octavia/specs/version1.1/udp_support.rst
ZhaoBo 5605ae1e4d Support UDP load balancing
Currently, there is not related UDP LB API. We intro a new LVS backend
which will work alongside the existing haproxy for UDP loadbalancing.

Change-Id: I1cd9fb55e171da1b9c1e703896917ec5b7c5d025
Story: 1657091
2017-12-21 17:15:23 +00:00

16 KiB

UDP Support

https://storyboard.openstack.org/#!/story/1657091

Problem description

Currently, the default driver of Octavia (haproxy) only supports TCP, HTTP, HTTPS, and TERMINATED_HTTPS. We need support for load balancing UDP.

For some use-cases, UDP load balancing support is useful. One such case are real-time media streaming applications which are based on RTSP1.

For the Internet of Things (IoT)2, there are many services or applications that use UDP as their transmission protocol. For example: CoAP3 (Constrained Application Protocol), DDS4 (Data Distribution Service) for Real-Time systems, and the introduction protocol Thread5.

Applications with high demand for real-time (like video chatting) run on RDUP6 (Reliable User Datagram Protocol), RTP7 (RealTime Protocol) and UDT8 (UDP-based Data Transfer Protocol). These protocols also are based on UDP.

There isn't any option in the API for these protocols, which Layer 4 UDP would provide. This means that customers lack a way to support these services which may be running on VM instances in an OpenStack environment.

Proposed change

This spec extends the LBaaSv2 API to support UDP as a protocol in Listener and Pool resource requests.

It will require a new load balancing engine to support this feature, as the current haproxy engine only supports TCP based protocols. If users want a load balancer which supports both TCP and UDP, this need cannot be met by launching haproxy-based amphora instances. It's the good time to extend octavia to support more load balancing scenarios. This spec will introduce how LVS9 can work with haproxy for UDP loadbalancing. The reason for choosing LVS is that we can easily integrate it with the existing keepalived service. That means we can configure LVS via keepalived, and check member health as well.

For the current service VM driver implementation, haproxy runs in the amphora-haproxy namespace in an amphora instance. So we also need to configure keeplived in the same namespace for UDP cases even in SINGLE topology. For ACTIVE_STANDBY, keepalived will serve two purposes: UDP and VRRP. So, one instance of keepalived must be bound in the namespace, along with the LVS instance it configures.

The main idea is to use keepalived to configure and manage LVS10 and its configuration. We also need to check the members' statuses with keepalived instead of haproxy, so there must be a different workflow in Octavia resources and deployment topologies. The simplest implementation is LVS within NAT mode, so we will only support this mode to start. If possible we will add other modes in the future.

Currently, a single keepalived instance can support multiple virtual server configurations, but for minimal impact of reconfiguration to the existing listeners, we'd better not to refresh all the keepalived configuration files and restart the instances, because that would cause all listeners traffic to be blocked if the LVS configuration maintained by keepalived is removed. This spec proposes that each listener will have its own keepalived process, but that process won't contain a VRRP instance, just the configuration of virtual server and real servers. That means if the Loadbalancer service is running with ACTIVE-STANDBY topology, each amphora instance will run multiple keepalived instances, the count being N+1 (where N is the UDP Listener count, and +1 is the VRRP instance for HA). The existing keepalived will be used, but each "UDP Listener keepalived process" will need to be controlled by health check of the Main VRRP keepalived process. Then the VIP could be moved to the BACKUP amphorae instance in ACTIVE/STANDBY topology if there is any issue with these UDP keepalived processes. The health check will simply reflect whether the keepalived processes are alive.

The workflow for this feature contains:

  1. Add a new keepalived jinja template to support LVS configuration.
  2. Add netcat into dib-elements for supporting all platforms.
  3. Extend the ability of amphora agent to run keepalived with LVS configuration in amphora instances, including the init configuration, such as systemd, sysvinit and upstart.
  4. Enhance the session persistence to work with UDP and enable/disable the "One-Packet-Scheduling" option.
  5. Update the database to allow listeners to support both tcp and udp on the same port, add udp as a valid protocol and ONE_PACKET_SCHEDULING as a valid session_persistence_type in the database.
  6. Setup validation code for supported features of UDP load balancing (such as session persistence, types of health monitors, load balancing algorithms, number of L7 policies allowed, etc).
  7. Extend the existing LBaaSv2 API in Octavia to allow udp parameters in the Listener resource.
  8. Extend the Loadbalancer/Listener flows to support udp loadbalancer in the particular topologies.

Alternatives

Introduce a new UDP driver based on LVS or other Loadbalancer engines. Then find a way to fix the gap of the current Octavia data models which have a strong relationship with HTTP which based on TCP.

Provide a new driver provider framework to change the amphorae backend from haproxy to some other load balancer engines, for example, if we introduce LVS driver, we may just support the simple L7 functions with LVS, as it's a risk to change provider from existing haproxy-based amphora instances to LVS ones. If possible, we need to limit the API to not support fields/resources if the backend driver is LVS, such as "insert_headers" in Listener, L7Policies, L7Rules and etc, a series fields/resources that related to L7 layer. The all things are to match the real ability of backend. That means all the configuration of L7 resources will be ignored or translate to LVS configuration if the backend is LVS. For other load balancer engines which support UDP, such as f5/nginx, we may also need to do this.

Combining the 2 load balancer engines for a simple reference implementation, LVS would only support the L4 layer LB, and haproxy would provide the L7 LB functionality which is more specific and detailed. For other engines like f5/nginx, Octavia can directly pass the UDP parameters to backend. This is very good for the community environment. Then Octavia may support more powerful and complex LoadBalancing solutions.

Data model impact

There may not be any data model changes, this spec just allows a user to input the udp protocol to create/update the Listener and Pool resources. So here, just extend the SUPPORTED_PROTOCOLS to add the value PROTOCOL_UDP.

SUPPORTED_PROTOCOLS = (PROTOCOL_TCP, PROTOCOL_HTTPS, PROTOCOL_HTTP,
                       PROTOCOL_TERMINATED_HTTPS, PROTOCOL_PROXY,
                       PROTOCOL_UDP)

Also add a record into the table protocol for PROTOCOL_UDP.

As LVS only operates in Layer 4, there are some conflicts with current Octavia data models. There are some limitation below:

  1. No L7 policies allowed.

  2. For session persistence, this spec will intro persistence_timeout (sec) and persistence_granularity (subnet mask)11 in the virtual server configuration. The function will be based on the LVS. With no session persistence specified, LVS will be configured with a persistence_timeout of 0. There are two valid session persistence options for UDP (if session persistence is specified), SOURCE_IP and ONE_PACKET_SCHEDULING.

  3. Intro a 'UDP_CONNECT' type for UDP in healthmonitor, for the simple, only check the UDP port is open by nc command. And for current API of healthmonitor, we need to make clear the meaning of LVS with the current healthmonitor API like the mapping below

    Option Mapping Healthmonitor->LVS Healthmonitor Description Keepalived LVS Description
    delay -> delay_loop Set the time in seconds, between sending probes to members. Delay timer for service polling.
    max_retires_down -> retry Set the number of allowed check failure before changing the operating status of the member to ERROR. Number of retries before fail.
    timeout -> delay_before_retry Set the maximum time, in seconds, that a monitor waits to connect before it times out. This value must be less than the delay value. delay before retry (default 1 unless otherwise specified)
  4. For UDP load balancing, we can support the same algorithms at first. Such as SOURCE_IP(sh), ROUND_ROBIN(rr) and LEAST_CONNECTIONS(lc).

REST API impact

  • Allow the protocol fields to accept udp.
  • Allow the healthmonitor.type field to accept UDP type values.
  • Add some fields to session_persistence that are specific to UDP though SOURCE_IP type and a new type ONE_PACKET_SCHEDULING.

Create/Update Listener Request:

POST/PUT /v2.0/lbaas/listeners
{
    "listener": {
        "admin_state_up": true,
        "connection_limit": 100,
        "description": "listener one",
        "loadbalancer_id": "a36c20d0-18e9-42ce-88fd-82a35977ee8c",
        "name": "listener1",
        "protocol": "UDP",
        "protocol_port": "18000"
    }
}

Note

It is the same as the current relationships, where one listener will have only one default pool for UDP. A loadbalancer can have multiple listeners for UDP loadbalancing on different ports.

Create/Update Pool Request

SOURCE_IP type case:

POST/PUT /v2.0/lbaas/pools

{
    "pool": {
        "admin_state_up": true,
        "description": "simple pool",
        "lb_algorithm": "ROUND_ROBIN",
        "name": "my-pool",
        "protocol": "UDP",
        "session_persistence": {
            "type": "SOURCE_IP",
            "persistence_timeout": 60,
            "persistence_granularity": "255.255.0.0",
        }
        "listener_id": "39de4d56-d663-46e5-85a1-5b9d5fa17829",
    }
}

ONE_PACKET_SCHEDULING type case:

POST/PUT /v2.0/lbaas/pools

{
    "pool": {
        "admin_state_up": true,
        "description": "simple pool",
        "lb_algorithm": "ROUND_ROBIN",
        "name": "my-pool",
        "protocol": "UDP",
        "session_persistence": {
            "type": "ONE_PACKET_SCHEDULING"
        }
        "listener_id": "39de4d56-d663-46e5-85a1-5b9d5fa17829",
    }
}

Note

The validation part for UDP will just allow to set the specific fields which associated with UDP. For example, user can not set the protocol with "udp" and insert_headers in the same request.

Create/Update Health Monitor Request:

POST/PUT /v2.0/lbaas/healthmonitors

{
    "healthmonitor": {
        "name": "Good health monitor"
        "admin_state_up": true,
        "pool_id": "c5e9e801-0473-463b-a017-90c8e5237bb3",
        "delay": 10,
        "max_retries": 4,
        "max_retries_down": 4,
        "timeout": 5,
        "type": "UDP_CONNECT"
    }
}

Note

We don't allow to create a healthmonitor with any other L7 parameters, like "http_method", "url_path" and "expected_code" if the associated pool support UDP. But for the positional option "max_retries", it's different from API description in keepalived/LVS, so the default value is the same as the value of "max_retires_down" if user specified. In general, "max_retires_down" should be overridden by "max_retries".

Security impact

The security should be affected by the UDP server, we need to add another neutron security group rule to the existing security group to support UDP. Security impact is minimal as the keepalived/LVS will be running in the tenant traffic network namespace.

Notifications impact

No expected change.

Other end user impact

Users will be able to pass "UDP" to create/update Listener/Pool resources for UDP load balancer.

Performance Impact

  • If enabled driver is LVS, it will have a good performance for L4 load balancing, but lack the any functionality in L7.
  • As this spec introduces LVS and Haproxy working together, if users update the Listener or Pool resources in a LoadBalancer instance frequently, the loadbalancer functionality may be delayed for a while as the refresh of UDP related LVS configuration.
  • As we need to add keepalived monitoring process for each UDP listeners, it is necessary to consider RAM about amphora VM instances.

Other deployer impact

No expected change.

Developer impact

No expected change.

Implementation

Assignee(s)

zhaobo

Work Items

  • Add/extend startup script templates for keepalived processes, including configuration.
  • Extend the ability of existing amphora agent and driver to generate and control LVS by keepalived in amphora instances.
  • Extend the exist Octavia V2 API to access udp parameter in Listener and pools resources.
  • Extend the Loadbalancer/Listener flows to support udp loadbalancer in the particular topologies.
  • Extend Octavia V2 API to accept UDP fields.
  • Add the specified logic which involved into haproxy agent and the affected resource workflow in Octavia.
  • Add API validation code to validate the fields of UDP cases.
  • Add Unit Tests to Octavia.
  • Add API functional tests.
  • Add scenario tests into octavia tempest plugin.
  • Update CLI and Octavia-dashboard to support UDP fields input.
  • Documentation work.

Dependencies

None

Testing

Unit tests, Functional tests, API tests and Scenario tests are necessary.

Documentation Impact

The description of Octavia API reference will need to be updated. The load balancing cookbook should be also updated. Make it clear the difference of healthmonitor behaviors in UDP cases.

References


  1. https://en.wikipedia.org/wiki/Real_Time_Streaming_Protocol↩︎

  2. https://en.wikipedia.org/wiki/Internet_of_things↩︎

  3. https://en.wikipedia.org/wiki/Constrained_Application_Protocol↩︎

  4. https://en.wikipedia.org/wiki/Data_Distribution_Service↩︎

  5. https://en.wikipedia.org/wiki/Thread_(network_protocol)↩︎

  6. https://en.wikipedia.org/wiki/Reliable_User_Datagram_Protocol↩︎

  7. https://de.wikipedia.org/wiki/Real-Time_Transport_Protocol↩︎

  8. https://en.wikipedia.org/wiki/UDP-based_Data_Transfer_Protocol↩︎

  9. http://www.linuxvirtualserver.org/↩︎

  10. https://github.com/acassen/keepalived/blob/master/doc/keepalived.conf.SYNOPSIS#L559↩︎

  11. http://www.linuxvirtualserver.org/docs/persistence.html↩︎