d91482807e
Signed-off-by: Erik Skultety <eskultet@redhat.com> Reviewed-by: Peter Krempa <pkrempa@redhat.com>
12 KiB
Polkit access control
Libvirt's client access control framework allows administrators to setup fine grained permission rules across client users, managed objects and API operations. This allows client connections to be locked down to a minimal set of privileges. The polkit driver provides a simple implementation of the access control framework.
Introduction
A default install of libvirt will typically use polkit to authenticate the initial user connection to libvirtd. This is a very coarse grained check though, either allowing full read-write access to all APIs, or just read-only access. The polkit access control driver in libvirt builds on this capability to allow for fine grained control over the operations a user may perform on an object.
Permission names
The libvirt object names and permission names are mapped onto polkit action names using the simple pattern:
org.libvirt.api.$object.$permissionThe only caveat is that any underscore characters in the object or
permission names are converted to hyphens. So, for example, the
search_storage_vols permission on the
storage_pool object maps to the polkit action:
org.libvirt.api.storage-pool.search-storage-volsThe default policy for any permission which corresponds to a "read only" operation, is to allow access. All other permissions default to deny access.
Object identity attributes
To allow polkit authorization rules to be written to match against individual object instances, libvirt provides a number of authorization detail attributes when performing a permission check. The set of attributes varies according to the type of object being checked
virConnectPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
virDomainPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| domain_name | Name of the domain, unique to the local host |
| domain_uuid | UUID of the domain, globally unique |
virInterfacePtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| interface_name | Name of the network interface, unique to the local host |
| interface_macaddr | MAC address of the network interface, not unique |
virNetworkPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| network_name | Name of the network, unique to the local host |
| network_uuid | UUID of the network, globally unique |
virNodeDevicePtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| node_device_name | Name of the node device, unique to the local host |
virNWFilterPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| nwfilter_name | Name of the network filter, unique to the local host |
| nwfilter_uuid | UUID of the network filter, globally unique |
virSecretPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| secret_uuid | UUID of the secret, globally unique |
| secret_usage_volume | Name of the associated volume, if any |
| secret_usage_ceph | Name of the associated Ceph server, if any |
| secret_usage_target | Name of the associated iSCSI target, if any |
| secret_usage_name | Name of the associated TLS secret, if any |
virStoragePoolPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| pool_name | Name of the storage pool, unique to the local host |
| pool_uuid | UUID of the storage pool, globally unique |
virStorageVolPtr
| Attribute | Description |
|---|---|
| connect_driver | Name of the libvirt connection driver |
| pool_name | Name of the storage pool, unique to the local host |
| pool_uuid | UUID of the storage pool, globally unique |
| vol_name | Name of the storage volume, unique to the pool |
| vol_key | Key of the storage volume, globally unique |
Hypervisor Driver connect_driver
The connect_driver parameter describes the client's remote Connection Driver name based on the URI used for the connection.
Since 4.1.0, when calling an API outside
the scope of the primary connection driver, the primary driver will
attempt to open a secondary connection to the specific API driver in
order to process the API. For example, when hypervisor domain processing
needs to make an API call within the storage driver or the network
filter driver an attempt to open a connection to the "storage" or
"nwfilter" driver will be made. Similarly, a "storage" primary
connection may need to create a connection to the "secret" driver in
order to process secrets for the API. If successful, then calls to those
API's will occur in the connect_driver context of the
secondary connection driver rather than in the context of the primary
driver. This affects the connect_driver returned from rule
generation from the action.loookup function. The following
table provides a list of the various connection drivers and the
connect_driver name used by each regardless of primary or
secondary connection. The access denied error message from libvirt will
list the connection driver by name that denied the access.
Connection Driver Name
| Connection Driver | connect_driver name |
|---|---|
| bhyve | bhyve |
| esx | ESX |
| hyperv | Hyper-V |
| interface | interface |
| xen | Xen |
| lxc | LXC |
| network | network |
| nodedev | nodedev |
| nwfilter | NWFilter |
| openvz | OPENVZ |
| qemu | QEMU |
| secret | secret |
| storage | storage |
| vbox | VBOX |
| vmware | VMWARE |
| vz | vz |
User identity attributes
At this point in time, the only attribute provided by libvirt to identify the user invoking the operation is the PID of the client program. This means that the polkit access control driver is only useful if connections to libvirt are restricted to its UNIX domain socket. If connections are being made to a TCP socket, no identifying information is available and access will be denied. Also note that if the client is connecting via an SSH tunnel, it is the local SSH user that will be identified. In future versions, it is expected that more information about the client user will be provided, including the SASL / Kerberos username and/or x509 distinguished name obtained from the authentication provider in use.
Writing access control policies
If using versions of polkit prior to 0.106 then it is only possible
to validate (user, permission) pairs via the .pkla files.
Fully validation of the (user, permission, object) triple requires the
new JavaScript .rules support that was introduced in
version 0.106. The latter is what will be described here.
Libvirt does not ship any rules files by default. It merely provides
a definition of the default behaviour for each action (permission). As
noted earlier, permissions which correspond to read-only operations in
libvirt will be allowed to all users by default; everything else is
denied by default. Defining custom rules requires creation of a file in
the /etc/polkit-1/rules.d directory with a name chosen by
the administrator (100-libvirt-acl.rules would be a
reasonable choice). See the polkit(8) manual page for a
description of how to write these files in general. The key idea is to
create a file containing something like
polkit.addRule(function(action, subject) {
....logic to check 'action' and 'subject'...
});In this code snippet above, the action object instance
will represent the libvirt permission being checked along with
identifying attributes for the object it is being applied to. The
subject meanwhile will identify the libvirt client app
(with the caveat above about it only dealing with local clients
connected via the UNIX socket). On the action object, the
permission name is accessible via the id attribute, while
the object identifying attributes are exposed via the
lookup method.
See source code for a more complex example.
Example: restricting ability to connect to drivers
Consider a local user berrange who has been granted
permission to connect to libvirt in full read-write mode. The goal is to
only allow them to use the QEMU driver and not the Xen or
LXC drivers which are also available in libvirtd. To achieve this we
need to write a rule which checks whether the
connect_driver attribute is QEMU, and match on
an action name of org.libvirt.api.connect.getattr. Using
the javascript rules format, this ends up written as
polkit.addRule(function(action, subject) {
if (action.id == "org.libvirt.api.connect.getattr" &&
subject.user == "berrange") {
if (action.lookup("connect_driver") == 'QEMU') {
return polkit.Result.YES;
} else {
return polkit.Result.NO;
}
}
});Example: restricting access to a single domain
Consider a local user berrange who has been granted
permission to connect to libvirt in full read-write mode. The goal is to
only allow them to see the domain called demo on the LXC
driver. To achieve this we need to write a rule which checks whether the
connect_driver attribute is LXC and the
domain_name attribute is demo, and match on an
action name of org.libvirt.api.domain.getattr. Using the
javascript rules format, this ends up written as
polkit.addRule(function(action, subject) {
if (action.id == "org.libvirt.api.domain.getattr" &&
subject.user == "berrange") {
if (action.lookup("connect_driver") == 'LXC' &&
action.lookup("domain_name") == 'demo') {
return polkit.Result.YES;
} else {
return polkit.Result.NO;
}
}
});