Installing compilers
As your Puppet Enterprise infrastructure scales up to 4,000 nodes and beyond, add load-balanced compilers to your installation to increase the number of agents you can manage.
Each compiler increases capacity by 1,500 to 3,000 nodes, until you exhaust the capacity of PuppetDB or the console.
How compilers work
A single primary server can process requests and compile code for up to 4,000 nodes. When you exceed this scale, expand your infrastructure by adding compilers to share the workload and compile catalogs faster.
https://<hostname>:8140/status/v1/simple
.Components and services running on compilers
Compilers typically run Puppet Server and PuppetDB services, as well as a file sync client. Older, legacy-style compilers must be converted in order to add PuppetDB.
When triggered by a web endpoint, file sync takes changes from the working directory on the primary server and deploys the code to a live code directory. File sync then deploys that code to all your compilers. By default, compilers check for code updates every five seconds.
The certificate authority (CA) service is disabled on compilers. A proxy service running on the compiler Puppet Server directs CA requests to the primary server, which hosts the CA in default installations.
Compilers also have:
- The repository for agent installation,
pe_repo
- The controller profile used with PE client tools
- Puppet Communications Protocol (PCP) brokers to enable orchestrator scale
Logs for compilers are located at
/var/log/puppetlabs/puppetserver/
.
Logs for PCP brokers on compilers are located at
/var/log/puppetlabs/puppetserver/pcp-broker.log
. Logback
configuration for PCP broker logs is part of the Orchestration services settings.
Using load balancers with compilers
When using more than one compiler, a load balancer can help distribute the load between the compilers and provide a level of redundancy.
Specifics on how to configure a load balancer infrastructure falls outside the scope of
this document, but examples of how to leverage haproxy
for this purpose
can be found on the HAproxy module Forge
page.
Calculating load balancing
For load balancing between the Puppet agent and the Puppet primary server, implement a load balancing algorithm that distributes traffic among compilers based on the number of open connections. Traffic is directed to the compiler with the smallest number of open connections. This strategy is known as “balancing by least connections.”
- If you are using HTTP health checks, use a "least connections" algorithm to distribute load evenly.
- If you are not using HTTP health checks, use a round robin or random load
balancing algorithm to avoid directing all traffic to an unhealthy PCP
broker. You can check connections for possible errors by using the
/status/v1/simple
endpoint.
Using health checks
The Puppet REST API exposes a status endpoint that can be used for load balancer health checks to ensure that unhealthy hosts don’t receive agent requests.
To check the health of your hosts, issue HTTP GET requests to the following endpoints:
- For Puppet agent traffic on port 8140, use
https://<hostname>:8140/status/v1/simple/server
. This endpoint checks the health of thepe-puppetserver
service and returns anHTTP 200
status when the server is fully operational. It does not check the health of other services such as thebroker-service
. - For
pxp-agent
traffic on port 8142, usehttps://<hostname>:8140/status/v1/simple/broker-service
. This endpoint checks the health of thebroker-service
and returns anHTTP 200
status code when the service is fully operational.
If your load balancer doesn't support HTTP health checks, you can use a TCP connection tests on port 8140 to check whether a host is listening. This test is useful for verifying that the port is open, but does not confirm whether the host is running a Puppet service.
Load balancing for multi-region installations
If you have load balancers in multiple regions, use a global DNS proximity-based service address.
When using a centralized Puppet deployment with multiple regional proxies or load balancers, create a global DNS proximity-based service address for Puppet and use that to route agents to the appropriate regional load balancer based on their location. Set the global DNS proximity-based address as the compiler pool address in Hiera.
pe_repo::compile_master_pool_address: "<PUPPET-GLOBAL-SERVICE-ADDRESS>"
- BIG-IP DNS
- Route 53 Geolocation routing in AWS
- TCP Proxy Global Load Balancing in GCP
- Traffic Manager in Azure
Install compilers
Installing a compiler adds the specified node to the PE Infrastructure Agent and PE Compiler node groups and installs the PuppetDB service on the node.
Ensure that you have a valid admin RBAC token. For instructions, see Token-based authentication.
To install a FIPS-compliant compiler, install the compiler on a supported platform with FIPS mode enabled. The node must be configured with sufficient available entropy or the installation process fails.
Configure compilers
Compilers must be configured to appropriately route communication between your primary server and agent nodes.
- Install compilers and load balancers.
- If you need DNS altnames for your load balancers, add them to the primary server.
- Ensure port 8143 is open on the primary server or on any workstations used to run orchestrator jobs.
-
Configure
pe_repo::compile_master_pool_address
to send agent install requests to the load balancer.- In the console, click Node groups, and in the PE Infrastructure group, select the PE Master group.
- On the Configuration data tab, select the pe_repo class, and set the value of the compile_master_pool_address parameter to the load balancer hostname. If you are using a single compiler, set the compile_master_pool_address value to the compiler's fully qualified domain name (FQDN).
- Click Add data and commit changes.
- Run Puppet on the compiler, and then on the primary server.
-
Configure Puppet agents to connect orchestration
(PXP) agents to compilers through the load
balancer. You can configure these settings in the console or with Hiera.
Convert existing compilers
If you have legacy compilers, you can improve their usability and scalability by adding PuppetDB. In addition to installing the PuppetDB service, converting an existing compiler adds the node to the PE Compiler node group and unpins it from the PE Master node group.
puppet infrastructure run convert_legacy_compiler compiler=<COMPILER_FQDN-1>,<COMPILER_FQDN-2>
puppet infrastructure run convert_legacy_compiler all=true
puppet infrastructure tune
on your primary
server and adjust tuning for compilers as needed.