11 KiB
Certificates for PKI
PKI stands for Public Key Infrastructure. Tokens are documents,
cryptographically signed using the X509 standard. In order to work
correctly token generation requires a public/private key pair. The
public key must be signed in an X509 certificate, and the certificate
used to sign it must be available as a Certificate Authority (CA)
certificate. These files can be generated either using the
keystone-manage
utility, or externally generated. The files
need to be in the locations specified by the top level Identity service
configuration file keystone.conf
as specified in the above section.
Additionally, the private key should only be readable by the system user
that will run the Identity service.
Warning
The certificates can be world readable, but the private key cannot
be. The private key should only be readable by the account that is going
to sign tokens. When generating files with the keystone-manage pki_setup
command, your best option is to run as the pki user. If you run keystone-manage
as root,
you can append --keystone-user
and --keystone-group
parameters to set the user name
and group keystone is going to run under.
The values that specify where to read the certificates are under the
[signing]
section of the configuration file. The
configuration values are:
certfile
-
Location of certificate used to verify tokens. Default is
/etc/keystone/ssl/certs/signing_cert.pem
.
keyfile
-
Location of private key used to sign tokens. Default is
/etc/keystone/ssl/private/signing_key.pem
.
ca_certs
-
Location of certificate for the authority that issued the above certificate. Default is
/etc/keystone/ssl/certs/ca.pem
.
ca_key
-
Location of the private key used by the CA. Default is
/etc/keystone/ssl/private/cakey.pem
.
key_size
-
Default is
2048
.
valid_days
-
Default is
3650
.
cert_subject
-
Certificate subject (auto generated certificate) for token signing. Default is
/C=US/ST=Unset/L=Unset/O=Unset/CN=www.example.com
.
When generating certificates with the keystone-manage pki_setup
command, the
ca_key
, key_size
, and valid_days
configuration options are used.
If the keystone-manage pki_setup
command is not used to
generate certificates, or you are providing your own certificates, these
values do not need to be set.
If provider=keystone.token.providers.uuid.Provider
in
the [token]
section of the keystone configuration, a
typical token looks like 53f7f6ef0cc344b5be706bcc8b1479e1
.
If provider=keystone.token.providers.pki.Provider
, a
typical token is a much longer string, such as:
MIIKtgYJKoZIhvcNAQcCoIIKpzCCCqMCAQExCTAHBgUrDgMCGjCCCY8GCSqGSIb3DQEHAaCCCYAEggl8eyJhY2Nlc3MiOiB7InRva2VuIjogeyJpc3N1ZWRfYXQiOiAiMjAxMy0wNS0z
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Sign certificate issued by external CA
You can use a signing certificate issued by an external CA instead of
generated by keystone-manage
. However, a certificate issued
by an external CA must satisfy the following conditions:
- All certificate and key files must be in Privacy Enhanced Mail (PEM) format
- Private key files must not be protected by a password
When using a signing certificate issued by an external CA, you do not
need to specify key_size
, valid_days
, and
ca_password
as they will be ignored.
The basic workflow for using a signing certificate issued by an external CA involves:
- Request Signing Certificate from External CA
- Convert certificate and private key to PEM if needed
- Install External Signing Certificate
Request a signing certificate from an external CA
One way to request a signing certificate from an external CA is to first generate a PKCS #10 Certificate Request Syntax (CRS) using OpenSSL CLI.
Create a certificate request configuration file. For example, create
the cert_req.conf
file, as follows:
[ req ]
default_bits = 1024
default_keyfile = keystonekey.pem
default_md = sha1
prompt = no
distinguished_name = distinguished_name
[ distinguished_name ]
countryName = US
stateOrProvinceName = CA
localityName = Sunnyvale
organizationName = OpenStack
organizationalUnitName = Keystone
commonName = Keystone Signing
emailAddress = keystone@openstack.org
Then generate a CRS with OpenSSL CLI. Do not encrypt the generated private key. You must use the -nodes option.
For example:
$ openssl req -newkey rsa:1024 -keyout signing_key.pem -keyform PEM \
-out signing_cert_req.pem -outform PEM -config cert_req.conf -nodes
If everything is successful, you should end up with signing_cert_req.pem
and
signing_key.pem
. Send
signing_cert_req.pem
to your CA to request a token signing certificate and make sure to ask
the certificate to be in PEM format. Also, make sure your trusted CA
certificate chain is also in PEM format.
Install an external signing certificate
Assuming you have the following already:
signing_cert.pem
-
(Keystone token) signing certificate in PEM format
signing_key.pem
-
Corresponding (non-encrypted) private key in PEM format
cacert.pem
-
Trust CA certificate chain in PEM format
Copy the above to your certificate directory. For example:
# mkdir -p /etc/keystone/ssl/certs
# cp signing_cert.pem /etc/keystone/ssl/certs/
# cp signing_key.pem /etc/keystone/ssl/certs/
# cp cacert.pem /etc/keystone/ssl/certs/
# chmod -R 700 /etc/keystone/ssl/certs
Note
Make sure the certificate directory is only accessible by root.
Note
The procedure of copying the key and cert files may be improved if
done after first running keystone-manage pki_setup
since this command also
creates other needed files, such as the index.txt
and serial
files.
Also, when copying the necessary files to a different server for replicating the functionality, the entire directory of files is needed, not just the key and cert files.
If your certificate directory path is different from the default
/etc/keystone/ssl/certs
, make sure it is reflected in
the [signing]
section of the configuration file.
Switching out expired signing certificates
The following procedure details how to switch out expired signing certificates with no cloud outages.
- Generate a new signing key.
- Generate a new certificate request.
- Sign the new certificate with the existing CA to generate a new
signing_cert
. - Append the new
signing_cert
to the oldsigning_cert
. Ensure the old certificate is in the file first. - Remove all signing certificates from all your hosts to force
OpenStack Compute to download the new
signing_cert
. - Replace the old signing key with the new signing key. Move the new
signing certificate above the old certificate in the
signing_cert
file. - After the old certificate reads as expired, you can safely remove the old signing certificate from the file.