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c4ea439cc3
discourse/script/cache_critical_dns
Michael Fitz-Payne c4ea439cc3 DEV: refactor cache_critical_dns for SRV RR awareness 
Modify the cache_critical_dns script for SRV RR awareness. The new
behaviour is only enabled when one or more of the following environment
variables are present (and only for a host where the `DISCOURSE_*_HOST_SRV`
variable is present):
- `DISCOURSE_DB_HOST_SRV`
- `DISCOURSE_DB_REPLICA_HOST_SRV`
- `DISCOURSE_REDIS_HOST_SRV`
- `DISCOURSE_REDIS_REPLICA_HOST_SRV`

Some minor changes in refactor to original script behaviour:
- add Name and SRVName classes for storing resolved addresses for a hostname
- pass DNS client into main run loop instead of creating inside the loop
- ensure all times are UTC
- add environment override for system hosts file path and time between DNS
  checks mainly for testing purposes

The environment variable for `BUNDLE_GEMFILE` is set to enables Ruby to
load gems that are installed and vendored via the project's Gemfile.
This script is usually not run from the project directory as it is
configured as a system service (see
71ba9fb7b5/templates/cache-dns.template.yml (L19))
and therefore cannot load gems like `pg` or `redis` from the default
load paths. Setting this environment variable configures bundler to look
in the correct project directory during it's setup phase.

When a `DISCOURSE_*_HOST_SRV` environment variable is present, the
decision for which target to cache is as follows:
- resolve the SRV targets for the provided hostname
- lookup the addresses for all of the resolved SRV targets via the
  A and AAAA RRs for the target's hostname
- perform a protocol-aware healthcheck (PostgreSQL or Redis pings)
- pick the newest target that passes the healthcheck

From there, the resolved address for the SRV target is cached against
the hostname as specified by the original form of the environment
variable.

For example: The hostname specified by the `DISCOURSE_DB_HOST` record
is `database.example.com`, and the `DISCOURSE_DB_HOST_SRV` record is
`database._postgresql._tcp.sd.example.com`. An SRV RR lookup will return
zero or more targets. Each of the targets will be queried for A and AAAA
RRs. For each of the addresses returned, the newest address that passes
a protocol-aware healthcheck will be cached. This address is cached so
that if any newer address for the SRV target appears we can perform a
health check and prefer the newer address if the check passes.

All resolved SRV targets are cached for a minimum of 30 minutes in memory
so that we can prefer newer hosts over older hosts when more than one target
is returned. Any host in the cache that hasn't been seen for more than 30
minutes is purged.

See /t/61485.
2022-04-27 10:14:33 +10:00

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#!/usr/bin/env ruby
# frozen_string_literal: true
# Specifying this env var ensures ruby can load gems installed via the Discourse
# project Gemfile (e.g. pg, redis).
ENV['BUNDLE_GEMFILE'] ||= '/var/www/discourse/Gemfile'
require 'bundler/setup'
require 'ipaddr'
require 'pg'
require 'redis'
require 'resolv'
require 'socket'
require 'time'
CRITICAL_HOST_ENV_VARS = %w{
DISCOURSE_DB_HOST
DISCOURSE_DB_REPLICA_HOST
DISCOURSE_REDIS_HOST
DISCOURSE_REDIS_SLAVE_HOST
DISCOURSE_REDIS_REPLICA_HOST
}
HOST_RESOLVER_CACHE = {}
HOST_HEALTHY_CACHE = {}
HOSTS_PATH = ENV['DISCOURSE_DNS_CACHE_HOSTS_FILE'] || "/etc/hosts"
REFRESH_SECONDS = ENV['DISCOURSE_DNS_CACHE_REFRESH_SECONDS'].to_i || 30
module DNSClient
def dns_client_with_timeout
Resolv::DNS.open do |dns_client|
dns_client.timeouts = 2
yield dns_client
end
end
end
class Name
include DNSClient
def initialize(hostname)
@name = hostname
end
def resolve
dns_client_with_timeout do |dns_client|
[].tap do |addresses|
addresses.concat(dns_client.getresources(@name, Resolv::DNS::Resource::IN::A).map(&:address))
addresses.concat(dns_client.getresources(@name, Resolv::DNS::Resource::IN::AAAA).map(&:address))
end.map(&:to_s)
end
end
end
class SRVName
include DNSClient
def initialize(srv_hostname)
@name = srv_hostname
end
def resolve
dns_client_with_timeout do |dns_client|
[].tap do |addresses|
targets = dns_client.getresources(@name, Resolv::DNS::Resource::IN::SRV)
addresses.concat(targets.map { |t| Name.new(t.target.to_s).resolve }.flatten)
end
end
end
end
CacheMeta = Struct.new(:first_seen, :last_seen)
class ResolverCache
def initialize(name)
# instance of Name|SRVName
@name = name
# {IPv4/IPv6 address: CacheMeta}
@cached = {}
end
# resolve returns a list of resolved addresses ordered by the time first seen,
# most recently seen at the head of the list.
# Addresses last seen more than 30 minutes ago are evicted from the cache on
# a call to resolve().
# If an exception occurs during DNS resolution we return whatever addresses are
# cached.
def resolve
@name.resolve.each do |address|
if @cached[address]
@cached[address].last_seen = Time.now.utc
else
@cached[address] = CacheMeta.new(Time.now.utc, Time.now.utc)
end
end
ensure
@cached = @cached.delete_if { |_, meta| Time.now.utc - 30 * 60 > meta.last_seen }
@cached.sort_by { |_, meta| meta.first_seen }.reverse.map(&:first)
end
end
class HealthyCache
def initialize(resolver_cache, check)
@resolver_cache = resolver_cache # instance of ResolverCache
@check = check # lambda function to perform for health checks
@cached = nil # a single IP address that was most recently found to be healthy
end
def first_healthy
address = @resolver_cache.resolve.lazy.select { |addr| @check.call(addr) }.first
if !nilempty(address).nil?
@cached = address
end
@cached
end
end
def redis_healthcheck(host:, password:)
client = Redis.new(
host: host,
password: password,
timeout: 1,
)
response = client.ping
response == "PONG"
rescue
false
ensure
client.close if client
end
def postgres_healthcheck(host:, user:, password:, dbname:)
response = PG::Connection.ping(
host: host,
user: user,
password: password,
dbname: dbname,
connect_timeout: 2, # minimum
)
response == PG::Constants::PQPING_OK
rescue
false
end
HEALTH_CHECKS = {
"DISCOURSE_DB_HOST": lambda { |addr|
postgres_healthcheck(
host: addr,
user: ENV["DISCOURSE_DB_USER_NAME"],
password: ENV["DISCOURSE_DB_PASSWORD"],
dbname: ENV["DISCOURSE_DB_NAME"])},
"DISCOURSE_DB_REPLICA_HOST": lambda { |addr|
postgres_healthcheck(
host: addr,
user: ENV["DISCOURSE_DB_USER_NAME"],
password: ENV["DISCOURSE_DB_PASSWORD"],
dbname: ENV["DISCOURSE_DB_NAME"])},
"DISCOURSE_REDIS_HOST": lambda { |addr|
redis_healthcheck(
host: addr,
password: ENV["DISCOURSE_REDIS_PASSWORD"])},
"DISCOURSE_REDIS_REPLICA_HOST": lambda { |addr|
redis_healthcheck(
host: addr,
password: ENV["DISCOURSE_REDIS_PASSWORD"])},
}
def log(msg)
STDERR.puts "#{Time.now.utc.iso8601}: #{msg}"
end
def error(msg)
log(msg)
end
def swap_address(hosts, name, ips)
new_file = []
hosts.split("\n").each do |line|
line.strip!
if line[0] != '#'
_, hostname = line.split(/\s+/)
next if hostname == name
end
new_file << line
new_file << "\n"
end
ips.each do |ip|
new_file << "#{ip} #{name} # AUTO GENERATED: #{Time.now.utc.iso8601}\n"
end
new_file.join
end
def send_counter(name, description, labels, value)
host = "localhost"
port = ENV.fetch("DISCOURSE_PROMETHEUS_COLLECTOR_PORT", 9405).to_i
if labels
labels = labels.map do |k, v|
"\"#{k}\": \"#{v}\""
end.join(",")
else
labels = ""
end
json = <<~JSON
{
"_type": "Custom",
"type": "Counter",
"name": "#{name}",
"description": "#{description}",
"labels": { #{labels} },
"value": #{value}
}
JSON
payload = +"POST /send-metrics HTTP/1.1\r\n"
payload << "Host: #{host}\r\n"
payload << "Connection: Close\r\n"
payload << "Content-Type: application/json\r\n"
payload << "Content-Length: #{json.bytesize}\r\n"
payload << "\r\n"
payload << json
socket = TCPSocket.new host, port
socket.write payload
socket.flush
result = socket.read
first_line = result.split("\n")[0]
if first_line.strip != "HTTP/1.1 200 OK"
error("Failed to report metric #{result}")
end
socket.close
rescue => e
error("Failed to send metric to Prometheus #{e}")
end
def report_success
send_counter('critical_dns_successes_total', 'critical DNS resolution success', nil, 1)
end
def report_failure(errors)
errors.each do |host, count|
send_counter('critical_dns_failures_total', 'critical DNS resolution failures', host ? { host: host } : nil, count)
end
end
def nilempty(v)
if v.nil?
nil
elsif v.respond_to?(:empty?) && v.empty?
nil
else
v
end
end
def env_srv_name(env_name)
nilempty(ENV["#{env_name}_SRV"])
end
def run(hostname_vars)
# HOSTNAME: [IP_ADDRESS, ...]
# this will usually be a single address
resolved = {}
errors = Hash.new(0)
hostname_vars.each do |var|
name = ENV[var]
HOST_RESOLVER_CACHE[var] ||= ResolverCache.new(
if (srv_name = env_srv_name(var))
SRVName.new(srv_name)
else
Name.new(name)
end
)
HOST_HEALTHY_CACHE[var] ||= HealthyCache.new(HOST_RESOLVER_CACHE[var], HEALTH_CHECKS[var.to_sym])
begin
if (address = HOST_HEALTHY_CACHE[var].first_healthy)
resolved[name] = [address]
else
error("#{var}: #{name}: no address")
errors[name] += 1
end
rescue => 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("DNS lookup failed: #{e}")
errors[nil] = 1
ensure
if errors == {}
report_success
else
report_failure(errors)
end
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|
begin
host = ENV[name]
next if nilempty(host).nil?
IPAddr.new(host)
false
rescue IPAddr::InvalidAddressError, IPAddr::AddressFamilyError
true
end
end
while true
run(all_hostname_vars)
sleep REFRESH_SECONDS
end
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