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Direktori : /proc/thread-self/root/opt/cpanel/ea-ruby27/root/usr/share/ruby/ruby-2.7.8/drb/ |
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# frozen_string_literal: false require 'socket' require 'openssl' require_relative 'drb' require 'singleton' module DRb # The protocol for DRb over an SSL socket # # The URI for a DRb socket over SSL is: # <code>drbssl://<host>:<port>?<option></code>. The option is optional class DRbSSLSocket < DRbTCPSocket # SSLConfig handles the needed SSL information for establishing a # DRbSSLSocket connection, including generating the X509 / RSA pair. # # An instance of this config can be passed to DRbSSLSocket.new, # DRbSSLSocket.open and DRbSSLSocket.open_server # # See DRb::DRbSSLSocket::SSLConfig.new for more details class SSLConfig # Default values for a SSLConfig instance. # # See DRb::DRbSSLSocket::SSLConfig.new for more details DEFAULT = { :SSLCertificate => nil, :SSLPrivateKey => nil, :SSLClientCA => nil, :SSLCACertificatePath => nil, :SSLCACertificateFile => nil, :SSLTmpDhCallback => nil, :SSLVerifyMode => ::OpenSSL::SSL::VERIFY_NONE, :SSLVerifyDepth => nil, :SSLVerifyCallback => nil, # custom verification :SSLCertificateStore => nil, # Must specify if you use auto generated certificate. :SSLCertName => nil, # e.g. [["CN","fqdn.example.com"]] :SSLCertComment => "Generated by Ruby/OpenSSL" } # Create a new DRb::DRbSSLSocket::SSLConfig instance # # The DRb::DRbSSLSocket will take either a +config+ Hash or an instance # of SSLConfig, and will setup the certificate for its session for the # configuration. If want it to generate a generic certificate, the bare # minimum is to provide the :SSLCertName # # === Config options # # From +config+ Hash: # # :SSLCertificate :: # An instance of OpenSSL::X509::Certificate. If this is not provided, # then a generic X509 is generated, with a correspond :SSLPrivateKey # # :SSLPrivateKey :: # A private key instance, like OpenSSL::PKey::RSA. This key must be # the key that signed the :SSLCertificate # # :SSLClientCA :: # An OpenSSL::X509::Certificate, or Array of certificates that will # used as ClientCAs in the SSL Context # # :SSLCACertificatePath :: # A path to the directory of CA certificates. The certificates must # be in PEM format. # # :SSLCACertificateFile :: # A path to a CA certificate file, in PEM format. # # :SSLTmpDhCallback :: # A DH callback. See OpenSSL::SSL::SSLContext.tmp_dh_callback # # :SSLVerifyMode :: # This is the SSL verification mode. See OpenSSL::SSL::VERIFY_* for # available modes. The default is OpenSSL::SSL::VERIFY_NONE # # :SSLVerifyDepth :: # Number of CA certificates to walk, when verifying a certificate # chain. # # :SSLVerifyCallback :: # A callback to be used for additional verification. See # OpenSSL::SSL::SSLContext.verify_callback # # :SSLCertificateStore :: # A OpenSSL::X509::Store used for verification of certificates # # :SSLCertName :: # Issuer name for the certificate. This is required when generating # the certificate (if :SSLCertificate and :SSLPrivateKey were not # given). The value of this is to be an Array of pairs: # # [["C", "Raleigh"], ["ST","North Carolina"], # ["CN","fqdn.example.com"]] # # See also OpenSSL::X509::Name # # :SSLCertComment :: # A comment to be used for generating the certificate. The default is # "Generated by Ruby/OpenSSL" # # # === Example # # These values can be added after the fact, like a Hash. # # require 'drb/ssl' # c = DRb::DRbSSLSocket::SSLConfig.new {} # c[:SSLCertificate] = # OpenSSL::X509::Certificate.new(File.read('mycert.crt')) # c[:SSLPrivateKey] = OpenSSL::PKey::RSA.new(File.read('mycert.key')) # c[:SSLVerifyMode] = OpenSSL::SSL::VERIFY_PEER # c[:SSLCACertificatePath] = "/etc/ssl/certs/" # c.setup_certificate # # or # # require 'drb/ssl' # c = DRb::DRbSSLSocket::SSLConfig.new({ # :SSLCertName => [["CN" => DRb::DRbSSLSocket.getservername]] # }) # c.setup_certificate # def initialize(config) @config = config @cert = config[:SSLCertificate] @pkey = config[:SSLPrivateKey] @ssl_ctx = nil end # A convenience method to access the values like a Hash def [](key); @config[key] || DEFAULT[key] end # Connect to IO +tcp+, with context of the current certificate # configuration def connect(tcp) ssl = ::OpenSSL::SSL::SSLSocket.new(tcp, @ssl_ctx) ssl.sync = true ssl.connect ssl end # Accept connection to IO +tcp+, with context of the current certificate # configuration def accept(tcp) ssl = OpenSSL::SSL::SSLSocket.new(tcp, @ssl_ctx) ssl.sync = true ssl.accept ssl end # Ensures that :SSLCertificate and :SSLPrivateKey have been provided # or that a new certificate is generated with the other parameters # provided. def setup_certificate if @cert && @pkey return end rsa = OpenSSL::PKey::RSA.new(2048){|p, n| next unless self[:verbose] case p when 0; $stderr.putc "." # BN_generate_prime when 1; $stderr.putc "+" # BN_generate_prime when 2; $stderr.putc "*" # searching good prime, # n = #of try, # but also data from BN_generate_prime when 3; $stderr.putc "\n" # found good prime, n==0 - p, n==1 - q, # but also data from BN_generate_prime else; $stderr.putc "*" # BN_generate_prime end } cert = OpenSSL::X509::Certificate.new cert.version = 3 cert.serial = 0 name = OpenSSL::X509::Name.new(self[:SSLCertName]) cert.subject = name cert.issuer = name cert.not_before = Time.now cert.not_after = Time.now + (365*24*60*60) cert.public_key = rsa.public_key ef = OpenSSL::X509::ExtensionFactory.new(nil,cert) cert.extensions = [ ef.create_extension("basicConstraints","CA:FALSE"), ef.create_extension("subjectKeyIdentifier", "hash") ] ef.issuer_certificate = cert cert.add_extension(ef.create_extension("authorityKeyIdentifier", "keyid:always,issuer:always")) if comment = self[:SSLCertComment] cert.add_extension(ef.create_extension("nsComment", comment)) end cert.sign(rsa, OpenSSL::Digest::SHA256.new) @cert = cert @pkey = rsa end # Establish the OpenSSL::SSL::SSLContext with the configuration # parameters provided. def setup_ssl_context ctx = ::OpenSSL::SSL::SSLContext.new ctx.cert = @cert ctx.key = @pkey ctx.client_ca = self[:SSLClientCA] ctx.ca_path = self[:SSLCACertificatePath] ctx.ca_file = self[:SSLCACertificateFile] ctx.tmp_dh_callback = self[:SSLTmpDhCallback] ctx.verify_mode = self[:SSLVerifyMode] ctx.verify_depth = self[:SSLVerifyDepth] ctx.verify_callback = self[:SSLVerifyCallback] ctx.cert_store = self[:SSLCertificateStore] @ssl_ctx = ctx end end # Parse the dRuby +uri+ for an SSL connection. # # Expects drbssl://... # # Raises DRbBadScheme or DRbBadURI if +uri+ is not matching or malformed def self.parse_uri(uri) # :nodoc: if /\Adrbssl:\/\/(.*?):(\d+)(\?(.*))?\z/ =~ uri host = $1 port = $2.to_i option = $4 [host, port, option] else raise(DRbBadScheme, uri) unless uri.start_with?('drbssl:') raise(DRbBadURI, 'can\'t parse uri:' + uri) end end # Return an DRb::DRbSSLSocket instance as a client-side connection, # with the SSL connected. This is called from DRb::start_service or while # connecting to a remote object: # # DRb.start_service 'drbssl://localhost:0', front, config # # +uri+ is the URI we are connected to, # <code>'drbssl://localhost:0'</code> above, +config+ is our # configuration. Either a Hash or DRb::DRbSSLSocket::SSLConfig def self.open(uri, config) host, port, = parse_uri(uri) soc = TCPSocket.open(host, port) ssl_conf = SSLConfig::new(config) ssl_conf.setup_ssl_context ssl = ssl_conf.connect(soc) self.new(uri, ssl, ssl_conf, true) end # Returns a DRb::DRbSSLSocket instance as a server-side connection, with # the SSL connected. This is called from DRb::start_service or while # connecting to a remote object: # # DRb.start_service 'drbssl://localhost:0', front, config # # +uri+ is the URI we are connected to, # <code>'drbssl://localhost:0'</code> above, +config+ is our # configuration. Either a Hash or DRb::DRbSSLSocket::SSLConfig def self.open_server(uri, config) uri = 'drbssl://:0' unless uri host, port, = parse_uri(uri) if host.size == 0 host = getservername soc = open_server_inaddr_any(host, port) else soc = TCPServer.open(host, port) end port = soc.addr[1] if port == 0 @uri = "drbssl://#{host}:#{port}" ssl_conf = SSLConfig.new(config) ssl_conf.setup_certificate ssl_conf.setup_ssl_context self.new(@uri, soc, ssl_conf, false) end # This is a convenience method to parse +uri+ and separate out any # additional options appended in the +uri+. # # Returns an option-less uri and the option => [uri,option] # # The +config+ is completely unused, so passing nil is sufficient. def self.uri_option(uri, config) # :nodoc: host, port, option = parse_uri(uri) return "drbssl://#{host}:#{port}", option end # Create a DRb::DRbSSLSocket instance. # # +uri+ is the URI we are connected to. # +soc+ is the tcp socket we are bound to. # +config+ is our configuration. Either a Hash or SSLConfig # +is_established+ is a boolean of whether +soc+ is currently established # # This is called automatically based on the DRb protocol. def initialize(uri, soc, config, is_established) @ssl = is_established ? soc : nil super(uri, soc.to_io, config) end # Returns the SSL stream def stream; @ssl; end # :nodoc: # Closes the SSL stream before closing the dRuby connection. def close # :nodoc: if @ssl @ssl.close @ssl = nil end super end def accept # :nodoc: begin while true soc = accept_or_shutdown return nil unless soc break if (@acl ? @acl.allow_socket?(soc) : true) soc.close end begin ssl = @config.accept(soc) rescue Exception soc.close raise end self.class.new(uri, ssl, @config, true) rescue OpenSSL::SSL::SSLError warn("#{$!.message} (#{$!.class})", uplevel: 0) if @config[:verbose] retry end end end DRbProtocol.add_protocol(DRbSSLSocket) end