From a08e93ccc5b07d9f789938c1067dea2c77a00e14 Mon Sep 17 00:00:00 2001 From: Michael Harp Date: Wed, 6 May 2026 07:01:13 -0400 Subject: [PATCH] Modernize scaling_puppet_server for OpenVox - Rebrand Puppet Server/masters to OpenVox Server/compilers throughout - Remove Puppet Enterprise block and canonical pointing at /puppetserver/latest/ - Fix inaccuracy: compilers independently compile from shared codebase, not sync results - Replace puppet.com links with plain references or internal equivalents - Link to OpenVoxDB docs instead of PuppetDB; update r10k link to voxpupuli/r10k - Add Vox Pupuli load balanced architecture reference - Add webhook-go recommendation for code synchronization - Rename dated "storeconfigs" section title - Add nav entry under tuning/troubleshooting - Fix "Before running puppet agent" to also mention puppetserver startup Signed-off-by: Michael Harp --- _data/nav/openvox-server_8x.yml | 2 + .../scaling_puppet_server.markdown | 157 ++++++++++-------- 2 files changed, 87 insertions(+), 72 deletions(-) diff --git a/_data/nav/openvox-server_8x.yml b/_data/nav/openvox-server_8x.yml index d54c08062..8b696beb6 100644 --- a/_data/nav/openvox-server_8x.yml +++ b/_data/nav/openvox-server_8x.yml @@ -68,6 +68,8 @@ link: ssl_server_certificate_change_and_virtual_ips.html - text: OpenVox Server tuning guide link: tuning_guide.html + - text: Scaling OpenVox Server with compilers + link: scaling_puppet_server.html - text: Migrating to the HOCON auth.conf format link: config_file_auth_migration.html - text: Administrative API endpoints diff --git a/docs/_openvox-server_8x/scaling_puppet_server.markdown b/docs/_openvox-server_8x/scaling_puppet_server.markdown index 091eb29e6..8cfe54662 100644 --- a/docs/_openvox-server_8x/scaling_puppet_server.markdown +++ b/docs/_openvox-server_8x/scaling_puppet_server.markdown @@ -1,53 +1,53 @@ --- layout: default -title: "Scaling Puppet Server with compilers" -canonical: "/puppetserver/latest/scaling_puppet_server.html" +title: "Scaling OpenVox Server with compilers" --- -To scale Puppet Server for many thousands of nodes, you'll need to add Puppet masters dedicated to catalog compilation. These Servers are known as **compilers**, and are simply additional load-balanced Puppet -Servers that receive catalog requests from agents and synchronize the results with each other. +To scale OpenVox Server for many thousands of nodes, you'll need to add servers dedicated to catalog compilation. +These are known as **compilers**, and are simply additional load-balanced OpenVox Servers that independently +compile catalogs for agents from a shared codebase. -> **If you're using Puppet Enterprise (PE),** consult its documentation instead of this guide for PE-specific requirements, settings, and instructions: -> -> - [Large environment installations (LEI)](https://puppet.com/docs/pe/latest/installing/hardware_requirements.html#large-environment-hardware-requirements) -> - [Installing compilers](https://puppet.com/docs/pe/latest/installing/installing_compile_masters.html) -> - [Load balancing](https://puppet.com/docs/pe/latest/installing/installing_compile_masters.html#using-load-balancers-with-compile-masters) -> - [High availability](https://puppet.com/docs/pe/latest/high_availability/high_availability_overview.html) -> - [Code Manager](https://puppet.com/docs/pe/latest/code_management/code_mgr_how_it_works.html) +For a reference architecture covering the full load-balanced stack (HAProxy, r10k, Foreman, and automation), +see [Load balanced architecture](https://voxpupuli.org/docs/arch_load_balanced) on the Vox Pupuli site. ## Planning your load-balancing strategy -The rest of your configuration depends on how you plan on distributing the agent load. Determine what your deployment will look like before you add any compilers, but **implement load balancing as the last -step** only after you have the infrastructure in place to support it. +The rest of your configuration depends on how you plan on distributing the agent load. Determine what your +deployment will look like before you add any compilers, but **implement load balancing as the last step** only +after you have the infrastructure in place to support it. ### Using round-robin DNS -Leave all of your agents pointed at the same Puppet Server hostname, then configure your site's DNS to arbitrarily route all requests directed at that hostname to the pool of available masters. +Leave all of your agents pointed at the same OpenVox Server hostname, then configure your site's DNS to +arbitrarily route all requests directed at that hostname to the pool of available servers. For instance, if all of your agent nodes are configured with `server = puppet.example.com`, configure a DNS name such as: ```text -# IP address of master 1: +# IP address of server 1: puppet.example.com. IN A 192.0.2.50 -# IP address of master 2: +# IP address of server 2: puppet.example.com. IN A 198.51.100.215 ``` -For this option, configure your masters with `dns_alt_names` before their certificate request is made. +For this option, configure your servers with `dns_alt_names` before their certificate request is made. ### Using a hardware load balancer -You can also use a hardware load balancer or a load-balancing proxy webserver to redirect requests more intelligently. Depending on your configuration (for instance, SSL using either raw TCP proxying or acting -as its own SSL endpoint), you might also need to use other procedures in this document. +You can also use a hardware load balancer or a load-balancing proxy webserver to redirect requests more +intelligently. Depending on your configuration (for instance, SSL using either raw TCP proxying or acting as +its own SSL endpoint), you might also need to use other procedures in this document. Configuring a load balancer depends on the product, and is beyond the scope of this document. ### Using DNS `SRV` Records -You can use DNS `SRV` records to assign a pool of puppet masters for agents to communicate with. This requires a DNS service capable of `SRV` records, which includes all major DNS software. +You can use DNS `SRV` records to assign a pool of OpenVox Servers for agents to communicate with. This requires +a DNS service capable of `SRV` records, which includes all major DNS software. -> **Note:** This method makes a large number of DNS requests. Request timeouts are completely under the DNS server's control and agents cannot cancel requests early. SRV records don't interact well with static -> servers set in the config file. Please keep these potential pitfalls in mind when configuring your DNS! +> **Note:** This method makes a large number of DNS requests. Request timeouts are completely under the DNS +> server's control and agents cannot cancel requests early. SRV records don't interact well with static servers +> set in the config file. Please keep these potential pitfalls in mind when configuring your DNS! Configure each of your agents with a `srv_domain` instead of a `server` in `puppet.conf`: @@ -57,58 +57,61 @@ use_srv_records = true srv_domain = example.com ``` -Agents will then lookup a `SRV` record at `_x-puppet._tcp.example.com` when they need to talk to a Puppet master. +Agents will then look up a `SRV` record at `_x-puppet._tcp.example.com` when they need to talk to an OpenVox Server. ```text -# Equal-weight load balancing between master-a and master-b: -_x-puppet._tcp.example.com. IN SRV 0 5 8140 master-a.example.com. -_x-puppet._tcp.example.com. IN SRV 0 5 8140 master-b.example.com. +# Equal-weight load balancing between server-a and server-b: +_x-puppet._tcp.example.com. IN SRV 0 5 8140 server-a.example.com. +_x-puppet._tcp.example.com. IN SRV 0 5 8140 server-b.example.com. ``` -You can also implement more complex configurations. For instance, if all devices in site A are configured with a `srv_domain` of `site-a.example.com`, and all nodes in site B are configured to -`site-b.example.com`, you can configure them to prefer a master in the local site but fail over to the remote site: +You can also implement more complex configurations. For instance, if all devices in site A are configured with +a `srv_domain` of `site-a.example.com`, and all nodes in site B are configured to `site-b.example.com`, you +can configure them to prefer a server in the local site but fail over to the remote site: ```text -# Site A has two masters - master-1 is beefier, give it 75% of the load: -_x-puppet._tcp.site-a.example.com. IN SRV 0 75 8140 master-1.site-a.example.com. -_x-puppet._tcp.site-a.example.com. IN SRV 0 25 8140 master-2.site-a.example.com. -_x-puppet._tcp.site-a.example.com. IN SRV 1 5 8140 master.site-b.example.com. - -# For site B, prefer the local master unless it's down, then fail back to site A -_x-puppet._tcp.site-b.example.com. IN SRV 0 5 8140 master.site-b.example.com. -_x-puppet._tcp.site-b.example.com. IN SRV 1 75 8140 master-1.site-a.example.com. -_x-puppet._tcp.site-b.example.com. IN SRV 1 25 8140 master-2.site-a.example.com. +# Site A has two servers - server-1 is beefier, give it 75% of the load: +_x-puppet._tcp.site-a.example.com. IN SRV 0 75 8140 server-1.site-a.example.com. +_x-puppet._tcp.site-a.example.com. IN SRV 0 25 8140 server-2.site-a.example.com. +_x-puppet._tcp.site-a.example.com. IN SRV 1 5 8140 server.site-b.example.com. + +# For site B, prefer the local server unless it's down, then fail back to site A +_x-puppet._tcp.site-b.example.com. IN SRV 0 5 8140 server.site-b.example.com. +_x-puppet._tcp.site-b.example.com. IN SRV 1 75 8140 server-1.site-a.example.com. +_x-puppet._tcp.site-b.example.com. IN SRV 1 25 8140 server-2.site-a.example.com. ``` ## Centralizing the Certificate Authority -Additional Puppet Servers should only share the burden of compiling and serving catalogs, which is why they're typically referred to as "compilers". Any certificate authority functions should be delegated to a -single server. +Additional OpenVox Servers should only share the burden of compiling and serving catalogs, which is why they're +typically referred to as "compilers". Any certificate authority functions should be delegated to a single server. -Before you centralize this functionality, ensure that the single server that you want to use as the central CA is reachable at a unique hostname other than (or in addition to) `puppet`. Next, point all agent -requests to the centralized CA master, either by configuring each agent or through DNS `SRV` records. +Before you centralize this functionality, ensure that the single server that you want to use as the central CA +is reachable at a unique hostname other than (or in addition to) `puppet`. Next, point all agent requests to +the centralized CA server, either by configuring each agent or through DNS `SRV` records. ### Directing individual agents to a central CA -On every agent, set the [`ca_server`](https://puppet.com/docs/puppet/latest/configuration.html#caserver) setting in [`puppet.conf`](https://puppet.com/docs/puppet/latest/config_file_main.html) (in the `[main]` -configuration block) to the hostname of the server acting as the certificate authority. If you have a large number of existing nodes, it is easiest to do this by managing `puppet.conf` with a Puppet module and -a template. +On every agent, set the `ca_server` setting in `puppet.conf` (in the `[main]` configuration block) to the +hostname of the server acting as the certificate authority. If you have a large number of existing nodes, it is +easiest to do this by managing `puppet.conf` with an OpenVox module and a template. > **Note:** Set this setting _before_ provisioning new nodes, or they won't be able to complete their initial agent run. ### Pointing DNS `SRV` records at a central CA -If you [use `SRV` records for agents](#using-dns-srv-records), you can use the `_x-puppet-ca._tcp.$srv_domain` DNS name to point clients to one specific CA server, while the `_x-puppet._tcp.$srv_domain` DNS -name handles most of their requests to masters and can point to a set of compilers. +If you [use `SRV` records for agents](#using-dns-srv-records), you can use the `_x-puppet-ca._tcp.$srv_domain` +DNS name to point clients to one specific CA server, while the `_x-puppet._tcp.$srv_domain` DNS name handles +most of their requests and can point to a set of compilers. ## Creating and configuring compilers -To add a compiler to your deployment, begin by [installing and configuring Puppet Server](./install_from_packages.html) on it. +To add a compiler to your deployment, begin by [installing and configuring OpenVox Server](./install_from_packages.html) on it. -Before running `puppet agent` or `puppet master` on the new server: +Before running `puppet agent` or starting `puppetserver` on the new compiler: -1. In the compiler's [`puppet.conf`](https://puppet.com/docs/puppet/latest/config_file_main.html), in the `[main]` configuration block, set the - [`ca_server`](https://puppet.com/docs/puppet/latest/configuration.html#caserver) setting to the hostname of the server acting as the certificate authority. +1. In the compiler's `puppet.conf`, in the `[main]` configuration block, set `ca_server` to the hostname of + the server acting as the certificate authority. 1. In the compiler's `webserver.conf` file, add and set the following SSL settings: - ssl-cert @@ -116,45 +119,55 @@ Before running `puppet agent` or `puppet master` on the new server: - ssl-ca-cert - ssl-crl-path -1. [Disable Puppet Server's certificate authority services](./configuration.html#service-bootstrapping). +1. [Disable OpenVox Server's certificate authority services](./configuration.html#service-bootstrapping). + If an `ssldir` is configured, make sure it's set in the `[main]` block of `puppet.conf` only. - If you're using the [individual agent configuration method of CA centralization](#directing-individual-agents-to-a-central-ca), set `ca_server` in `puppet.conf` to the hostname of your CA server in the - `[main]` config block. If an `ssldir` is configured, make sure it's configured in the `[main]` block only. +1. If you're using the [DNS round robin method](#using-round-robin-dns) of agent load balancing, or a + [load balancer](#using-a-hardware-load-balancer) in TCP proxying mode, provide compilers with certificates + using DNS Subject Alternative Names. -1. If you're using the [DNS round robin method](#using-round-robin-dns) of agent load balancing, or a [load balancer](#using-a-hardware-load-balancer) in TCP proxying mode, provide compilers with - certificates using DNS Subject Alternative Names. - - Configure `dns_alt_names` in the `[main]` block of `puppet.conf` to cover every DNS name that might be used by an agent to access this master. + Configure `dns_alt_names` in the `[main]` block of `puppet.conf` to cover every DNS name that might be + used by an agent to access this server. ```text dns_alt_names = puppet,puppet.example.com,puppet.site-a.example.com ``` - If the agent or master has been run and already created a certificate, remove it by running `sudo puppet ssl clean`. If an agent has requested a certificate from the master, delete it there to re-issue a - new one with the alt names: `puppetserver ca clean master-2.example.com`. + If the agent or server has been run and already created a certificate, remove it by running + `sudo puppet ssl clean`. If an agent has requested a certificate from the server, delete it there to + re-issue a new one with the alt names: `puppetserver ca clean server-2.example.com`. 1. Request a new certificate by running `puppet agent --test --waitforcert 10`. -1. Log into the CA server and run `puppetserver ca sign master-2.example.com`. +1. Log into the CA server and run `puppetserver ca sign server-2.example.com`. -## Centralizing reports, inventory service, and catalog searching (storeconfigs) +## Centralizing reports and exported resources -If you use an HTTP report processor, point your master and all of your Puppet compilers at the same shared report server in order to see all of your agents' reports. +If you use an HTTP report processor, point your primary server and all compilers at the same shared report +server in order to see all of your agents' reports. -If you use the inventory service or exported resources, use PuppetDB and point your master and all of your Puppet compilers at a shared PuppetDB instance. A reasonably robust PuppetDB server can handle many -Puppet compilers and many thousands of agents. +If you use exported resources, use OpenVoxDB and point your primary server and all compilers at a shared +OpenVoxDB instance. A reasonably robust OpenVoxDB server can handle many compilers and many thousands of agents. -See the [PuppetDB documentation](https://puppet.com/docs/puppetdb/latest/) for instructions on deploying a PuppetDB server, then configure every Puppet compiler to use it. Note that every Puppet master and -compiler must have its own [whitelist entry](https://puppet.com/docs/puppetdb/latest/configure.html#certificate-whitelist) if you're using HTTPS certificates for authorization. +See the [OpenVoxDB documentation](../../../openvoxdb/latest/) for instructions on deploying an OpenVoxDB +server, then configure every compiler to use it. Note that every server and compiler must have its own +[certificate allowlist entry](../../../openvoxdb/latest/configure.html) if you're using HTTPS certificates +for authorization. ## Keeping manifests and modules synchronized across compilers -You must ensure that all Puppet compilers have identical copies of your manifests, modules, and [external node classifier](https://puppet.com/docs/puppet/latest/nodes_external.html) data. Examples include: +You must ensure that all compilers have identical copies of your manifests, modules, and external node +classifier data. -- Using a version control system such as [r10k](https://github.com/puppetlabs/r10k), Git, Mercurial, or Subversion to manage and sync your manifests, modules, and other data. -- Running an out-of-band `rsync` task via `cron`. -- Configuring `puppet agent` on each compiler to point to a designated model Puppet master, then use Puppet itself to distribute the modules. +The recommended approach is to use [r10k](https://github.com/voxpupuli/r10k) with a webhook to trigger +automatic code deployment to all compilers on every push to your control repository. The Vox Pupuli +[webhook-go](https://github.com/voxpupuli/webhook-go) service provides a lightweight webhook receiver +that calls r10k on each compiler. See the [load balanced architecture guide](https://voxpupuli.org/docs/arch_load_balanced) +for a full reference setup. -## Implementing load distribution +Other options include: -Now that your other compilers are ready, you can implement your [agent load-balancing strategy](#planning-your-load-balancing-strategy). +- Running r10k manually or via `cron` on each compiler. +- Running an out-of-band `rsync` task via `cron`. +- Configuring `puppet agent` on each compiler to point to a designated primary server, then use OpenVox itself + to distribute the modules.