require 'openssl' require 'certificate_authority' require 'date' require 'digest/md5' module LeapCli; module Commands desc "Manage X.509 certificates" command :cert do |cert| cert.desc 'Creates two Certificate Authorities (one for validating servers and one for validating clients).' cert.long_desc 'See see what values are used in the generation of the certificates (like name and key size), run `leap inspect provider` and look for the "ca" property. To see the details of the created certs, run `leap inspect `.' cert.command :ca do |ca| ca.action do |global_options,options,args| assert_config! 'provider.ca.name' generate_new_certificate_authority(:ca_key, :ca_cert, provider.ca.name) generate_new_certificate_authority(:client_ca_key, :client_ca_cert, provider.ca.name + ' (client certificates only!)') end end cert.desc 'Creates or renews a X.509 certificate/key pair for a single node or all nodes, but only if needed.' cert.long_desc 'This command will a generate new certificate for a node if some value in the node has changed ' + 'that is included in the certificate (like hostname or IP address), or if the old certificate will be expiring soon. ' + 'Sometimes, you might want to force the generation of a new certificate, ' + 'such as in the cases where you have changed a CA parameter for server certificates, like bit size or digest hash. ' + 'In this case, use --force. If is empty, this command will apply to all nodes.' cert.arg_name 'FILTER' cert.command :update do |update| update.switch 'force', :desc => 'Always generate new certificates', :negatable => false update.action do |global_options,options,args| assert_files_exist! :ca_cert, :ca_key, :msg => 'Run `leap cert ca` to create them' assert_config! 'provider.ca.server_certificates.bit_size' assert_config! 'provider.ca.server_certificates.digest' assert_config! 'provider.ca.server_certificates.life_span' assert_config! 'common.x509.use' nodes = manager.filter!(args) nodes.each_node do |node| if options[:force] || cert_needs_updating?(node) generate_cert_for_node(node) elsif !node.x509.use remove_file!([:node_x509_key, node.name]) remove_file!([:node_x509_cert, node.name]) end end end end cert.desc 'Creates a Diffie-Hellman parameter file.' # (needed for server-side of some TLS connections) cert.command :dh do |dh| dh.action do |global_options,options,args| long_running do if cmd_exists?('certtool') log 0, 'Generating DH parameters (takes a long time)...' output = assert_run!('certtool --generate-dh-params --sec-param high') output.sub! /.*(-----BEGIN DH PARAMETERS-----.*-----END DH PARAMETERS-----).*/m, '\1' output << "\n" write_file!(:dh_params, output) else log 0, 'Generating DH parameters (takes a REALLY long time)...' output = OpenSSL::PKey::DH.generate(3248).to_pem write_file!(:dh_params, output) end end end end # # hints: # # inspect CSR: # openssl req -noout -text -in files/cert/x.csr # # generate CSR with openssl to see how it compares: # openssl req -sha256 -nodes -newkey rsa:2048 -keyout example.key -out example.csr # # validate a CSR: # http://certlogik.com/decoder/ # # nice details about CSRs: # http://www.redkestrel.co.uk/Articles/CSR.html # cert.desc "Creates a CSR for use in buying a commercial X.509 certificate." cert.long_desc "Unless specified, the CSR is created for the provider's primary domain. The properties used for this CSR come from `provider.ca.server_certificates`." cert.command :csr do |csr| csr.flag 'domain', :arg_name => 'DOMAIN', :desc => 'Specify what domain to create the CSR for.' csr.action do |global_options,options,args| assert_config! 'provider.domain' assert_config! 'provider.name' assert_config! 'provider.default_language' assert_config! 'provider.ca.server_certificates.bit_size' assert_config! 'provider.ca.server_certificates.digest' domain = options[:domain] || provider.domain assert_files_missing! [:commercial_key, domain], [:commercial_csr, domain], :msg => 'If you really want to create a new key and CSR, remove these files first.' # RSA key keypair = CertificateAuthority::MemoryKeyMaterial.new log :generating, "%s bit RSA key" % provider.ca.server_certificates.bit_size do keypair.generate_key(provider.ca.server_certificates.bit_size) write_file! [:commercial_key, domain], keypair.private_key.to_pem end # CSR dn = CertificateAuthority::DistinguishedName.new csr = CertificateAuthority::SigningRequest.new dn.common_name = domain dn.organization = provider.name[provider.default_language] log :generating, "CSR with commonName => '%s', organization => '%s'" % [dn.common_name, dn.organization] do csr.distinguished_name = dn csr.key_material = keypair csr.digest = provider.ca.server_certificates.digest request = csr.to_x509_csr write_file! [:commercial_csr, domain], csr.to_pem end # Sign using our own CA, for use in testing but hopefully not production. # It is not that commerical CAs are so secure, it is just that signing your own certs is # a total drag for the user because they must click through dire warnings. #if options[:sign] log :generating, "self-signed x509 server certificate for testing purposes" do cert = csr.to_cert cert.serial_number.number = cert_serial_number(domain) cert.not_before = yesterday cert.not_after = years_from_yesterday(1) cert.parent = ca_root cert.sign! domain_test_signing_profile write_file! [:commercial_cert, domain], cert.to_pem log "please replace this file with the real certificate you get from a CA using #{Path.relative_path([:commercial_csr, domain])}" end #end # FAKE CA unless file_exists? :commercial_ca_cert log :using, "generated CA in place of commercial CA for testing purposes" do write_file! :commercial_ca_cert, read_file!(:ca_cert) log "please also replace this file with the CA cert from the commercial authority you use." end end end end end private def generate_new_certificate_authority(key_file, cert_file, common_name) assert_files_missing! key_file, cert_file assert_config! 'provider.ca.name' assert_config! 'provider.ca.bit_size' assert_config! 'provider.ca.life_span' root = CertificateAuthority::Certificate.new # set subject root.subject.common_name = common_name possible = ['country', 'state', 'locality', 'organization', 'organizational_unit', 'email_address'] provider.ca.keys.each do |key| if possible.include?(key) root.subject.send(key + '=', provider.ca[key]) end end # set expiration root.not_before = yesterday root.not_after = years_from_yesterday(provider.ca.life_span.to_i) # generate private key root.serial_number.number = 1 root.key_material.generate_key(provider.ca.bit_size) # sign self root.signing_entity = true root.parent = root root.sign!(ca_root_signing_profile) # save write_file!(key_file, root.key_material.private_key.to_pem) write_file!(cert_file, root.to_pem) end # # returns true if the certs associated with +node+ need to be regenerated. # def cert_needs_updating?(node) if !file_exists?([:node_x509_cert, node.name], [:node_x509_key, node.name]) return true else cert = load_certificate_file([:node_x509_cert, node.name]) if cert.not_after < months_from_yesterday(1) log :updating, "cert for node '#{node.name}' because it will expire soon" return true end if cert.subject.common_name != node.domain.full log :updating, "cert for node '#{node.name}' because domain.full has changed" return true end cert.openssl_body.extensions.each do |ext| if ext.oid == "subjectAltName" ips = [] dns_names = [] ext.value.split(",").each do |value| value.strip! ips << $1 if value =~ /^IP Address:(.*)$/ dns_names << $1 if value =~ /^DNS:(.*)$/ end if ips.first != node.ip_address log :updating, "cert for node '#{node.name}' because ip_address has changed (from #{ips} to #{node.ip_address})" return true elsif dns_names != dns_names_for_node(node) log :updating, "cert for node '#{node.name}' because domain name aliases have changed (from #{dns_names.inspect} to #{dns_names_for_node(node).inspect})" return true end end end end return false end def generate_cert_for_node(node) return if node.x509.use == false cert = CertificateAuthority::Certificate.new # set subject cert.subject.common_name = node.domain.full cert.serial_number.number = cert_serial_number(node.domain.full) # set expiration cert.not_before = yesterday cert.not_after = years_from_yesterday(provider.ca.server_certificates.life_span.to_i) # generate key cert.key_material.generate_key(provider.ca.server_certificates.bit_size) # sign cert.parent = ca_root cert.sign!(server_signing_profile(node)) # save write_file!([:node_x509_key, node.name], cert.key_material.private_key.to_pem) write_file!([:node_x509_cert, node.name], cert.to_pem) end # # yields client key and cert suitable for testing # def generate_test_client_cert(prefix=nil) cert = CertificateAuthority::Certificate.new cert.serial_number.number = cert_serial_number(provider.domain) cert.subject.common_name = [prefix, random_common_name(provider.domain)].join cert.not_before = yesterday cert.not_after = years_from_yesterday(1) cert.key_material.generate_key(1024) # just for testing, remember! cert.parent = client_ca_root cert.sign! client_test_signing_profile yield cert.key_material.private_key.to_pem, cert.to_pem end def ca_root @ca_root ||= begin load_certificate_file(:ca_cert, :ca_key) end end def client_ca_root @client_ca_root ||= begin load_certificate_file(:client_ca_cert, :client_ca_key) end end def load_certificate_file(crt_file, key_file=nil, password=nil) crt = read_file!(crt_file) openssl_cert = OpenSSL::X509::Certificate.new(crt) cert = CertificateAuthority::Certificate.from_openssl(openssl_cert) if key_file key = read_file!(key_file) cert.key_material.private_key = OpenSSL::PKey::RSA.new(key, password) end return cert end def ca_root_signing_profile { "extensions" => { "basicConstraints" => {"ca" => true}, "keyUsage" => { "usage" => ["critical", "keyCertSign"] }, "extendedKeyUsage" => { "usage" => [] } } } end # # For keyusage, openvpn server certs can have keyEncipherment or keyAgreement. # Web browsers seem to break without keyEncipherment. # For now, I am using digitalSignature + keyEncipherment # # * digitalSignature -- for (EC)DHE cipher suites # "The digitalSignature bit is asserted when the subject public key is used # with a digital signature mechanism to support security services other # than certificate signing (bit 5), or CRL signing (bit 6). Digital # signature mechanisms are often used for entity authentication and data # origin authentication with integrity." # # * keyEncipherment ==> for plain RSA cipher suites # "The keyEncipherment bit is asserted when the subject public key is used for # key transport. For example, when an RSA key is to be used for key management, # then this bit is set." # # * keyAgreement ==> for used with DH, not RSA. # "The keyAgreement bit is asserted when the subject public key is used for key # agreement. For example, when a Diffie-Hellman key is to be used for key # management, then this bit is set." # # digest options: SHA512, SHA256, SHA1 # def server_signing_profile(node) { "digest" => provider.ca.server_certificates.digest, "extensions" => { "keyUsage" => { "usage" => ["digitalSignature", "keyEncipherment"] }, "extendedKeyUsage" => { "usage" => ["serverAuth", "clientAuth"] }, "subjectAltName" => { "ips" => [node.ip_address], "dns_names" => dns_names_for_node(node) } } } end # # This is used when signing the main cert for the provider's domain # with our own CA (for testing purposes). Typically, this cert would # be purchased from a commercial CA, and not signed this way. # def domain_test_signing_profile { "digest" => "SHA256", "extensions" => { "keyUsage" => { "usage" => ["digitalSignature", "keyEncipherment"] }, "extendedKeyUsage" => { "usage" => ["serverAuth"] } } } end # # This is used when signing a dummy client certificate that is only to be # used for testing. # def client_test_signing_profile { "digest" => "SHA256", "extensions" => { "keyUsage" => { "usage" => ["digitalSignature"] }, "extendedKeyUsage" => { "usage" => ["clientAuth"] } } } end def dns_names_for_node(node) names = [node.domain.internal, node.domain.full] if node['dns'] && node.dns['aliases'] && node.dns.aliases.any? names += node.dns.aliases names.compact! end return names end # # For cert serial numbers, we need a non-colliding number less than 160 bits. # md5 will do nicely, since there is no need for a secure hash, just a short one. # (md5 is 128 bits) # def cert_serial_number(domain_name) Digest::MD5.hexdigest("#{domain_name} -- #{Time.now}").to_i(16) end # # for the random common name, we need a text string that will be unique across all certs. # ruby 1.8 doesn't have a built-in uuid generator, or we would use SecureRandom.uuid # def random_common_name(domain_name) cert_serial_number(domain_name).to_s(36) end ## ## TIME HELPERS ## ## note: we use 'yesterday' instead of 'today', because times are in UTC, and some people on the planet ## are behind UTC. ## def yesterday t = Time.now - 24*24*60 Time.utc t.year, t.month, t.day end def years_from_yesterday(num) t = yesterday Time.utc t.year + num, t.month, t.day end def months_from_yesterday(num) t = yesterday date = Date.new t.year, t.month, t.day date = date >> num # >> is months in the future operator Time.utc date.year, date.month, date.day end end; end