libvirtd user authentication using SASL/Kerberos

We’ve looked at how to setup libvirt for encrypted remote access using a SASL file database to authenticate users.

But, wouldn’t it be nice if we could integrate libvirt users into LDAP, like we did previously with Jenkins and Mediawiki? Doing so would give you the SSO benefits of Kerberos, and the security and policy features of FreeIPA.

To get started, we need to install some packages on the libvirtd server and the client where you’ll be running virsh or virt-manager.

Debian:

$ sudo apt-get install libsasl2-2 libsasl2-modules-gssapi-mit

CentOS/RedHat:

$ sudo yum install cyrus-sasl cyrus-sasl-gssapi

Arch Linux:

$ sudo pacman -S libsasl cyrus-sasl cyrus-sasl-gssapi

Next we need to create a service principal in LDAP for libvirt, and export it to a keytab which we’ll install on the libvirtd server. In the FreeIPA admin, navigate to: Identity -> Services -> Add

libvirt_service_princ

The service is “libvirt” and the Host Name is the server running libvirtd. In this example the principal would be “libvirt/[email protected]

You can verify this by running ipa service-show on the IPA server:

$ ipa service-show libvirt/libvirt.watchmysys.com
  Principal: libvirt/[email protected]
  Keytab: True
  Managed by: libvirt.watchmysys.com

Once you’ve created the principal it needs to be exported to a keytab which will be installed on the libvirtd server:

ipa cert-request --principal=libvirt/libvirt.watchmysys.com libvirt.keytab

The libvirt.keytab file needs to be copied to /etc/libvirt/krb5.keytab the libvirtd server with permissions 0600.

Now we need to change SASL to authenticate using Kerberos, instead of the file based authentication we had before.

$ sudo vi /etc/sasl2/libvirt.conf
mech_list: gssapi
keytab: /etc/libvirt/krb5.keytab

Ensure that there are no other mechanisms defined in mech_list and that sasldb_path: is commented out.

Now if you have a valid ticket on your client you should be able to login using virsh or virt-manager without having to type in a username or password.

Before logging in to libvirtd:

client $ klist
Ticket cache: FILE:/tmp/krb5cc_1000
Default principal: [email protected]

Valid starting       Expires              Service principal
10/27/2014 20:06:48  10/28/2014 20:06:45  krbtgt/[email protected]

Open virt-manager or use virsh to connect to the hypervisor:

client $ virsh -c qemu+tls://libvirt.watchmysys.com/system list
 Id    Name                           State
----------------------------------------------------
 1     debian7                          running
 2     centos7                          running
 3     arch2014.08                      running
 4     opensuse                         running
 5     xbuntu1404                       running
 6     windows7                         running

After logging in to libvirtd:

client $ klist
Ticket cache: FILE:/tmp/krb5cc_1000
Default principal: [email protected]

Valid starting       Expires              Service principal
10/27/2014 20:06:48  10/28/2014 20:06:45  krbtgt/[email protected]
10/27/2014 20:06:53  10/28/2014 20:06:45  libvirt/[email protected]

Nice.

Troubleshooting

Failed to start SASL negotiation: -4 (SASL(-4): no mechanism available: No worthy mechs found)

Check that you have the proper sasl gssapi packages installed on both the client and the server.

libvirt remote access with TLS and SASL

In this post, we’re going to discuss how you can configure the libvirt daemon to use TLS and SASL so that remote connections are encrypted. Please ensure that you have the appropriate packages for libvirt and gnutls installed before proceeding. certtool is part of the gnutls-bin package in Debian.

First we need to generate a CA certificate and key that will later be used to sign the server and client keys. If you already have a CA set up you can skip this step:

$ certtool --generate-privkey --sec-param=high > cakey.pem
Generating a 3072 bit RSA private key...
$ cat ca.info
cn = mydomain.co
ca
cert_signing_key
$ certtool --generate-self-signed --sec-param=high --load-privkey cakey.pem
--template ca.info --outfile cacert.pem
certtool --generate-self-signed --sec-param=high --load-privkey cakey.pem --template ca.info --outfile cacert.pem
Generating a self signed certificate...
X.509 Certificate Information:
	Version: 3
	Serial Number (hex): 544bafeb011c172fe279cd4b
	Validity:
		Not Before: Sat Oct 25 14:12:59 UTC 2014
		Not After: Sun Oct 25 14:12:59 UTC 2015
	Subject: CN=example.com
	Subject Public Key Algorithm: RSA
	Algorithm Security Level: High (3072 bits)
		Modulus (bits 3072):
			00:c0:72:2b:64:26:c4:76:dd:ab:b1:f7:67:67:22:f1
			ff:31:03:b8:9d:9f:9e:c0:01:b9:db:de:50:f0:61:ff
			0d:f5:ae:8a:96:e4:e6:75:a3:56:4d:41:7c:49:4c:6d
			25:7f:de:b8:77:87:9d:c1:8b:4b:36:70:d4:a9:d9:c7
			93:cb:a9:39:b1:73:29:b5:d9:5b:01:e2:60:57:f1:4b
			42:a5:15:e8:e8:77:2b:3e:ec:4c:2a:0e:0f:0c:61:68
			84:1e:09:9b:9d:7d:0a:87:97:24:07:a2:3d:06:c9:fa
			91:cb:72:f1:61:01:a6:8b:6d:93:1f:dd:33:d9:1b:e9
			3c:23:39:36:c2:a4:df:3c:44:d2:8e:b4:e4:20:37:11
			36:7f:b7:9f:14:cd:d5:df:dc:16:fd:a8:a5:09:fa:ad
			cf:32:62:7e:0d:e2:af:80:f3:7a:bb:e9:d8:93:1d:6c
			f6:e2:4b:dd:2f:da:46:ce:fd:c7:41:95:9c:55:ee:66
			a7:03:81:f9:8b:db:3b:03:a1:67:24:47:9a:25:3a:ba
			30:77:34:4e:62:87:54:91:a6:09:09:a6:84:e4:93:76
			09:b8:d3:5d:03:1b:2e:ea:aa:4a:6f:c3:99:1f:35:7d
			74:0d:37:0f:a1:ae:82:6d:fc:5b:4f:b3:6d:5b:d3:f2
			9f:65:fa:88:24:f9:2c:40:2a:88:72:23:80:7c:83:cb
			95:2e:61:f2:38:3f:33:f9:08:4b:5f:72:ae:da:18:50
			ed:d3:fd:22:9a:3e:3a:7d:f2:7e:c3:ea:f9:92:d0:62
			3d:5c:15:98:a0:a8:96:0f:75:66:ed:72:48:56:42:46
			c7:de:39:e3:9e:11:84:3d:bb:98:78:a1:33:c8:02:1d
			d3:c3:2e:93:fc:b9:16:bb:de:3d:3a:37:ee:1b:c6:7b
			09:04:6e:5b:9d:2b:22:0e:ba:c4:b6:d2:29:f7:e1:fc
			80:a3:ec:fb:ab:44:d9:fe:d4:4c:4c:cd:19:76:fc:4e
			2f
		Exponent (bits 24):
			01:00:01
	Extensions:
		Basic Constraints (critical):
			Certificate Authority (CA): TRUE
		Key Usage (critical):
			Certificate signing.
		Subject Key Identifier (not critical):
			51768ae1aea87f9bf1c60b103bc74db7b8b4480a
Other Information:
	Public Key ID:
		51768ae1aea87f9bf1c60b103bc74db7b8b4480a
	Public key's random art:
		+--[ RSA 3072]----+
		|        . o .    |
		|       . = o     |
		|    .   = o      |
		|     + + + .     |
		|  E + + S .      |
		|   . B + o       |
		|    o =.o        |
		|   .  .=o        |
		|  ....ooo.       |
		+-----------------+



Signing certificate...
# inspect the CA cert to ensure it was generated properly
$ certtool -i --infile cacert.pem
X.509 Certificate Information:
	Version: 3
	Serial Number (hex): 544bafeb011c172fe279cd4b
	Issuer: CN=example.com
	Validity:
		Not Before: Sat Oct 25 14:12:59 UTC 2014
		Not After: Sun Oct 25 14:12:59 UTC 2015
	Subject: CN=example.com
	Subject Public Key Algorithm: RSA
	Algorithm Security Level: High (3072 bits)
		Modulus (bits 3072):
			00:c0:72:2b:64:26:c4:76:dd:ab:b1:f7:67:67:22:f1
			ff:31:03:b8:9d:9f:9e:c0:01:b9:db:de:50:f0:61:ff
			0d:f5:ae:8a:96:e4:e6:75:a3:56:4d:41:7c:49:4c:6d
			25:7f:de:b8:77:87:9d:c1:8b:4b:36:70:d4:a9:d9:c7
			93:cb:a9:39:b1:73:29:b5:d9:5b:01:e2:60:57:f1:4b
			42:a5:15:e8:e8:77:2b:3e:ec:4c:2a:0e:0f:0c:61:68
			84:1e:09:9b:9d:7d:0a:87:97:24:07:a2:3d:06:c9:fa
			91:cb:72:f1:61:01:a6:8b:6d:93:1f:dd:33:d9:1b:e9
			3c:23:39:36:c2:a4:df:3c:44:d2:8e:b4:e4:20:37:11
			36:7f:b7:9f:14:cd:d5:df:dc:16:fd:a8:a5:09:fa:ad
			cf:32:62:7e:0d:e2:af:80:f3:7a:bb:e9:d8:93:1d:6c
			f6:e2:4b:dd:2f:da:46:ce:fd:c7:41:95:9c:55:ee:66
			a7:03:81:f9:8b:db:3b:03:a1:67:24:47:9a:25:3a:ba
			30:77:34:4e:62:87:54:91:a6:09:09:a6:84:e4:93:76
			09:b8:d3:5d:03:1b:2e:ea:aa:4a:6f:c3:99:1f:35:7d
			74:0d:37:0f:a1:ae:82:6d:fc:5b:4f:b3:6d:5b:d3:f2
			9f:65:fa:88:24:f9:2c:40:2a:88:72:23:80:7c:83:cb
			95:2e:61:f2:38:3f:33:f9:08:4b:5f:72:ae:da:18:50
			ed:d3:fd:22:9a:3e:3a:7d:f2:7e:c3:ea:f9:92:d0:62
			3d:5c:15:98:a0:a8:96:0f:75:66:ed:72:48:56:42:46
			c7:de:39:e3:9e:11:84:3d:bb:98:78:a1:33:c8:02:1d
			d3:c3:2e:93:fc:b9:16:bb:de:3d:3a:37:ee:1b:c6:7b
			09:04:6e:5b:9d:2b:22:0e:ba:c4:b6:d2:29:f7:e1:fc
			80:a3:ec:fb:ab:44:d9:fe:d4:4c:4c:cd:19:76:fc:4e
			2f
		Exponent (bits 24):
			01:00:01
	Extensions:
		Basic Constraints (critical):
			Certificate Authority (CA): TRUE
		Key Usage (critical):
			Certificate signing.
		Subject Key Identifier (not critical):
			51768ae1aea87f9bf1c60b103bc74db7b8b4480a
	Signature Algorithm: RSA-SHA256
	Signature:
		7f:f2:41:4a:1b:23:34:48:f0:1d:03:1d:ee:94:51:86
		8f:5c:ff:c6:69:db:f3:8e:9a:be:5d:82:47:a3:e0:c2
		1f:e4:eb:1d:3c:9f:63:a2:40:b4:6a:cd:dd:48:74:d1
		03:67:b2:04:c5:27:30:04:75:5b:32:7f:ec:cb:c3:cc
		3d:f8:d2:60:64:62:20:d5:29:a9:67:70:76:d4:34:a0
		a1:fe:34:97:f4:42:7e:bc:67:0a:35:c8:c9:53:35:13
		65:d2:4f:10:d3:ed:cd:6c:2f:3e:a9:0a:56:0f:48:5f
		17:1c:4c:14:2b:c8:c5:77:01:d1:73:6c:08:45:d3:1c
		e2:24:46:53:f9:2a:7b:dd:fe:19:6c:8d:b0:17:ad:c3
		f1:56:3c:dd:e7:da:02:57:3c:56:42:c8:1a:d7:59:e0
		38:fb:f6:7a:ed:88:7b:e6:86:66:58:2c:ce:6a:d9:00
		a8:2e:6b:f4:c1:61:a1:19:d2:d6:46:92:1c:84:2a:c6
		85:34:56:c8:22:d9:cd:23:98:3f:33:7e:2a:f0:f4:e9
		9a:f4:bf:dd:83:52:38:5f:cc:d3:5e:4b:c8:9f:61:7a
		c9:28:8b:39:b3:10:84:08:75:6b:1f:82:74:7f:b2:a8
		7b:7c:50:0f:59:54:fc:b9:9e:f8:62:07:2d:1d:3d:9b
		16:39:95:6e:4a:fb:c0:2b:a2:2e:7d:f1:fa:11:95:66
		81:57:9c:33:be:19:e4:41:1b:31:39:1e:5f:e8:28:41
		ef:0c:99:bc:e1:7a:6f:78:65:b2:c0:86:d2:2f:a7:81
		85:58:ca:41:df:b3:b4:de:a2:fe:6f:ed:3e:6b:ad:b8
		db:9c:f9:39:c1:e7:9e:c9:1e:47:11:b6:e7:f5:57:ae
		25:eb:8d:ae:53:7d:9d:48:f5:a3:3a:7d:1b:7b:58:a1
		32:ae:7e:bb:04:56:ca:e5:c6:40:c3:7d:cb:e0:be:cd
		c9:7f:10:66:bc:75:87:82:2c:c8:db:a4:11:c6:e3:24
Other Information:
	SHA1 fingerprint:
		58ecea66161b1fdd4b292c83a631be8f870ceebd
	SHA256 fingerprint:
		779ed901764da3ef9f6a4326dfb3067617e0d9c75ccadd3ea542a2e7c7ed8be6
	Public Key ID:
		51768ae1aea87f9bf1c60b103bc74db7b8b4480a
	Public key's random art:
		+--[ RSA 3072]----+
		|        . o .    |
		|       . = o     |
		|    .   = o      |
		|     + + + .     |
		|  E + + S .      |
		|   . B + o       |
		|    o =.o        |
		|   .  .=o        |
		|  ....ooo.       |
		+-----------------+

-----BEGIN CERTIFICATE-----
MIID+TCCAmGgAwIBAgIMVEuv6wEcFy/iec1LMA0GCSqGSIb3DQEBCwUAMBYxFDAS
BgNVBAMTC2V4YW1wbGUuY29tMCIYDzIwMTQxMDI1MTQxMjU5WhgPMjAxNTEwMjUx
NDEyNTlaMBYxFDASBgNVBAMTC2V4YW1wbGUuY29tMIIBojANBgkqhkiG9w0BAQEF
AAOCAY8AMIIBigKCAYEAwHIrZCbEdt2rsfdnZyLx/zEDuJ2fnsABudveUPBh/w31
roqW5OZ1o1ZNQXxJTG0lf964d4edwYtLNnDUqdnHk8upObFzKbXZWwHiYFfxS0Kl
Fejodys+7EwqDg8MYWiEHgmbnX0Kh5ckB6I9Bsn6kcty8WEBpottkx/dM9kb6Twj
OTbCpN88RNKOtOQgNxE2f7efFM3V39wW/ailCfqtzzJifg3ir4Dzervp2JMdbPbi
S90v2kbO/cdBlZxV7manA4H5i9s7A6FnJEeaJTq6MHc0TmKHVJGmCQmmhOSTdgm4
010DGy7qqkpvw5kfNX10DTcPoa6CbfxbT7NtW9Pyn2X6iCT5LEAqiHIjgHyDy5Uu
YfI4PzP5CEtfcq7aGFDt0/0imj46ffJ+w+r5ktBiPVwVmKColg91Zu1ySFZCRsfe
OeOeEYQ9u5h4oTPIAh3Twy6T/LkWu949OjfuG8Z7CQRuW50rIg66xLbSKffh/ICj
7PurRNn+1ExMzRl2/E4vAgMBAAGjQzBBMA8GA1UdEwEB/wQFMAMBAf8wDwYDVR0P
AQH/BAUDAwcEADAdBgNVHQ4EFgQUUXaK4a6of5vxxgsQO8dNt7i0SAowDQYJKoZI
hvcNAQELBQADggGBAH/yQUobIzRI8B0DHe6UUYaPXP/Gadvzjpq+XYJHo+DCH+Tr
HTyfY6JAtGrN3Uh00QNnsgTFJzAEdVsyf+zLw8w9+NJgZGIg1SmpZ3B21DSgof40
l/RCfrxnCjXIyVM1E2XSTxDT7c1sLz6pClYPSF8XHEwUK8jFdwHRc2wIRdMc4iRG
U/kqe93+GWyNsBetw/FWPN3n2gJXPFZCyBrXWeA4+/Z67Yh75oZmWCzOatkAqC5r
9MFhoRnS1kaSHIQqxoU0Vsgi2c0jmD8zfirw9Oma9L/dg1I4X8zTXkvIn2F6ySiL
ObMQhAh1ax+CdH+yqHt8UA9ZVPy5nvhiBy0dPZsWOZVuSvvAK6IuffH6EZVmgVec
M74Z5EEbMTkeX+goQe8Mmbzhem94ZbLAhtIvp4GFWMpB37O03qL+b+0+a62425z5
OcHnnskeRxG25/VXriXrja5TfZ1I9aM6fRt7WKEyrn67BFbK5cZAw33L4L7NyX8Q
Zrx1h4IsyNukEcbjJA==
-----END CERTIFICATE-----

Now that we have a CA certificate and signing key we need to generate a server key for the libvirt host:

$ certtool --generate-privkey --sec-param=high > serverkey.pem
Generating a 3072 bit RSA private key...
$ cat libvirt_server.info 
organization = example.com
cn = libvirt.example.com
tls_www_server
encryption_key
signing_key
$ certtool --generate-certificate --sec-param=high --load-privkey serverkey.pem --load-ca-certificate cacert.pem --load-ca-privkey cakey.pem --template libvirt_server.info --outfile servercert.pem
Generating a signed certificate...
X.509 Certificate Information:
	Version: 3
	Serial Number (hex): 544bb10a049f2eaca4b04d94
	Validity:
		Not Before: Sat Oct 25 14:17:46 UTC 2014
		Not After: Sun Oct 25 14:17:46 UTC 2015
	Subject: CN=libvirt.example.com,O=example.com
	Subject Public Key Algorithm: RSA
	Algorithm Security Level: High (3072 bits)
		Modulus (bits 3072):
			00:eb:77:a6:12:6f:a5:a6:b1:aa:9b:b2:fa:aa:38:48
			52:9c:4f:5b:ae:0b:2f:08:71:6e:6e:25:21:88:d2:3a
			eb:16:08:98:70:ee:30:2b:bb:11:42:c8:c7:e8:f9:eb
			f3:c6:1e:b5:76:2b:dd:c3:5f:63:10:87:33:45:bd:f3
			ac:7b:a0:da:bd:05:8e:fa:75:0f:de:27:b8:1a:23:d4
			86:ba:0a:52:11:8a:55:83:e1:6c:68:2e:b5:74:10:1d
			21:35:14:d8:6f:11:14:67:59:f9:b3:db:fc:9a:5b:3c
			5d:91:bb:d2:30:74:a6:45:99:e1:a2:f4:5d:e9:a1:bd
			68:fc:ba:63:3c:91:95:cd:5d:99:f0:75:8c:ac:26:9a
			70:44:47:ae:e7:70:95:b8:25:b2:fd:42:99:bf:74:a1
			54:e4:4f:14:ae:05:3b:d7:5d:85:c6:d8:5a:72:aa:28
			8c:a4:c5:0d:bb:86:44:d2:b0:9c:c8:c9:c9:a5:ab:c2
			1b:dd:b9:73:dd:ac:f7:9e:d0:4a:9a:fa:c0:ea:bb:8c
			07:93:80:64:12:08:78:ff:50:37:3b:3f:e1:ee:5b:89
			c6:47:fd:f6:7d:80:6f:e4:1a:7c:5e:62:c0:36:dc:eb
			6c:66:85:50:3d:f7:1b:e0:9f:5f:9b:62:a3:d7:1a:4c
			8f:3b:b1:4f:a7:f0:9f:95:ef:ac:ac:58:aa:db:e1:fb
			75:64:7a:77:c3:59:61:56:65:9d:d7:c6:51:be:70:48
			ae:b3:c1:98:b5:7e:12:b7:59:8e:76:90:e1:de:48:b7
			ce:1f:15:82:cc:85:1e:08:ba:66:4b:14:ce:f4:bd:a8
			60:21:f0:21:66:a1:6d:a9:38:ec:8e:a4:67:43:ef:a5
			64:8d:14:7d:93:8f:28:85:6a:41:b2:e1:b6:62:19:1b
			1f:5a:b1:6a:85:bf:b7:1a:31:3c:c7:25:a8:43:ee:6f
			94:0c:43:0c:9b:a8:81:7d:77:50:0a:d5:fb:f0:52:b4
			fd
		Exponent (bits 24):
			01:00:01
	Extensions:
		Basic Constraints (critical):
			Certificate Authority (CA): FALSE
		Key Purpose (not critical):
			TLS WWW Server.
		Key Usage (critical):
			Digital signature.
			Key encipherment.
		Subject Key Identifier (not critical):
			83d19f1391ea516d2d499f7c94ac1c9703b44cd7
		Authority Key Identifier (not critical):
			51768ae1aea87f9bf1c60b103bc74db7b8b4480a
Other Information:
	Public Key ID:
		83d19f1391ea516d2d499f7c94ac1c9703b44cd7
	Public key's random art:
		+--[ RSA 3072]----+
		|          .+o*o.=|
		|       .  o.B++OE|
		|      . .o...+B o|
		|       oo. o o . |
		|      ..S.+      |
		|        .. .     |
		|                 |
		|                 |
		|                 |
		+-----------------+



Signing certificate...
$ certtool --generate-privkey --sec-param=high > clientkey.pem
Generating a 3072 bit RSA private key...
$ cat client1.info
country = DE
organization = example.com
cn = client1.example.com
tls_www_client
encryption_key
signing_key
$ certtool --generate-certificate --sec-param=high --load-privkey clientkey.pem  --load-ca-certificate cacert.pem --load-ca-privkey cakey.pem   --template client1.info --outfile client1cert.pem
Generating a signed certificate...
X.509 Certificate Information:
	Version: 3
	Serial Number (hex): 544bb184075bcf2e62d42003
	Validity:
		Not Before: Sat Oct 25 14:19:48 UTC 2014
		Not After: Sun Oct 25 14:19:48 UTC 2015
	Subject: CN=client1.example.com,O=example.com,C=DE
	Subject Public Key Algorithm: RSA
	Algorithm Security Level: High (3072 bits)
		Modulus (bits 3072):
			00:bb:c4:26:e1:ab:bf:ea:bc:db:b2:88:c0:6e:9a:d4
			a6:97:fc:cc:3a:8e:ae:49:69:80:35:86:0f:2d:a6:36
			e9:ac:8e:7a:04:bd:d9:4c:0f:85:d7:80:bf:5e:26:37
			38:40:20:03:9a:c2:49:ed:a1:4f:42:9e:be:28:12:a8
			00:42:6c:6e:7d:08:0d:b8:bf:72:ef:2b:2e:a6:68:40
			df:ec:97:00:75:48:f6:96:03:a9:46:71:2b:db:99:3a
			ab:28:00:01:09:60:be:7d:a3:cd:0c:44:b9:99:35:91
			04:3d:96:48:9b:26:06:ca:4f:3f:18:84:37:84:8b:8a
			b1:fd:9b:5f:00:b7:89:b6:f7:32:75:1b:cb:33:12:cc
			b0:ff:b6:05:58:08:df:54:24:da:73:4e:fd:6f:e7:2b
			59:16:5e:a7:7b:1b:86:ee:38:02:73:09:bd:a8:73:60
			eb:7f:87:12:c6:fe:b8:c4:c3:e4:ea:85:c4:43:94:5c
			dc:a3:ca:73:4a:08:0d:0a:8a:de:51:c7:c1:bf:f3:39
			91:54:cc:44:00:9c:a8:bc:0a:de:e3:20:63:04:dc:e8
			c3:52:0c:0e:34:43:8a:00:0a:19:07:d0:63:cf:c4:a3
			4e:01:52:7f:33:89:24:47:9d:e1:3d:75:5c:76:2f:f0
			91:21:ce:cd:9a:97:64:03:2e:6b:4f:31:27:cf:d2:8c
			83:83:83:82:5b:76:a4:b7:7a:43:da:d7:40:32:69:aa
			04:27:1b:40:91:04:df:ce:35:b2:d7:f6:24:9f:3b:3c
			f4:c6:f8:33:80:e3:43:c7:b0:dc:d5:42:f9:fb:0c:df
			d7:04:44:24:47:49:ca:d2:13:19:91:fa:48:31:92:4f
			5a:73:86:02:78:3c:25:75:32:f3:24:7d:e3:c6:57:68
			62:f2:a9:76:d5:81:5b:50:64:27:42:a2:6d:1e:e7:b6
			79:85:f9:31:18:33:74:08:78:91:90:e2:fe:9d:97:42
			73
		Exponent (bits 24):
			01:00:01
	Extensions:
		Basic Constraints (critical):
			Certificate Authority (CA): FALSE
		Key Purpose (not critical):
			TLS WWW Client.
		Key Usage (critical):
			Digital signature.
			Key encipherment.
		Subject Key Identifier (not critical):
			77f16cb983bae8ee1e205e5f60340bb5793af951
		Authority Key Identifier (not critical):
			51768ae1aea87f9bf1c60b103bc74db7b8b4480a
Other Information:
	Public Key ID:
		77f16cb983bae8ee1e205e5f60340bb5793af951
	Public key's random art:
		+--[ RSA 3072]----+
		|      ..+        |
		|       o =       |
		|        * . E    |
		|       . = . + . |
		|    . o S + . =  |
		|   . o o = o o . |
		|    .   o . . o  |
		|         o .   . |
		|       =* o.     |
		+-----------------+



Signing certificate...

We’ve just created a CA certificate and signing key, a certificate and key for the libvirt server, and a client certificate/key pair for a client (e.g. a laptop).

Now we need to install the certificates in the appropriate places:

$ sudo mkdir -p /etc/pki/CA /etc/pki/libvirt/private
$ sudo cp cacert.pem /etc/pki/CA/cacert.pem
$ sudo chmod 0644 /etc/pki/CA/cacert.pem
$ sudo cp servercert.pem /etc/pki/libvirt/servercert.pem
$ sudo chmod 0644 /etc/pki/libvirt/servercert.pem
$ sudo cp serverkey.pem /etc/pki/libvirt/private/serverkey.pem
$ sudo chmod 0600 /etc/pki/libvirt/private/serverkey.pem

Edit the libvirt configuration to listen for TLS connections and use SASL for authentication:

$ sudo vi /etc/libvirt/libvirtd.conf
# Override the default configuration which binds to all network
# interfaces. This can be a numeric IPv4/6 address, or hostname
#
listen_addr = "10.0.0.10"
auth_tls = "sasl"

On Debian you need to edit the libvirt daemon configuration to enable listening, otherwise libvirt will only accept local connection attempts:

$ sudo vi /etc/default/libvirt-bin
# options passed to libvirtd, add "-l" to listen on tcp
libvirtd_opts="-l"

Configure SASL to handle the authentication for libvirt:

$ sudo cat /etc/sasl2/libvirt.conf
# If you want to use the non-TLS socket, then you *must* include
# the GSSAPI or DIGEST-MD5 mechanisms, because they are the only
# ones that can offer session encryption as well as authentication.
#
# If you're only using TLS, then you can turn on any mechanisms
# you like for authentication, because TLS provides the encryption
#
# Default to a simple username+password mechanism
mech_list: digest-md5

# Before you can use GSSAPI, you need a service principle on the
# KDC server for libvirt, and that to be exported to the keytab
# file listed below
#mech_list: gssapi
#
# You can also list many mechanisms at once, then the user can choose
# by adding  '?auth=sasl.gssapi' to their libvirt URI, eg
#   qemu+tcp://hostname/system?auth=sasl.gssapi
#mech_list: digest-md5 gssapi

# Some older builds of MIT kerberos on Linux ignore this option &
# instead need KRB5_KTNAME env var.
# For modern Linux, and other OS, this should be sufficient
#
# There is no default value here, uncomment if you need this
#keytab: /etc/libvirt/krb5.tab

# If using digest-md5 for username/passwds, then this is the file
# containing the passwds. Use 'saslpasswd2 -a libvirt [username]'
# to add entries, and 'sasldblistusers2 -f [sasldb_path]' to browse it
sasldb_path: /etc/libvirt/passwd.db

Now add the users you want to authenticate with libvirt to the SASL database for the libvirt daemon:

$ sudo saslpasswd2 -a libvirt hmartin
Password:
Again (for verification):
$ sudo sasldblistusers2 -f /etc/libvirt/passwd.db
hmartin@libvirt: userPassword

Now restart the libvirt daemon to apply the changes:

$ sudo service libvirt-bin restart

Verify that libvirt is listening for incoming connections:

$ sudo netstat -anp | grep libvirt
tcp        0      0 10.0.0.10:16509       0.0.0.0:*               LISTEN      12565/libvirtd      
tcp        0      0 10.0.0.10:16514       0.0.0.0:*               LISTEN      12565/libvirtd

Copy the CA certificate, client certificate, and client key to the computer you’ll be using to connect to libvirt, and then install them similar to how we installed the certificates and key on the server:

$ scp cacert.pem client1cert.pem clientkey.pem client1.example.com:
client1 $ sudo mkdir -p /etc/pki/CA /etc/pki/libvirt/private
client1 $ cp cacert.pem /etc/pki/CA/cacert.pem
client1 $ sudo chmod 0644 /etc/pki/CA/cacert.pem
client1 $ cp client1cert.pem /etc/pki/libvirt/clientcert.pem
client1 $ sudo chmod 0644 /etc/pki/libvirt/client1cert.pem
client1 $ cp clientkey.pem /etc/pki/libvirt/private/clientkey.pem
client1 $ sudo chmod 0600 /etc/pki/libvirt/private/clientkey.pem

Inside virt-manager you need to add a new connection. Select “Connect to remote host” with the method “SSL/TLS with certificates”

Leave the username blank, and specify the FQDN of your server running libvirt (e.g. “libvirt.example.com”) and click “Connect”

If virt-manager can successfully communicate with the libvirt daemon on the remote host, a dialog prompting you for your SASL username and password will appear:

virt-manager user authentication window

Enter your username@hostname, for me this is “hmartin@libvirt”, and your user password in the credentials window that appears.

If you get an error when trying to connect to the remote host then I suggest reviewing the syslog and auth log on the remote host. Googling the python error from virt-manager can also help to determine what the issue is.

If you connected successfully to the libvirt host then you are now communicating with the libvirt daemon over a secure connection.

virt-manager

Not every interaction with your guests is encrypted with this configuration. The guest console is still unencrypted. If you are concerned about people eavesdropping on the console session you can restrict access by interface in the guest definition file, or configure TLS for the guest’s spice server, but I won’t cover those right now.

Authenticating Mediawiki users with FreeIPA LDAP

Following my success in configuring Jenkins to authenticate against FreeIPA LDAP I thought I would also integrate LDAP into Mediawiki.

The first step is to install the LdapAuthentication extension for Mediawiki. Installation is pretty simple, extract the LdapAuthentication archive to the extensions folder in your mediawiki installation. e.g. /var/www/mediawiki/extensions

On the FreeIPA server we need to create an unprivileged user to bind to LDAP:

-bash-4.2$ cat mediawiki.ldif 
dn: uid=mediawiki,cn=sysaccounts,cn=etc,dc=watchmysys,dc=com
changetype: add
objectclass: account
objectclass: simplesecurityobject
uid: mediawiki
userPassword: EpQIJjhRj
passwordExpirationTime: 20380119031407Z
nsIdleTimeout: 0

To create the mediawiki user you need to apply the LDIF to LDAP:

ldapmodify -h ipa.watchmysys.com -p 389 -x -D "cn=Directory Manager" -W -f mediawiki.ldif

Create a new role inside FreeIPA for Mediawiki users:
IPA Mediawiki Role

Here is what the corresponding LDAP object is:

# mediawiki, roles, accounts, watchmysys.com
dn: cn=mediawiki,cn=roles,cn=accounts,dc=watchmysys,dc=com
objectClass: groupofnames
objectClass: nestedgroup
objectClass: top
cn: mediawiki
description: mediawiki administrators
member: uid=hmartin,cn=users,cn=accounts,dc=watchmysys,dc=com

Inside the LdapAuthentication extension we need to configure the parameters used to query LDAP for users:

$wgLDAPDomainNames = array('watchmysys.com');
$wgLDAPServerNames = array('watchmysys.com' => 'ipa.watchmysys.com');
$wgLDAPUseLocal = false;
$wgLDAPEncryptionType = array('watchmysys.com' => 'tls');
$wgLDAPOptions = array();
$wgLDAPPort = array();
$wgLDAPSearchStrings = array('watchmysys.com' => 'uid=USER-NAME,cn=users,cn=accounts,dc=watchmysys,dc=com');
$wgLDAPProxyAgent = array('watchmysys.com' => 'uid=mediawiki,cn=sysaccounts,cn=etc,dc=watchmysys,dc=com');
$wgLDAPProxyAgentPassword = array('watchmysys.com' => 'EpQIJjhRj');
$wgLDAPSearchAttributes = array();
$wgLDAPBaseDNs = array('watchmysys.com' => 'dc=watchmysys,dc=com');
$wgLDAPGroupBaseDNs = array('watchmysys.com' => 'cn=roles,cn=accounts,dc=watchmysys,dc=com');
$wgLDAPUserBaseDNs = array('watchmysys.com' => 'cn=users,cn=accounts,dc=watchmysys,dc=com');
$wgLDAPWriterDN = array();
$wgLDAPWriterPassword = array();
$wgLDAPWriteLocation = array();
$wgLDAPAddLDAPUsers = array();
$wgLDAPUpdateLDAP = array();
$wgLDAPPasswordHash = array();
$wgLDAPMailPassword = array();
$wgLDAPPreferences = array('email'=>'mail','realname'=>'displayname','nickname'=>'cn');
$wgLDAPDisableAutoCreate = array();
$wgLDAPDebug = 0;
$wgLDAPGroupUseFullDN = array('watchmysys.com' => true);
$wgLDAPLowerCaseUsername = array('watchmysys.com' => true);
$wgLDAPGroupUseRetrievedUsername = array();
$wgLDAPGroupObjectclass = array('watchmysys.com' => 'groupofnames');
$wgLDAPGroupAttribute = array('watchmysys.com' => 'member');
$wgLDAPGroupNameAttribute = array('watchmysys.com' => 'cn');
$wgLDAPGroupsUseMemberOf = array('watchmysys.com' => false);
$wgLDAPUseLDAPGroups = array();
$wgLDAPLocallyManagedGroups = array();
$wgLDAPGroupsPrevail = array();
$wgLDAPRequiredGroups = array('watchmysys.com' => array('cn=mediawiki,cn=roles,cn=accounts,dc=watchmysys,dc=com'));
$wgLDAPExcludedGroups = array();
$wgLDAPGroupSearchNestedGroups = array('watchmysys.com' => false);
$wgLDAPAuthAttribute = array();
$wgLDAPAutoAuthUsername = "";
$wgLDAPAutoAuthDomain = "";
$wgPasswordResetRoutes['domain'] = true;
$wgLDAPActiveDirectory = array();

The above configuration uses direct binds to authenticate users, and anonymous binds to verify that the user is part of the specified wgLDAPRequiredGroups. There are instructions for how to authenticate a user against Active Directory using only anonymous binds but I wasn’t able to get this working against the FreeIPA LDAP implementation.

Additionally, I found that you need to set $wgLDAPGroupUseFullDN = array('watchmysys.com' => true); for group memberships to be found. Otherwise the LDAP Authentication extension will fail to find the mediawiki group and verify that the username is a member, thus refusing to authenticate the user.

Now that you have the LDAP Authentication extension configured you need to enable it in LocalSettings.php:

require_once "$IP/extensions/LdapAuthentication/LdapAuthentication.php";
require_once 'includes/AuthPlugin.php';
$wgAuth = new LdapAuthenticationPlugin();

After many unsuccessful login attempts I found that the MediaWiki database needed to be updated before I could login using my LDAP credentials:

/var/www/mediawiki$ php maintenance/update.php
...
Creating ldap_domains table ...done.
...
Done 0 files in 0.0 seconds
Fixing protocol-relative entries in the externallinks table...
Done, 0 rows updated.
Populating fa_sha1 field from fa_storage_key

Done 0 files in 0.0 seconds
Purging caches...done.

Done.

If you still cannot login it is possible to enable additional logging from the LdapAuthentication extension. To enable verbose logging edit LdapAuthnetication.php, change $wgLDAPDebug = 3; and add:

$wgDebugLogGroups["ldap"] = "/tmp/ldapdebug.log";

The log file defined in wgDebugLogGroups will contain information from the LdapAuthentication extension and will help you diagnose why authentication is failing.

Note: If a user’s Mediawiki username is the same as their LDAP username Mediawiki will remove their password from the database.

Before LDAP:

MariaDB [mediawiki]> select user_id,user_name,user_real_name,user_password from user where user_name='Hmartin';
+---------+-----------+----------------+----------------------------------------------+
| user_id | user_name | user_real_name | user_password                                |
+---------+-----------+----------------+----------------------------------------------+
|       2 | Hmartin   | Hal Martin     | :B:a24f940c:89ebc6b51ad2529ef6fd503b9ab1c8db |

After logging in as my LDAP user:

MariaDB [mediawiki]> select user_id,user_name,user_real_name,user_password from user where user_name='Hmartin';
+---------+-----------+----------------+----------------------------------------------+
| user_id | user_name | user_real_name | user_password                                |
+---------+-----------+----------------+----------------------------------------------+
|       2 | Hmartin   | Hal Martin     |                                              |

I’m guessing this means that if the LDAP server is down authentication will not fall back to the user password stored in the database (since it’s now absent).

That’s it. You should have LDAP authentication working for Mediawiki. If you run into any problems I suggest enabling wgLDAPDebug and wgDebugLogGroups and examining the logs to find out what went wrong. As always, tcpdump is your friend!