Quality of Service (QoS): Guaranteed Minimum Packet Rate¶
Similarly to how bandwidth can be a limiting factor of a network interface, packet processing capacity tend to be a limiting factor of the soft switching solutions like OVS. At the same time certain applications are dependent on not just guaranteed bandwidth, but also on guaranteed packet rate to function properly. OpenStack already supports bandwidth guarantees via the minimum bandwidth QoS policy rules, which is described in detail in Quality of Service (QoS): Guaranteed Minimum Bandwidth. It’s recommended to read Guaranteed Minimum Bandwidth guide first, but it’s not strictly required.
Just like Quality of Service (QoS): Guaranteed Minimum Bandwidth guide, this chapter does not aim to replace Nova or Placement documentation in any way, but gives a brief overview of the feature and explains how it can be configured.
In a similar way to guaranteed bandwidth, we can distinguish two levels of enforcement for guaranteeing packet processing capacity constraint:
placement: Avoiding over-subscription when placing (scheduling) VMs and their ports.
data plane: Enforcing the guarantee on the soft switch
Note
At the time of writing this guide, only placement enforcement is supported. For detailed list of supported enforcement types and backends, please refer to QoS configuration chapter of the Networking Guide.
The solution needs to differentiate between two different deployment scenarios:
The packet processing functionality is implemented on the compute host CPUs and therefore packets processed from both ingress and egress directions are handled by the same set of CPU cores. This is the case in the non-hardware-offloaded OVS deployments. In this scenario OVS represents a single packet processing resource pool, which is represented with a single resource class called
NET_PACKET_RATE_KILOPACKET_PER_SEC.The packet processing functionality is implemented in a specialized hardware where the incoming and outgoing packets are handled by independent hardware resources. This is the case for hardware-offloaded OVS. In this scenario a single OVS has two independent resource pools one for the incoming packets and one for the outgoing packets. Therefore these needs to be represented with two different resource classes
NET_PACKET_RATE_EGR_KILOPACKET_PER_SECandNET_PACKET_RATE_IGR_KILOPACKET_PER_SEC.
Limitations¶
Since Guaranteed Minimum Packet Rate and Guaranteed Minimum Bandwidth features have a lot in common, they also share certain limitations.
A pre-created port with a
minimum-packet-raterule must be passed when booting a server (openstack server create). Passing a network with a minimum-packet-rate rule at boot is not supported because of technical reasons (in this case the port is created too late for Neutron to affect scheduling).Changing the guarantee of a QoS policy (adding/deleting a
minimum_packet_raterule, or changing themin_kppsfield of aminimum_packet_raterule) is only possible while the policy is not in effect. That is ports of the QoS policy are not yet bound by Nova. Requests to change guarantees of in-use policies are rejected.Changing the QoS policy of the port with new
minimum_packet_raterules changes placementallocationsfrom Yoga release. If the VM was booted with port without QoS policy andminimum_packet_raterules the port update succeeds but placement allocations will not change. The same is true if the port had no allocation record in Placement before QoS policy update. But if the VM was booted with a port with QoS policy andminimum_packet_raterules the update is possible and the allocations are changed in placement as well.
Note
As it is possible to update a port to remove the QoS policy, updating it
back to have QoS policy with minimum_packet_rate rule will not result in
placement allocation record. In this case only dataplane enforcement will
happen.
Note
Updating the minimum_packet_rate rule of a QoS policy that is attached
to a port which is bound to a VM is still not possible.
When QoS is used with a trunk, Placement enforcement is applied only to the trunk’s parent port. Subports are not going to have Placement allocation. As a workaround, parent port QoS policy should take into account subports needs and request enough minimum packet rate resources to accommodate every port in the trunk.
Placement pre-requisites¶
Placement must support microversion 1.36. This was first released in Train.
Nova pre-requisites¶
Nova must support top of microversion 2.72,
additionally the Nova Xena release is needed to support the new
port-resource-request-groups Neutron API extension.
Not all Nova virt drivers are supported, please refer to the Virt Driver Support section of the Nova Admin Guide.
Neutron pre-requisites¶
Neutron must support the following API extensions:
qos-pps-minimumport-resource-request-groups
These were all first released in Yoga.
Neutron DB sanitization¶
The resource_request field of the Neutron port is used to express the
resource needs of the port. The information in this field is calculated from
the QoS policy rules attached to the port. Initially, only the minimum
bandwidth rule was used as a source of requested resources. The format of
resource_request looked like this:
{
"required": [<CUSTOM_PHYSNET_ traits>, <CUSTOM_VNIC_TYPE traits>],
"resources":
{
<NET_BW_[E|I]GR_KILOBIT_PER_SEC resource class name>:
<requested bandwidth amount from the QoS policy>
}
},
This structure allowed to describe only one group of resources and traits,
which was sufficient at the time. However, with the introduction of QoS minimum
packet rate rule, ports can now have multiple sources of requested resources
and traits. Because of that, the format of resource_request field was
incapable of expressing such request and it had to be changed.
To solve this issue, port-resource-request-groups extension was
added in Neutron Yoga release. It provides support for the new format of
resource_request field, that allows to request multiple groups of
resources and traits from the same RP subtree. The new format looks like this:
{
"request_groups":
[
{
"id": <min-pps-group-uuid>
"required": [<CUSTOM_VNIC_TYPE traits>],
"resources":
{
NET_PACKET_RATE_[E|I]GR_KILOPACKET_PER_SEC:
<amount requested via the QoS policy>
}
},
{
"id": <min-bw-group-uuid>
"required": [<CUSTOM_PHYSNET_ traits>,
<CUSTOM_VNIC_TYPE traits>],
"resources":
{
<NET_BW_[E|I]GR_KILOBIT_PER_SEC resource class name>:
<requested bandwidth amount from the QoS policy>
}
}
],
"same_subtree":
[
<min-pps-group-uuid>,
<min-bw-group-uuid>
]
}
The main drawback about the new structure of resource_request field is lack
of backwards compatibility. This can cause issues if ml2_port_bindings
table in Neutron DB contains port bindings that were created before the
introduction of port-resource-request-groups extension. Because
port-resource-request-groups extension is enabled by default in Yoga
release, it’s necessary to perform DB sanitization before upgrading Neutron to
Yoga.
DB sanitization will ensure that every row of ml2_port_bindings table
uses the new format. Upgrade check can be run before DB sanitization, to see
if there are any rows in the DB that require sanitization.
$ neutron-status upgrade check
# If 'Port Binding profile sanity check' fails, DB sanitization is needed
$ neutron-sanitize-port-binding-profile-allocation --config-file /etc/neutron/neutron.conf
Supported drivers and agents¶
In release Yoga the following agent-based ML2 mechanism drivers are supported:
Open vSwitch (
openvswitch) vnic_types:normal,direct
neutron-server config¶
QoS minimum packet rate rule requires exactly the same configuration in the
neutron-server as QoS minimum bandwidth rule. Please refer to
neutron-server config section of
Quality of Service (QoS): Guaranteed Minimum Bandwidth guide for more details.
neutron-openvswitch-agent config¶
Set the agent configuration as the authentic source of the resources available. Depending on OVS deployment type, packet processing capacity can be configured with:
ovs.resource_provider_packet_processing_without_directionFormat for this option is<hypervisor>:<packet_rate>. This option should be used for non-hardware-offloaded OVS deployments.ovs.resource_provider_packet_processing_with_directionFormat for this option is<hypervisor>:<egress_packet_rate>:<ingress_packet_rate>. You may set only one direction and omit the other. This option should be used for hardware-offloaded OVS deployments.
Regardless if direction-less or direction-oriented packet processing mode is used, configuration is always applied to the whole OVS instance.
Note
egress / ingress is meant from the VM point of view.
That is egress = cloud server upload, ingress = download.
Egress and ingress available packet rate values are in kilo packet/sec
(kpps).
Direction-less and direction-oriented modes are mutually exclusive options. Only one can be used at a time.
The hypervisor name is optional, and needs to be set only in the rare case cases. For more information, please refer to Neutron agent documentation.
If desired, resource provider inventory fields can be tweaked on a
per-agent basis by setting
ovs.resource_provider_packet_processing_inventory_defaults.
Valid values are all the
optional parameters of the update resource provider inventory call.
/etc/neutron/plugins/ml2/ovs_agent.ini (on compute and network nodes):
[ovs]
resource_provider_packet_processing_with_direction = :10000000:10000000,...
#resource_provider_packet_processing_inventory_defaults = step_size:1000,...
Propagation of resource information¶
Propagation of resource information is explained in detail in Quality of Service (QoS): Guaranteed Minimum Bandwidth guide.
Sample usage¶
Network and QoS policies (together with their rules) are usually pre-created by a cloud admin:
# as admin
$ openstack network create net0
$ openstack subnet create subnet0 \
--network net0 \
--subnet-range 10.0.4.0/24
$ openstack network qos policy create policy0
$ openstack network qos rule create policy0 \
--type minimum-packet-rate \
--min-kpps 1000000 \
--egress
$ openstack network qos rule create policy0 \
--type minimum-packet-rate \
--min-kpps 1000000 \
--ingress
Then a normal user can use the pre-created policy to create ports and boot servers with those ports:
# as an unprivileged user
# an ordinary soft-switched port: ``--vnic-type normal`` is the default
$ openstack port create port-normal-qos \
--network net0 \
--qos-policy policy0
$ openstack server create server0 \
--os-compute-api-version 2.72 \
--flavor cirros256 \
--image cirros-0.5.2-x86_64-disk \
--port port-normal-qos
On Healing of Allocations¶
Since Placement carries a global view of a cloud deployment’s resources (what is available, what is used) it may in some conditions get out of sync with reality.
One important case stems from OpenStack not having distributed transactions to allocate resources provided by multiple OpenStack components (here Nova and Neutron). There are known race conditions in which Placement’s view may get out of sync with reality. The design knowingly minimizes the race condition windows, but there are known problems:
If a QoS policy is modified after Nova read a port’s
resource_requestbut before the port is bound its state before the modification will be applied.If a bound port with a resource allocation is deleted. The port’s allocation is leaked. https://bugs.launchpad.net/nova/+bug/1820588
Note
Deleting a bound port has no known use case. Please consider detaching
the interface first by openstack server remove port instead.
Incorrect allocations may be fixed by:
Moving the server, which will delete the wrong allocation and create the correct allocation. Moving servers fixes local overallocations.
With placement heal_allocations tool.
Manually, by using openstack resource provider allocation set /delete.
Debugging¶
Is Nova running at least Xena release and Neutron at least the Yoga release?
Are
qos-pps-minimumandport-resource-request-groupsextensions available?
$ openstack extension show qos-pps-minimum
$ openstack extension show port-resource-request-groups
Is the
placementservice plugin enabled in neutron-server?Is
resource_provider_packet_processing_with_directionorresource_provider_packet_processing_without_directionconfigured for the relevant neutron agent?Was the agent restarted since changing the configuration file?
Is
resource_provider_packet_processing_with_directionorresource_provider_packet_processing_without_directionreaching neutron-server?
# as admin
$ openstack network agent show ... -c configuration -f json
Please find an example in section Propagation of resource information.
Did neutron-server successfully sync to Placement?
# as admin
$ openstack network agent show ... | grep resources_synced
Please find an example in section Propagation of resource information.
Is the resource provider tree correct? Is the root a compute host? One level below the agents?
$ openstack --os-placement-api-version 1.17 resource provider list
+--------------------------------------+------------------------------------------+------------+--------------------------------------+--------------------------------------+
| uuid | name | generation | root_provider_uuid | parent_provider_uuid |
+--------------------------------------+------------------------------------------+------------+--------------------------------------+--------------------------------------+
| 3b36d91e-bf60-460f-b1f8-3322dee5cdfd | devstack0 | 2 | 3b36d91e-bf60-460f-b1f8-3322dee5cdfd | None |
| 89ca1421-5117-5348-acab-6d0e2054239c | devstack0:Open vSwitch agent | 0 | 3b36d91e-bf60-460f-b1f8-3322dee5cdfd | 3b36d91e-bf60-460f-b1f8-3322dee5cdfd |
+--------------------------------------+------------------------------------------+------------+--------------------------------------+--------------------------------------+
Does Placement have the expected traits?
# as admin
$ openstack --os-placement-api-version 1.17 trait list | awk '/CUSTOM_/ { print $2 }' | sort
CUSTOM_VNIC_TYPE_NORMAL
CUSTOM_VNIC_TYPE_SMART_NIC
CUSTOM_VNIC_TYPE_VDPA
Do the OVS agent resource provider have the proper trait associations and inventories?
# as admin
$ openstack --os-placement-api-version 1.17 resource provider trait list <RP-UUID>
$ openstack --os-placement-api-version 1.17 resource provider inventory list <RP-UUID>
Does the QoS policy have a
minimum-packet-raterule?Does the port have the proper policy?
Does the port have a
resource_request?
# as admin
$ openstack port show port-normal-qos | grep resource_request
Was the server booted with a port (as opposed to a network)?
Did nova allocate resources for the server in Placement?
# as admin
$ openstack --os-placement-api-version 1.17 resource provider allocation show <SERVER-UUID>
Does the allocation have a part on the expected OVS agent resource provider?
# as admin
$ openstack --os-placement-api-version 1.17 resource provider show --allocations <RP-UUID>
Did placement manage to produce an allocation candidate list to nova during scheduling?
Did nova manage to schedule the server?
Did nova tell neutron which OVS agent resource provider was allocated to satisfy the packet rate request?
# as admin
$ openstack port show port-normal-qos | grep binding.profile.*allocation
Did neutron manage to bind the port?
Links¶
Nova documentation on using a port with
resource_requestNeutron spec: QoS minimum guaranteed packet rate
Nova spec: QoS minimum guaranteed packet rate
Relevant OpenStack Networking API references
https://docs.openstack.org/api-ref/network/v2/#agent-resources-synced-extension
https://docs.openstack.org/api-ref/network/v2/#port-resource-request
https://docs.openstack.org/api-ref/network/v2/#port-resource-request-groups
https://docs.openstack.org/api-ref/network/v2/#qos-minimum-packet-rate-rules
Microversion histories
Implementation
Known Bugs
Bandwidth resource is leaked this issue also affects packet rate resources.
