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https://github.com/discourse/discourse.git
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2389186155
The priority field in an SRV RR indicates a preferential order at which the underlying targets should be utilised. We need to prefer healthy services in order of priority, where 0 is highest. Prior to this commit, we relied on whatever order the dnsclient.getresources method returned. As it turns out, this assumption is incorrect. The order returned is likely whatever order the system resolver received DNS responses in, which may not be ordered according to the spec. This introduces a ResolvedAddress type which holds the priority value for SRV targets, or a stand-in priority of zero for A/AAAA RRs. This type is used as a return value from the underlying name resolution routines in Name and SRVName. In this manner, all ordering by priority and resolved time can be performed directly within the ResolverCache class and calling code can continue to be none-the-wiser. Before sorting, we still ensure that we only consider targets with a priority within the given threshold as previously implemented. See t/115911.
579 lines
17 KiB
Ruby
Executable File
579 lines
17 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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# The list of environment variables that cache_critical_dns will read for
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# critical service hostnames can be extended at process execution time by
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# specifying environment variable names within the
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# DISCOURSE_DNS_CACHE_ADDITIONAL_SERVICE_NAMES environment variable. This is a
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# comma-delimited string of extra environment variables to be added to the list
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# defined in the static CRITICAL_HOST_ENV_VARS hash.
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#
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# DISCOURSE_DNS_CACHE_ADDITIONAL_SERVICE_NAMES serves as a kind of lookup table
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# for extra services for caching. Any environment variable names within this
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# list are treated with the same rules as the DISCOURSE_DB_HOST (and co.)
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# variables, as described below.
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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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DISCOURSE_MESSAGE_BUS_REDIS_HOST
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DISCOURSE_MESSAGE_BUS_REDIS_REPLICA_HOST
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}.union(
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ENV.fetch('DISCOURSE_DNS_CACHE_ADDITIONAL_SERVICE_NAMES', '')
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.split(',')
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.map(&:strip)
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)
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DEFAULT_DB_NAME = "discourse"
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DEFAULT_DB_PORT = 5432
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DEFAULT_REDIS_PORT = 6379
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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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ResolvedAddress = Struct.new(:address, :priority) do |s|
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def initialize(address:, priority: 0)
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super(address, priority)
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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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# Resolves A and AAAA DNS RRs for @name.
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# Returns an array of the type ResolvedAddress.
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def resolve
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dns_client_with_timeout do |dns_client|
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[].tap do |results|
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dns_client.getresources(@name, Resolv::DNS::Resource::IN::A).map(&:address).each do |a|
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results << ResolvedAddress.new(address: a.to_s)
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end
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dns_client.getresources(@name, Resolv::DNS::Resource::IN::AAAA).map(&:address).each do |aaaa|
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results << ResolvedAddress.new(address: aaaa.to_s)
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end
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end
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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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# Starts by resolving the SRV RRs for @name.
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# For all returned targets, resolves the underlying A and AAAA RRs.
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# Returns an array of the type ResolvedAddress.
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def resolve
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dns_client_with_timeout do |dns_client|
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[].tap do |results|
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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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targets.each do |t|
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begin
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Name.new(t.target.to_s).resolve.each do |ra|
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results << ResolvedAddress.new(address: ra.address, priority: t.priority)
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end
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rescue Resolv::ResolvError, Resolv::ResolvTimeout
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end
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end
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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, :priority)
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class EmptyCacheError < StandardError; end
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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 @name and return an array of resolved addresses.
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# The order of returned addresses is as follows:
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# Addresses are ordered by priority and time they were first seen.
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# Addresses with lower numeric priority are always returned first.
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# Ties between addresses of equal priority are broken by ordering the
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# return value by the time an address was first observed by the cache.
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# Newer addresses, that appeared later in time, are returned ahead of older
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# addresses.
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#
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# Addresses last seen more than 30 minutes ago are evicted from the cache.
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# Upon any exception during DNS resolution, cached addresses are returned.
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# Raises EmptyCacheError if the cache is empty after DNS resolution and cache
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# eviction.
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def resolve
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now = Time.now.utc
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begin
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@name.resolve.each do |ra|
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address = ra.address
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if @cached[address]
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@cached[address].last_seen = now
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@cached[address].priority = ra.priority
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else
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@cached[address] = CacheMeta.new(now, now, ra.priority)
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end
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end
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rescue Resolv::ResolvError, Resolv::ResolvTimeout
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end
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@cached = @cached.delete_if { |_, meta| now - 30 * 60 > meta.last_seen }
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if @cached.empty?
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raise EmptyCacheError, "DNS resolver found no usable addresses"
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end
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@cached.sort_by do |_, meta|
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[
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meta.priority,
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now - meta.first_seen,
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]
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end.map(&:first).uniq
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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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# Returns the first healthy server found in the list of resolved addresses.
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# Returns the last known healthy server if all servers disappear from the
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# DNS.
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# Raises EmptyCacheError if no healthy servers have been cached.
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def first_healthy
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begin
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addresses = @resolver_cache.resolve
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rescue EmptyCacheError
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return @cached if @cached
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raise
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end
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if (address = addresses.lazy.select { |addr| @check.call(addr) }.first)
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@cached = address
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end
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if @cached.nil?
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raise EmptyCacheError, "no healthy servers found amongst #{addresses}"
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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:, port: DEFAULT_REDIS_PORT)
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client_opts = {
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host: host,
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password: password,
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port: port,
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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:, port: DEFAULT_DB_PORT)
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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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port: port,
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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 = Hash.new(
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# unknown keys (like services defined at runtime) are assumed to be healthy
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lambda { |addr| true }
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).merge!({
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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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port: ENV["DISCOURSE_DB_PORT"] || DEFAULT_DB_PORT,
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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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port: ENV["DISCOURSE_DB_REPLICA_PORT"] || DEFAULT_DB_PORT,
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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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"DISCOURSE_MESSAGE_BUS_REDIS_HOST": lambda { |addr|
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redis_healthcheck(
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host: addr,
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port: env_as_int("DISCOURSE_MESSAGE_BUS_REDIS_PORT", DEFAULT_REDIS_PORT),
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password: ENV["DISCOURSE_MESSAGE_BUS_REDIS_PASSWORD"])},
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"DISCOURSE_MESSAGE_BUS_REDIS_REPLICA_HOST": lambda { |addr|
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redis_healthcheck(
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host: addr,
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port: env_as_int("DISCOURSE_MESSAGE_BUS_REDIS_REPLICA_PORT", DEFAULT_REDIS_PORT),
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password: ENV["DISCOURSE_MESSAGE_BUS_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_as_int("DISCOURSE_PROMETHEUS_COLLECTOR_PORT", 9405)
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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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|
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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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|
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|
def env_as_int(env_name, default = nil)
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|
val = ENV.fetch(env_name, default)
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|
if nilempty(val).nil?
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return val
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end
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val.to_i
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end
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|
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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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resolved = {}
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|
errors = Hash.new(0)
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|
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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(
|
|
if (srv_name = env_srv_name(var))
|
|
SRVName.new(srv_name, SRV_PRIORITY_FILTERS[env_srv_var(var)])
|
|
else
|
|
Name.new(name)
|
|
end
|
|
)
|
|
|
|
HOST_HEALTHY_CACHE[var] ||= HealthyCache.new(HOST_RESOLVER_CACHE[var], HEALTH_CHECKS[var.to_sym])
|
|
|
|
begin
|
|
address = HOST_HEALTHY_CACHE[var].first_healthy
|
|
resolved[name] = [address]
|
|
rescue EmptyCacheError => e
|
|
error("#{var}: #{name}: #{e}")
|
|
errors[name] += 1
|
|
end
|
|
end
|
|
|
|
hosts_content = File.read(HOSTS_PATH)
|
|
hosts = Resolv::Hosts.new(HOSTS_PATH)
|
|
|
|
changed = false
|
|
resolved.each do |hostname, ips|
|
|
if hosts.getaddresses(hostname).map(&:to_s).sort != ips.sort
|
|
log("IP addresses for #{hostname} changed to #{ips}")
|
|
hosts_content = swap_address(hosts_content, hostname, ips)
|
|
changed = true
|
|
end
|
|
end
|
|
|
|
if changed
|
|
File.write(HOSTS_PATH, hosts_content)
|
|
end
|
|
rescue => e
|
|
error("unhandled exception during run: #{e}")
|
|
errors[nil] = 1
|
|
ensure
|
|
return errors
|
|
end
|
|
|
|
# If any of the host variables are an explicit IP we will not attempt to cache
|
|
# them.
|
|
all_hostname_vars = CRITICAL_HOST_ENV_VARS.select do |name|
|
|
host = ENV[name]
|
|
if nilempty(host).nil?
|
|
# don't attempt to cache host vars that aren't present in the environment
|
|
false
|
|
else
|
|
begin
|
|
IPAddr.new(host)
|
|
# host is an IPv4 / IPv6 address
|
|
false
|
|
rescue IPAddr::InvalidAddressError, IPAddr::AddressFamilyError
|
|
true
|
|
end
|
|
end
|
|
end
|
|
|
|
# Populate the SRV_PRIORITY_FILTERS for any name that has a priority present in
|
|
# the environment. If no priority thresholds are found for the name, the default
|
|
# is that no filtering based on priority will be performed.
|
|
CRITICAL_HOST_ENV_VARS.each do |v|
|
|
if (name = env_srv_name(v))
|
|
max = env_as_int("#{env_srv_var(v)}_PRIORITY_LE", SRV_PRIORITY_THRESHOLD_MAX)
|
|
min = env_as_int("#{env_srv_var(v)}_PRIORITY_GE", SRV_PRIORITY_THRESHOLD_MIN)
|
|
if max > SRV_PRIORITY_THRESHOLD_MAX ||
|
|
min < SRV_PRIORITY_THRESHOLD_MIN ||
|
|
min > max
|
|
raise "invalid priority threshold set for #{v}"
|
|
end
|
|
|
|
SRV_PRIORITY_FILTERS[env_srv_var(v)] = PrioFilter.new(min, max)
|
|
end
|
|
end
|
|
|
|
options = {
|
|
once: false,
|
|
}
|
|
OptionParser.new do |opts|
|
|
opts.on("--once", "run script once instead of indefinitely") do |o|
|
|
options[:once] = true
|
|
end
|
|
end.parse!
|
|
|
|
if options[:once]
|
|
errors = run(all_hostname_vars)
|
|
exit errors.empty? ? 0 : 1
|
|
end
|
|
|
|
while true
|
|
run_and_report(all_hostname_vars)
|
|
sleep REFRESH_SECONDS
|
|
end
|