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1867202a4d
There are situations where a container running Discourse may want to cache the critical DNS services without running the cache_critical_dns service, for example running migrations prior to running a full bore application container. Add a `--once` argument for the cache_critical_dns script that will only execute the main loop once, and return the status code for the script to use when exiting. 0 indicates no errors occured during SRV resolution, and 1 indicates a failure during the SRV lookup. Nothing is reported to prometheus in run_once mode. Generally this mode of operation would be a part of a unix pipeline, in which the exit status is a more meaningful and immediate signal than a prometheus metric. The reporting has been moved into it's own method that can be called only when the script is running as a service. See /t/69597.
476 lines
14 KiB
Ruby
Executable File
476 lines
14 KiB
Ruby
Executable File
#!/usr/bin/env ruby
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# frozen_string_literal: true
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require 'optparse'
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# cache_critical_dns is intended to be used for performing DNS lookups against
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# the services critical for Discourse to run - PostgreSQL and Redis. The
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# cache mechanism is storing the resolved host addresses in /etc/hosts. This can
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# protect against DNS lookup failures _after_ the resolved addresses have been
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# written to /etc/hosts at least once. Example lookup failures may be NXDOMAIN
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# or SERVFAIL responses from DNS requests.
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#
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# Before a resolved address is cached, a protocol-aware healthcheck is
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# performed against the host with the authentication details found for that
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# service in the process environment. Any hosts that fail the healthcheck will
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# never be cached.
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#
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# This is as far as you need to read if you are using CNAME or A records for
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# your services.
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#
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# The extended behaviour of cache_critical_dns is to add SRV RR lookup support
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# for DNS Service Discovery (see http://www.dns-sd.org/). For any of the critical
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# service environment variables (see CRITICAL_HOST_ENV_VARS), if a corresponding
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# SRV environment variable is found (suffixed with _SRV), cache_critical_dns
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# will assume that SRV RRs should exist and will begin to lookup SRV targets
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# for resolving the host addresses for caching, and ignore the original service
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# name variable. Healthy target addresses are cached against the original service
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# environment variable, as the Discourse application expects. For example a
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# healthy target found from the SRV lookup for DISCOURSE_DB_HOST_SRV will be
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# cached against the name specified by the DISCOURSE_DB_HOST.
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#
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# Example environment variables for SRV lookups are:
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# DISCOURSE_DB_HOST_SRV
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# DISCOURSE_DB_REPLICA_HOST_SRV
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# DISCOURSE_REDIS_HOST_SRV
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# DISCOURSE_REDIS_REPLICA_HOST_SRV
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#
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# cache_critical_dns will keep an internal record of all names resolved within
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# the last 30 minutes. This internal cache is to give a priority order to new
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# SRV targets that have appeared during the program runtime (SRV records
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# contain zero or more targets, which may appear or disappear at any time).
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# If a target has not been seen for more than 30 minutes it will be evicted from
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# the internal cache. The internal cache of healthy targets is a fallback for
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# when errors occur during DNS lookups.
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#
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# Targets that are resolved and found healthy usually find themselves in the host
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# cache, depending on if they are the newest or not. Targets that are resolved
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# but never found healthy will never be cached or even stored in the internal
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# cache. Targets that _begin_ healthy and are cached, and _become_ unhealthy
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# will only be removed from the host cache if another newer target is resolved
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# and found to be healthy. This is because we never write a resolved target to
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# the hosts cache unless it is both the newest and healthy. We assume that
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# cached hosts are healthy until they are superseded by a newer healthy target.
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#
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# An SRV RR specifies a priority value for each of the SRV targets that
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# are present, ranging from 0 - 65535. When caching SRV records we may want to
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# filter out any targets above or below a particular threshold. The LE (less
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# than or equal to) and GE (greater than or equal to) environment variables
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# (suffixed with _PRIORITY_LE or PRIORITY_GE) for a corresponding SRV variable
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# will ignore targets above or below the threshold, respectively.
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#
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# This mechanism may be used for SRV RRs that share a single name and utilise
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# the priority value for signalling to cache_critical_dns which targets are
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# relevant to a given name. Any target found outside of the threshold is ignored.
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# The host and internal caching behavior are otherwise the same.
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#
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# Example environment variables for SRV priority thresholds are:
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# DISCOURSE_DB_HOST_SRV_PRIORITY_LE
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# DISCOURSE_DB_REPLICA_HOST_SRV_PRIORITY_GE
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# Specifying this env var ensures ruby can load gems installed via the Discourse
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# project Gemfile (e.g. pg, redis).
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ENV['BUNDLE_GEMFILE'] ||= '/var/www/discourse/Gemfile'
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require 'bundler/setup'
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require 'ipaddr'
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require 'pg'
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require 'redis'
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require 'resolv'
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require 'socket'
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require 'time'
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CRITICAL_HOST_ENV_VARS = %w{
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DISCOURSE_DB_HOST
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DISCOURSE_DB_REPLICA_HOST
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DISCOURSE_REDIS_HOST
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DISCOURSE_REDIS_SLAVE_HOST
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DISCOURSE_REDIS_REPLICA_HOST
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}
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DEFAULT_DB_NAME = "discourse"
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HOST_RESOLVER_CACHE = {}
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HOST_HEALTHY_CACHE = {}
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HOSTS_PATH = ENV['DISCOURSE_DNS_CACHE_HOSTS_FILE'] || "/etc/hosts"
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PrioFilter = Struct.new(:min, :max) do
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# min and max must be integers and relate to the minimum or maximum accepted
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# priority of an SRV RR target.
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# The return value from within_threshold? indicates if the priority is less
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# than or equal to the upper threshold, or greater than or equal to the
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# lower threshold.
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def within_threshold?(p)
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p >= min && p <= max
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end
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end
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SRV_PRIORITY_THRESHOLD_MIN = 0
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SRV_PRIORITY_THRESHOLD_MAX = 65535
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SRV_PRIORITY_FILTERS = Hash.new(
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PrioFilter.new(SRV_PRIORITY_THRESHOLD_MIN, SRV_PRIORITY_THRESHOLD_MAX))
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REFRESH_SECONDS = 30
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module DNSClient
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def dns_client_with_timeout
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Resolv::DNS.open do |dns_client|
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dns_client.timeouts = 2
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yield dns_client
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end
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end
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end
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class Name
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include DNSClient
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def initialize(hostname)
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@name = hostname
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end
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def resolve
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dns_client_with_timeout do |dns_client|
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[].tap do |addresses|
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addresses.concat(dns_client.getresources(@name, Resolv::DNS::Resource::IN::A).map(&:address))
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addresses.concat(dns_client.getresources(@name, Resolv::DNS::Resource::IN::AAAA).map(&:address))
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end.map(&:to_s)
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end
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end
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end
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class SRVName
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include DNSClient
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def initialize(srv_hostname, prio_filter)
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@name = srv_hostname
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@prio_filter = prio_filter
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end
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def resolve
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dns_client_with_timeout do |dns_client|
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[].tap do |addresses|
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targets = dns_client.getresources(@name, Resolv::DNS::Resource::IN::SRV)
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targets.delete_if { |t| !@prio_filter.within_threshold?(t.priority) }
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addresses.concat(targets.map { |t| Name.new(t.target.to_s).resolve }.flatten)
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end
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end
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end
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end
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CacheMeta = Struct.new(:first_seen, :last_seen)
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class ResolverCache
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def initialize(name)
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# instance of Name|SRVName
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@name = name
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# {IPv4/IPv6 address: CacheMeta}
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@cached = {}
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end
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# resolve returns a list of resolved addresses ordered by the time first seen,
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# most recently seen at the head of the list.
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# Addresses last seen more than 30 minutes ago are evicted from the cache on
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# a call to resolve().
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# If an exception occurs during DNS resolution we return whatever addresses are
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# cached.
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def resolve
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@name.resolve.each do |address|
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if @cached[address]
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@cached[address].last_seen = Time.now.utc
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else
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@cached[address] = CacheMeta.new(Time.now.utc, Time.now.utc)
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end
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end
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ensure
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@cached = @cached.delete_if { |_, meta| Time.now.utc - 30 * 60 > meta.last_seen }
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@cached.sort_by { |_, meta| meta.first_seen }.reverse.map(&:first)
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end
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end
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class HealthyCache
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def initialize(resolver_cache, check)
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@resolver_cache = resolver_cache # instance of ResolverCache
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@check = check # lambda function to perform for health checks
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@cached = nil # a single IP address that was most recently found to be healthy
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end
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def first_healthy
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address = @resolver_cache.resolve.lazy.select { |addr| @check.call(addr) }.first
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if !nilempty(address).nil?
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@cached = address
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end
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@cached
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end
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end
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def redis_healthcheck(host:, password:)
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client_opts = {
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host: host,
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password: password,
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timeout: 1,
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}
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if !nilempty(ENV['DISCOURSE_REDIS_USE_SSL']).nil? then
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client_opts[:ssl] = true
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client_opts[:ssl_params] = {
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verify_mode: OpenSSL::SSL::VERIFY_NONE,
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}
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end
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client = Redis.new(**client_opts)
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response = client.ping
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response == "PONG"
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rescue
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false
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ensure
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client.close if client
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end
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def postgres_healthcheck(host:, user:, password:, dbname:)
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client = PG::Connection.new(
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host: host,
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user: user,
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password: password,
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dbname: dbname,
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connect_timeout: 2, # minimum
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)
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client.exec(';').none?
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rescue
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false
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ensure
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client.close if client
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end
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HEALTH_CHECKS = {
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"DISCOURSE_DB_HOST": lambda { |addr|
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postgres_healthcheck(
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host: addr,
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user: ENV["DISCOURSE_DB_USERNAME"] || DEFAULT_DB_NAME,
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dbname: ENV["DISCOURSE_DB_NAME"] || DEFAULT_DB_NAME,
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password: ENV["DISCOURSE_DB_PASSWORD"])},
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"DISCOURSE_DB_REPLICA_HOST": lambda { |addr|
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postgres_healthcheck(
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host: addr,
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user: ENV["DISCOURSE_DB_USERNAME"] || DEFAULT_DB_NAME,
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dbname: ENV["DISCOURSE_DB_NAME"] || DEFAULT_DB_NAME,
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password: ENV["DISCOURSE_DB_PASSWORD"])},
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"DISCOURSE_REDIS_HOST": lambda { |addr|
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redis_healthcheck(
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host: addr,
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password: ENV["DISCOURSE_REDIS_PASSWORD"])},
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"DISCOURSE_REDIS_REPLICA_HOST": lambda { |addr|
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redis_healthcheck(
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host: addr,
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password: ENV["DISCOURSE_REDIS_PASSWORD"])},
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}
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def log(msg)
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STDERR.puts "#{Time.now.utc.iso8601}: #{msg}"
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end
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def error(msg)
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log(msg)
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end
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def swap_address(hosts, name, ips)
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new_file = []
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hosts.split("\n").each do |line|
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line.strip!
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if line[0] != '#'
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_, hostname = line.split(/\s+/)
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next if hostname == name
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end
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new_file << line
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new_file << "\n"
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end
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ips.each do |ip|
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new_file << "#{ip} #{name} # AUTO GENERATED: #{Time.now.utc.iso8601}\n"
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end
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new_file.join
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end
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def send_counter(name, description, labels, value)
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host = "localhost"
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port = ENV.fetch("DISCOURSE_PROMETHEUS_COLLECTOR_PORT", 9405).to_i
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if labels
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labels = labels.map do |k, v|
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"\"#{k}\": \"#{v}\""
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end.join(",")
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else
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labels = ""
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end
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json = <<~JSON
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{
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"_type": "Custom",
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"type": "Counter",
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"name": "#{name}",
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"description": "#{description}",
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"labels": { #{labels} },
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"value": #{value}
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}
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JSON
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payload = +"POST /send-metrics HTTP/1.1\r\n"
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payload << "Host: #{host}\r\n"
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payload << "Connection: Close\r\n"
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payload << "Content-Type: application/json\r\n"
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payload << "Content-Length: #{json.bytesize}\r\n"
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payload << "\r\n"
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payload << json
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socket = TCPSocket.new host, port
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socket.write payload
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socket.flush
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result = socket.read
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first_line = result.split("\n")[0]
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if first_line.strip != "HTTP/1.1 200 OK"
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error("Failed to report metric #{result}")
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end
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socket.close
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rescue => e
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error("Failed to send metric to Prometheus #{e}")
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end
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def report_success
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send_counter('critical_dns_successes_total', 'critical DNS resolution success', nil, 1)
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end
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def report_failure(errors)
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errors.each do |host, count|
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send_counter('critical_dns_failures_total', 'critical DNS resolution failures', host ? { host: host } : nil, count)
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end
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end
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def nilempty(v)
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if v.nil?
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nil
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elsif v.respond_to?(:empty?) && v.empty?
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nil
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else
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v
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end
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end
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def env_srv_var(env_name)
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"#{env_name}_SRV"
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end
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def env_srv_name(env_name)
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nilempty(ENV[env_srv_var(env_name)])
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end
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def run_and_report(hostname_vars)
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errors = run(hostname_vars)
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if errors.empty?
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report_success
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else
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report_failure(errors)
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end
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end
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def run(hostname_vars)
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# HOSTNAME: [IP_ADDRESS, ...]
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# this will usually be a single address
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resolved = {}
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errors = Hash.new(0)
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hostname_vars.each do |var|
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name = ENV[var]
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HOST_RESOLVER_CACHE[var] ||= ResolverCache.new(
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if (srv_name = env_srv_name(var))
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SRVName.new(srv_name, SRV_PRIORITY_FILTERS[env_srv_var(var)])
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else
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Name.new(name)
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end
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)
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HOST_HEALTHY_CACHE[var] ||= HealthyCache.new(HOST_RESOLVER_CACHE[var], HEALTH_CHECKS[var.to_sym])
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begin
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if (address = HOST_HEALTHY_CACHE[var].first_healthy)
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resolved[name] = [address]
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else
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error("#{var}: #{name}: no address")
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errors[name] += 1
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end
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rescue => e
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error("#{var}: #{name}: #{e}")
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errors[name] += 1
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end
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end
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hosts_content = File.read(HOSTS_PATH)
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hosts = Resolv::Hosts.new(HOSTS_PATH)
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changed = false
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resolved.each do |hostname, ips|
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if hosts.getaddresses(hostname).map(&:to_s).sort != ips.sort
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log("IP addresses for #{hostname} changed to #{ips}")
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hosts_content = swap_address(hosts_content, hostname, ips)
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changed = true
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end
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end
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if changed
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File.write(HOSTS_PATH, hosts_content)
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end
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rescue => e
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error("DNS lookup failed: #{e}")
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errors[nil] = 1
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ensure
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return errors
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end
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# If any of the host variables are an explicit IP we will not attempt to cache
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# them.
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all_hostname_vars = CRITICAL_HOST_ENV_VARS.select do |name|
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begin
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host = ENV[name]
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next if nilempty(host).nil?
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IPAddr.new(host)
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false
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rescue IPAddr::InvalidAddressError, IPAddr::AddressFamilyError
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true
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end
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end
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# Populate the SRV_PRIORITY_FILTERS for any name that has a priority present in
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# the environment. If no priority thresholds are found for the name, the default
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# is that no filtering based on priority will be performed.
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CRITICAL_HOST_ENV_VARS.each do |v|
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if (name = env_srv_name(v))
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max = ENV.fetch("#{env_srv_var(v)}_PRIORITY_LE", SRV_PRIORITY_THRESHOLD_MAX).to_i
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min = ENV.fetch("#{env_srv_var(v)}_PRIORITY_GE", SRV_PRIORITY_THRESHOLD_MIN).to_i
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if max > SRV_PRIORITY_THRESHOLD_MAX ||
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min < SRV_PRIORITY_THRESHOLD_MIN ||
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min > max
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raise "invalid priority threshold set for #{v}"
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end
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SRV_PRIORITY_FILTERS[env_srv_var(v)] = PrioFilter.new(min, max)
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end
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end
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options = {
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once: false,
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}
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OptionParser.new do |opts|
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opts.on("--once", "run script once instead of indefinitely") do |o|
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options[:once] = true
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end
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end.parse!
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if options[:once]
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errors = run(all_hostname_vars)
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exit errors.empty? ? 0 : 1
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end
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while true
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run_and_report(all_hostname_vars)
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sleep REFRESH_SECONDS
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end
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