While the Bare Metal service is intended to be a secure application, it is important to understand what it does and does not cover today.
Deployers must properly evaluate their use case and take the appropriate actions to secure their environment(s). This document is intended to provide an overview of what risks an operator of the Bare Metal service should be aware of. It is not intended as a How-To guide for securing a data center or an OpenStack deployment.
Beginning with the Newton (6.1.0) release, the Bare Metal service allows operators significant control over API access:
Access may be restricted to each method (GET, PUT, etc) for each REST resource. Defaults are provided with the release and defined in code.
Access may be divided between an “administrative” role with full access and
“observer” role with read-only access. By default, these roles are assigned
the names baremetal_admin
and baremetal_observer
, respectively.
By default, passwords and instance secrets are hidden in driver_info
and
instance_info
, respectively. In case of debugging or diagnosing, the
behavior can be overridden by changing the policy file. To allow password
in driver_info
unmasked for users with administrative privileges, apply
following changes to policy configuration file:
"show_password": "role:is_admin"
And restart the Bare Metal API service to take effect. Please check Policies for more details.
Prior to the Newton (6.1.0) release, the Bare Metal service only supported two policy options:
driver_info
field may be hidden from all API
responses with the show_password
policy setting. This defaults to always
hide passwords, regardless of the user’s role. You can override it with
policy configuration as described above.There are two aspects of multitenancy to consider when evaluating a deployment of the Bare Metal Service: interactions between tenants on the network, and actions one tenant can take on a machine that will affect the next tenant.
Interactions between tenants’ workloads running simultaneously on separate servers include, but are not limited to: IP spoofing, packet sniffing, and network man-in-the-middle attacks.
By default, the Bare Metal service provisions all nodes on a “flat” network, and does not take any precautions to avoid or prevent interaction between tenants. This can be addressed by integration with the OpenStack Identity, Compute, and Networking services, so as to provide tenant-network isolation. Additional documentation on network multi-tenancy is available.
Interactions between tenants placed sequentially on the same server include, but are not limited to: changes in BIOS settings, modifications to firmware, or files left on disk or peripheral storage devices (if these devices are not erased between uses).
By default, the Bare Metal service will erase (clean) the local disk drives during the “cleaning” phase, after deleting an instance. It does not reset BIOS or reflash firmware or peripheral devices. This can be addressed through customizing the utility ramdisk used during the “cleaning” phase. See details in the Firmware security section.
When the Bare Metal service deploys an operating system image to a server, that image is run natively on the server without virtualization. Any user with administrative access to the deployed instance has administrative access to the underlying hardware.
Most servers’ default settings do not prevent a privileged local user from gaining direct access to hardware devices. Such a user could modify device or firmware settings, and potentially flash new firmware to the device, before deleting their instance and allowing the server to be allocated to another user.
If the [conductor]/automated_clean
configuration option is enabled (and
the [deploy]/erase_devices_priority
configuration option is not zero),
the Bare Metal service will securely erase all local disk devices within a
machine during instance deletion. However, the service does not ship with
any code that will validate the integrity of, or make any modifications to,
system or device firmware or firmware settings.
Operators are encouraged to write their own hardware manager plugins for the
ironic-python-agent
ramdisk. This should include custom clean steps
that would be run during the Node cleaning process, as part of Node
de-provisioning. The clean steps
would perform the specific actions necessary within that environment to ensure
the integrity of each server’s firmware.
Ideally, an operator would work with their hardware vendor to ensure that proper firmware security measures are put in place ahead of time. This could include:
Additional references:
Access to networks which the Bare Metal service uses internally should be prohibited from outside. These networks are the ones used for management (with the nodes’ BMC controllers), provisioning, cleaning (if used) and rescuing (if used).
This can be done with physical or logical network isolation, traffic filtering, etc.
Some nodes support more than one management interface technology (vendor and IPMI for example). If you use only one modern technology for out-of-band node access, it is recommended that you disable IPMI since the IPMI protocol is not secure. If IPMI is enabled, in most cases a local OS administrator is able to work in-band with IPMI settings without specifying any credentials, as this is a DCMI specification requirement.
If you use tenant network isolation, services (TFTP or HTTP) that handle the nodes’ boot files should serve requests only from the internal networks that are used for the nodes being deployed and cleaned.
TFTP protocol does not support per-user access control at all.
For HTTP, there is no generic and safe way to transfer credentials to the node.
Also, tenant network isolation is not intended to work with network-booting a node by default, once the node has been provisioned.
There are two (unauthorized) endpoints in the Bare Metal API that are intended for use by the ironic-python-agent RAM disk. They are not intended for public use.
These endpoints can potentially cause security issues. Access to these endpoints from external or untrusted networks should be prohibited. An easy way to do this is to:
set up two groups of API services: one for external requests, the second for deploy RAM disks’ requests.
to disable unauthorized access to these endpoints in the (first) API services group that serves external requests, the following lines should be added to the policy.yaml file:
# Send heartbeats from IPA ramdisk
"baremetal:node:ipa_heartbeat": "rule:is_admin"
# Access IPA ramdisk functions
"baremetal:driver:ipa_lookup": "rule:is_admin"
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