# This file contains a list of regular expressions matching the names of # tests that are expected to fail. # # "make test" will not report failures for tests listed here and will consider # a successful run for any of these tests an error. ^samba3.blackbox.failure.failure # this is designed to fail, for testing our test infrastructure .*driver.add_driver_timestamps # we only can store dates, not timestamps ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).LOCK9 # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).OPLOCK2 # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).STREAMERROR # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).DIR1 # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).DIR-CREATETIME # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).DELETE-LN # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).POSIX # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).UID-REGRESSION-TEST # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).SHORTNAME-TEST # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).POSIX-APPEND # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).POSIX-SYMLINK-ACL # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).NTTRANS-FSCTL # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).SMB2-NEGPROT # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).BAD-NBT-SESSION # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).SMB2-SESSION-REAUTH # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.plain\(ad_dc_ntvfs\).SMB2-SESSION-RECONNECT # Fails against the s4 ntvfs server ^samba3.smbtorture_s3.crypt_server\(nt4_dc\).SMB2-SESSION-REAUTH # expected to give ACCESS_DENIED SMB2.1 doesn't have encryption ^samba3.smbtorture_s3.crypt_server\(nt4_dc\).SMB2-SESSION-RECONNECT # expected to give CONNECTION_DISCONNECTED, we need to fix the test ^samba3.smb2.session enc.reconnect # expected to give CONNECTION_DISCONNECTED, we need to fix the test ^samba3.raw.session enc # expected to give ACCESS_DENIED as SMB1 encryption isn't used ^samba3.smbtorture_s3.crypt_server # expected to give ACCESS_DENIED as SMB1 encryption isn't used ^samba3.nbt.dgram.*netlogon2\(nt4_dc\) ^samba3.*rap.sam.*.useradd # Not provided by Samba 3 ^samba3.*rap.sam.*.userdelete # Not provided by Samba 3 ^samba3.libsmbclient.opendir # This requires a workgroup called 'WORKGROUP' and for netbios browse lists to have been registered # see bug 8412 ^samba3.smb2.rename.*.simple_nodelete ^samba3.smb2.rename.*.no_share_delete_no_delete_access ^samba3.blackbox.smbclient_machine_auth.plain \(nt4_dc:local\)# the NT4 DC does not currently set up a self-join ^samba3.raw.samba3hide.samba3hide\((nt4_dc|ad_dc)\) # This test fails against an smbd environment with NT ACLs enabled ^samba3.raw.samba3closeerr.samba3closeerr\(nt4_dc\) # This test fails against an smbd environment with NT ACLs enabled ^samba3.raw.acls nfs4acl_xattr-simple.INHERITFLAGS\(nt4_dc\) # This (and the follow nfs4acl_xattr tests fail because our NFSv4 backend isn't a complete mapping yet. ^samba3.raw.acls nfs4acl_xattr-simple.sd\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-simple.create_file\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-simple.create_dir\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-simple.nulldacl\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-simple.generic\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-simple.inheritance\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.INHERITFLAGS\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.sd\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.create_file\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.create_dir\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.nulldacl\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.generic\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.inheritance\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.inherit_creator_owner\(nt4_dc\) ^samba3.raw.acls nfs4acl_xattr-special.inherit_creator_group\(nt4_dc\) ^samba3.base.delete.deltest16a ^samba3.base.delete.deltest17a ^samba3.unix.whoami anonymous connection.whoami\(ad_dc\) # We need to resolve if we should be including SID_NT_WORLD and SID_NT_NETWORK in this token ^samba3.unix.whoami anonymous connection.whoami\(ad_member\) # smbd maps anonymous logins to domain guest in the local domain, not SID_NT_ANONYMOUS # these show that we still have some differences between our system # with our internal iconv because it passes except when we bypass our # internal iconv modules ^samba4.local.convert_string_handle.system.iconv.gd_ascii ^samba4.local.convert_string_handle.system.iconv.gd_iso8859_cp850 ^samba4..*base.delete.*.deltest17\( ^samba4..*base.delete.*.deltest17b ^samba4..*base.delete.*.deltest17c ^samba4..*base.delete.*.deltest17e ^samba4..*base.delete.*.deltest17f ^samba4..*base.delete.*.deltest20a ^samba4..*base.delete.*.deltest20b ^samba4.raw.session.reauth ^samba4.raw.session.expire1 ^samba4.raw.rename.*.osxrename ^samba4.raw.rename.*.directory rename ^samba4.raw.eas ^samba4.rpc.winreg.*security ^samba4.local.registry.(dir|ldb).check hive security ^samba4.local.registry.local.security ^samba4.rpc.wkssvc ^samba4.rpc.handles.*.lsarpc-shared ^samba4.rpc.epmapper ^samba4.rpc.lsalookup on ncalrpc ^samba4.rpc.lsalookup on ncacn_np ^samba4.rpc.lsalookup with seal,padcheck ^samba4.rpc.lsalookup with validate ^samba4.rpc.lsalookup with bigendian ^samba4.rpc.netlogon.*.LogonUasLogon ^samba4.rpc.netlogon.*.LogonUasLogoff ^samba4.rpc.netlogon.*.DatabaseSync ^samba4.rpc.netlogon.*.DatabaseSync2 ^samba4.rpc.netlogon.*.NetrEnumerateTrustedDomains ^samba4.rpc.netlogon.*.NetrEnumerateTrustedDomainsEx ^samba4.rpc.netlogon.*.GetPassword ^samba4.rpc.netlogon.*.DatabaseRedo ^samba4.base.charset.*.Testing partial surrogate ^samba4.*.base.maximum_allowed # broken until we implement NTCREATEX_OPTIONS_BACKUP_INTENT .*net.api.delshare.* # DelShare isn't implemented yet ^samba4.rap.*netservergetinfo ^samba4.rap.*netsessionenum ^samba4.rap.*netsessiongetinfo ^samba4.rap.*netremotetod # SMB2 in s4 does not seem to support rename correctly ^samba4.smb2.rename.simple\(.*\)$ ^samba4.smb2.rename.no_sharing\(.*\)$ ^samba4.smb2.rename.share_delete_and_delete_access\(.*\)$ ^samba4.smb2.rename.no_share_delete_but_delete_access\(.*\)$ ^samba4.smb2.rename.share_delete_no_delete_access\(.*\)$ ^samba4.smb2.rename.no_share_delete_no_delete_access\(.*\)$ ^samba4.smb2.rename.msword ^samba4.smb2.rename.rename_dir_bench\(ad_dc_ntvfs\) ^samba4.smb2.rename.rename_dir_openfile\(.*\)$ ^samba4.smb2.oplock.doc ^samba4.smb2.compound.related3 ^samba4.smb2.compound.compound-break ^samba4.smb2.lock.valid-request ^samba4.*base.delaywrite.*update of write time and SMBwrite truncate\(.*\)$ ^samba4.*base.delaywrite.*update of write time and SMBwrite truncate expand\(.*\)$ ^samba4.*base.delaywrite.*delayed update of write time 3a\(.*\)$ ^samba4.*base.delaywrite.*delayed update of write time 3c\(.*\)$ ^samba4.*base.delaywrite.*update of write time using SET_END_OF_FILE\(.*\)$ ^samba4.*base.delaywrite.*update of write time using SET_ALLOCATION_SIZE\(.*\)$ ^samba4.*base.delaywrite.*directory timestamp update test\(.*\)$ ^samba4.ldap.python \(ad_dc_ntvfs\).Test add_ldif\(\) with BASE64 security descriptor input using WRONG domain SID\(.*\)$ # some operations don't work over the CIFS NTVFS backend yet (eg. root_fid) ^samba4.ntvfs.cifs.*.base.createx_sharemodes_dir ^samba4.raw.lock.*.async # bug 6960 ^samba4.raw.open.ntcreatex_supersede ^samba4.smb2.lock.*.multiple-unlock # bug 6959 ^samba4.raw.sfileinfo.*.end-of-file\(.*\)$ # bug 6962 ^samba4.raw.oplock.*.batch22 # bug 6963 ^samba4.raw.oplock.*.doc1 ^samba4.raw.oplock.*.exclusive5 ^samba4.raw.oplock.*.exclusive9 ^samba4.raw.oplock.*.level_ii_1 ^samba4.raw.lock.*.zerobyteread # bug 6974 ^samba4.smb2.lock.*.zerobyteread # bug 6974 ^samba4.raw.streams.*.delete ^samba4.raw.streams.*.createdisp ^samba4.raw.streams.*.sumtab ^samba4.raw.streams.*.perms ^samba4.raw.acls.INHERITFLAGS ^samba4.raw.acls.*.create_dir ^samba4.raw.acls.*.create_file ^samba4.smb2.create.*.acldir ^samba4.smb2.create.*.impersonation ^samba4.smb2.acls.*.generic ^samba4.smb2.acls.*.inheritflags ^samba4.smb2.acls.*.owner ^samba4.smb2.acls.*.ACCESSBASED ^samba4.ldap.dirsync.python.ad_dc_ntvfs..__main__.ExtendedDirsyncTests.test_dirsync_deleted_items #^samba4.ldap.dirsync.python.ad_dc_ntvfs..__main__.ExtendedDirsyncTests.* ^samba4.libsmbclient.opendir.opendir # This requires netbios browsing ^samba4.rpc.drsuapi.*.drsuapi.DsGetDomainControllerInfo\(.*\)$ ^samba4.smb2.oplock.exclusive2\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.exclusive5\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.exclusive6\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.exclusive9\(.*\)$ ^samba4.smb2.oplock.brl3\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.levelii500\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.brl1\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch22\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch19\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch12\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch11\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch1\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch6\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch9\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch9a\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch10\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch20\(.*\)$ # samba 4 oplocks are a mess ^samba4.smb2.oplock.batch26\(.*\)$ ^samba4.smb2.oplock.stream1 # samba 4 oplocks are a mess ^samba4.smb2.getinfo.complex # streams on directories does not work ^samba4.smb2.getinfo.qfs_buffercheck # S4 does not do the INFO_LENGTH_MISMATCH/BUFFER_OVERFLOW thingy ^samba4.smb2.getinfo.qfile_buffercheck # S4 does not do the INFO_LENGTH_MISMATCH/BUFFER_OVERFLOW thingy ^samba4.smb2.getinfo.qsec_buffercheck # S4 does not do the BUFFER_TOO_SMALL thingy ^samba4.ntvfs.cifs.krb5.base.createx_access.createx_access\(.*\)$ ^samba4.rpc.lsa.forest.trust #Not fully provided by Samba4 ^samba4.blackbox.kinit\(.*\).kinit with user password for expired password\(.*\) # We need to work out why this fails only during the pw change ^samba4.blackbox.upgradeprovision.alpha13.ldapcmp_sd\(none\) # Due to something rewriting the NT ACL on DNS objects ^samba4.blackbox.upgradeprovision.alpha13.ldapcmp_full_sd\(none\) # Due to something rewriting the NT ACL on DNS objects ^samba4.blackbox.upgradeprovision.release-4-0-0.ldapcmp_sd\(none\) # Due to something rewriting the NT ACL on DNS objects ^samba4.raw.read.readx\(ad_dc_ntvfs\) # fails readx 16bit alignment requirement ^samba3.smb2.create.gentest ^samba3.smb2.create.blob ^samba3.smb2.create.open ^samba3.smb2.notify.valid-req ^samba3.smb2.notify.rec ^samba3.smb2.durable-open.delete_on_close2 ^samba3.smb2.durable-v2-open.app-instance ^samba4.smb2.ioctl.req_resume_key\(ad_dc_ntvfs\) # not supported by s4 ntvfs server ^samba4.smb2.ioctl.copy_chunk_\w*\(ad_dc_ntvfs\) # not supported by s4 ntvfs server ^samba3.smb2.dir.one ^samba3.smb2.dir.modify ^samba3.smb2.oplock.batch20 ^samba3.smb2.oplock.stream1 ^samba3.smb2.streams.rename ^samba3.smb2.streams.rename2 ^samba3.smb2.streams.attributes ^samba3.smb2.getinfo.complex ^samba3.smb2.getinfo.fsinfo # quotas don't work yet ^samba3.smb2.setinfo.setinfo ^samba3.smb2.session.*reauth5 # some special anonymous checks? ^samba3.smb2.compound.interim2 # wrong return code (STATUS_CANCELLED) ^samba3.smb2.replay.replay3 ^samba3.smb2.replay.replay4 ^samba3.smb2.lock.*replay ^samba3.raw.session.*reauth2 # maybe fix this? ^samba3.rpc.samr.passwords.badpwdcount.samr.badPwdCount\(nt4_dc\) # We fail this test currently ^samba3.rpc.samr.passwords.lockout.*\(nt4_dc\)$ # We fail this test currently ^samba3.rpc.spoolss.printer.addprinter.driver_info_winreg # knownfail or flapping? ^samba3.rpc.spoolss.printer.addprinterex.driver_info_winreg # knownfail or flapping? ^samba3.rpc.spoolss.printer.*.publish_toggle\(.*\)$ # needs spoolss AD member env ^samba3.rpc.spoolss.printserver.*.add_processor\(.*\)$ ^samba4.rpc.fsrvp # fsrvp server only provided by smbd # # The following tests fail against ad_dc (aka s3fs) currently. # These need to be examined and either fixed or correctly categorised. # but in the interests of ensuring we do not regress, we run the tests # and list the current failures here. # ^samba3.rpc.eventlog.eventlog.GetLogIntormation\(ad_dc\) ^samba3.rpc.eventlog.eventlog.FlushEventLog\(ad_dc\) ^samba3.rpc.eventlog.eventlog.ReportEventLog\(ad_dc\) ^samba3.rpc.eventlog.eventlog.ReadEventLog\(ad_dc\) ^samba3.rpc.eventlog.eventlog.GetNumRecords\(ad_dc\) ^samba3.rpc.eventlog.eventlog.OpenEventLog\(ad_dc\) ^samba3.rap.basic.netsessiongetinfo\(ad_dc\) # # This makes less sense when not running against an AD DC # ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -U against ad_member ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -G against ad_member ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -U check for sane mapping ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -G check for sane mapping ^samba.wbinfo_simple.\(ad_dc_ntvfs:local\).--allocate-uid ^samba.wbinfo_simple.\(ad_dc_ntvfs:local\).--allocate-gid ^samba.wbinfo_simple.\(s4member:local\).--allocate-uid ^samba.wbinfo_simple.\(s4member:local\).--allocate-gid ^samba.wbinfo_simple.\(ad_dc:local\).--allocate-uid ^samba.wbinfo_simple.\(ad_dc:local\).--allocate-gid ^samba.wbinfo_simple.\(chgdcpass:local\).--allocate-uid ^samba.wbinfo_simple.\(chgdcpass:local\).--allocate-gid # # These do not work against winbindd in member mode for unknown reasons # ^samba4.winbind.struct.domain_info\(s4member:local\) ^samba4.winbind.struct.getdcname\(s4member:local\) ^samba.blackbox.wbinfo\(s4member:local\).wbinfo -r against s4member\(s4member:local\) ^samba.blackbox.wbinfo\(s4member:local\).wbinfo --user-sids against s4member\(s4member:local\) ^samba.wbinfo_simple.\(s4member:local\).--user-groups ^samba.nss.test using winbind\(s4member:local\) # # These fail since ad_dc_ntvfs assigns the local user's uid to SAMBADOMAIN/Administrator # hence we have a duplicate UID in nsswitch. # ^samba3.local.nss.reentrant enumeration crosschecks\(ad_dc_ntvfs:local\) ^samba3.local.nss.reentrant enumeration\(ad_dc_ntvfs:local\) ^samba3.local.nss.enumeration\(ad_dc_ntvfs:local\) ^samba3.local.nss.reentrant enumeration crosschecks\(ad_dc:local\) ^samba3.local.nss.reentrant enumeration\(ad_dc:local\) ^samba3.local.nss.enumeration\(ad_dc:local\) # # These fail only if we run the unix.whoami test before them # in the member and ad_member environments. ==> Strange!!! # ^samba3.local.nss.reentrant enumeration crosschecks\(ad_member:local\) ^samba3.local.nss.reentrant enumeration\(ad_member:local\) ^samba3.local.nss.enumeration\(ad_member:local\) # # These do not work against winbindd in member mode for unknown reasons # ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -U against ad_member\(ad_member:local\) ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -U check for sane mapping\(ad_member:local\) ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -G against ad_member\(ad_member:local\) ^samba.blackbox.wbinfo\(ad_member:local\).wbinfo -G check for sane mapping\(ad_member:local\) ^samba4.winbind.struct.getdcname\(ad_member:local\) ^samba4.winbind.struct.lookup_name_sid\(ad_member:local\) ^samba4.winbind.struct.getdcname\(nt4_member:local\) # Works in other modes, just not against the classic/NT4 DC # # Differences in our KDC compared to windows # ^samba4.krb5.kdc .*.as-req-pac-request # We should reply to a request for a PAC over UDP with KRB5KRB_ERR_RESPONSE_TOO_BIG unconditionally # # This will fail against the classic DC, because it requires kerberos # ^samba4.winbind.pac.*\(nt4_member:local\) # No KDC on a classic DC # # This fails because it requires the tombstone_reanimation module to be enabled # ^samba4.ldap.acl.python\(.*\).__main__.AclUndeleteTests.test_undelete\(.*\) # # This fails because our python bindings create python Lists, not a type # we can watch for set methods on. # ^samba.tests.dcerpc.integer.samba.tests.dcerpc.integer.IntegerTests.test_.*_into_uint8_list # # Samba sort takes a primative approach to unicode sort. These tests # match Windows 2012R2 behaviour. # ^samba4.ldap.sort.python.+UnicodeSortTests