require 'monitor' require 'puppet/ssl/host' require 'puppet/ssl/certificate_request' require 'puppet/ssl/certificate_signer' require 'puppet/util' # The class that knows how to sign certificates. It creates # a 'special' SSL::Host whose name is 'ca', thus indicating # that, well, it's the CA. There's some magic in the # indirector/ssl_file terminus base class that does that # for us. # This class mostly just signs certs for us, but # it can also be seen as a general interface into all of the # SSL stuff. class Puppet::SSL::CertificateAuthority # We will only sign extensions on this whitelist, ever. Any CSR with a # requested extension that we don't recognize is rejected, against the risk # that it will introduce some security issue through our ignorance of it. # # Adding an extension to this whitelist simply means we will consider it # further, not that we will always accept a certificate with an extension # requested on this list. RequestExtensionWhitelist = %w{subjectAltName} require 'puppet/ssl/certificate_factory' require 'puppet/ssl/inventory' require 'puppet/ssl/certificate_revocation_list' require 'puppet/ssl/certificate_authority/interface' require 'puppet/network/authstore' extend MonitorMixin class CertificateVerificationError < RuntimeError attr_accessor :error_code def initialize(code) @error_code = code end end def self.singleton_instance synchronize do @singleton_instance ||= new end end class CertificateSigningError < RuntimeError attr_accessor :host def initialize(host) @host = host end end def self.ca? return false unless Puppet[:ca] return false unless Puppet.run_mode.master? true end # If this process can function as a CA, then return a singleton # instance. def self.instance return nil unless ca? singleton_instance end attr_reader :name, :host # Create and run an applicator. I wanted to build an interface where you could do # something like 'ca.apply(:generate).to(:all) but I don't think it's really possible. def apply(method, options) raise ArgumentError, "You must specify the hosts to apply to; valid values are an array or the symbol :all" unless options[:to] applier = Interface.new(method, options) applier.apply(self) end # If autosign is configured, then autosign all CSRs that match our configuration. def autosign return unless auto = autosign? store = nil store = autosign_store(auto) if auto != true Puppet::SSL::CertificateRequest.indirection.search("*").each do |csr| sign(csr.name) if auto == true or store.allowed?(csr.name, "127.1.1.1") end end # Do we autosign? This returns true, false, or a filename. def autosign? auto = Puppet[:autosign] return false if ['false', false].include?(auto) return true if ['true', true].include?(auto) raise ArgumentError, "The autosign configuration '#{auto}' must be a fully qualified file" unless Puppet::Util.absolute_path?(auto) FileTest.exist?(auto) && auto end # Create an AuthStore for autosigning. def autosign_store(file) auth = Puppet::Network::AuthStore.new File.readlines(file).each do |line| next if line =~ /^\s*#/ next if line =~ /^\s*$/ auth.allow(line.chomp) end auth end # Retrieve (or create, if necessary) the certificate revocation list. def crl unless defined?(@crl) unless @crl = Puppet::SSL::CertificateRevocationList.indirection.find(Puppet::SSL::CA_NAME) @crl = Puppet::SSL::CertificateRevocationList.new(Puppet::SSL::CA_NAME) @crl.generate(host.certificate.content, host.key.content) Puppet::SSL::CertificateRevocationList.indirection.save(@crl) end end @crl end # Delegate this to our Host class. def destroy(name) Puppet::SSL::Host.destroy(name) end # Generate a new certificate. def generate(name, options = {}) raise ArgumentError, "A Certificate already exists for #{name}" if Puppet::SSL::Certificate.indirection.find(name) host = Puppet::SSL::Host.new(name) # Pass on any requested subjectAltName field. san = options[:dns_alt_names] host = Puppet::SSL::Host.new(name) host.generate_certificate_request(:dns_alt_names => san) sign(name, !!san) end # Generate our CA certificate. def generate_ca_certificate generate_password unless password? host.generate_key unless host.key # Create a new cert request. We do this specially, because we don't want # to actually save the request anywhere. request = Puppet::SSL::CertificateRequest.new(host.name) # We deliberately do not put any subjectAltName in here: the CA # certificate absolutely does not need them. --daniel 2011-10-13 request.generate(host.key) # Create a self-signed certificate. @certificate = sign(host.name, false, request) # And make sure we initialize our CRL. crl end def initialize Puppet.settings.use :main, :ssl, :ca @name = Puppet[:certname] @host = Puppet::SSL::Host.new(Puppet::SSL::Host.ca_name) setup end # Retrieve (or create, if necessary) our inventory manager. def inventory @inventory ||= Puppet::SSL::Inventory.new end # Generate a new password for the CA. def generate_password pass = "" 20.times { pass += (rand(74) + 48).chr } begin Puppet.settings.write(:capass) { |f| f.print pass } rescue Errno::EACCES => detail raise Puppet::Error, "Could not write CA password: #{detail}" end @password = pass pass end # List all signed certificates. def list Puppet::SSL::Certificate.indirection.search("*").collect { |c| c.name } end # Read the next serial from the serial file, and increment the # file so this one is considered used. def next_serial serial = nil # This is slightly odd. If the file doesn't exist, our readwritelock creates # it, but with a mode we can't actually read in some cases. So, use # a default before the lock. serial = 0x1 unless FileTest.exist?(Puppet[:serial]) Puppet.settings.readwritelock(:serial) { |f| serial ||= File.read(Puppet.settings[:serial]).chomp.hex if FileTest.exist?(Puppet[:serial]) # We store the next valid serial, not the one we just used. f << "%04X" % (serial + 1) } serial end # Does the password file exist? def password? FileTest.exist? Puppet[:capass] end # Print a given host's certificate as text. def print(name) (cert = Puppet::SSL::Certificate.indirection.find(name)) ? cert.to_text : nil end # Revoke a given certificate. def revoke(name) raise ArgumentError, "Cannot revoke certificates when the CRL is disabled" unless crl if cert = Puppet::SSL::Certificate.indirection.find(name) serial = cert.content.serial elsif name =~ /^0x[0-9A-Fa-f]+$/ serial = name.hex elsif ! serial = inventory.serial(name) raise ArgumentError, "Could not find a serial number for #{name}" end crl.revoke(serial, host.key.content) end # This initializes our CA so it actually works. This should be a private # method, except that you can't any-instance stub private methods, which is # *awesome*. This method only really exists to provide a stub-point during # testing. def setup generate_ca_certificate unless @host.certificate end # Sign a given certificate request. def sign(hostname, allow_dns_alt_names = false, self_signing_csr = nil) # This is a self-signed certificate if self_signing_csr # # This is a self-signed certificate, which is for the CA. Since this # # forces the certificate to be self-signed, anyone who manages to trick # # the system into going through this path gets a certificate they could # # generate anyway. There should be no security risk from that. csr = self_signing_csr cert_type = :ca issuer = csr.content else allow_dns_alt_names = true if hostname == Puppet[:certname].downcase unless csr = Puppet::SSL::CertificateRequest.indirection.find(hostname) raise ArgumentError, "Could not find certificate request for #{hostname}" end cert_type = :server issuer = host.certificate.content # Make sure that the CSR conforms to our internal signing policies. # This will raise if the CSR doesn't conform, but just in case... check_internal_signing_policies(hostname, csr, allow_dns_alt_names) or raise CertificateSigningError.new(hostname), "CSR had an unknown failure checking internal signing policies, will not sign!" end cert = Puppet::SSL::Certificate.new(hostname) cert.content = Puppet::SSL::CertificateFactory. build(cert_type, csr, issuer, next_serial) signer = Puppet::SSL::CertificateSigner.new signer.sign(cert.content, host.key.content) Puppet.notice "Signed certificate request for #{hostname}" # Add the cert to the inventory before we save it, since # otherwise we could end up with it being duplicated, if # this is the first time we build the inventory file. inventory.add(cert) # Save the now-signed cert. This should get routed correctly depending # on the certificate type. Puppet::SSL::Certificate.indirection.save(cert) # And remove the CSR if this wasn't self signed. Puppet::SSL::CertificateRequest.indirection.destroy(csr.name) unless self_signing_csr cert end def check_internal_signing_policies(hostname, csr, allow_dns_alt_names) # Reject unknown request extensions. unknown_req = csr.request_extensions. reject {|x| RequestExtensionWhitelist.include? x["oid"] } if unknown_req and not unknown_req.empty? names = unknown_req.map {|x| x["oid"] }.sort.uniq.join(", ") raise CertificateSigningError.new(hostname), "CSR has request extensions that are not permitted: #{names}" end # Do not sign misleading CSRs cn = csr.content.subject.to_a.assoc("CN")[1] if hostname != cn raise CertificateSigningError.new(hostname), "CSR subject common name #{cn.inspect} does not match expected certname #{hostname.inspect}" end if hostname !~ Puppet::SSL::Base::VALID_CERTNAME raise CertificateSigningError.new(hostname), "CSR #{hostname.inspect} subject contains unprintable or non-ASCII characters" end # Wildcards: we don't allow 'em at any point. # # The stringification here makes the content visible, and saves us having # to scrobble through the content of the CSR subject field to make sure it # is what we expect where we expect it. if csr.content.subject.to_s.include? '*' raise CertificateSigningError.new(hostname), "CSR subject contains a wildcard, which is not allowed: #{csr.content.subject.to_s}" end unless csr.content.verify(csr.content.public_key) raise CertificateSigningError.new(hostname), "CSR contains a public key that does not correspond to the signing key" end unless csr.subject_alt_names.empty? # If you alt names are allowed, they are required. Otherwise they are # disallowed. Self-signed certs are implicitly trusted, however. unless allow_dns_alt_names raise CertificateSigningError.new(hostname), "CSR '#{csr.name}' contains subject alternative names (#{csr.subject_alt_names.join(', ')}), which are disallowed. Use `puppet cert --allow-dns-alt-names sign #{csr.name}` to sign this request." end # If subjectAltNames are present, validate that they are only for DNS # labels, not any other kind. unless csr.subject_alt_names.all? {|x| x =~ /^DNS:/ } raise CertificateSigningError.new(hostname), "CSR '#{csr.name}' contains a subjectAltName outside the DNS label space: #{csr.subject_alt_names.join(', ')}. To continue, this CSR needs to be cleaned." end # Check for wildcards in the subjectAltName fields too. if csr.subject_alt_names.any? {|x| x.include? '*' } raise CertificateSigningError.new(hostname), "CSR '#{csr.name}' subjectAltName contains a wildcard, which is not allowed: #{csr.subject_alt_names.join(', ')} To continue, this CSR needs to be cleaned." end end return true # good enough for us! end # Verify a given host's certificate. def verify(name) unless cert = Puppet::SSL::Certificate.indirection.find(name) raise ArgumentError, "Could not find a certificate for #{name}" end store = OpenSSL::X509::Store.new store.add_file Puppet[:cacert] store.add_crl crl.content if self.crl store.purpose = OpenSSL::X509::PURPOSE_SSL_CLIENT store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK_ALL|OpenSSL::X509::V_FLAG_CRL_CHECK if Puppet.settings[:certificate_revocation] raise CertificateVerificationError.new(store.error), store.error_string unless store.verify(cert.content) end def fingerprint(name, md = :SHA256) unless cert = Puppet::SSL::Certificate.indirection.find(name) || Puppet::SSL::CertificateRequest.indirection.find(name) raise ArgumentError, "Could not find a certificate or csr for #{name}" end cert.fingerprint(md) end # List the waiting certificate requests. def waiting? Puppet::SSL::CertificateRequest.indirection.search("*").collect { |r| r.name } end end