict) ctx.load({}, update=True) self.assertEqual(ctx.to_dict(), self.sample_1_dict) # multiple loads should clear the state ctx = CryptContext() ctx.load(self.sample_1_dict) ctx.load(self.sample_2_dict) self.assertEqual(ctx.to_dict(), self.sample_2_dict) def test_11_load_rollback(self): """test load() errors restore old state""" # create initial context cc = CryptContext(["des_crypt", "sha256_crypt"], sha256_crypt__default_rounds=5000, all__vary_rounds=0.1, ) result = cc.to_string() # do an update operation that should fail during parsing # XXX: not sure what the right error type is here. self.assertRaises(TypeError, cc.update, too__many__key__parts=True) self.assertEqual(cc.to_string(), result) # do an update operation that should fail during extraction # FIXME: this isn't failing even in broken case, need to figure out # way to ensure some keys come after this one. self.assertRaises(KeyError, cc.update, fake_context_option=True) self.assertEqual(cc.to_string(), result) # do an update operation that should fail during compilation self.assertRaises(ValueError, cc.update, sha256_crypt__min_rounds=10000) self.assertEqual(cc.to_string(), result) def test_12_update(self): """test update() method""" # empty overlay ctx = CryptContext(**self.sample_1_dict) ctx.update() self.assertEqual(ctx.to_dict(), self.sample_1_dict) # test basic overlay ctx = CryptContext(**self.sample_1_dict) ctx.update(**self.sample_2_dict) self.assertEqual(ctx.to_dict(), self.sample_12_dict) # ... and again ctx.update(**self.sample_3_dict) self.assertEqual(ctx.to_dict(), self.sample_123_dict) # overlay w/ dict arg ctx = CryptContext(**self.sample_1_dict) ctx.update(self.sample_2_dict) self.assertEqual(ctx.to_dict(), self.sample_12_dict) # overlay w/ string ctx = CryptContext(**self.sample_1_dict) ctx.update(self.sample_2_unicode) self.assertEqual(ctx.to_dict(), self.sample_12_dict) # too many args self.assertRaises(TypeError, ctx.update, {}, {}) self.assertRaises(TypeError, ctx.update, {}, schemes=['des_crypt']) # wrong arg type self.assertRaises(TypeError, ctx.update, None) #=================================================================== # option parsing #=================================================================== def test_20_options(self): """test basic option parsing""" def parse(**kwds): return CryptContext(**kwds).to_dict() # # common option parsing tests # # test keys with blank fields are rejected # blank option self.assertRaises(TypeError, CryptContext, __=0.1) self.assertRaises(TypeError, CryptContext, default__scheme__='x') # blank scheme self.assertRaises(TypeError, CryptContext, __option='x') self.assertRaises(TypeError, CryptContext, default____option='x') # blank category self.assertRaises(TypeError, CryptContext, __scheme__option='x') # test keys with too many field are rejected self.assertRaises(TypeError, CryptContext, category__scheme__option__invalid = 30000) # keys with mixed separators should be handled correctly. # (testing actual data, not to_dict(), since re-render hid original bug) self.assertRaises(KeyError, parse, **{"admin.context__schemes":"md5_crypt"}) ctx = CryptContext(**{"schemes":"md5_crypt,des_crypt", "admin.context__default":"des_crypt"}) self.assertEqual(ctx.default_scheme("admin"), "des_crypt") # # context option -specific tests # # test context option key parsing result = dict(default="md5_crypt") self.assertEqual(parse(default="md5_crypt"), result) self.assertEqual(parse(context__default="md5_crypt"), result) self.assertEqual(parse(default__context__default="md5_crypt"), result) self.assertEqual(parse(**{"context.default":"md5_crypt"}), result) self.assertEqual(parse(**{"default.context.default":"md5_crypt"}), result) # test context option key parsing w/ category result = dict(admin__context__default="md5_crypt") self.assertEqual(parse(admin__context__default="md5_crypt"), result) self.assertEqual(parse(**{"admin.context.default":"md5_crypt"}), result) # # hash option -specific tests # # test hash option key parsing result = dict(all__vary_rounds=0.1) self.assertEqual(parse(all__vary_rounds=0.1), result) self.assertEqual(parse(default__all__vary_rounds=0.1), result) self.assertEqual(parse(**{"all.vary_rounds":0.1}), result) self.assertEqual(parse(**{"default.all.vary_rounds":0.1}), result) # test hash option key parsing w/ category result = dict(admin__all__vary_rounds=0.1) self.assertEqual(parse(admin__all__vary_rounds=0.1), result) self.assertEqual(parse(**{"admin.all.vary_rounds":0.1}), result) # settings not allowed if not in hash.setting_kwds ctx = CryptContext(["phpass", "md5_crypt"], phpass__ident="P") self.assertRaises(KeyError, ctx.copy, md5_crypt__ident="P") # hash options 'salt' and 'rounds' not allowed self.assertRaises(KeyError, CryptContext, schemes=["des_crypt"], des_crypt__salt="xx") self.assertRaises(KeyError, CryptContext, schemes=["des_crypt"], all__salt="xx") def test_21_schemes(self): """test 'schemes' context option parsing""" # schemes can be empty cc = CryptContext(schemes=None) self.assertEqual(cc.schemes(), ()) # schemes can be list of names cc = CryptContext(schemes=["des_crypt", "md5_crypt"]) self.assertEqual(cc.schemes(), ("des_crypt", "md5_crypt")) # schemes can be comma-sep string cc = CryptContext(schemes=" des_crypt, md5_crypt, ") self.assertEqual(cc.schemes(), ("des_crypt", "md5_crypt")) # schemes can be list of handlers cc = CryptContext(schemes=[hash.des_crypt, hash.md5_crypt]) self.assertEqual(cc.schemes(), ("des_crypt", "md5_crypt")) # scheme must be name or handler self.assertRaises(TypeError, CryptContext, schemes=[uh.StaticHandler]) # handlers must have a name class nameless(uh.StaticHandler): name = None self.assertRaises(ValueError, CryptContext, schemes=[nameless]) # names must be unique class dummy_1(uh.StaticHandler): name = 'dummy_1' self.assertRaises(KeyError, CryptContext, schemes=[dummy_1, dummy_1]) # schemes not allowed per-category self.assertRaises(KeyError, CryptContext, admin__context__schemes=["md5_crypt"]) def test_22_deprecated(self): """test 'deprecated' context option parsing""" def getdep(ctx, category=None): return [name for name in ctx.schemes() if ctx.handler(name, category).deprecated] # no schemes - all deprecated values allowed cc = CryptContext(deprecated=["md5_crypt"]) cc.update(schemes=["md5_crypt", "des_crypt"]) self.assertEqual(getdep(cc),["md5_crypt"]) # deprecated values allowed if subset of schemes cc = CryptContext(deprecated=["md5_crypt"], schemes=["md5_crypt", "des_crypt"]) self.assertEqual(getdep(cc), ["md5_crypt"]) # can be handler # XXX: allow handlers in deprecated list? not for now. self.assertRaises(TypeError, CryptContext, deprecated=[hash.md5_crypt], schemes=["md5_crypt", "des_crypt"]) ## cc = CryptContext(deprecated=[hash.md5_crypt], schemes=["md5_crypt", "des_crypt"]) ## self.assertEqual(getdep(cc), ["md5_crypt"]) # comma sep list cc = CryptContext(deprecated="md5_crypt,des_crypt", schemes=["md5_crypt", "des_crypt", "sha256_crypt"]) self.assertEqual(getdep(cc), ["md5_crypt", "des_crypt"]) # values outside of schemes not allowed self.assertRaises(KeyError, CryptContext, schemes=['des_crypt'], deprecated=['md5_crypt']) # deprecating ALL schemes should cause ValueError self.assertRaises(ValueError, CryptContext, schemes=['des_crypt'], deprecated=['des_crypt']) self.assertRaises(ValueError, CryptContext, schemes=['des_crypt', 'md5_crypt'], admin__context__deprecated=['des_crypt', 'md5_crypt']) # deprecating explicit default scheme should cause ValueError # ... default listed as deprecated self.assertRaises(ValueError, CryptContext, schemes=['des_crypt', 'md5_crypt'], default="md5_crypt", deprecated="md5_crypt") # ... global default deprecated per-category self.assertRaises(ValueError, CryptContext, schemes=['des_crypt', 'md5_crypt'], default="md5_crypt", admin__context__deprecated="md5_crypt") # ... category default deprecated globally self.assertRaises(ValueError, CryptContext, schemes=['des_crypt', 'md5_crypt'], admin__context__default="md5_crypt", deprecated="md5_crypt") # ... category default deprecated in category self.assertRaises(ValueError, CryptContext, schemes=['des_crypt', 'md5_crypt'], admin__context__default="md5_crypt", admin__context__deprecated="md5_crypt") # category deplist should shadow default deplist CryptContext( schemes=['des_crypt', 'md5_crypt'], deprecated="md5_crypt", admin__context__default="md5_crypt", admin__context__deprecated=[]) # wrong type self.assertRaises(TypeError, CryptContext, deprecated=123) # deprecated per-category cc = CryptContext(deprecated=["md5_crypt"], schemes=["md5_crypt", "des_crypt"], admin__context__deprecated=["des_crypt"], ) self.assertEqual(getdep(cc), ["md5_crypt"]) self.assertEqual(getdep(cc, "user"), ["md5_crypt"]) self.assertEqual(getdep(cc, "admin"), ["des_crypt"]) # blank per-category deprecated list, shadowing default list cc = CryptContext(deprecated=["md5_crypt"], schemes=["md5_crypt", "des_crypt"], admin__context__deprecated=[], ) self.assertEqual(getdep(cc), ["md5_crypt"]) self.assertEqual(getdep(cc, "user"), ["md5_crypt"]) self.assertEqual(getdep(cc, "admin"), []) def test_23_default(self): """test 'default' context option parsing""" # anything allowed if no schemes self.assertEqual(CryptContext(default="md5_crypt").to_dict(), dict(default="md5_crypt")) # default allowed if in scheme list ctx = CryptContext(default="md5_crypt", schemes=["des_crypt", "md5_crypt"]) self.assertEqual(ctx.default_scheme(), "md5_crypt") # default can be handler # XXX: sure we want to allow this ? maybe deprecate in future. ctx = CryptContext(default=hash.md5_crypt, schemes=["des_crypt", "md5_crypt"]) self.assertEqual(ctx.default_scheme(), "md5_crypt") # implicit default should be first non-deprecated scheme ctx = CryptContext(schemes=["des_crypt", "md5_crypt"]) self.assertEqual(ctx.default_scheme(), "des_crypt") ctx.update(deprecated="des_crypt") self.assertEqual(ctx.default_scheme(), "md5_crypt") # error if not in scheme list self.assertRaises(KeyError, CryptContext, schemes=['des_crypt'], default='md5_crypt') # wrong type self.assertRaises(TypeError, CryptContext, default=1) # per-category ctx = CryptContext(default="des_crypt", schemes=["des_crypt", "md5_crypt"], admin__context__default="md5_crypt") self.assertEqual(ctx.default_scheme(), "des_crypt") self.assertEqual(ctx.default_scheme("user"), "des_crypt") self.assertEqual(ctx.default_scheme("admin"), "md5_crypt") def test_24_vary_rounds(self): """test 'vary_rounds' hash option parsing""" def parse(v): return CryptContext(all__vary_rounds=v).to_dict()['all__vary_rounds'] # floats should be preserved self.assertEqual(parse(0.1), 0.1) self.assertEqual(parse('0.1'), 0.1) # 'xx%' should be converted to float self.assertEqual(parse('10%'), 0.1) # ints should be preserved self.assertEqual(parse(1000), 1000) self.assertEqual(parse('1000'), 1000) #=================================================================== # inspection & serialization #=================================================================== def assertHandlerDerivedFrom(self, handler, base, msg=None): self.assertTrue(handler_derived_from(handler, base), msg=msg) def test_30_schemes(self): """test schemes() method""" # NOTE: also checked under test_21 # test empty ctx = CryptContext() self.assertEqual(ctx.schemes(), ()) self.assertEqual(ctx.schemes(resolve=True), ()) # test sample 1 ctx = CryptContext(**self.sample_1_dict) self.assertEqual(ctx.schemes(), tuple(self.sample_1_schemes)) self.assertEqual(ctx.schemes(resolve=True, unconfigured=True), tuple(self.sample_1_handlers)) for result, correct in zip(ctx.schemes(resolve=True), self.sample_1_handlers): self.assertTrue(handler_derived_from(result, correct)) # test sample 2 ctx = CryptContext(**self.sample_2_dict) self.assertEqual(ctx.schemes(), ()) def test_31_default_scheme(self): """test default_scheme() method""" # NOTE: also checked under test_23 # test empty ctx = CryptContext() self.assertRaises(KeyError, ctx.default_scheme) # test sample 1 ctx = CryptContext(**self.sample_1_dict) self.assertEqual(ctx.default_scheme(), "md5_crypt") self.assertEqual(ctx.default_scheme(resolve=True, unconfigured=True), hash.md5_crypt) self.assertHandlerDerivedFrom(ctx.default_scheme(resolve=True), hash.md5_crypt) # test sample 2 ctx = CryptContext(**self.sample_2_dict) self.assertRaises(KeyError, ctx.default_scheme) # test defaults to first in scheme ctx = CryptContext(schemes=self.sample_1_schemes) self.assertEqual(ctx.default_scheme(), "des_crypt") # categories tested under test_23 def test_32_handler(self): """test handler() method""" # default for empty ctx = CryptContext() self.assertRaises(KeyError, ctx.handler) self.assertRaises(KeyError, ctx.handler, "md5_crypt") # default for sample 1 ctx = CryptContext(**self.sample_1_dict) self.assertEqual(ctx.handler(unconfigured=True), hash.md5_crypt) self.assertHandlerDerivedFrom(ctx.handler(), hash.md5_crypt) # by name self.assertEqual(ctx.handler("des_crypt", unconfigured=True), hash.des_crypt) self.assertHandlerDerivedFrom(ctx.handler("des_crypt"), hash.des_crypt) # name not in schemes self.assertRaises(KeyError, ctx.handler, "mysql323") # check handler() honors category default ctx = CryptContext("sha256_crypt,md5_crypt", admin__context__default="md5_crypt") self.assertEqual(ctx.handler(unconfigured=True), hash.sha256_crypt) self.assertHandlerDerivedFrom(ctx.handler(), hash.sha256_crypt) self.assertEqual(ctx.handler(category="staff", unconfigured=True), hash.sha256_crypt) self.assertHandlerDerivedFrom(ctx.handler(category="staff"), hash.sha256_crypt) self.assertEqual(ctx.handler(category="admin", unconfigured=True), hash.md5_crypt) self.assertHandlerDerivedFrom(ctx.handler(category="staff"), hash.sha256_crypt) # test unicode category strings are accepted under py2 if PY2: self.assertEqual(ctx.handler(category=u("staff"), unconfigured=True), hash.sha256_crypt) self.assertEqual(ctx.handler(category=u("admin"), unconfigured=True), hash.md5_crypt) def test_33_options(self): """test internal _get_record_options() method""" def options(ctx, scheme, category=None): return ctx._config._get_record_options_with_flag(scheme, category)[0] # this checks that (3 schemes, 3 categories) inherit options correctly. # the 'user' category is not present in the options. cc4 = CryptContext( truncate_error=True, schemes = [ "sha512_crypt", "des_crypt", "bsdi_crypt"], deprecated = ["sha512_crypt", "des_crypt"], all__vary_rounds = 0.1, bsdi_crypt__vary_rounds=0.2, sha512_crypt__max_rounds = 20000, admin__context__deprecated = [ "des_crypt", "bsdi_crypt" ], admin__all__vary_rounds = 0.05, admin__bsdi_crypt__vary_rounds=0.3, admin__sha512_crypt__max_rounds = 40000, ) self.assertEqual(cc4._config.categories, ("admin",)) # # sha512_crypt # NOTE: 'truncate_error' shouldn't be passed along... # self.assertEqual(options(cc4, "sha512_crypt"), dict( deprecated=True, vary_rounds=0.1, # inherited from all__ max_rounds=20000, )) self.assertEqual(options(cc4, "sha512_crypt", "user"), dict( deprecated=True, # unconfigured category inherits from default vary_rounds=0.1, max_rounds=20000, )) self.assertEqual(options(cc4, "sha512_crypt", "admin"), dict( # NOT deprecated - context option overridden per-category vary_rounds=0.05, # global overridden per-cateogry max_rounds=40000, # overridden per-category )) # # des_crypt # NOTE: vary_rounds shouldn't be passed along... # self.assertEqual(options(cc4, "des_crypt"), dict( deprecated=True, truncate_error=True, )) self.assertEqual(options(cc4, "des_crypt", "user"), dict( deprecated=True, # unconfigured category inherits from default truncate_error=True, )) self.assertEqual(options(cc4, "des_crypt", "admin"), dict( deprecated=True, # unchanged though overidden truncate_error=True, )) # # bsdi_crypt # self.assertEqual(options(cc4, "bsdi_crypt"), dict( vary_rounds=0.2, # overridden from all__vary_rounds )) self.assertEqual(options(cc4, "bsdi_crypt", "user"), dict( vary_rounds=0.2, # unconfigured category inherits from default )) self.assertEqual(options(cc4, "bsdi_crypt", "admin"), dict( vary_rounds=0.3, deprecated=True, # deprecation set per-category )) def test_34_to_dict(self): """test to_dict() method""" # NOTE: this is tested all throughout this test case. ctx = CryptContext(**self.sample_1_dict) self.assertEqual(ctx.to_dict(), self.sample_1_dict) self.assertEqual(ctx.to_dict(resolve=True), self.sample_1_resolved_dict) def test_35_to_string(self): """test to_string() method""" # create ctx and serialize ctx = CryptContext(**self.sample_1_dict) dump = ctx.to_string() # check ctx->string returns canonical format. # NOTE: ConfigParser for PY26 doesn't use OrderedDict, # making to_string()'s ordering unpredictable... # so we skip this test under PY26. if not PY26: self.assertEqual(dump, self.sample_1_unicode) # check ctx->string->ctx->dict returns original ctx2 = CryptContext.from_string(dump) self.assertEqual(ctx2.to_dict(), self.sample_1_dict) # test section kwd is honored other = ctx.to_string(section="password-security") self.assertEqual(other, dump.replace("[passlib]","[password-security]")) # test unmanaged handler warning from passlib.tests.test_utils_handlers import UnsaltedHash ctx3 = CryptContext([UnsaltedHash, "md5_crypt"]) dump = ctx3.to_string() self.assertRegex(dump, r"# NOTE: the 'unsalted_test_hash' handler\(s\)" r" are not registered with Passlib") #=================================================================== # password hash api #=================================================================== nonstring_vectors = [ (None, {}), (None, {"scheme": "des_crypt"}), (1, {}), ((), {}), ] def test_40_basic(self): """test basic hash/identify/verify functionality""" handlers = [hash.md5_crypt, hash.des_crypt, hash.bsdi_crypt] cc = CryptContext(handlers, bsdi_crypt__default_rounds=5) # run through handlers for crypt in handlers: h = cc.hash("test", scheme=crypt.name) self.assertEqual(cc.identify(h), crypt.name) self.assertEqual(cc.identify(h, resolve=True, unconfigured=True), crypt) self.assertHandlerDerivedFrom(cc.identify(h, resolve=True), crypt) self.assertTrue(cc.verify('test', h)) self.assertFalse(cc.verify('notest', h)) # test default h = cc.hash("test") self.assertEqual(cc.identify(h), "md5_crypt") # test genhash h = cc.genhash('secret', cc.genconfig()) self.assertEqual(cc.identify(h), 'md5_crypt') h = cc.genhash('secret', cc.genconfig(), scheme='md5_crypt') self.assertEqual(cc.identify(h), 'md5_crypt') self.assertRaises(ValueError, cc.genhash, 'secret', cc.genconfig(), scheme="des_crypt") def test_41_genconfig(self): """test genconfig() method""" cc = CryptContext(schemes=["md5_crypt", "phpass"], phpass__ident="H", phpass__default_rounds=7, admin__phpass__ident="P", ) # uses default scheme self.assertTrue(cc.genconfig().startswith("$1$")) # override scheme self.assertTrue(cc.genconfig(scheme="phpass").startswith("$H$5")) # category override self.assertTrue(cc.genconfig(scheme="phpass", category="admin").startswith("$P$5")) self.assertTrue(cc.genconfig(scheme="phpass", category="staff").startswith("$H$5")) # override scheme & custom settings self.assertEqual( cc.genconfig(scheme="phpass", salt='.'*8, rounds=8, ident='P'), '$P$6........22zGEuacuPOqEpYPDeR0R/', # NOTE: config string generated w/ rounds=1 ) #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # test unicode category strings are accepted under py2 # this tests basic _get_record() used by hash/genhash/verify. # we have to omit scheme=xxx so codepath is tested fully if PY2: c2 = cc.copy(default="phpass") self.assertTrue(c2.genconfig(category=u("admin")).startswith("$P$5")) self.assertTrue(c2.genconfig(category=u("staff")).startswith("$H$5")) # throws error without schemes self.assertRaises(KeyError, CryptContext().genconfig) self.assertRaises(KeyError, CryptContext().genconfig, scheme='md5_crypt') # bad scheme values self.assertRaises(KeyError, cc.genconfig, scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.genconfig, scheme=1, category='staff') self.assertRaises(TypeError, cc.genconfig, scheme=1) # bad category values self.assertRaises(TypeError, cc.genconfig, category=1) def test_42_genhash(self): """test genhash() method""" #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # rejects non-string secrets cc = CryptContext(["des_crypt"]) hash = cc.hash('stub') for secret, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.genhash, secret, hash, **kwds) # rejects non-string config strings cc = CryptContext(["des_crypt"]) for config, kwds in self.nonstring_vectors: if hash is None: # NOTE: as of 1.7, genhash is just wrapper for hash(), # and handles genhash(secret, None) fine. continue self.assertRaises(TypeError, cc.genhash, 'secret', config, **kwds) # rejects config=None, even if default scheme lacks config string cc = CryptContext(["mysql323"]) self.assertRaises(TypeError, cc.genhash, "stub", None) # throws error without schemes self.assertRaises(KeyError, CryptContext().genhash, 'secret', 'hash') # bad scheme values self.assertRaises(KeyError, cc.genhash, 'secret', hash, scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.genhash, 'secret', hash, scheme=1) # bad category values self.assertRaises(TypeError, cc.genconfig, 'secret', hash, category=1) def test_43_hash(self,): """test hash() method""" # XXX: what more can we test here that isn't deprecated # or handled under another test (e.g. context kwds?) # respects rounds cc = CryptContext(**self.sample_4_dict) hash = cc.hash("password") self.assertTrue(hash.startswith("$5$rounds=3000$")) self.assertTrue(cc.verify("password", hash)) self.assertFalse(cc.verify("passwordx", hash)) # make default > max throws error if attempted # XXX: move this to copy() test? self.assertRaises(ValueError, cc.copy, sha256_crypt__default_rounds=4000) # rejects non-string secrets cc = CryptContext(["des_crypt"]) for secret, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.hash, secret, **kwds) # throws error without schemes self.assertRaises(KeyError, CryptContext().hash, 'secret') # bad category values self.assertRaises(TypeError, cc.hash, 'secret', category=1) def test_43_hash_legacy(self, use_16_legacy=False): """test hash() method -- legacy 'scheme' and settings keywords""" cc = CryptContext(**self.sample_4_dict) # TODO: should migrate these tests elsewhere, or remove them. # can be replaced with following equivalent: # # def wrapper(secret, scheme=None, category=None, **kwds): # handler = cc.handler(scheme, category) # if kwds: # handler = handler.using(**kwds) # return handler.hash(secret) # # need to make sure bits being tested here are tested # under the tests for the equivalent methods called above, # and then discard the rest of these under 2.0. # hash specific settings with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertEqual( cc.hash("password", scheme="phpass", salt='.'*8), '$H$5........De04R5Egz0aq8Tf.1eVhY/', ) with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertEqual( cc.hash("password", scheme="phpass", salt='.'*8, ident="P"), '$P$5........De04R5Egz0aq8Tf.1eVhY/', ) # NOTE: more thorough job of rounds limits done below. # min rounds with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertEqual( cc.hash("password", rounds=1999, salt="nacl"), '$5$rounds=1999$nacl$nmfwJIxqj0csloAAvSER0B8LU0ERCAbhmMug4Twl609', ) with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertEqual( cc.hash("password", rounds=2001, salt="nacl"), '$5$rounds=2001$nacl$8PdeoPL4aXQnJ0woHhqgIw/efyfCKC2WHneOpnvF.31' ) # NOTE: max rounds, etc tested in genconfig() # bad scheme values self.assertRaises(KeyError, cc.hash, 'secret', scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.hash, 'secret', scheme=1) def test_44_identify(self): """test identify() border cases""" handlers = ["md5_crypt", "des_crypt", "bsdi_crypt"] cc = CryptContext(handlers, bsdi_crypt__default_rounds=5) # check unknown hash self.assertEqual(cc.identify('$9$232323123$1287319827'), None) self.assertRaises(ValueError, cc.identify, '$9$232323123$1287319827', required=True) #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # rejects non-string hashes cc = CryptContext(["des_crypt"]) for hash, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.identify, hash, **kwds) # throws error without schemes cc = CryptContext() self.assertIs(cc.identify('hash'), None) self.assertRaises(KeyError, cc.identify, 'hash', required=True) # bad category values self.assertRaises(TypeError, cc.identify, None, category=1) def test_45_verify(self): """test verify() scheme kwd""" handlers = ["md5_crypt", "des_crypt", "bsdi_crypt"] cc = CryptContext(handlers, bsdi_crypt__default_rounds=5) h = hash.md5_crypt.hash("test") # check base verify self.assertTrue(cc.verify("test", h)) self.assertTrue(not cc.verify("notest", h)) # check verify using right alg self.assertTrue(cc.verify('test', h, scheme='md5_crypt')) self.assertTrue(not cc.verify('notest', h, scheme='md5_crypt')) # check verify using wrong alg self.assertRaises(ValueError, cc.verify, 'test', h, scheme='bsdi_crypt') #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # unknown hash should throw error self.assertRaises(ValueError, cc.verify, 'stub', '$6$232323123$1287319827') # rejects non-string secrets cc = CryptContext(["des_crypt"]) h = refhash = cc.hash('stub') for secret, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.verify, secret, h, **kwds) # always treat hash=None as False self.assertFalse(cc.verify(secret, None)) # rejects non-string hashes cc = CryptContext(["des_crypt"]) for h, kwds in self.nonstring_vectors: if h is None: continue self.assertRaises(TypeError, cc.verify, 'secret', h, **kwds) # throws error without schemes self.assertRaises(KeyError, CryptContext().verify, 'secret', 'hash') # bad scheme values self.assertRaises(KeyError, cc.verify, 'secret', refhash, scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.verify, 'secret', refhash, scheme=1) # bad category values self.assertRaises(TypeError, cc.verify, 'secret', refhash, category=1) def test_46_needs_update(self): """test needs_update() method""" cc = CryptContext(**self.sample_4_dict) # check deprecated scheme self.assertTrue(cc.needs_update('9XXD4trGYeGJA')) self.assertFalse(cc.needs_update('$1$J8HC2RCr$HcmM.7NxB2weSvlw2FgzU0')) # check min rounds self.assertTrue(cc.needs_update('$5$rounds=1999$jD81UCoo.zI.UETs$Y7qSTQ6mTiU9qZB4fRr43wRgQq4V.5AAf7F97Pzxey/')) self.assertFalse(cc.needs_update('$5$rounds=2000$228SSRje04cnNCaQ$YGV4RYu.5sNiBvorQDlO0WWQjyJVGKBcJXz3OtyQ2u8')) # check max rounds self.assertFalse(cc.needs_update('$5$rounds=3000$fS9iazEwTKi7QPW4$VasgBC8FqlOvD7x2HhABaMXCTh9jwHclPA9j5YQdns.')) self.assertTrue(cc.needs_update('$5$rounds=3001$QlFHHifXvpFX4PLs$/0ekt7lSs/lOikSerQ0M/1porEHxYq7W/2hdFpxA3fA')) #-------------------------------------------------------------- # test hash.needs_update() interface #-------------------------------------------------------------- check_state = [] class dummy(uh.StaticHandler): name = 'dummy' _hash_prefix = '@' @classmethod def needs_update(cls, hash, secret=None): check_state.append((hash, secret)) return secret == "nu" def _calc_checksum(self, secret): from hashlib import md5 if isinstance(secret, unicode): secret = secret.encode("utf-8") return str_to_uascii(md5(secret).hexdigest()) # calling needs_update should query callback ctx = CryptContext([dummy]) hash = refhash = dummy.hash("test") self.assertFalse(ctx.needs_update(hash)) self.assertEqual(check_state, [(hash,None)]) del check_state[:] # now with a password self.assertFalse(ctx.needs_update(hash, secret='bob')) self.assertEqual(check_state, [(hash,'bob')]) del check_state[:] # now when it returns True self.assertTrue(ctx.needs_update(hash, secret='nu')) self.assertEqual(check_state, [(hash,'nu')]) del check_state[:] #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # rejects non-string hashes cc = CryptContext(["des_crypt"]) for hash, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.needs_update, hash, **kwds) # throws error without schemes self.assertRaises(KeyError, CryptContext().needs_update, 'hash') # bad scheme values self.assertRaises(KeyError, cc.needs_update, refhash, scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.needs_update, refhash, scheme=1) # bad category values self.assertRaises(TypeError, cc.needs_update, refhash, category=1) def test_47_verify_and_update(self): """test verify_and_update()""" cc = CryptContext(**self.sample_4_dict) # create some hashes h1 = cc.handler("des_crypt").hash("password") h2 = cc.handler("sha256_crypt").hash("password") # check bad password, deprecated hash ok, new_hash = cc.verify_and_update("wrongpass", h1) self.assertFalse(ok) self.assertIs(new_hash, None) # check bad password, good hash ok, new_hash = cc.verify_and_update("wrongpass", h2) self.assertFalse(ok) self.assertIs(new_hash, None) # check right password, deprecated hash ok, new_hash = cc.verify_and_update("password", h1) self.assertTrue(ok) self.assertTrue(cc.identify(new_hash), "sha256_crypt") # check right password, good hash ok, new_hash = cc.verify_and_update("password", h2) self.assertTrue(ok) self.assertIs(new_hash, None) #-------------------------------------------------------------- # border cases #-------------------------------------------------------------- # rejects non-string secrets cc = CryptContext(["des_crypt"]) hash = refhash = cc.hash('stub') for secret, kwds in self.nonstring_vectors: self.assertRaises(TypeError, cc.verify_and_update, secret, hash, **kwds) # always treat hash=None as False self.assertEqual(cc.verify_and_update(secret, None), (False, None)) # rejects non-string hashes cc = CryptContext(["des_crypt"]) for hash, kwds in self.nonstring_vectors: if hash is None: continue self.assertRaises(TypeError, cc.verify_and_update, 'secret', hash, **kwds) # throws error without schemes self.assertRaises(KeyError, CryptContext().verify_and_update, 'secret', 'hash') # bad scheme values self.assertRaises(KeyError, cc.verify_and_update, 'secret', refhash, scheme="fake") # XXX: should this be ValueError? self.assertRaises(TypeError, cc.verify_and_update, 'secret', refhash, scheme=1) # bad category values self.assertRaises(TypeError, cc.verify_and_update, 'secret', refhash, category=1) def test_48_context_kwds(self): """hash(), verify(), and verify_and_update() -- discard unused context keywords""" # setup test case # NOTE: postgres_md5 hash supports 'user' context kwd, which is used for this test. from passlib.hash import des_crypt, md5_crypt, postgres_md5 des_hash = des_crypt.hash("stub") pg_root_hash = postgres_md5.hash("stub", user="root") pg_admin_hash = postgres_md5.hash("stub", user="admin") #------------------------------------------------------------ # case 1: contextual kwds not supported by any hash in CryptContext #------------------------------------------------------------ cc1 = CryptContext([des_crypt, md5_crypt]) self.assertEqual(cc1.context_kwds, set()) # des_scrypt should work w/o any contextual kwds self.assertTrue(des_crypt.identify(cc1.hash("stub")), "des_crypt") self.assertTrue(cc1.verify("stub", des_hash)) self.assertEqual(cc1.verify_and_update("stub", des_hash), (True, None)) # des_crypt should throw error due to unknown context keyword with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertRaises(TypeError, cc1.hash, "stub", user="root") self.assertRaises(TypeError, cc1.verify, "stub", des_hash, user="root") self.assertRaises(TypeError, cc1.verify_and_update, "stub", des_hash, user="root") #------------------------------------------------------------ # case 2: at least one contextual kwd supported by non-default hash #------------------------------------------------------------ cc2 = CryptContext([des_crypt, postgres_md5]) self.assertEqual(cc2.context_kwds, set(["user"])) # verify des_crypt works w/o "user" kwd self.assertTrue(des_crypt.identify(cc2.hash("stub")), "des_crypt") self.assertTrue(cc2.verify("stub", des_hash)) self.assertEqual(cc2.verify_and_update("stub", des_hash), (True, None)) # verify des_crypt ignores "user" kwd self.assertTrue(des_crypt.identify(cc2.hash("stub", user="root")), "des_crypt") self.assertTrue(cc2.verify("stub", des_hash, user="root")) self.assertEqual(cc2.verify_and_update("stub", des_hash, user="root"), (True, None)) # verify error with unknown kwd with self.assertWarningList(["passing settings to.*is deprecated"]): self.assertRaises(TypeError, cc2.hash, "stub", badkwd="root") self.assertRaises(TypeError, cc2.verify, "stub", des_hash, badkwd="root") self.assertRaises(TypeError, cc2.verify_and_update, "stub", des_hash, badkwd="root") #------------------------------------------------------------ # case 3: at least one contextual kwd supported by default hash #------------------------------------------------------------ cc3 = CryptContext([postgres_md5, des_crypt], deprecated="auto") self.assertEqual(cc3.context_kwds, set(["user"])) # postgres_md5 should have error w/o context kwd self.assertRaises(TypeError, cc3.hash, "stub") self.assertRaises(TypeError, cc3.verify, "stub", pg_root_hash) self.assertRaises(TypeError, cc3.verify_and_update, "stub", pg_root_hash) # postgres_md5 should work w/ context kwd self.assertEqual(cc3.hash("stub", user="root"), pg_root_hash) self.assertTrue(cc3.verify("stub", pg_root_hash, user="root")) self.assertEqual(cc3.verify_and_update("stub", pg_root_hash, user="root"), (True, None)) # verify_and_update() should fail against wrong user self.assertEqual(cc3.verify_and_update("stub", pg_root_hash, user="admin"), (False, None)) # verify_and_update() should pass all context kwds through when rehashing self.assertEqual(cc3.verify_and_update("stub", des_hash, user="root"), (True, pg_root_hash)) #=================================================================== # rounds options #=================================================================== # TODO: now that rounds generation has moved out of _CryptRecord to HasRounds, # this should just test that we're passing right options to handler.using(), # and that resulting handler has right settings. # Can then just let HasRounds tests (which are a copy of this) deal with things. # NOTE: the follow tests check how _CryptRecord handles # the min/max/default/vary_rounds options, via the output of # genconfig(). it's assumed hash() takes the same codepath. def test_50_rounds_limits(self): """test rounds limits""" cc = CryptContext(schemes=["sha256_crypt"], sha256_crypt__min_rounds=2000, sha256_crypt__max_rounds=3000, sha256_crypt__default_rounds=2500, ) # stub digest returned by sha256_crypt's genconfig calls.. STUB = '...........................................' #-------------------------------------------------- # settings should have been applied to custom handler, # it should take care of the rest #-------------------------------------------------- custom_handler = cc._get_record("sha256_crypt", None) self.assertEqual(custom_handler.min_desired_rounds, 2000) self.assertEqual(custom_handler.max_desired_rounds, 3000) self.assertEqual(custom_handler.default_rounds, 2500) #-------------------------------------------------- # min_rounds #-------------------------------------------------- # set below handler minimum with self.assertWarningList([PasslibHashWarning]*2): c2 = cc.copy(sha256_crypt__min_rounds=500, sha256_crypt__max_rounds=None, sha256_crypt__default_rounds=500) self.assertEqual(c2.genconfig(salt="nacl"), "$5$rounds=1000$nacl$" + STUB) # below policy minimum # NOTE: formerly issued a warning in passlib 1.6, now just a wrapper for .replace() with self.assertWarningList([]): self.assertEqual( cc.genconfig(rounds=1999, salt="nacl"), '$5$rounds=1999$nacl$' + STUB) # equal to policy minimum self.assertEqual( cc.genconfig(rounds=2000, salt="nacl"), '$5$rounds=2000$nacl$' + STUB) # above policy minimum self.assertEqual( cc.genconfig(rounds=2001, salt="nacl"), '$5$rounds=2001$nacl$' + STUB) #-------------------------------------------------- # max rounds #-------------------------------------------------- # set above handler max with self.assertWarningList([PasslibHashWarning]*2): c2 = cc.copy(sha256_crypt__max_rounds=int(1e9)+500, sha256_crypt__min_rounds=None, sha256_crypt__default_rounds=int(1e9)+500) self.assertEqual(c2.genconfig(salt="nacl"), "$5$rounds=999999999$nacl$" + STUB) # above policy max # NOTE: formerly issued a warning in passlib 1.6, now just a wrapper for .using() with self.assertWarningList([]): self.assertEqual( cc.genconfig(rounds=3001, salt="nacl"), '$5$rounds=3001$nacl$' + STUB) # equal policy max self.assertEqual( cc.genconfig(rounds=3000, salt="nacl"), '$5$rounds=3000$nacl$' + STUB) # below policy max self.assertEqual( cc.genconfig(rounds=2999, salt="nacl"), '$5$rounds=2999$nacl$' + STUB) #-------------------------------------------------- # default_rounds #-------------------------------------------------- # explicit default rounds self.assertEqual(cc.genconfig(salt="nacl"), '$5$rounds=2500$nacl$' + STUB) # fallback default rounds - use handler's df = hash.sha256_crypt.default_rounds c2 = cc.copy(sha256_crypt__default_rounds=None, sha256_crypt__max_rounds=df<<1) self.assertEqual(c2.genconfig(salt="nacl"), '$5$rounds=%d$nacl$%s' % (df, STUB)) # fallback default rounds - use handler's, but clipped to max rounds c2 = cc.copy(sha256_crypt__default_rounds=None, sha256_crypt__max_rounds=3000) self.assertEqual(c2.genconfig(salt="nacl"), '$5$rounds=3000$nacl$' + STUB) # TODO: test default falls back to mx / mn if handler has no default. # default rounds - out of bounds self.assertRaises(ValueError, cc.copy, sha256_crypt__default_rounds=1999) cc.copy(sha256_crypt__default_rounds=2000) cc.copy(sha256_crypt__default_rounds=3000) self.assertRaises(ValueError, cc.copy, sha256_crypt__default_rounds=3001) #-------------------------------------------------- # border cases #-------------------------------------------------- # invalid min/max bounds c2 = CryptContext(schemes=["sha256_crypt"]) # NOTE: as of v1.7, these are clipped w/ a warning instead... # self.assertRaises(ValueError, c2.copy, sha256_crypt__min_rounds=-1) # self.assertRaises(ValueError, c2.copy, sha256_crypt__max_rounds=-1) self.assertRaises(ValueError, c2.copy, sha256_crypt__min_rounds=2000, sha256_crypt__max_rounds=1999) # test bad values self.assertRaises(ValueError, CryptContext, sha256_crypt__min_rounds='x') self.assertRaises(ValueError, CryptContext, sha256_crypt__max_rounds='x') self.assertRaises(ValueError, CryptContext, all__vary_rounds='x') self.assertRaises(ValueError, CryptContext, sha256_crypt__default_rounds='x') # test bad types rejected bad = datetime.datetime.now() # picked cause can't be compared to int self.assertRaises(TypeError, CryptContext, "sha256_crypt", sha256_crypt__min_rounds=bad) self.assertRaises(TypeError, CryptContext, "sha256_crypt", sha256_crypt__max_rounds=bad) self.assertRaises(TypeError, CryptContext, "sha256_crypt", all__vary_rounds=bad) self.assertRaises(TypeError, CryptContext, "sha256_crypt", sha256_crypt__default_rounds=bad) def test_51_linear_vary_rounds(self): """test linear vary rounds""" cc = CryptContext(schemes=["sha256_crypt"], sha256_crypt__min_rounds=1995, sha256_crypt__max_rounds=2005, sha256_crypt__default_rounds=2000, ) # test negative self.assertRaises(ValueError, cc.copy, all__vary_rounds=-1) self.assertRaises(ValueError, cc.copy, all__vary_rounds="-1%") self.assertRaises(ValueError, cc.copy, all__vary_rounds="101%") # test static c2 = cc.copy(all__vary_rounds=0) self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 0) self.assert_rounds_range(c2, "sha256_crypt", 2000, 2000) c2 = cc.copy(all__vary_rounds="0%") self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 0) self.assert_rounds_range(c2, "sha256_crypt", 2000, 2000) # test absolute c2 = cc.copy(all__vary_rounds=1) self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 1) self.assert_rounds_range(c2, "sha256_crypt", 1999, 2001) c2 = cc.copy(all__vary_rounds=100) self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 100) self.assert_rounds_range(c2, "sha256_crypt", 1995, 2005) # test relative c2 = cc.copy(all__vary_rounds="0.1%") self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 0.001) self.assert_rounds_range(c2, "sha256_crypt", 1998, 2002) c2 = cc.copy(all__vary_rounds="100%") self.assertEqual(c2._get_record("sha256_crypt", None).vary_rounds, 1.0) self.assert_rounds_range(c2, "sha256_crypt", 1995, 2005) def test_52_log2_vary_rounds(self): """test log2 vary rounds""" cc = CryptContext(schemes=["bcrypt"], bcrypt__min_rounds=15, bcrypt__max_rounds=25, bcrypt__default_rounds=20, ) # test negative self.assertRaises(ValueError, cc.copy, all__vary_rounds=-1) self.assertRaises(ValueError, cc.copy, all__vary_rounds="-1%") self.assertRaises(ValueError, cc.copy, all__vary_rounds="101%") # test static c2 = cc.copy(all__vary_rounds=0) self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 0) self.assert_rounds_range(c2, "bcrypt", 20, 20) c2 = cc.copy(all__vary_rounds="0%") self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 0) self.assert_rounds_range(c2, "bcrypt", 20, 20) # test absolute c2 = cc.copy(all__vary_rounds=1) self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 1) self.assert_rounds_range(c2, "bcrypt", 19, 21) c2 = cc.copy(all__vary_rounds=100) self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 100) self.assert_rounds_range(c2, "bcrypt", 15, 25) # test relative - should shift over at 50% mark c2 = cc.copy(all__vary_rounds="1%") self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 0.01) self.assert_rounds_range(c2, "bcrypt", 20, 20) c2 = cc.copy(all__vary_rounds="49%") self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 0.49) self.assert_rounds_range(c2, "bcrypt", 20, 20) c2 = cc.copy(all__vary_rounds="50%") self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 0.5) self.assert_rounds_range(c2, "bcrypt", 19, 20) c2 = cc.copy(all__vary_rounds="100%") self.assertEqual(c2._get_record("bcrypt", None).vary_rounds, 1.0) self.assert_rounds_range(c2, "bcrypt", 15, 21) def assert_rounds_range(self, context, scheme, lower, upper): """helper to check vary_rounds covers specified range""" # NOTE: this runs enough times the min and max *should* be hit, # though there's a faint chance it will randomly fail. handler = context.handler(scheme) salt = handler.default_salt_chars[0:1] * handler.max_salt_size seen = set() for i in irange(300): h = context.genconfig(scheme, salt=salt) r = handler.from_string(h).rounds seen.add(r) self.assertEqual(min(seen), lower, "vary_rounds had wrong lower limit:") self.assertEqual(max(seen), upper, "vary_rounds had wrong upper limit:") #=================================================================== # harden_verify / min_verify_time #=================================================================== def test_harden_verify_parsing(self): """harden_verify -- parsing""" warnings.filterwarnings("ignore", ".*harden_verify.*", category=DeprecationWarning) # valid values ctx = CryptContext(schemes=["sha256_crypt"]) self.assertEqual(ctx.harden_verify, None) self.assertEqual(ctx.using(harden_verify="").harden_verify, None) self.assertEqual(ctx.using(harden_verify="true").harden_verify, None) self.assertEqual(ctx.using(harden_verify="false").harden_verify, None) def test_dummy_verify(self): """ dummy_verify() method """ # check dummy_verify() takes expected time expected = 0.05 accuracy = 0.2 handler = DelayHash.using() handler.delay = expected ctx = CryptContext(schemes=[handler]) ctx.dummy_verify() # prime the memoized helpers elapsed, _ = time_call(ctx.dummy_verify) self.assertAlmostEqual(elapsed, expected, delta=expected * accuracy) # TODO: test dummy_verify() invoked by .verify() when hash is None, # and same for .verify_and_update() #=================================================================== # feature tests #=================================================================== def test_61_autodeprecate(self): """test deprecated='auto' is handled correctly""" def getstate(ctx, category=None): return [ctx.handler(scheme, category).deprecated for scheme in ctx.schemes()] # correctly reports default ctx = CryptContext("sha256_crypt,md5_crypt,des_crypt", deprecated="auto") self.assertEqual(getstate(ctx, None), [False, True, True]) self.assertEqual(getstate(ctx, "admin"), [False, True, True]) # correctly reports changed default ctx.update(default="md5_crypt") self.assertEqual(getstate(ctx, None), [True, False, True]) self.assertEqual(getstate(ctx, "admin"), [True, False, True]) # category default is handled correctly ctx.update(admin__context__default="des_crypt") self.assertEqual(getstate(ctx, None), [True, False, True]) self.assertEqual(getstate(ctx, "admin"), [True, True, False]) # handles 1 scheme ctx = CryptContext(["sha256_crypt"], deprecated="auto") self.assertEqual(getstate(ctx, None), [False]) self.assertEqual(getstate(ctx, "admin"), [False]) # disallow auto & other deprecated schemes at same time. self.assertRaises(ValueError, CryptContext, "sha256_crypt,md5_crypt", deprecated="auto,md5_crypt") self.assertRaises(ValueError, CryptContext, "sha256_crypt,md5_crypt", deprecated="md5_crypt,auto") def test_disabled_hashes(self): """disabled hash support""" # # init ref info # from passlib.hash import md5_crypt, unix_disabled ctx = CryptContext(["des_crypt"]) ctx2 = CryptContext(["des_crypt", "unix_disabled"]) h_ref = ctx.hash("foo") h_other = md5_crypt.hash('foo') # # ctx.disable() # # test w/o disabled hash support self.assertRaisesRegex(RuntimeError, "no disabled hasher present", ctx.disable) self.assertRaisesRegex(RuntimeError, "no disabled hasher present", ctx.disable, h_ref) self.assertRaisesRegex(RuntimeError, "no disabled hasher present", ctx.disable, h_other) # test w/ disabled hash support h_dis = ctx2.disable() self.assertEqual(h_dis, unix_disabled.default_marker) h_dis_ref = ctx2.disable(h_ref) self.assertEqual(h_dis_ref, unix_disabled.default_marker + h_ref) h_dis_other = ctx2.disable(h_other) self.assertEqual(h_dis_other, unix_disabled.default_marker + h_other) # don't double-wrap existing disabled hash self.assertEqual(ctx2.disable(h_dis_ref), h_dis_ref) # # ctx.is_enabled() # # test w/o disabled hash support self.assertTrue(ctx.is_enabled(h_ref)) HASH_NOT_IDENTIFIED = "hash could not be identified" self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.is_enabled, h_other) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.is_enabled, h_dis) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.is_enabled, h_dis_ref) # test w/ disabled hash support self.assertTrue(ctx2.is_enabled(h_ref)) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.is_enabled, h_other) self.assertFalse(ctx2.is_enabled(h_dis)) self.assertFalse(ctx2.is_enabled(h_dis_ref)) # # ctx.enable() # # test w/o disabled hash support self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.enable, "") self.assertRaises(TypeError, ctx.enable, None) self.assertEqual(ctx.enable(h_ref), h_ref) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.enable, h_other) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.enable, h_dis) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.enable, h_dis_ref) # test w/ disabled hash support self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx.enable, "") self.assertRaises(TypeError, ctx2.enable, None) self.assertEqual(ctx2.enable(h_ref), h_ref) self.assertRaisesRegex(ValueError, HASH_NOT_IDENTIFIED, ctx2.enable, h_other) self.assertRaisesRegex(ValueError, "cannot restore original hash", ctx2.enable, h_dis) self.assertEqual(ctx2.enable(h_dis_ref), h_ref) #=================================================================== # eoc #=================================================================== import hashlib, time class DelayHash(uh.StaticHandler): """dummy hasher which delays by specified amount""" name = "delay_hash" checksum_chars = uh.LOWER_HEX_CHARS checksum_size = 40 delay = 0 _hash_prefix = u("$x$") def _calc_checksum(self, secret): time.sleep(self.delay) if isinstance(secret, unicode): secret = secret.encode("utf-8") return str_to_uascii(hashlib.sha1(b"prefix" + secret).hexdigest()) #============================================================================= # LazyCryptContext #============================================================================= class dummy_2(uh.StaticHandler): name = "dummy_2" class LazyCryptContextTest(TestCase): descriptionPrefix = "LazyCryptContext" def setUp(self): # make sure this isn't registered before OR after unload_handler_name("dummy_2") self.addCleanup(unload_handler_name, "dummy_2") def test_kwd_constructor(self): """test plain kwds""" self.assertFalse(has_crypt_handler("dummy_2")) register_crypt_handler_path("dummy_2", "passlib.tests.test_context") cc = LazyCryptContext(iter(["dummy_2", "des_crypt"]), deprecated=["des_crypt"]) self.assertFalse(has_crypt_handler("dummy_2", True)) self.assertEqual(cc.schemes(), ("dummy_2", "des_crypt")) self.assertTrue(cc.handler("des_crypt").deprecated) self.assertTrue(has_crypt_handler("dummy_2", True)) def test_callable_constructor(self): self.assertFalse(has_crypt_handler("dummy_2")) register_crypt_handler_path("dummy_2", "passlib.tests.test_context") def onload(flag=False): self.assertTrue(flag) return dict(schemes=iter(["dummy_2", "des_crypt"]), deprecated=["des_crypt"]) cc = LazyCryptContext(onload=onload, flag=True) self.assertFalse(has_crypt_handler("dummy_2", True)) self.assertEqual(cc.schemes(), ("dummy_2", "des_crypt")) self.assertTrue(cc.handler("des_crypt").deprecated) self.assertTrue(has_crypt_handler("dummy_2", True)) #============================================================================= # eof #=============================================================================