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authorDonald T. Davis <don@mit.edu>2009-06-10 11:38:27 +1000
committerAndrew Bartlett <abartlet@samba.org>2009-06-10 11:38:27 +1000
commit9e7501b2cbc52db8f63f75876a966110e35fba9f (patch)
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Clarify and expand the Kerberos notes made by Andrew Bartlett in 2005
Compiled with Andrew over a series of phone calls and gobby sessions, with the aim of documenting Kerberos requirements for Samba to us an alternate (ie, MIT) Kerberos library. Signed-off-by: Andrew Bartlett <abartlet@samba.org>
Diffstat (limited to 'source4')
-rw-r--r--source4/auth/kerberos/kerberos-notes.txt602
1 files changed, 448 insertions, 154 deletions
diff --git a/source4/auth/kerberos/kerberos-notes.txt b/source4/auth/kerberos/kerberos-notes.txt
index 43881a20d3..78efe179c1 100644
--- a/source4/auth/kerberos/kerberos-notes.txt
+++ b/source4/auth/kerberos/kerberos-notes.txt
@@ -1,139 +1,320 @@
-AllowedWorkstationNames and Krb5
---------------------------------
+Copyright Andrew Bartlett <abartlet@samba.org> 2005-2009
+Copyright Donald T. Davis <don@mit.edu>
-Microsoft uses the clientAddresses *multiple value* field in the krb5
-protocol (particularly the AS_REQ) to communicate it's netbios name.
-This is (my guess) to permit the userWorkstations field to work.
+Released under the GPLv3
-The KDC I imagine checks the netbios address against this value, in
-the same way that the Samba server does this.
+Important context for porting to MIT
+------------------------------------
-The checking of this implies a little of the next question:
+This document should be read in conjuction with the Samba4 source code.
+DAL and KDC requirements are expressed (as an implementation against Heimdal's
+HDB abstraction layer) in Samba4's source4/kdc/hdb-samba4.c in particular.
+hbd-samba4.c is the biggest piece of samba-to-krb glue layer, so the main
+part of the port to MIT is to replace hdb-samba4 with a similar glue layer
+that's designed for MIT's code.
-Is a DAL the layer we need?
----------------------------
+PAC requirements are implemeneted in source4/kdc/pac-glue.c
+
+The plugins (both of the above are Heimdal plugins) for the above are loaded
+in source4/kdc/kdc.c
-Looking at what we need to pass around, I start to seriously wonder if
-the DAL is even the right layer - we seem to want to create an account
-authorization abstraction layer - is this account permitted to login to
-this computer, at this time?
+For GSSAPI requirements, see auth/gensec/gensec_gssapi.c (the consumer of
+GSSAPI in Samba4)
-This information in AD is much richer than the Heimdal HDB, and it
-seems to make sense to do AD-specific access control checks in an
-AD-specific layer, not in the back-end agnostic server.
+For Kerberos requirements, see auth/kerberos/krb5_init_context.c .
-Because the DAL only reads in the principalName as the key, it has
-trouble performing access control decisions on things other than the
-name.
+Samba has its own credentials system, wrapping GSS creds, just as GSS
+creds wrap around krb5 creds. For the interaction between Samba4 credentials
+system and GSSAPI and Kerberos see auth/credentials/credentials_krb5.c .
-I'll be very interested if the DAL really works for eDirectory too.
-Perhaps all we need to do is add in the same kludges as we have in
-Samba 3.0 for eDirectory. Hmm...
+AllowedWorkstationNames and Krb5
+--------------------------------
+
+Microsoft uses the clientAddresses *multiple value* field in the krb5
+protocol (particularly the AS_REQ) to communicate the client's netbios
+name (legacy undotted name, <14 chars)
-That said, the current layer provides us with a very good start, and
-any redefinition would occour from that basis.
+This is (my guess) to support the userWorkstations field (in user's AD record).
+The idea is to support client-address restrictions, as was standard in NT:
+The AD authentication server I imagine checks the netbios address against
+this userWorkstations value (BTW, the NetLogon server does this, too).
+The checking of this field implies a little of the next question:
+
+Is a DAL the layer we need?
+---------------------------
+
+Looking at what we need to pass around, I don't think
+the DAL is even the right layer; what we really want
+is to create an account-authorization abstraction layer
+(e.g., is this account permitted to login to this computer,
+at this time?).
+Here is how we ended up doing this in Heimdal:
+ * We created a separate plugin, with this API:
+ typedef struct hdb_entry_ex {
+ void *ctx;
+ hdb_entry entry;
+ void (*free_entry)(krb5_context, struct hdb_entry_ex *);
+ } hdb_entry_ex;
+
+ * The void *ctx is a "private pointer," provided by the 'get' method's
+ hdb_entry_ex retval. The APIs below use the void *ctx so as to find
+ additional information about the user, not contained in the hdb_entry
+ structure. Both the provider and the APIs below understand how to cast
+ the private void *ctx pointer.
+
+ typedef krb5_error_code
+ (*krb5plugin_windc_pac_generate)(void *, krb5_context,
+ struct hdb_entry_ex *, krb5_pac*);
+ typedef krb5_error_code
+ (*krb5plugin_windc_pac_verify)(void *, krb5_context,
+ const krb5_principal,
+ struct hdb_entry_ex *,
+ struct hdb_entry_ex *,
+ krb5_pac *);
+ typedef krb5_error_code
+ (*krb5plugin_windc_client_access)(void *,
+ krb5_context,
+ struct hdb_entry_ex *,
+ KDC_REQ *, krb5_data *);
+
+ * (The krb5_data* here is critical, so that samba's KDC can return
+ the right NTSTATUS code in the 'error string' returned to the client.
+ Otherwise, the windows client won't get the right error message to
+ the user (such as 'password expired' etc). The pure Kerberos error
+ is not enough)
+
+ typedef struct krb5plugin_windc_ftable {
+ int minor_version;
+ krb5_error_code (*init)(krb5_context, void **);
+ void (*fini)(void *);
+ rb5plugin_windc_pac_generate pac_generate;
+ krb5plugin_windc_pac_verify pac_verify;
+ krb5plugin_windc_client_access client_access;
+ } krb5plugin_windc_ftable;
+ This API has some heimdal-specific stuff, that'll have to change when we port the plugin to MIT krb.
+ * 1st callback (pac_generate) creates an initial PAC from the user's AD record.
+ * 2nd callback (pac_verify) check that a PAC is correctly signed, add additional groups (for cross-realm tickets) and re-sign with the key of the target kerberos service's account
+ * 3rd callback (client_access) perform additional access checks, such as allowedWorkstations and account expiry.
+ * for example, to register this plugin, use the kdc's standard
+ plugin-system at Samba4's initialisation:
+ /* first, setup the table of callback pointers */
+ /* Registar WinDC hooks */
+ ret = krb5_plugin_register(krb5_context,
+ PLUGIN_TYPE_DATA, "windc",
+ &windc_plugin_table);
+ /* once registered, the KDC will invoke the callbacks */
+ /* while preparing each new ticket (TGT or app-tkt) */
+ * an alternate way to register the plugin is with a config-file that names
+ a DSO (Dynamically Shared Object).
+
+
+This plugin helps bridge an important gap: The user's AD record is much
+richer than the Heimdal HDB format allows, so we do AD-specific access
+control checks in an AD-specific layer (ie, the plugin), not in the
+DB-agnostic KDC server.
+
+In Novell's pure DAL approach, the DAL only read in the principalName as
+the key, so it had trouble performing access-control decisions on things
+other than the name (like the addresses).
+
+There is another, currently unhandled challenge in this area - the need to handle
+bad password counts (and good password notification), so that a single policy can
+be applied against all means of checking a password (NTLM, Kerberos, LDAP Simple
+bind etc)
+
+The Original work by Novell in creating a DAL did not seem to provide a way to
+update the PW counts information. Nevertheless, we know that this is very much
+required (and may have been addressed in Simo's subsequent IPA-KDC design),
+because in Samba3+eDirectory, great lengths are taken to update this information.
GSSAPI layer requirements
-------------------------
Welcome to the wonderful world of canonicalisation
-The MIT GSSAPI libs do not support kinit returning a different
+The MIT Krb5 libs (including GSSAPI) do not support kinit returning a different
realm to what the client asked for, even just in case differences.
-Heimdal has the same problem, and this applies to the krb5 layer, not
+Heimdal has the same problem, and this too applies to the krb5 layer, not
just gssapi.
-We need to test if the canonicalisation is controlled by the KDCOption
-flags, windows always sends the Canonicalize flags
-
-Old Clients (samba3 and HPUX clients) uses 'selfmade' gssapi/krb5
-for using it in the CIFS session setup. Because they use krb5_mk_req()
-they get a chksum field depending on the encryption type, but that's wrong
-for GSSAPI (see rfc 1964 section 1.1.1). The Cheksum type 8003
-should be used in the Authenticator of the AP-REQ! That allows the channel bindings,
-the GCC_C_* req_flags and optional delegation tickets to be passed from the client to the server.
-Hower windows doesn't seems to care about if the checksum is of the wrong type,
-for CIFS SessionSetups, it seems that the req_flags are just set to 0.
-So this can't work for LDAP connections with sign or seal, or for any DCERPC
-connection.
-
-So we need to also support old clients!
+there's two kinds of name-canonicalization that can occur:
+ * lower-to-upper case conversion, because Windows domain names are
+ usually in upper case;
+ * an unrecognizable subsitution of names, such as might happen when
+ a user requests a ticket for a NetBIOS domain name, but gets back
+ a ticket for the corresponging FQDN.
+
+As developers, we should test if the AD KDC's name-canonicalisation
+can be turned off with the KDCOption flags in the AS-REQ or TGS-REQ;
+Windows clients always send the Canonicalize flags as KDCOption values.
+
+Old Clients (samba3 and HPUX clients) use 'selfmade' gssapi/krb5 tokens
+for use in the CIFS session setup. these hand-crafted ASN.1 packets don't
+follow rfc1964 perfectly, so server-side krblib code has to be flexible
+enough to accept these bent tokens.
+It turns out that Windows' GSSAPI server-side code is sloppy about checking
+some GSSAPI tokens' checksums. During initial work to implement an AD client,
+it was easier to make an acceptable solution (to Windows servers) than to
+correctly implement the GSSAPI specification, particularly on top of the
+(inflexible) MIT Kerberos API. It did not seem possible to write a correct,
+seperate GSSAPI implementation on top of MIT Kerberos's public krb5lib API,
+and at the time, the effort did not need to extend beyond what Windows would
+require.
+
+The upshot is that old Samba3 clients send GSSAPI tokens bearing incorrect
+checksums, which AD's Krb5lib cheerfully accepts (but accepts the good checksums,
+too). Similarly, Samba4's heimdal krb5lib accepts these incorrect checksums.
+Accordingly, if MIT's krb5lib wants to interoperate with the old Samba3 clients,
+then MIT's library will have to do the same.
+
+Because these old clients use krb5_mk_req()
+the app-servers get a chksum field depending on the encryption type, but that's
+wrong for GSSAPI (see rfc 1964 section 1.1.1). The Checksum type 8003 should
+be used in the Authenticator of the AP-REQ! That (correct use of the 8003 type)
+would allows the channel bindings, the GCC_C_* req_flags and optional delegation
+tickets to be passed from the client to the server. However windows doesn't
+seem to care whether the checksum is of the wrong type, and for CIFS SessionSetups,
+it seems that the req_flags are just set to 0.
+This deviant checksum can't work for LDAP connections with sign or seal, or
+for any DCERPC connection, because those connections do not require the
+negotiation of GSS-Wrap paraemters (signing or sealing of whole payloads).
+Note: CIFS has an independent SMB signing mechanism, using the Kerberos key.
+
+see heimdal/lib/gssapi/krb5/accept_sec_context.c, lines 390-450 or so.
+
+This bug-compatibility is likely to be controversial in the kerberos community,
+but a similar need for bug-compatibility arose around MIT's & Heimdal's both
+failing to support TGS_SUBKEYs correctly, and there are numerous other cases.
+see https://lists.anl.gov/pipermail/ietf-krb-wg/2009-May/007630.html
+
+So MIT's krb5lib needs to also support old clients!
Principal Names, long and short names
-------------------------------------
As far as servicePrincipalNames are concerned, these are not
-canonicalised, except as regards the realm in the reply. That is, the
-client gets back the principal it asked for, with the realm portion
-'fixed' to uppercase, long form.
+canonicalised by AD's KDC, except as regards the realm in the reply.
+That is, the client gets back the principal it asked for, with
+the realm portion 'fixed' to uppercase, long form.
+Heimdal doesn't canonicalize names, but Samba4 does some canonicalization:
+For hostnames and usernames, Samba4 canonicalizes the requested name only
+for the LDAP principal-lookup, but then Samba4 returns the retrieved LDAP
+record with the request's original, uncanonicalized hostname replacing the
+canonicalized name that actually was retrieved.
+AB says that for usernames, Samba4 used to return the canonicalized username,
+as retrieved from LDAP. The reason for the different treatment was that
+the user needs to present his own canonicalized username to servers, for
+ACL-matching. For hostnames this isn't necessary.
+So, for bug-compatibility, we may need to optionally disable any
+namne-canonicalization that MIT's KDC does.
The short name of the realm seems to be accepted for at least AS_REQ
-operations, but because the server performs canonicalisation, this
-causes pain for current client libraries.
+operations, but the AD KDC always performs realm-canonicalisation,
+which converts the short realm-name to the canonical long form.
+So, this causes pain for current krb client libraries.
The canonicalisation of names matters not only for the KDC, but also
for code that has to deal with keytabs.
+With credential-caches, when canonicalization leads to cache-misses,
+the client just asks for new credentials for the variant server-name.
+This could happen, for example, if the user asks to access the server
+twice, using different variants of the server-name.
We also need to handle type 10 names (NT-ENTERPRISE), which are a full
principal name in the principal field, unrelated to the realm.
+The principal field contains both principal & realm names, while the
+realm field contains a realm name, too, possibly different.
+For example, an NT-ENTERPRISE principal name might look like:
+joeblow@microsoft.com@NTDEV.MICROSOFT.COM ,
+<--principal field-->|<----realm name--->|
+
+Where joe@microsoft.com is the leading portion, and NTDEV.MICROSOFT.COM is
+the realm. This is used for the 'email address-like login-name' feature of AD.
HOST/ Aliases
-------------
There is another post somewhere (ref lost for the moment) that details
where in active directory the list of stored aliases for HOST/ is.
-This should be read, parsed and used to allow any of these requests to
-use the HOST/ key.
-
-For example, this is how HTTP/, DNS/ and CIFS/ can use HOST/ without
-any explicit entry.
-
-
+This list is read & parsed by the AD KDC, so as to allow any of these
+aliased ticket-requests to use the HOST/ key.
+
+Samba4 currently has set:
+sPNMappings: host=ldap,dns,cifs,http (but dns's presence is a bug, somehow)
+
+AD actually has ~50 entries:
+
+sPNMappings: host=alerter,appmgmt,cisvc,clipsrv,browser,dhcp,dnscache,replicat
+ or,eventlog,eventsystem,policyagent,oakley,dmserver,dns,mcsvc,fax,msiserver,i
+ as,messenger,netlogon,netman,netdde,netddedsm,nmagent,plugplay,protectedstora
+ ge,rasman,rpclocator,rpc,rpcss,remoteaccess,rsvp,samss,scardsvr,scesrv,seclog
+ on,scm,dcom,cifs,spooler,snmp,schedule,tapisrv,trksvr,trkwks,ups,time,wins,ww
+ w,http,w3svc,iisadmin,msdtc
+
+Domain members that expect the longer list will break in damb4, as of 6/09.
+AB says he'll try to fix this right away.
+
+For example, this is how HTTP/, and CIFS/ can use HOST/ without
+any explicit entry in the servicePrincipalName attribute
+
+
+For example, the application-server might have (on its AD record):
+servicePrincipalName: HOST/my.computer@MY.REALM
+
+but the client asks for a ticket to cifs/my.computer@MY.REALM
+AD looks in LDAP for both name-variants
+AD then transposes cifs -> host after performing the lookup in the
+directory (for the original name), then looks for host/my.computer@MY.REALM
+
+for hostnames & usernames, alternate names appear as extra values in
+the multivalued "principal name" attributes:
+ - For hostnames, the other names (other than it's short name, implied
+ from the CN), is stored in the servicePrincipalName
+ - For usernames, the other names are stored in the userPrincipalName
+ attribute, and can be full e-mail address like names, such as
+ joe@microsoft.com (see above).
+
Jean-Baptiste.Marchand@hsc.fr reminds me:
-
> This is the SPNMappings attribute in Active Directory:
-
> http://msdn.microsoft.com/library/en-us/adschema/adschema/a_spnmappings.asp
We implement this in hdb-ldb.
Implicit names for Win2000 Accounts
-----------------------------------
-
-Despite not having a DNS name, nor a servicePrincipalName on accounts
-created by computers running win2000, it appears we are expected to
-have an implicit mapping from host/computer.full.name and
-host/computer to it's entry.
+AD's records for servers are keyed by CN or by servicePrincipalName,
+but for win2k boxes, these records don't include servicePrincipalName,
+so, the CN attribute is used instead.
+Despite not having a servicePrincipalName on accounts created
+by computers running win2000, it appears we are expected
+to have an implicit mapping from host/computer.full.name and
+host/computer to the computer's entry in the AD LDAP database
+(ie, be able to obtain tickets for that host name in the KDC).
Returned Salt for PreAuthentication
-----------------------------------
-When the server replies for pre-authentication, it returns the Salt,
+When the KDC replies for pre-authentication, it returns the Salt,
which may be in the form of a principalName that is in no way
connected with the current names. (ie, even if the userPrincipalName
and samAccountName are renamed, the old salt is returned).
-This is probably the kerberos standard salt, kept in the 'Key'. The
-standard generation rules are found in a Mail from Luke Howard dated
-10 Nov 2004:
+This is the kerberos standard salt, kept in the 'Key'. The
+AD generation rules are found in a Mail from Luke Howard dated
+10 Nov 2004. The MIT glue layer doesn't really need to care about
+these salt-handling details; the samba4 code & the LDAP backend
+will conspire to make sure that MIT's KDC gets correct salts.
From: Luke Howard <lukeh@padl.com>
-Message-Id: <200411100231.iAA2VLUW006101@au.padl.com>
-MIME-Version: 1.0
-Content-Type: text/plain; charset=US-ASCII
Organization: PADL Software Pty Ltd
To: lukeh@padl.com
Date: Wed, 10 Nov 2004 13:31:21 +1100
-Versions: dmail (bsd44) 2.6d/makemail 2.10
Cc: huaraz@moeller.plus.com, samba-technical@lists.samba.org
Subject: Re: Samba-3.0.7-1.3E Active Directory Issues
-X-BeenThere: samba-technical@lists.samba.org
-X-Mailman-Version: 2.1.4
-Precedence: list
-Reply-To: lukeh@padl.com
+-------
Did some more testing, it appears the behaviour has another
explanation. It appears that the standard Kerberos password salt
@@ -141,9 +322,13 @@ algorithm is applied in Windows 2003, just that the source principal
name is different.
Here is what I've been able to deduce from creating a bunch of
-different accounts:
+different accounts:
+[SAM name in this mail means the AD attribute samAccountName .
+ E.g., jbob for a user and jbcomputer$ for a computer.]
-Type of account Principal for Salting
+[UPN is the AD userPrincipalName attribute. For example, jbob@mydomain.com]
+
+Type of account Principal for Salting
========================================================================
Computer Account host/<SAM-Name-Without-$>.realm@REALM
User Account Without UPN <SAM-Name>@REALM
@@ -168,9 +353,6 @@ http://www.ietf.org/proceedings/01dec/I-D/draft-ietf-krb-wg-kerberos-referrals-0
-- Luke
---
-
-
Heimdal oddities
@@ -180,16 +362,28 @@ Heimdal is built such that it should be able to serve multiple realms
at the same time. This isn't relevant for Samba's use, but it shows
up in a lot of generalisations throughout the code.
-Other odd things:
- - Support for multiple passwords on a client account: we seem to
- call hdb_next_enctype2key() in the pre-authentication routines to
- allow multiple passwords per account in krb5. (I think this was
- intened to allow multiple salts)
-
-State Machine safety
---------------------
+Samba4's code originally tried internally to make it possible to use
+Heimdal's multi-realms-per-KDC ability, but this was ill-conceived,
+and AB has recently (6/09) ripped the last of that multi-realms
+stuff out of samba4. AB says that in AD, it's not really possible
+to make this work; several AD components structurally assume that
+there's one realm per KDC. However, we do use this to support
+canonicalization of realm-names: case variations, plus long-vs-short
+variants of realm-names.
-Samba is a giant state machine, and as such have very different
+Other odd things:
+ - Heimdal supports multiple passwords on a client account: Samba4
+ seems to call hdb_next_enctype2key() in the pre-authentication
+ routines to allow multiple passwords per account in krb5.
+ (I think this was intended to allow multiple salts).
+ AD doesn't support this, so the MIT port shouldn't bother with
+ this.
+
+State Machine safety when using Kerberos and GSSAPI libraries
+-------------------------------------------------------------
+
+Samba's client-side & app-server-side libraries are built on a giant
+state machine, and as such have very different
requirements to those traditionally expressed for kerberos and GSSAPI
libraries.
@@ -207,27 +401,51 @@ of this state is the sequence number and session keys for an ongoing
encrypted session).
The other issue affecting state machines is 'blocking' (waiting for a
-read on a network socket).
+read on a network socket). Samba's non-blocking I/O doesn't like
+waiting for libkrb5 to go away for awhile to talk to the KDC.
+
+Samba4 provides a hook 'send_to_kdc', that allows Samba4 to take over the
+IO handling, and run other events in the meantime. This uses a
+'nested event context' (which presents the challenges that the kerberos
+library might be called again, while still in the send_to_kdc hook).
Heimdal has this 'state machine safety' in parts, and we have modified
the lorikeet branch to improve this behviour, when using a new,
-non-standard API.
-
-Heimdal uses a per-context variable for the 'krb5_auth_context', which
+non-standard API to tunnelling a ccache (containing a set of tickets)
+through the gssapi, by temporarily casting the ccache pointer to a
+gss credential pointer.
+This new API is Heimdal's samba4-requested gss_krb5_import_cred() fcn;
+this will have to be rewritten or ported in the MIT port.
+
+This replaces an older scheme using the KRB5_CCACHE
+environment variable to get the same job done. This tunnelling trick
+enables a command-line app-client to run kinit tacitly, before running
+GSSAPI for service-authentication. This tunnelling trick avoids the
+more usual approach of keeping the ccache pointer in a global variable.
+
+No longer true; the krb5_context global is gone now:
+[Heimdal uses a per-context variable for the 'krb5_auth_context', which
controls the ongoing encrypted connection, but does use global
-variables for the ubiquitous krb5_context parameter.
+variables for the ubiquitous krb5_context parameter.]
The modification that has added most to 'state machine safety' of
-GSSAPI is the addition of the gsskrb5_acquire_creds function. This
+GSSAPI is the addition of the gss_krb5_acquire_creds() function. This
allows the caller to specify a keytab and ccache, for use by the
GSSAPI code. Therefore there is no need to use global variables to
-communicate this information.
+communicate this information about keytab & ccache.
At a more theoritical level (simply counting static and global
variables) Heimdal is not state machine safe for the GSSAPI layer.
+(Heimdal is now (6/09) much more nearly free of globals.)
The Krb5 layer alone is much closer, as far as I can tell, blocking
excepted. .
+
+As an alternate to fixing MIT Kerberos for better safety in this area,
+a new design might be implemented in Samba, where blocking read/write
+is made to the KDC in another (fork()ed) child process, and the results
+passed back to the parent process for use in other non-blocking operations.
+
To deal with blocking, we could have a fork()ed child per context,
using the 'GSSAPI export context' function to transfer
the GSSAPI state back into the main code for the wrap()/unwrap() part
@@ -235,9 +453,18 @@ of the operation. This will still hit issues of static storage (one
gss_krb5_context per process, and multiple GSSAPI encrypted sessions
at a time) but these may not matter in practice.
+This approach has long been controversial in the Samba team.
+An alternate way would be to be implement E_AGAIN in libkrb5: similar
+to the way to way read() works with incomplete operations. to do this
+in libkrb5 would be difficult, but valuable.
+
In the short-term, we deal with blocking by taking over the network
send() and recv() functions, therefore making them 'semi-async'. This
-doens't apply to DNS yet.
+doens't apply to DNS yet.These thread-safety context-variables will
+probably present porting problems, during the MIT port. This will
+probably be most of the work in the port to MIT.
+
+
GSSAPI and Kerberos extensions
------------------------------
@@ -245,22 +472,32 @@ GSSAPI and Kerberos extensions
This is a general list of the other extensions we have made to / need from
the kerberos libraries
- - DCE_STYLE
+ - DCE_STYLE : Microsoft's hard-coded 3-msg Challenge/Response handshake
+ emulates DCE's preference for C/R. Microsoft calls this DCE_STYLE.
+ MIT already has this nowadays (6/09).
- gsskrb5_get_initiator_subkey() (return the exact key that Samba3
has always asked for. gsskrb5_get_subkey() might do what we need
- anyway)
+ anyway). This is necessary, because in some spots, Microsoft uses
+ raw Kerberos keys, outside the Kerberos protocls, and not using Kerberos
+ wrappings etc. Ie, as a direct input to MD5 and ARCFOUR, without using
+ the make_priv() or make_safe() calls.
- gsskrb5_acquire_creds() (takes keytab and/or ccache as input
- parameters, see keytab and state machine discussion)
+ parameters, see keytab and state machine discussion in prev section)
+Not needed anymore, because MIT's code now handles PACs fully:
- gss_krb5_copy_service_keyblock() (get the key used to actually
encrypt the ticket to the server, because the same key is used for
the PAC validation).
- gsskrb5_extract_authtime_from_sec_context (get authtime from
kerberos ticket)
- gsskrb5_extract_authz_data_from_sec_context (get authdata from
- ticket, ie the PAC. Must unwrap the data if in an AD-IFRELEVENT)
+ ticket, ie the PAC. Must unwrap the data if in an AD-IFRELEVENT)]
+The new function to handle the PAC fully
+ - gsskrb5_extract_authz_data_from_sec_context()
+
+Samba still needs this one:
- gsskrb5_wrap_size (find out how big the wrapped packet will be,
given input length).
@@ -268,22 +505,49 @@ Keytab requirements
-------------------
Because windows machine account handling is very different to the
-tranditional 'MIT' keytab operation. This starts when we look at the
-basis of the secrets handling:
-
-Traditional 'MIT' behaviour is to use a keytab, continaing salted key
+traditional 'MIT' keytab operation.
+This starts when we look at the basics of the secrets handling:
+
+Samba file-servers can have many server-name simultaneously (kindof
+like web servers' software virtual hosting), but since these servers
+are running in AD, these names are free to be set up to all share
+the same secret key. In AD, host-sharing server names almost always
+share a secret key like this. In samba3, this key-sharing was optional, so
+some samba3 hosts' keytabs did hold multiple keys. samba4 abandons this
+traditional "old MIT" style of keytab, and only supports one key per keytab,
+and multiple server-names can use that keytab key in common.
+Heimdal offered "in-memory keytabs" for servers that use passwords.
+These server-side passwords were held in a Samba LDB database called secrets.ldb,
+and the heimdal library would be supplied the password from the ldb file and
+would construct an in-memory keytab struct containing the password,
+just as if the library had read an MIT-style keytab file.
+Unfortunately, only later, at recv_auth() time, would the heimdal library
+convert the PW into a salted-&-hashed AES key, by hashing 10,000 times with
+SHA-1. So, nowadays, this password-based in-memory keytab is seen as too
+slow, and is falling into disuse.
+
+Traditional 'MIT' behaviour is to use a keytab, containing salted key
data, extracted from the KDC. (In this modal, there is no 'service
password', instead the keys are often simply application of random
bytes). Heimdal also implements this behaviour.
The windows modal is very different - instead of sharing a keytab with
-each member server, a password is stored for the whole machine. The
-password is set with non-kerberos mechanisms (particularly SAMR, a
-DCE-RPC service) and when interacting on a kerberos basis, the
-password is salted by the client. (That is, no salt infromation
-appears to be convayed from the KDC to the member).
-
-In dealing with this modal, we leverage both the traditional file
+each member server, a random utf-16 pseudo-textual password is stored
+for the whole machine.
+The password is set with non-kerberos mechanisms (particularly SAMR,
+a DCE-RPC service) and when interacting on a kerberos basis, the
+password is salted by the member server (ie, an AD server-host).
+(That is, no salt information appears to be conveyed from the AD KDC
+to the member server. ie, the member server must use the rule's
+described in Luke's mail above).
+
+pre-win7 AD and samba3/4 both use SAMR, an older protocol, to jumpstart
+the member server's PW-sharing with AD (the "windows domain-join process").
+This PW-sharing transfers only the PW's utf-16 text, without any salting
+or hashing, so that non-krb security mechanisms can use the same utf-16
+text PW. for windows 7, this domain-joining uses LDAP for PW-setting.
+
+In dealing with this model, we use both the traditional file
keytab and in-MEMORY keytabs.
When dealing with a windows KDC, the behaviour regarding case
@@ -299,7 +563,17 @@ cifs/foo@realm (winxp clients, using netbios)
as well as all case variations on the above.
-Because that all got 'too hard' to put into a keytab in the
+Heimdal's GSSAPI expects to get a principal-name & a keytab, possibly containing
+multiple principals' different keys. However, AD has a different problem to
+solve, which is that the client may know the member-server by a non-canonicalized
+principal name, yet AD knows the keytab contains exactly one key, indexed by
+the canonical name. So, GSSAPI is unprepared to canonicalize the server-name
+that the cliet requested, and is also overprepared to do an unnecessary search
+through the keytab by principal-name. So samba's server-side GSSAPI calls game
+the GSSAPI, by supplying the server's known canonical name, and the one-key keytab.
+this doesn't really affect the port to mit-krb.
+
+Because the number of U/L case combinations got 'too hard' to put into a keytab in the
traditional way (with the client to specify the name), we either
pre-compute the keys into a traditional keytab or make an in-MEMORY
keytab at run time. In both cases we specifiy the principal name to
@@ -310,6 +584,9 @@ secrets.ldb by default.
Extra Heimdal functions used
----------------------------
+these fcns didn't exist in the MIT code, years ago, when samba started.
+AB will try to build a final list of these fcns.
+
(an attempt to list some of the Heimdal-specific functions I know we use)
krb5_free_keyblock_contents()
@@ -321,7 +598,13 @@ Prncipal Manipulation
Samba makes extensive use of the principal manipulation functions in
Heimdal, including the known structure behind krb_principal and
-krb5_realm (a char *).
+krb5_realm (a char *). for example,
+krb5_parse_name_flags(smb_krb5_context->krb5_context, name,
+ KRB5_PRINCIPAL_PARSE_MUST_REALM, &principal);
+krb5_princ_realm(smb_krb5_context->krb5_context, principal);
+krb5_unparse_name_flags(smb_krb5_context->krb5_context, principal,
+ KRB5_PRINCIPAL_UNPARSE_NO_REALM, &new_princ);
+These are needed for juggling the AD variant-structures for server names.
Authz data extraction
---------------------
@@ -329,42 +612,34 @@ Authz data extraction
We use krb5_ticket_get_authorization_data_type(), and expect it to
return the correct authz data, even if wrapped in an AD-IFRELEVENT container.
-
KDC/hdb Extensions
--------------
-We have modified Heimdal's 'hdb' interface to specify the 'type' of
+We have modified Heimdal's 'hdb' interface to specify the 'class' of
Principal being requested. This allows us to correctly behave with
-the different 'classes' of Principal name.
+the different 'classes' of Principal name. This is necessary because
+of the AD structure, which uses very different record-structures
+for user-principals, trust principals & server-principals.
-We currently define 2 classes:
+We currently define 3 classes:
- client (kinit)
- server (tgt)
+ - krbtgt (kinit, tgt) the kdc's own ldap record
-I also now specify the kerberos principal as an explict parameter, not
-an in/out value on the entry itself.
-
-Inside hdb-ldb, we add krbtgt as a special class of principal, because
-of particular special-case backend requirements.
+I also now specify the kerberos principal as an explict parameter to LDB_fetch(),
+not an in/out value on the struct hdb_entry parameter itself.
-Callbacks:
+Private Data pointer (and windc hooks) (see above):
In addition, I have added a new interface hdb_fetch_ex(), which
- returns a structure including callbacks, which provide the hook for
- the PAC, as well as a callback into the main access control routines.
+ returns a structure including a private data-pointer, which may be used
+ by the windc plugin inferface functions. The windc plugin provides
+ the hook for the PAC, as well as a function for the main access control routines.
- A new callback should be added to increment the bad password counter
+ A new windc plugin function should be added to increment the bad password counter
on failure.
- Another possability for a callback is to obtain the keys. This would
- allow the plaintext password to only be hashed into the encryption
- types we need. This idea from the eDirectory/MIT DAL work.
-
- This probably should be combined with storing the hashed passwords in
- the supplementalCredentials attribute. If combined with a kvno
- parameter, this could also allow changing of the krbtgt password
- (valuable for security).
-
-libkdc
+libkdc (doesn't matter for IPA; Samba invokes the Heimdal kdc as a library call,
+but this is just a convenience, and the MIT port can do otherwise w/o trouble.)
------
Samba4 needs to be built as a single binary (design requirement), and
@@ -377,10 +652,11 @@ into the post-socket layer, with a defined krb5_context and
kdb5_kdc_configuration structure. These effectively redirect the
kerberos warnings, logging and database calls as we require.
-Using our socket lib
+Using our socket lib (para 3 does matter for the send_to_kdc() plugin).
+See also the discussion about state machine safety above)
--------------------
-An important detail in the use of libkdc is that we use our own socket
+An important detail in the use of libkdc is that we use samba4's own socket
lib. This allows the KDC code to be as portable as the rest of samba
(this cuts both ways), but far more importantly it ensures a
consistancy in the handling of requests, binding to sockets etc.
@@ -389,14 +665,17 @@ To handle TCP, we use of our socket layer in much the same way as
we deal with TCP for CIFS. Tridge created a generic packet handling
layer for this.
-For the client, we likewise must take over the socket functions, so
-that our single thread smbd will not lock up talking to itself. (We
-allow processing while waiting for packets in our socket routines).
+For the client, samba4 likewise must take over the socket functions,
+so that our single thread smbd will not lock up talking to itself.
+(We allow processing while waiting for packets in our socket routines).
+send_to_kdc() presents to its caller the samba-style socket interface,
+but the MIT port will reimplement send_to_kdc(), and this routine will
+use internally the same socket library that MIT-krb uses.
-Kerberos logging support
+Kerberos logging support (this will require porting attention)
------------------------
-Samba now (optionally in the main code, required for the KDC) uses the
+Samba4 now (optionally in the main code, required for the KDC) uses the
krb5_log_facility from Heimdal. This allows us to redirect the
warnings and status from the KDC (and client/server kerberos code) to
Samba's DEBUG() system.
@@ -404,7 +683,9 @@ Samba's DEBUG() system.
Similarly important is the Heimdal-specific krb5_get_error_string()
function, which does a lot to reduce the 'administrator pain' level,
by providing specific, english text-string error messages instead of
-just error code translations.
+just error code translations. (this isn't necessarty for the port,
+but it's more useful than MIT's default err-handling; make sure
+this works for MIT-krb)
Short name rules
@@ -413,7 +694,7 @@ Short name rules
Samba is highly likely to be misconfigured, in many weird and
interesting ways. As such, we have a patch for Heimdal that avoids
DNS lookups on names without a . in them. This should avoid some
-delay and root server load.
+delay and root server load. (this may need to be ported to MIT.)
PAC Correctness
---------------
@@ -424,7 +705,8 @@ Forwarded tickets
-----------------
We extract forwarded tickets from the GSSAPI layer, and put
-them into the credentials. We can then use them for proxy work.
+them into the memory-based credentials cache.
+We can then use them for proxy work.
Kerberos TODO
@@ -433,26 +715,30 @@ Kerberos TODO
(Feel free to contribute to any of these tasks, or ask
abartlet@samba.org about them).
-Lockout Control
+Lockout Control (still undone in samba4 on heimdal)
--------------
We need to get (either if PADL publishes their patch, or write our
own) access control hooks in the Heimdal KDC. We need to lockout
-accounts, and perform other controls.
+accounts (eg, after 10 failed PW-attemps), and perform other controls.
+This is standard AD behavior, that samba4 needs to get right, whether
+heimdal or MIT-krb is doing the ticket work.
Gssmonger
---------
-Microsoft has released a testsuite called gssmonger, which tests
-interop. We should compile it against lorikeet-heimdal, MIT and see
-if we can build a 'Samba4' server for it.
+Microsoft has released a krb-specific testsuite called gssmonger,
+which tests interop. We should compile it against lorikeet-heimdal,
+MIT and see if we can build a 'Samba4' server for it.
+GSSMonger wasn't intended to be Windows-specific.
-Kpasswd server
+Kpasswd server (kpasswd server is now finished, but not testsuite)
--------------
I have a partial kpasswd server which needs finishing, and a we need a
client testsuite written, either via the krb5 API or directly against
GENSEC and the ASN.1 routines.
+Samba4 likes to test failure-modes, not just successful behavior.
Currently it only works for Heimdal, not MIT clients. This may be due
to call ordering constraints.
@@ -461,6 +747,14 @@ to call ordering constraints.
Correct TCP support
-------------------
-Our current TCP support does not send back 'too large' error messages
-if the high bit is set. This is needed for a proposed extension
-mechanism, but is likewise unsupported in both current Heimdal and MIT.
+Samba4 socket-library's current TCP support does not send back 'too large'
+error messages if the high bit is set. This is needed for a proposed extension
+mechanism (SSL-armored kinit, by Leif Johansson <leifj@it.su.se>),
+but is likewise unsupported in both current Heimdal and MIT.
+
+=========================================================================
+AB says MIT's 1.7 announcement about AD support covers Luke Howard's
+changes. It all should be easy for IPA to exploit/use during the port
+of Samba4 to MIT.
+AB says Likewise software will likely give us their freeware NTLM/MIT-krb
+implementation.