Service Engine Group
Service Engines are created within a group, which contains the definition of how the SEs should be sized, placed, and made highly available. Each cloud will have at least one SE group. The options within an SE group may vary based on the type of cloud within which they exist and its settings, such as no access versus write access mode. SEs may only exist within one group. Each group acts as an isolation domain. SE resources within an SE group may be moved around to accommodate virtual services, but SE resources are never shared between SE groups.
Depending on the change, a change made to an SE group
- may be applied immediately,
- only applied to SEs created after the changes are made, or
- require existing SEs to first be disabled before the changes can take effect.
Multiple SE groups may exist within a cloud. A newly created virtual service will be placed on the default SE group, though this can be changed via the VS > Advanced page while creating a VS via the advanced wizard. To move an existing virtual service from one SE group to another, the VS must first be disabled, moved, and then re-enabled. SE groups provide data plane isolation; therefore moving a VS from one SE group to another is disruptive to existing connections through the virtual service.
Note: In some clouds, not all settings described below are available.
The following is the CLI used to decide the range of port numbers. These port numbers are used to open backend server connections.
configure serviceenginegroup Default-Group ephemeral_portrange_start 5000 configure serviceenginegroup [name] ephemeral_portrange_start 4096 configure serviceenginegroup [name] ephemeral_portrange_end 61440
Note: Default for start is 4096, default for end is 61440.
SE Group Basic Settings Tab
To access the Service Engine group editor, navigate to Infrastructure > Clouds > -cloudname- > Service Engine Group. Click the pencil icon to edit a pre-existing SE group, or click the green button to create a new one. Start your specification for the SE group by giving it a name (or accept the default name, which is Default-Group), as shown below.
At the top right of the Basic Settings tab you can turn on real-time metrics, which will cause SEs in the group to upload SE-related metrics to the Controller once every 5 seconds, as opposed to once per five minutes or longer. [More info on metrics-upload intervals.] After clicking the box, select the duration in minutes for real-time updating to last. A value of 0 is interpreted to mean “forever.”
High Availability & Placement Settings
The high availability mode of the SE group controls the behavior of the SE group in the event of an SE failure. It also controls how load is scaled across SEs. Selecting a particular HA mode will change the settings and options that are exposed in the UI. These modes span a spectrum, from use of the fewest virtual machine resources on one end to providing the best high availability on the other.
- Legacy HA Active/Standby Mode — This mode is primarily intended to mimic a legacy appliance load balancer for easy migration to Avi Vantage. Only two Service Engines may be created. For every virtual service active on one, there is a standby on the other, configured and ready to take over in the event of a failure of the active SE. There is no Service Engine scale out in this HA mode.
- Elastic HA N + M Mode — This default mode permits up to N active SEs to deliver virtual services, with the capacity equivalent of M SEs within the group ready to absorb SE(s) failure(s).
- Elastic HA Active/Active Mode — This HA mode distributes virtual services across a minimum of two SEs.
For additional considerations for SE high availability, including VS placement, see Overview of Avi Vantage High Availability.
VS Placement across SEs — When placement is compact (previously referred to as “Compactor”), Avi Vantage prefers to spin up and fill up the minimum number of SEs; it tries to place virtual services on SEs which are already running. When placement is distributed, Avi Vantage maximizes VS performance by avoiding placements on existing SEs. Instead, it places virtual services on newly spun-up SEs, up to the maximum number of Service Engines. By default, placement is compact for elastic HA N+M mode and legacy HA active/standby mode. By default, placement is distributed for elastic HA active/active mode.
Virtual Services per Service Engine — This parameter establishes the maximum number of virtual services the Controller cluster can place on any one of the SEs in the group.
Per-app SE mode — Select this option to deploy dedicated load balancers per application, i.e., per virtual service. In this mode, each SE is limited to a maximum of 2 virtual services. vCPUs in per-app SEs count towards licensing at 25% rate.
SE Self-Election — Checking this option enables SEs in the group to elect a primary SE amongst themselves in the absence of connectivity to a Controller. This ensures Service Engine high availability in handling client traffic even in headless mode. For more information, refer to the Service Engine Self Election article.
Service Engine Capacity and Limit Settings
- Max Number of Service Engines — [Default = 10, range = 0-1000] Defines the maximum SEs that may be created within an SE group. This number, combined with the virtual services per SE setting, dictates the maximum number of virtual services that can be created within an SE group. If this limit is reached, it is possible new virtual services may not be able to be deployed and will show a gray, un-deployed status. This setting can be useful to prevent Avi Vantage from consuming too many virtual machines.
- Memory per Service Engine — [Default = 2 GB, min = 1 GB] Enter the amount of RAM, in multiples of 1024 MB, to allocate to all new SEs. Changes to this field will only affect newly-created SEs. Allocating more memory to an SE will allow larger HTTP cache sizes, more concurrent TCP connections, better protection against certain DDoS attacks, and increased storage of un-indexed logs. This option is only applicable in write access mode deployments.
- Memory Reserve — [Default is ON] Reserving memory ensures an SE will not have contention issues with over-provisioned host hardware. Reserving memory makes that memory unavailable for use by another virtual machine, even when the virtual machine that reserved those resources is powered down. Avi strongly recommends reserving memory, as memory contention may randomly overwrite part of the SE memory, destabilizing the system. This option is applicable only for deployments in write access mode. For deployments in read access mode deployments or no access mode, memory reservation for the SE VM must be configured on the virtualization orchestrator.
- vCPU per Service Engine — [Default = 1, range = 1-64] Enter the number of virtual CPU cores to allocate to new SEs. Changes to this setting do not affect existing SEs. This option is only applicable in write access mode. Adding CPU capacity will help with computationally expensive tasks, such as SSL processing or HTTP compression.
- CPU Reserve — [Default is OFF] Reserving CPU capacity with a virtualization orchestrator ensures an SE will not have issues with over-provisioned host hardware. Reserving CPU cores makes those cores unavailable for use by another virtual machine, even when the virtual machine that reserved those resources is powered down. This option is only applicable in write access mode deployments.
- Disk per Service Engine — [min = 10 GB] Specify an integral number of GB of disk to allocate to all new SEs. This option is only applicable in write access mode deployments. The value appearing in the window is either:
- 10 GB (the absolute minimum allowed), or
- a value auto-calculated by the UI as follows: 5 GB + 2 x memory-per-SE, or
- a number explicitly keyed in by the user (values less than 5 GB + 2 x memory-per-SE will be rejected)
- Host Geo Profile — [Default is OFF] Enabling this provides extra configuration memory to support a large geo DB configuration.
- Connection Memory Percentage — The percentage of memory reserved to maintain connection state. It comes at the expense of memory used for HTTP in-memory cache. Sliding the bar causes the percentage devoted to connection state to range between its limits, 10% minimum and 90% maximum.
Hyper Threading Modes
Starting with Avi Vantage version 20.1.1, two knobs are introduced to control the use of hyper-threaded cores and the distribution (placement) of
se_dps on the hyper-threaded CPUs.
These two knobs are part of the Service Engine group. The following are the two knobs -
You can enable hyper threading on the SE using:
use_hyperthreaded_cores – True [default] | False enable or disable se_dps to use hyper-threaded cores
You can control the placement of se_dps on the hyper threaded CPUs using:
se_hyperthreaded_mode – SE_CPU_HT_AUTO[default] SE_CPU_HT_SPARSE_DISPATCHER_PRIORITY SE_CPU_HT_SPARSE_PROXY_PRIORITY SE_CPU_HT_PACKED_CORES controls the distribution of se_dps on hyper-threads
Note: The processor needs to support hyper-threading and use of hyper-threading should be enabled at BIOS to utilise these knobs.
use_hyperthreaded_cores — You can use this knob to enable or disable the use of hyper-threaded cores for
se_dps. This knob can be configured via both CLI and the Avi Vantage UI.
The following are the CLI commands:
[admin:vpr-ctrl]: serviceenginegroup> use_hyperthreaded_cores [admin:vpr-ctrl]: serviceenginegroup> se_hyperthreaded_mode SE_CPU_HT_AUTO [admin:vpr-ctrl]: serviceenginegroup> save
se_hyperthreaded_mode — You can use this knob to influence the distribution of
se_dp on the hyper-threaded CPUs when the number of datapath processes are less than the number of hyper-threaded CPUs online. The knob can be configured only via the CLI.
Note: You should set
use_hyperthreaded_cores to True for the mode configured using
se_hyperthreaded_mode to take effect.
The following are the supported values for
SE_CPU_HT_AUTO— This is the default mode. The SE automatically determines the best placement. This mode preserves the existing behaviour in accordance with CPU hyper-threading topology. If the number of data path processes is less than the number of CPUs, this is equivalent to
SE_CPU_HT_SPARSE_DISPATCHER_PRIORITY— This mode prioritises the dispatcher instances by attempting to place only one data-path process in the physical CPU. This mode exhausts the physical cores first and then hyper-threads in numerically descending order of CPU number.
SE_CPU_HT_SPARSE_PROXY_PRIORITY— This mode prioritises the proxy (non-dispatcher) instances by attempting to place only one data-path process in the physical CPU. This is useful when the number of data path processes is less than the number of CPUs. This mode exhausts the physical cores and then hyper-threads in numerically ascending order of CPU number.
SE_CPU_HT_PACKED_CORES— This mode places the data path processes on the same physical core. Each core can have two dispatchers or two non-dispatcher (proxy) instances being adjacent to each other. This mode is useful when the number of data path processes is less than the number of CPUs. This mode exhausts the hyper-threads serially on each core before moving on to the next physical core.
Datapath Heartbeat and IPC Encap Configuration
Starting with Avi Vantage version 20.1.3, the following datapath heartbeat and IPC encap config knobs are moved to the
seproperties based APIs for these config knobs will only work for Avi Vantage version prior to 20.1.3 and they will not take any effect from 20.1.3 onwards. Likewise
segroup based APIs for these config knobs will take effect starting from Avi Vantage version 20.1.3.
However, upgrade from pre-20.1.3 seproperties based configuration to 20.1.3 will automatically migrate the config to segroup as a part of upgrade migration routine.
- License Tier — Specifies the license tier to be used by new SE groups. By default, this field inherits the value from the system configuration.
- License Type — If no license type is specified, Avi applies default license enforcement for the cloud type. The default mappings are max SEs for a container cloud, cores for OpenStack and VMware, and sockets for Linux.
- Instance Flavor — Instance type is an AWS term. In a cloud deployment, this parameter identifies one of a set of AWS EC2 instance types. Flavor is the analogous OpenStack term. Other clouds (especially public clouds) may have their own terminology for essentially the same thing.
SE Group Advanced Tab
The advanced tab in the Service Engine group popup supports configuration of optional functionality for SE groups. This tab only exists for clouds configured with write access mode. The appearance of some fields is contingent upon selections made.
- Service Engine Name Prefix — Enter the prefix to use when naming the SEs within the SE group. This name will be seen both within Avi Vantage, and as the name of the virtual machine within the virtualization orchestrator.
For the 20.1.x/21.1.x versions, Service Engine Name Prefix do not support “-“ character.
- Service Engine Folder — SE virtual machines for this SE group will be grouped under this folder name within the virtualization orchestrator.
- Delete Unused Service Engines After — Enter the number of minutes to wait before the Controller deletes an unused SE. Traffic patterns can change quickly, and a virtual service may therefore need to scale across additional SEs with little notice. Setting this field to a high value ensures that Avi Vantage keeps unused SEs around in the event of a sudden spike in traffic. A shorter value means the Controller may need to recreate a new SE to handle a burst of traffic, which may take a couple of minutes.
Host & Data Store Scope
- Host Scope Service Engine — SEs may be deployed on any host that most closely matches the resources and reachability criteria for placement. This setting directs the placement of SEs.
- Any — The default setting allows SEs to be deployed to any host that best fits the deployment criteria.
- Cluster — Excludes SEs from deploying within specified clusters of hosts. Checking the Include checkbox reverses the logic, ensuring SEs only deploy within specified clusters.
- Host — Excludes SEs from deploying on specified hosts. The Include checkbox reverses the logic, ensuring SEs only be deploy within specified hosts.
- Data Store Scope for Service Engine Virtual Machine — Set the storage location for SEs. Storage is used to store the OVA (vmdk) file for VMware deployments.
- Any — Avi Vantage will determine the best option for data storage.
- Local — The SE will only use storage on the physical host.
- Shared — Avi Vantage will prefer using the shared storage location. When this option is clicked, specific data stores may be identified for exclusion or inclusion.
Advanced HA & Placement
- Buffer Service Engines — This is excess capacity provisioned for HA failover. In elastic HA N+M mode, this is capacity is expressed as M, an integer number of buffer service engines. It actually translates into a count of potential VS placements. To calculate that count, Avi Vantage multiplies M by the maximum number of virtual services per SE. For example, if one requests 2 buffer SEs (M=2) and the max_VS_per_SE is 5, the count is 10. If max SEs/group hasn’t been reached, Avi Vantage will spin up additional SEs to maintain the ability to perform 10 placements. As illustrated at right, six virtual services have already been placed, and the current count of spare capacity is 14, more than enough to perform 10 placements. When SE2 fills up, spare capacity will be just right. An 11th placement on SE3 would reduce the count to 9 and require SE5 to be spun up.
- Scale Per Virtual Service — A pair of integers determine the minimum and number of active SEs onto which a single virtual service may be placed. With native SE scaling, the greatest value one can enter as a maximum is 4; with BGP-based SE scaling, the limit is much higher, governed by the ECMP support on the upstream router.
- Service Engine Failure Detection — This option refers to the time Avi Vantage takes to conclude SE takeover should take place. Standard is approximately 9 seconds and aggressive 1.5 seconds.
- Auto-Rebalance — If this option is selected, virtual services are automatically migrated (scaled in or out) when CPU loads on SEs fall below the minimum threshold or exceed the maximum threshold. If this option is off, the result is limited to an alert. The frequency with which Vantage evaluates the need to rebalance can be set to some number of seconds.
CPU socket Affinity — Selecting this option causes Vantage to allocate all cores for SE VMs on the same socket of a multi-socket CPU. The option is applicable only in vCenter environments. Appropriate physical resources need to be present in the ESX Host. If not, then SE creation will fail and manual intervention will be required.
Note: The vCenter drop-down list populates the datastores if the datastores are shared. The non-shared datastores (which means each ESX Host has their own local datastore) are filtered out from the list because, by default when an ESX Host is chosen for SE VM creation, the local datastore of that ESX Host will be picked.
- Dedicated dispatcher CPU — Selecting this option dedicates the core that handles packet receive/transmit from/to the data network to just the dispatching function. This option makes most sense in a group whose SEs have three or more vCPUs.
Override Management Network — If the SEs require a different network for management than the Controller, that network is specified here. The SEs will use their management route to establish communications with the Controllers. See Deploy SEs in Different Datacenter from Controllers.
Note: This option is only available if the SE group’s overridden management network is DHCP-defined. An administrator’s attempt to override a statically-defined management network (Infrastructure > Cloud > Network) will not work due to not allowing a default gateway in the statically-defined subnet.*
- HSM Group — Hardware security modules may be configured within the Templates > Security > HSM Groups. An HSM is an external security appliance used for secure storage of SSL certificates and keys. An HSM group dictates how Service Engines can reach and authenticate with the HSM. See Physical Security for SSL Keys.
Log Collection & Streaming Settings
- Significant Log Throttle — This limits the number of significant log entries generated per second per core on an SE. Set this parameter to zero to disable throttling of the UDF log.
- UDF Log Throttle — This limits the number of user-defined (UDF) log entries generated per second per core on an SE. UDF log entries are generated due to the configured client log filters or the rules with logging enabled. Default is 100 log entries per second. Set this parameter to zero to disable throttling of the UDF log.
- Non-Significant Log Throttle — This limits the number of non-significant log entries generated per second per core on an SE. Default is 100 log entries per second. Set this parameter to zero to disable throttling of the non-significant log.
- Number of Streaming Threads — Number of threads to use for log streaming, ranging from 1 to 100
By default, the Avi Controller creates and manages a single security group (SG) for an Avi Service Engine. This SG manages the ingress/egress rules for the SE’s control- and data-plane traffic. In certain customer environments, it may be required to provide custom SGs to be also be associated with the Avi SEs’ management- and/or data-plane vNICs.
- For more information about SGs in OpenStack and AWS clouds, read these articles:
- Avi Managed Security Group — Supported only for AWS clouds, when this option is enabled, Avi Vantage will create and manage security groups along with the custom security groups provided by the user. If disabled, Avi will only make use of custom security groups provided by the user.
- Management vNIC Custom Security Groups — Custom security groups to be associated with management vNICs for SE instances in OpenStack and AWS clouds
- Data vNIC Custom Security Groups — Custom security groups to be associated with data vNICs for SE instances in OpenStack and AWS clouds.
- Add Custom Tag — Starting with Avi Vantage 18.2.2, custom tags are supported for Azure and AWS clouds. These tags are useful in grouping and managing resources for easier management. To reveal the UI window shown below, click the Add Custom Tag hyperllnk. The CLI interface is described here.
- Azure tags enable key:value pairs to be created and assigned to resources in Azure. For more information on Azure tags, refer to Azure Tags.
- AWS tags help manage instances, images, and other Amazon EC2 resources, you can optionally assign your own metadata to each resource in the form of tags. For more information on AWS tags, refer to AWS Tags and Configuring a Tag for Auto-created SEs in AWS.
- Display FIP subnets only — Only display FIP subnets in the drop-down list
- VIP Autoscale Subnet — UUID of the subnet for the new IP address allocation
Storing Inter-SE Distributed Object
The Service Engine (SE) in the Avi Vantage hosts multiple virtual services to serve a specific application. A single virtual service can be scaled across several Service Engines. Each virtual service is composed of several objects that are created, updated and destroyed. Some of these virtual service objects need to be available across all the Service Engines to ensure a consistent state of operation across a scaled-out application instance.
The current system utilises the Controller to distribute this information across the participating Service Engines. Each Service Engine has a local REDIS instance the connects to the Controller. The objects are distributed and synchronised across the SEs through the Controller.
This scheme has limitations on scale, convergence time and so on. Starting with Avi Vantage version 20.1.4, the SEs perform this distribution and synchronisation without the involvement of the Controller. The SE-SE persistence sync will be through a new distributed architecture. The VMware, LSC platforms are supported.
The transport for the same will be on port 9001. This port needs to be made open between SEs.
Default Port to connect to SEs = 9001
The following is the CLI command to change the default port:
configure serviceenginegroup <> objsync_port
The following is the CLI command to disable this feature:
configure serviceenginegroup <> no use_objsync
The following are the few debugging commands:
||Summary of Keyval persistence|
||Summary of Objsync view of Keyval persistence|
||Summary of Pool Persistence|
||Summary of Objsync view of Pool Persistence objects|
For any changes to the port 9001 via ‘objsync_port’, you need to change the security group, ACL etc. Refer to Protocol Ports Used by Avi Vantage for Management Communication guide.
In Azure, for SE object sync you need to configure a port which is less than 4096.
Starting from NSX Advanced Load Balancer version 20.1.3, the inter-SE data distribution such as IP persistence, cookie persistence, KV persistence and so on will be done over a new infra termed ObjSync. The default port used to communicate is port 9001 which can be configured via
objsync_portin Service Engine group properties.
Clouds supported = All clouds
- Limitations: The
objsync_portneeds to be opened up on security groups/ ACLs for respective cloud environments.
- Limitations: The
- How to Set Permanent Availability Zones for Newly Created Service Engine Group
- How to Perform an Include/Exclude Operation on a Cluster and a Host at the same time for an SE group
- Is it possible to include/exclude a cluster and a host for an SE Group at the same time from the Avi UI?
Document Revision History
|December 23, 2020||Added note in Datapath Heartbeat and IPC Encap Configuration section|