Manual:System/Certificates

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Applies to RouterOS: v6.12 +

Summary

Sub-menu: /certificate
Package required: security
Standards: RFC 5280, draft-nourse-scep-22


Certificate manager is used to collect all certificates inside router, to manage and create self-signed certificates and to control and set SCEP related configuration.

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Note: Starting from v6 certificate validity is shown using local time zone offset. In previous versions it was UTF.


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Warning: RSA Key length must be at least 472 bits if certificate is used by SSTP. Shorter keys are considered as security threats.


Starting from v6rc10, CRL will be automatically renewed every hour for certificates which have "trusted=yes" using http protocol (ldap and ftp is currently unsupported). Segmented CRL is also currently unsupported.

RouterOS allows to manage and create self-signed CAs. Implementation was made based on RFC 5280 and all certificates are X.509 v3.


All certificate fingerprints are SHA1. Starting from v6.18 sha256 is used for certificate fingerprints and hashes. All private keys and CA export passphrase are stored encrypted with hardware ID. CA CRL renewal happens at every certificate revocation and after 24hours.

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Warning: even if all trust chain is imported, crl may not work in cases when CRL is signed with a different certificate, not the one from trust chain (for example Verisign is doing that)!


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Note: Time and date on routers MUST be correct


General Menu

Sub-menu: /certificate


General menu is used to manage certificates, add templates, issue certificates and manage SCEP Clients.

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Note: Certificate templates are deleted right after certificate issue or certificate request command is executed


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Note: If CA certificate is removed then all issued certificates in chain are also removed



Properties

Property Description
common-name (string; Default: )
copy-from (string; Default: )
country (string; Default: )
days-valid (integer [0..4294967295]; Default: )
key-size (1024 | 1536 | 2048 | 4096 | 8192; Default: )
key-usage (list of [digital-signature | content-commitment | key-encipherment | data-encipherment | key-agreement | key-cert-sign | crl-sign | encipher-only | decipher-only]; Default: ) Detailed key usage descriptions can be found in RFC 5280
locality (string; Default: )
name (string; Default: ) Name of the certificate. Name can be edited.
organization (string; Default: )
state (string; Default: )
subject-alt-name (string; Default: ) contact email address
trusted (yes | no; Default: ) If set to yes certificate is included "in trusted certificate chain"
unit (string; Default: )


Read-only Properties

Property Description
authority ()
ca ()
ca-crl-host ()
ca-fingerprint ()
crl ()
dsa (yes | no)
expired (yes | no) Set to true if certificate is expired
fingerprint ()
invalid-after (date) The date after which certificate wil be invalid.
invalid-before (date) The date before which certificate is invalid.
issued ()
issuer (string)
private-key (yes | no)
req-fingerprint ()
revoked ()
scep-url (string)
serial-number (string)
smart-card-key (string)
status () Shows current status of scep client


Commands

Command Description
add () Adds new certificate template.
add-scep (ca-identity name on-smart-card scep-url template) Add scep client. Command takes four parameters:
  • ca-identity - allows to change SCEP CA identity
  • name - display name of scep client
  • on-smart-card - whether to use smart card
  • scep-url -
  • template - which template to use from template list
ca-set-passphrase ()
card-reinstall ()
card-verify ()
create-certificate-request () Create certificate request from specified template.
export-certificate () Export certificate to file. When export-passphrase is specified, certificate will be exported with encrypted key.
import (file-name) File name of certificate or key to be imported.
issued-revoke () Revoke issued certificate
scep-renew ()
sign-certificate-request (ca, days-valid, file-name, key-bits) Generates certificate and key, except that standard parameters are taken from certificate request. Command takes four parameters:
  • ca - name of the CA certificate
  • days-valid - validity period
  • file-name - certificate request filename
  • key-bits - RSA key bits
sign (ca, ca-crl-host, ca-on-smart-card, name, template) Sign certificates. Command takes 5 parameters:
  • template - which template to use. Required.
  • ca - which CA to use if signing issued certificates
  • ca-crl-host - CRL host if issuing CA certificate
  • ca-on-smart-card -
  • name - what name to assign to issued certificate.
CA certificates are created if key-usage=key-cert-sign set in the template.

SCEP

Sub-menu: /certificate
Standards: draft-nourse-scep-22

Simple Certificate Enrollment protocol (SCEP) was developed based on draft-nourse-scep-22.

The protocol is designed so that any user can request certificate as simple as possible. The protocol allows to issue and revoke certificates.

How SCEP works

Topology: CL ---- RA ---- CA

  • CL - client
  • RA - registration authority (proxy)
  • CA - certification authority (server)
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Warning: RA certificate must not contain CA flag



SCEP is using HTTP protocol and base64 encoded GET requests. Most of requests are without authentication and cipher, however important ones can be protected if necessary (ciphered or signed using received public key).

SCEP client in RouterOS will:

  • get CA certificate from CA server or RA (if used);
  • user should compare fingerprint of the CA certificate or if it comes from the right server;
  • generate self-signed certificate with temporary key;
  • sends certificate request to the server;
  • if server respond with status x, then client keeps requesting until server sends an error or approval.


SCEP server supports issue of one certificate only. RouterOS supports also renew and next-ca options:

  • renew - possibility to renew old certificate automatically with the same CA.
  • next-ca - possibility to change current CA certificate to the new one. Client polls the server for any changes, if server advertise that next-ca is available, then client may request next CA or wait until CA almost expires and then request next-ca.


RouterOS Server also supports POST' operation, 3DES cipher and SHA1 hashing. If client does not support these features then http GET, DES cipher and MD5 hashing is used.


RouterOS client by default will try to use POST, 3DES and SHA1 if server advertises that.


Server

Sub-menu: /certificate scep-server



OTP

Sub-menu: /certificate scep-server otp


RA

Sub-menu: /certificate scep-server ra


Requests

Sub-menu: /certificate scep-server requests


Configuration Examples

Basic SCEP Example

In this example we will show how to use SCEP to automatically sign certificate for the client in very basic configuration. First thing we need to do is create CA template on the server and sign it.

/certificate 
add common-name=ca name=ca-tpl
sign ca-tpl name=ca

Now we have valid CA that can be used to issue certificates:

[admin@MikroTik] /certificate> print 
Flags: K - private-key, D - dsa, L - crl, C - smart-card-key, A - authority, 
I - issued, R - revoked, E - expired, T - trusted 
 #          NAME   COM.. SUBJECT-ALT-NAME                                   FIN..
 0 K   A  T ca     ca                                                       fb7..

Next step is to create SCEP server:

/certificate scep-server add ca-cert=ca path=/scep/test


Now on client router we can add SCEP client:

/certificate add-scep template=tpl_1 scep-url="10.5.101.231/scep/test" 
[admin@MikroTik] /certificate> print detail 
Flags: K - private-key, D - dsa, L - crl, C - smart-card-key, A - authority, 
I - issued, R - revoked, E - expired, T - trusted 
 0 K      T name="tpl_1" issuer=CN=tst-client common-name="tst-client" 
            key-size=2048 days-valid=365 trusted=yes key-usage=key-cert-sign 
            scep-url=10.5.101.231/scep/test serial-number="1B05992DC13289A9" 
            fingerprint="a2c0194bf67a12b8902fab45539e157396d2f8fd15f895399da856f64d
            6e50c7" 
            req-fingerprint="e5131662a8c11cfa363c907a49b7f65f9e0e378fc8c8a6d35ae949
                3f21fa25be" 
            ca-fingerprint="fb7b92de75d5e8a90489b4bf9e9ed1808fdcba1e644152cc791f717
               cb6b283e2" 
            invalid-before=apr/01/2016 14:53:34 
            invalid-after=apr/01/2017 14:53:34 
            challenge-password="85f5ed5c5b5ea2d336c2" 
            status="requesting-pending-certificate" 

 1     A  T name="tpl_1_CA" issuer=CN=ca common-name="ca" key-size=2048 
            days-valid=365 trusted=yes 
            key-usage=digital-signature,key-encipherment,data-encipherment,key-
          cert-sign,crl-sign,tls-server,tls-client 
            serial-number="130D81F32DBD8BF2" 
            fingerprint="fb7b92de75d5e8a90489b4bf9e9ed1808fdcba1e644152cc791f717cb6
            b283e2" 
            invalid-before=apr/01/2016 15:25:14 
            invalid-after=apr/01/2017 15:25:14 

As you can see SCEP client status shows "requesting-pending-certificate", which means that we manually must grant certificate on the server:

[admin@MikroTik] /certificate scep-server requests> print 
 # AUTHORITY       STATUS     COMMON-NAME                    CREATED             
 0 ca              pending    tst-client                     apr/01/2016 12:29:55

[admin@MikroTik] /certificate scep-server requests> grant 0        
[admin@MikroTik] /certificate scep-server requests> print 
 # AUTHORITY       STATUS     COMMON-NAME                    CREATED             
 0 ca              granted    tst-client                     apr/01/2016 12:29:55

After status change to "granted", you will see new issued certificate on the server:

[admin@MikroTik] /certificate> print detail 

 1      I   name="issued_2" common-name="tst-client" key-size=2048 days-valid=1 
            trusted=no key-usage=digital-signature,key-encipherment,data-encipherment,
          key-cert-sign,crl-sign,tls-server,tls-client 
            ca=ca serial-number="66071C63F77EB672" 
            fingerprint="89b0000ab75375e887b80ca45e829dfb6e683f6429069242c83063798ad8698
            1" 
            invalid-before=apr/01/2016 15:31:58 invalid-after=apr/02/2016 15:31:58 

And a working certificate on the client:

[admin@MikroTik] /certificate> print 
Flags: K - private-key, D - dsa, L - crl, C - smart-card-key, A - authority, 
I - issued, R - revoked, E - expired, T - trusted 
 #          NAME     COM.. SUBJECT-ALT-NAME                                   FIN..
 0 K      T tpl_1    tst..                                                    a2c..
 1     A  T tpl_1_CA ca                                                       fb7..

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