All About Certificate Extensions
NSS Technical Note: 3
09 May 2002
Nelson B. Bolyard
This week at least 5 different people came to me with variants of the
same question:
What certificate extensions do I have to put into my cert for NSS to
allow it to be used for purpose <x>??
This message attempts to answer that question, and to document NSS's
approach to validating certificates for certain purposes.
When NSS is asked to verify the validity of a certificate chain, it
verifies the validity of that cert chain for a particular purpose,
known as a SECCertUsage, as of a specific date and time.
The list of known SECCertUsages is short:
certUsageSSLClient ........... An SSL client authentication cert
certUsageSSLServer ........... An ordinary SSL server cert
certUsageSSLServerWithStepUp.. An SSL server cert that allows export
clients to use strong crypto.
certUsageSSLCA ............... An intermediate or root CA cert allowed
to issue SSL client or SSL server certs
or other intermediate SSL CA certs.
certUsageEmailSigner ......... Used to verify S/MIME email signatures
certUsageEmailRecipient ...... Used to encrypt S/MIME emails.
certUsageObjectSigner ........ Used to verify signatures on files of
executable code, e.g. jar files.
certUsageStatusResponder ..... Used by an OCSP responder
certUsageVerifyCA ............ A CA of any kind.
Each cert has a "type" and a "key usage", each of which may contain one
or more valid values.
Each of the above SECCertUsages translates into a required set of
cert type and key usage for the certificate itself, and into another
set of required cert type and key usage for all the CA certs in the
cert chain.
To determine if a cert is valid for a given cert usage, it must have the
the cert type and key usage required for that cert usage, and all the
CA certs in the cert chain must have the cert type and key usage required
for CA certs for that cert usage.
There are 8 Key Usages:
CERT_SIGN
CRL_SIGN
DATA_ENCIPHERMENT
DIGITAL_SIGNATURE
GOVT_APPROVED
KEY_AGREEMENT
KEY_ENCIPHERMENT
NON_REPUDIATION
There are 9 Cert types:
EMAIL
EMAIL_CA
OBJECT_SIGNING
OBJECT_SIGNING_CA
SSL_CA
SSL_CLIENT
SSL_SERVER
STATUS_RESPONDER
TIME_STAMP
For the cert being checked, the requirements are:
Cert Usage Requried Key Usage Required Cert Type
-------------------- -------------------- -----------------------
SSLClient: DIGITAL_SIGNATURE; SSL_CLIENT;
SSLServer: KEY_AGREEMENT OR
KEY_ENCIPHERMENT; SSL_SERVER;
SSLServerWithStepUp: GOVT_APPROVED AND SSL_SERVER
KEY_AGREEMENT or
KEY_ENCIPHERMENT
SSLCA: CERT_SIGN; SSL_CA;
EmailSigner: DIGITAL_SIGNATURE; EMAIL;
EmailRecipient: KEY_AGREEMENT OR
KEY_ENCIPHERMENT; EMAIL;
ObjectSigner: DIGITAL_SIGNATURE; OBJECT_SIGNING;
StatusResponder: DIGITAL_SIGNATURE; STATUS_RESPONDER;
VerifyCA CERT_SIGN SSL_CA OR
EMAIL_CA OR
OBJECT_SIGNING_CA OR
STATUS_RESPONDER
For CA certs in the cert chain, the requirements are:
Cert Usage Requried Key Usage Required Cert Type
-------------------- -------------------- -----------------------
SSLServerWithStepUp: GOVT_APPROVED AND
CERT_SIGN; SSL_CA;
SSLClient: CERT_SIGN; SSL_CA;
SSLServer: CERT_SIGN; SSL_CA;
SSLCA: CERT_SIGN; SSL_CA;
EmailSigner: CERT_SIGN; EMAIL_CA or SSL_CA
EmailRecipient: CERT_SIGN; EMAIL_CA or SSL_CA
ObjectSigner: CERT_SIGN; OBJECT_SIGNING_CA;
UsageAnyCA: CERT_SIGN; OBJECT_SIGNING_CA OR
EMAIL_CA OR
SSL_CA;
StatusResponder: CERT_SIGN; OBJECT_SIGNING_CA OR
EMAIL_CA OR
SSL_CA;
Note: When the required key usage is KEY_AGREEMENT OR KEY_ENCIPHERMENT,
the actual key usage required depends on the key's algorithm. For
RSA keys, the required usage is KEY_ENCIPHERMENT. For other types of
keys, it is KEY_AGREEMENT.
Cert Extensions:
One vital Certificate extension is the "Basic Constraints" extension.
It tells NSS whether the cert is a CA cert, or not, and affects every
other aspect of how the cert is interpreted by NSS. The OID for this
extension is { 2 5 29 19 }, encoded in hex as 0x55, 0x1d, 0x13.
If the extension is present and has the value TRUE, then this cert is
taken to be a CA cert. Otherwise it is not (except that trust flags
may override this, see discussion of trust flags farther below).
Netscape has its own openly defined Cert Type extension, which can be used
to explicitly set the Cert Type in any Cert. The Cert Type extension has
bits in it that correspond directly to the cert types named above.
The OID for this extension is { 2 16 840 1 113730 1 1 }
encoded in hex as 0x60, 0x86, 0x48, 0x01, 0x86, 0xf8, 0x42, 0x01, 0x01
In addition to Netscape's own Cert Type extension, NSS recognizes various
X.509 extensions.
The X.509 key usage extension has OID { 2 5 29 0F } encoded in hex as
0x55, 0x1d, 0x0f. If present, this extension directly determines the
values of the 8 key usages defined above. If absent, the cert is
assumed to be valid for all key usages.
The X.509v3 extended Key usage extension as OID { 2 5 29 37 } encoded in
hex as 0x55, 0x1d, 0x25. That extension contains a sequence of OIDs, each
of which signifies one or more Cert Types, depending on the presence or
absence of of the True Basic Constraints extension; that is, the
interpretation of the extended Key Usage extension is controlled by
whether the cert is a CA cert, or not.
The following table shows the OIDs recognized in the extended key usage
extension, and how they map to cert types and key usages for CA and non-CA
certs.
extended key usage OID non-CA cert CA cert
----------------------------------- -------------- ----------------
SEC_OID_EXT_KEY_USAGE_EMAIL_PROTECT EMAIL_CA EMAIL_CA
SEC_OID_EXT_KEY_USAGE_SERVER_AUTH SSL_SERVER SSL_CA
SEC_OID_EXT_KEY_USAGE_CLIENT_AUTH SSL_CLIENT SSL_CA
SEC_OID_EXT_KEY_USAGE_CODE_SIGN OBJECT_SIGNING OBJECT_SIGNING_CA
SEC_OID_EXT_KEY_USAGE_TIME_STAMP TIME_STAMP TIME_STAMP
SEC_OID_OCSP_RESPONDER OCSP_RESPONDER OCSP_RESPONDER
SEC_OID_NS_KEY_USAGE_GOVT_APPROVED GOVT_APPROVED GOVT_APPROVED
If the extended key usage extension is absent, the cert is assumed to have
the cert types SSL_CLIENT, SSL_SERVER and EMAIL, and if the cert is a CA
cert (as indicated by the presence of a true basic constraints extension),
the cert is also assumed to have the cert types SSL_CA, EMAIL_CA and
STATUS_RESPONDER. If the basic constraints extension is missing, but the
user has trusted the cert as a CA cert, the cert also gets the
STATUS_RESPONDER cert type. If the cert has a Fortezza type public key
with the magic bits that signify that it is a CA, it is given cert types
SSL_CA and EMAIL_CA.
A cert with the extended key usage extension and the Netscape cert type
extension that has the cert type SSL_CLIENT and also has an email address
in the subject is also given the cert type EMAIL. This allows all SSL
client authentication certs with email addresses to also be used as email
certs (provded they have adequate key usage).
A cert with the extended key usage extension and the Netscape cert type
extension that as cert type SSL_CA is also always given cert type EMAIL_CA.
This allows all SSL intermediate CAs to also be used as email intermediate CAs.
/* X.509 v3 Key Usage Extension flags */
#define KU_DIGITAL_SIGNATURE (0x80) /* bit 0 */
#define KU_NON_REPUDIATION (0x40) /* bit 1 */
#define KU_KEY_ENCIPHERMENT (0x20) /* bit 2 */
#define KU_DATA_ENCIPHERMENT (0x10) /* bit 3 */
#define KU_KEY_AGREEMENT (0x08) /* bit 4 */
#define KU_KEY_CERT_SIGN (0x04) /* bit 5 */
#define KU_CRL_SIGN (0x02) /* bit 6 */
#define NS_CERT_TYPE_SSL_CLIENT (0x80) /* bit 0 */
#define NS_CERT_TYPE_SSL_SERVER (0x40) /* bit 1 */
#define NS_CERT_TYPE_EMAIL (0x20) /* bit 2 */
#define NS_CERT_TYPE_OBJECT_SIGNING (0x10) /* bit 3 */
#define NS_CERT_TYPE_RESERVED (0x08) /* bit 4 */
#define NS_CERT_TYPE_SSL_CA (0x04) /* bit 5 */
#define NS_CERT_TYPE_EMAIL_CA (0x02) /* bit 6 */
#define NS_CERT_TYPE_OBJECT_SIGNING_CA (0x01) /* bit 7 */
</x>