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|
require 'socket'
module LeapCli
module Commands
desc "Compile generated files."
command [:compile, :c] do |c|
c.desc 'Compiles node configuration files into hiera files used for deployment.'
c.arg_name 'ENVIRONMENT', :optional => true
c.command :all do |all|
all.action do |global_options,options,args|
environment = args.first
if !LeapCli.leapfile.environment.nil? && !environment.nil? && environment != LeapCli.leapfile.environment
bail! "You cannot specify an ENVIRONMENT argument while the environment is pinned."
end
if environment
if manager.environment_names.include?(environment)
compile_hiera_files(manager.filter([environment]), false)
else
bail! "There is no environment named `#{environment}`."
end
else
clean_export = LeapCli.leapfile.environment.nil?
compile_hiera_files(manager.filter, clean_export)
end
if file_exists?(:static_web_readme)
compile_provider_json(environment)
end
end
end
c.desc "Prints a DNS zone file for your provider."
c.command :zone do |zone|
zone.action do |global_options, options, args|
compile_zone_file
end
end
c.desc "Print entries suitable for an /etc/hosts file, useful for testing your provider."
c.command :hosts do |hosts|
hosts.action do |global_options, options, args|
compile_hosts_file
end
end
c.desc "Compile provider.json bootstrap files for your provider."
c.command 'provider.json' do |provider|
provider.action do |global_options, options, args|
compile_provider_json
end
end
c.desc "Prints a list of firewall rules. These rules are already "+
"implemented on each node, but you might want the list of all "+
"rules in case you also have a restrictive network firewall."
c.command :firewall do |zone|
zone.action do |global_options, options, args|
compile_firewall
end
end
c.default_command :all
end
protected
#
# a "clean" export of secrets will also remove keys that are no longer used,
# but this should not be done if we are not examining all possible nodes.
#
def compile_hiera_files(nodes, clean_export)
update_certificates(nodes) # \ must come first so that output will
update_compiled_ssh_configs # / get included in compiled hiera files.
sanity_check(nodes)
manager.export_nodes(nodes)
manager.export_secrets(clean_export)
end
def update_compiled_ssh_configs
generate_monitor_ssh_keys
update_authorized_keys
update_known_hosts
end
def sanity_check(nodes)
# confirm that every node has a unique ip address
ips = {}
nodes.pick_fields('ip_address').each do |name, ip_address|
if ips.key?(ip_address)
bail! {
log(:fatal_error, "Every node must have its own IP address.") {
log "Nodes `#{name}` and `#{ips[ip_address]}` are both configured with `#{ip_address}`."
}
}
else
ips[ip_address] = name
end
end
# confirm that the IP address of this machine is not also used for a node.
Socket.ip_address_list.each do |addrinfo|
if !addrinfo.ipv4_private? && ips.key?(addrinfo.ip_address)
ip = addrinfo.ip_address
name = ips[ip]
bail! {
log(:fatal_error, "Something is very wrong. The `leap` command must only be run on your sysadmin machine, not on a provider node.") {
log "This machine has the same IP address (#{ip}) as node `#{name}`."
}
}
end
end
end
##
## SSH
##
#
# generates a ssh key pair that is used only by remote monitors
# to connect to nodes and run certain allowed commands.
#
# every node has the public monitor key added to their authorized
# keys, and every monitor node has a copy of the private monitor key.
#
def generate_monitor_ssh_keys
priv_key_file = path(:monitor_priv_key)
pub_key_file = path(:monitor_pub_key)
unless file_exists?(priv_key_file, pub_key_file)
ensure_dir(File.dirname(priv_key_file))
ensure_dir(File.dirname(pub_key_file))
cmd = %(ssh-keygen -N '' -C 'monitor' -t rsa -b 4096 -f '%s') % priv_key_file
assert_run! cmd
if file_exists?(priv_key_file, pub_key_file)
log :created, priv_key_file
log :created, pub_key_file
else
log :failed, 'to create monitor ssh keys'
end
end
end
#
# Compiles the authorized keys file, which gets installed on every during init.
# Afterwards, puppet installs an authorized keys file that is generated differently
# (see authorized_keys() in macros.rb)
#
def update_authorized_keys
buffer = StringIO.new
keys = Dir.glob(path([:user_ssh, '*']))
if keys.empty?
bail! "You must have at least one public SSH user key configured in order to proceed. See `leap help add-user`."
end
if file_exists?(path(:monitor_pub_key))
keys << path(:monitor_pub_key)
end
keys.sort.each do |keyfile|
ssh_type, ssh_key = File.read(keyfile).strip.split(" ")
buffer << ssh_type
buffer << " "
buffer << ssh_key
buffer << " "
buffer << Path.relative_path(keyfile)
buffer << "\n"
end
write_file!(:authorized_keys, buffer.string)
end
#
# generates the known_hosts file.
#
# we do a 'late' binding on the hostnames and ip part of the ssh pub key record in order to allow
# for the possibility that the hostnames or ip has changed in the node configuration.
#
def update_known_hosts
buffer = StringIO.new
buffer << "#\n"
buffer << "# This file is automatically generated by the command `leap`. You should NOT modify this file.\n"
buffer << "# Instead, rerun `leap node init` on whatever node is causing SSH problems.\n"
buffer << "#\n"
manager.nodes.keys.sort.each do |node_name|
node = manager.nodes[node_name]
hostnames = [node.name, node.domain.internal, node.domain.full, node.ip_address].join(',')
pub_key = read_file([:node_ssh_pub_key,node.name])
if pub_key
buffer << [hostnames, pub_key].join(' ')
buffer << "\n"
end
end
write_file!(:known_hosts, buffer.string)
end
##
## provider.json
##
#
# generates static provider.json files that can put into place
# (e.g. https://domain/provider.json) for the cases where the
# webapp domain does not match the provider's domain.
#
def compile_provider_json(environments=nil)
webapp_nodes = manager.nodes[:services => 'webapp']
write_file!(:static_web_readme, STATIC_WEB_README)
environments ||= manager.environment_names
environments.each do |env|
node = webapp_nodes[:environment => env].values.first
if node
env ||= 'default'
write_file!(
[:static_web_provider_json, env],
node['definition_files']['provider']
)
write_file!(
[:static_web_htaccess, env],
HTACCESS_FILE % {:min_version => manager.env(env).provider.client_version['min']}
)
end
end
end
HTACCESS_FILE = %[
<Files provider.json>
Header set X-Minimum-Client-Version %{min_version}
</Files>
]
STATIC_WEB_README = %[
This directory contains statically rendered copies of the `provider.json` file
used by the client to "bootstrap" configure itself for use with your service
provider.
There is a separate provider.json file for each environment, although you
should only need 'production/provider.json' or, if you have no environments
configured, 'default/provider.json'.
To clarify, this is the public `provider.json` file used by the client, not the
`provider.json` file that is used to configure the provider.
The provider.json file must be available at `https://domain/provider.json`
(unless this provider is included in the list of providers which are pre-
seeded in client).
This provider.json file can be served correctly in one of three ways:
(1) If the property webapp.domain is not configured, then the web app will be
installed at https://domain/ and it will handle serving the provider.json file.
(2) If one or more nodes have the 'static' service configured for the provider's
domain, then these 'static' nodes will correctly serve provider.json.
(3) Otherwise, you must copy the provider.json file to your web
server and make it available at '/provider.json'. The example htaccess
file shows what header options should be sent by the web server
with the response.
This directory is needed for method (3), but not for methods (1) or (2).
This directory has been created by the command `leap compile provider.json`.
Once created, it will be kept up to date everytime you compile. You may safely
remove this directory if you don't use it.
]
##
##
## ZONE FILE
##
def relative_hostname(fqdn, provider)
@domain_regexp ||= /\.?#{Regexp.escape(provider.domain)}$/
fqdn.sub(@domain_regexp, '')
end
#
# serial is any number less than 2^32 (4294967296)
#
def compile_zone_file
# note: we use the default provider for all nodes, because we use it
# to generate hostnames that are relative to the default domain.
provider = manager.env('default').provider
hosts_seen = {}
lines = []
#
# header
#
lines << ZONE_HEADER % {:domain => provider.domain, :ns => provider.domain, :contact => provider.contacts.default.first.sub('@','.')}
#
# common records
#
lines << ORIGIN_HEADER
# 'A' records for primary domain
manager.nodes[:environment => '!local'].each_node do |node|
if node.dns['aliases'] && node.dns.aliases.include?(provider.domain)
lines << ["@", "IN A #{node.ip_address}"]
end
end
# NS records
if provider['dns'] && provider.dns['nameservers']
provider.dns.nameservers.each do |ns|
lines << ["@", "IN NS #{ns}."]
end
end
# environment records
manager.environment_names.each do |env|
next if env == 'local'
nodes = manager.nodes[:environment => env]
next unless nodes.any?
spf = nil
dkim = nil
lines << ENV_HEADER % (env.nil? ? 'default' : env)
nodes.each_node do |node|
if node.dns.public
lines << [relative_hostname(node.domain.full, provider), "IN A #{node.ip_address}"]
end
if node.dns['aliases']
node.dns.aliases.each do |host_alias|
if host_alias != node.domain.full && host_alias != provider.domain
lines << [relative_hostname(host_alias, provider), "IN A #{node.ip_address}"]
end
end
end
if node.services.include? 'mx'
mx_domain = relative_hostname(node.domain.full_suffix, provider)
lines << [mx_domain, "IN MX 10 #{relative_hostname(node.domain.full, provider)}"]
spf ||= [mx_domain, spf_record(node)]
dkim ||= dkim_record(node, provider)
end
end
lines << spf if spf
lines << dkim if dkim
end
# print the lines
max_width = lines.inject(0) {|max, line| line.is_a?(Array) ? [max, line[0].length].max : max}
lines.each do |host, line|
if line.nil?
puts(host)
else
host = '@' if host == ''
puts("%-#{max_width}s %s" % [host, line])
end
end
end
#
# outputs entries suitable for an /etc/hosts file
#
def compile_hosts_file
manager.environment_names.each do |env|
nodes = manager.nodes[:environment => env]
next unless nodes.any?
puts
puts "## environment '#{env || 'default'}'"
nodes.each do |name, node|
puts "%s %s" % [
node.ip_address,
[name, node.get('domain.full'), node.get('dns.aliases')].compact.join(' ')
]
end
end
end
private
#
# allow mail from any mx node, plus the webapp nodes.
#
# TODO: ipv6
#
def spf_record(node)
ips = node.nodes_like_me['services' => 'webapp'].values.collect {|n|
"ip4:" + n.ip_address
}
# TXT strings may not be longer than 255 characters, although
# you can chain multiple strings together.
strings = "v=spf1 MX #{ips.join(' ')} -all".scan(/.{1,255}/).join('" "')
%(IN TXT "#{strings}")
end
#
# for example:
#
# selector._domainkey IN TXT "v=DKIM1;h=sha256;k=rsa;s=email;p=MIGfMA0GCSq...GSIb3DQ"
#
# specification: http://dkim.org/specs/rfc4871-dkimbase.html#rfc.section.7.4
#
def dkim_record(node, provider)
# PEM encoded public key (base64), without the ---PUBLIC KEY--- armor parts.
assert_files_exist! :dkim_pub_key
dkim_pub_key = Path.named_path(:dkim_pub_key)
public_key = File.readlines(dkim_pub_key).grep(/^[^\-]+/).join
host = relative_hostname(
node.mx.dkim.selector + "._domainkey." + node.domain.full_suffix,
provider)
attrs = [
"v=DKIM1",
"h=sha256",
"k=rsa",
"s=email",
"p=" + public_key
]
return [host, "IN TXT " + txt_wrap(attrs.join(';'))]
end
#
# DNS TXT records cannot be longer than 255 characters.
#
# However, multiple responses will be concatenated together.
# It looks like this:
#
# IN TXT "v=spf1 .... first" "second string..."
#
def txt_wrap(str)
'"' + str.scan(/.{1,255}/).join('" "') + '"'
end
ENV_HEADER = %[
;;
;; ENVIRONMENT %s
;;
]
ZONE_HEADER = %[
;;
;; BIND data file for %{domain}
;;
$TTL 600
$ORIGIN %{domain}.
@ IN SOA %{ns}. %{contact}. (
0000 ; serial
7200 ; refresh ( 24 hours)
3600 ; retry ( 2 hours)
1209600 ; expire (1000 hours)
600 ) ; minimum ( 2 days)
;
]
ORIGIN_HEADER = %[
;;
;; ZONE ORIGIN
;;
]
##
## FIREWALL
##
public
def compile_firewall
manager.nodes.each_node(&:evaluate)
rules = [["ALLOW TO", "PORTS", "ALLOW FROM"]]
manager.nodes[:environment => '!local'].values.each do |node|
next unless node['firewall']
node.firewall.each do |name, rule|
if rule.is_a? Hash
rules << add_rule(rule)
elsif rule.is_a? Array
rule.each do |r|
rules << add_rule(r)
end
end
end
end
max_to = rules.inject(0) {|max, r| [max, r[0].length].max}
max_port = rules.inject(0) {|max, r| [max, r[1].length].max}
max_from = rules.inject(0) {|max, r| [max, r[2].length].max}
rules.each do |rule|
puts "%-#{max_to}s %-#{max_port}s %-#{max_from}s" % rule
end
end
private
def add_rule(rule)
[rule["to"], [rule["port"]].compact.join(','), rule["from"]]
end
end
end
|