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6.6. External Registration
External Registration obtains the token type (TPS profile) from the authenticated user LDAP record. It also allows certificate/key recovery information to be specified in the same user record.
An External Registration TPS profile is similar to the Internal Registration profile discussed previously. It allows you to specify new certificate enrollments for both client-side and server-side key generation. Unlike Internal Registration, it allows you to choose specific certificate (and its matching keys) to be retrieved and loaded onto the token.
Note
Switching registration types between Internal and External Registration means you have to format all previously registered tokens before you can continue using them.
6.6.1. Enabling External Registration
External Registration can only be enabled globally for an entire TPS instance. The following example shows a set of global configuration parameters pertaining to External Registration:
externalReg.allowRecoverInvalidCert.enable=true externalReg.authId=ldap1 externalReg.default.tokenType=externalRegAddToToken externalReg.delegation.enable=true externalReg.enable=true externalReg.recover.byKeyID=false externalReg.format.loginRequest.enable=true externalReg.mappingResolver=keySetMappingResolver
6.6.2. Customizing User LDAP Record Attribute Names
Authentication parameters pertaining to External Registration are shown in the following example (with their default values):
auths.instance.ldap1.externalReg.certs.recoverAttributeName=certsToAdd auths.instance.ldap1.externalReg.cuidAttributeName=tokenCUID auths.instance.ldap1.externalReg.tokenTypeAttributeName=tokenType
The LDAP record attribute names can be customized here. Make sure that the actual attributes in the user's LDAP records match this configuration.
6.6.3. Configuring certsToAdd attributes
The
certsToAdd
attribute takes multiple values in the following form:
<cert serial # in decimal>,<CA connector ID>,<key ID>,<kra connector ID>
For example:
59,ca1,0,kra1
Important
By default, key recovery searches for the key by certificate, which makes the <key ID> value irrelevant. However, the TPS can optionally be configured to search for the key using this attribute, and therefore it is typically simpler to set the value to 0. That value is invalid, which avoids the possibility of retrieving an unmatched key.
Recovering by key ID is not recommended, because the KRA can not verify if the certificate matches with the key in this situation.
When specifying the
certsToAdd
attribute with only certificate and CA information, the TPS assumes that the certificate in question is already on the token, and that it should be preserved. This concept is called Key Retention.
The following examples show relevant attributes in the user LDAP record:
tokenType: externalRegAddToToken certstoadd: 59,ca1,0,kra1 certstoadd: 134,ca1,0,kra1 Certstoadd: 24,ca1
6.6.4. Token to User Matching Enforcement
Optionally, you can set the system up so that the token used for registration must match the token record card-unique ID (CUID) attribute in the user record. If this attribute (
tokencuid
) is missing from the record, CUID matching is not enforced.
Tokencuid: a10192030405028001c0
Another attribute about External Registration is that the Token Policies on each token are bypassed.
Note
For the certificate and keys to be “recovered” in External Registration, connector information for CA and KRA is specified in the user LDAP record. Any CA and/or KRA connector information specified in the TPS profile pertaining to the certificate/keys to be “recovered” is to be ignored.
certstoadd: 59,ca1
,0,kra1
6.6.5. Delegation Support
Delegation support is useful where a user has delegates who can act on their behalf (for example, an executive at a company has one or more delegates) in terms of authentication (logins), data encryption and decryption, or signing (with limitations).
An example scenario could be that each delegate has their own token which they use to act on behalf of the executive. This token contains a combination of the following certificates and keys (determined by TPS profiles):
- Authentication certificate/keys: The CN contains the name and unique ID of the delegate. The Subject Alternative Name (SAN) extension contains the Principal Name (UPN) of the executive.
- Encryption certificate: An exact copy of the executive's encryption certificate.
- Signing certificate: The CN contains the delegate's name and unique ID. The SAN contains the RFC822Name of the executive.
Use the following parameter to enable delegation support:
externalReg.delegation.enable=true
Important
To work around a bug, manually set the
op.enroll.delegateISEtoken.keyGen.encryption.ca.profileId
parameter in the /var/lib/pki/instance_name/tps/conf/CS.cfg
file to caTokenUserDelegateAuthKeyEnrollment
:
op.enroll.delegateISEtoken.keyGen.encryption.ca.profileId=caTokenUserDelegateAuthKeyEnrollment
6.6.6. SAN and DN Patterns
The
auths.instance.<authID>.ldapStringAttributes
in the authentication instance configuration specifies which attributes will be retrieved during authentication. For example:
auths.instance.ldap1.ldapStringAttributes=mail,cn,uid,edipi,pcc,firstname,lastname,exec-edipi,exec-pcc,exec-mail,certsToAdd,tokenCUID,tokenType
Once retrieved from the user's LDAP record, the values of these attributes can be referenced and used to form the Subject Alternative Name (SAN) or Distinguished Name (DN) of the certificate in the format of
$auth.<attribute name>$
. For example:
op.enroll.delegateIEtoken.keyGen.authentication.SANpattern=$auth.exec-edipi$.$auth.exec-pcc$@EXAMPLE.com op.enroll.delegateIEtoken.keyGen.authentication.dnpattern=cn=$auth.firstname$.$auth.lastname$.$auth.edipi$,e=$auth.mail$,o=TMS Org
When patterns are used in TPS profiles for SAN and DN, it is important to ensure the CA enrollment profile specified in the TPS profile is set up correctly. For example:
- On TPS, in profile delegateIEtoken
op.enroll.delegateIEtoken.keyGen.authentication.ca.profileId=caTokenUserDelegateAuthKeyEnrollment
- On CA, in enrollment profile caTokenUserDelegateAuthKeyEnrollment
- The
subjectDNInputImpl
plug-in must be specified as one of the inputs in order to allow the DN to be specified by the TPS profile above:input.i2.class_id=subjectDNInputImpl input.i2.name=subjectDNInputImpl
Similarly, to allow the SAN to be specified by the above TPS profile, thesubjectAltNameExtInputImpl
plug-in must be specified:input.i3.class_id=subjectAltNameExtInputImpl input.i3.name=subjectAltNameExtInputImpl
ThesubjAltExtpattern
must be specified as well:policyset.set1.p6.default.params.subjAltExtPattern_0=(UTF8String)1.3.6.1.4.1.311.20.2.3,$request.req_san_pattern_0$
In the above example, the OID1.3.6.1.4.1.311.20.2.3
is the OID for the User Principal Name (UPN), andrequest.req_san_pattern_0
is the first SAN pattern specified in thedelegateIEtoken
SAN pattern.
You can specify multiple SANs at the same time. On the TPS side, specify multiple SANs in the
SANpattern
, delimited by a comma (",
"). On the CA side, a corresponding amount of subjAltExtPattern
needs to be defined in the following format:
policyset.<policy set id>.<policy id>.default.params.subjAltExtPattern_<ordered number>=
In the above, the <ordered number> starts with 0 and increases by one for each SAN pattern specified on the TPS side:
policyset.set1.p6.default.params.subjAltExtPattern_0= policyset.set1.p6.default.params.subjAltExtPattern_1= ...
The following is a complete example:
Example 6.1. SANpattern and DNpattern configuration
The LDAP record contains the following information:
givenName: user1a mail: user1a@example.org firstname: user1a edipi: 123456789 pcc: AA exec-edipi: 999999999 exec-pcc: BB exec-mail: user1b@EXAMPLE.com tokenType: delegateISEtoken certstoadd: 59,ca1,0,kra1
TPS External Registration profile
delegateIEtoken
contains:
SANpattern
:op.enroll.delegateISEtoken.keyGen.authentication.SANpattern=$auth.exec-edipi$.$auth.exec-pcc$@EXAMPLE.com
DNPattern
:op.enroll.delegateISEtoken.keyGen.authentication.dnpattern=cn=$auth.firstname$.$auth.lastname$.$auth.edipi$,e=$auth.mail$,o=TMS Org
CA
caTokenUserDelegateAuthKeyEnrollment
contains:
input.i2.class_id=subjectDNInputImpl input.i2.name=subjectDNInputImpl input.i3.class_id=subjectAltNameExtInputImpl input.i3.name=subjectAltNameExtInputImpl policyset.set1.p6.constraint.class_id=noConstraintImpl policyset.set1.p6.constraint.name=No Constraint policyset.set1.p6.default.class_id=subjectAltNameExtDefaultImpl policyset.set1.p6.default.name=Subject Alternative Name Extension Default policyset.set1.p6.default.params.subjAltExtGNEnable_0=true policyset.set1.p6.default.params.subjAltExtPattern_0=(UTF8String)1.3.6.1.4.1.311.20.2.3,$request.req_san_pattern_0$ policyset.set1.p6.default.params.subjAltExtType_0=OtherName policyset.set1.p6.default.params.subjAltNameExtCritical=false policyset.set1.p6.default.params.subjAltNameNumGNs=1
The resulting certificate then contains:
Subject: CN=user1a..123456789,E=user1a@example.org,O=TMS Org Identifier: Subject Alternative Name - 2.5.29.17 Critical: no Value: OtherName: (UTF8String)1.3.6.1.4.1.311.20.2.3,999999999.BB@EXAMPLE.com