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Direktori : /proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby30/share/ruby/openssl/ |
Current File : //proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby30/share/ruby/openssl/pkey.rb |
# frozen_string_literal: true #-- # Ruby/OpenSSL Project # Copyright (C) 2017 Ruby/OpenSSL Project Authors #++ require_relative 'marshal' module OpenSSL::PKey class DH include OpenSSL::Marshal # :call-seq: # dh.public_key -> dhnew # # Returns a new DH instance that carries just the \DH parameters. # # Contrary to the method name, the returned DH object contains only # parameters and not the public key. # # This method is provided for backwards compatibility. In most cases, there # is no need to call this method. # # For the purpose of re-generating the key pair while keeping the # parameters, check OpenSSL::PKey.generate_key. # # Example: # # OpenSSL::PKey::DH.generate by default generates a random key pair # dh1 = OpenSSL::PKey::DH.generate(2048) # p dh1.priv_key #=> #<OpenSSL::BN 1288347...> # dhcopy = dh1.public_key # p dhcopy.priv_key #=> nil def public_key DH.new(to_der) end # :call-seq: # dh.compute_key(pub_bn) -> string # # Returns a String containing a shared secret computed from the other # party's public value. # # This method is provided for backwards compatibility, and calls #derive # internally. # # === Parameters # * _pub_bn_ is a OpenSSL::BN, *not* the DH instance returned by # DH#public_key as that contains the DH parameters only. def compute_key(pub_bn) # FIXME: This is constructing an X.509 SubjectPublicKeyInfo and is very # inefficient obj = OpenSSL::ASN1.Sequence([ OpenSSL::ASN1.Sequence([ OpenSSL::ASN1.ObjectId("dhKeyAgreement"), OpenSSL::ASN1.Sequence([ OpenSSL::ASN1.Integer(p), OpenSSL::ASN1.Integer(g), ]), ]), OpenSSL::ASN1.BitString(OpenSSL::ASN1.Integer(pub_bn).to_der), ]) derive(OpenSSL::PKey.read(obj.to_der)) end # :call-seq: # dh.generate_key! -> self # # Generates a private and public key unless a private key already exists. # If this DH instance was generated from public \DH parameters (e.g. by # encoding the result of DH#public_key), then this method needs to be # called first in order to generate the per-session keys before performing # the actual key exchange. # # <b>Deprecated in version 3.0</b>. This method is incompatible with # OpenSSL 3.0.0 or later. # # See also OpenSSL::PKey.generate_key. # # Example: # # DEPRECATED USAGE: This will not work on OpenSSL 3.0 or later # dh0 = OpenSSL::PKey::DH.new(2048) # dh = dh0.public_key # #public_key only copies the DH parameters (contrary to the name) # dh.generate_key! # puts dh.private? # => true # puts dh0.pub_key == dh.pub_key #=> false # # # With OpenSSL::PKey.generate_key # dh0 = OpenSSL::PKey::DH.new(2048) # dh = OpenSSL::PKey.generate_key(dh0) # puts dh0.pub_key == dh.pub_key #=> false def generate_key! if OpenSSL::OPENSSL_VERSION_NUMBER >= 0x30000000 raise DHError, "OpenSSL::PKey::DH is immutable on OpenSSL 3.0; " \ "use OpenSSL::PKey.generate_key instead" end unless priv_key tmp = OpenSSL::PKey.generate_key(self) set_key(tmp.pub_key, tmp.priv_key) end self end class << self # :call-seq: # DH.generate(size, generator = 2) -> dh # # Creates a new DH instance from scratch by generating random parameters # and a key pair. # # See also OpenSSL::PKey.generate_parameters and # OpenSSL::PKey.generate_key. # # +size+:: # The desired key size in bits. # +generator+:: # The generator. def generate(size, generator = 2, &blk) dhparams = OpenSSL::PKey.generate_parameters("DH", { "dh_paramgen_prime_len" => size, "dh_paramgen_generator" => generator, }, &blk) OpenSSL::PKey.generate_key(dhparams) end # Handle DH.new(size, generator) form here; new(str) and new() forms # are handled by #initialize def new(*args, &blk) # :nodoc: if args[0].is_a?(Integer) generate(*args, &blk) else super end end end end class DSA include OpenSSL::Marshal # :call-seq: # dsa.public_key -> dsanew # # Returns a new DSA instance that carries just the \DSA parameters and the # public key. # # This method is provided for backwards compatibility. In most cases, there # is no need to call this method. # # For the purpose of serializing the public key, to PEM or DER encoding of # X.509 SubjectPublicKeyInfo format, check PKey#public_to_pem and # PKey#public_to_der. def public_key OpenSSL::PKey.read(public_to_der) end class << self # :call-seq: # DSA.generate(size) -> dsa # # Creates a new DSA instance by generating a private/public key pair # from scratch. # # See also OpenSSL::PKey.generate_parameters and # OpenSSL::PKey.generate_key. # # +size+:: # The desired key size in bits. def generate(size, &blk) dsaparams = OpenSSL::PKey.generate_parameters("DSA", { "dsa_paramgen_bits" => size, }, &blk) OpenSSL::PKey.generate_key(dsaparams) end # Handle DSA.new(size) form here; new(str) and new() forms # are handled by #initialize def new(*args, &blk) # :nodoc: if args[0].is_a?(Integer) generate(*args, &blk) else super end end end # :call-seq: # dsa.syssign(string) -> string # # Computes and returns the \DSA signature of +string+, where +string+ is # expected to be an already-computed message digest of the original input # data. The signature is issued using the private key of this DSA instance. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw instead. # # +string+:: # A message digest of the original input data to be signed. # # Example: # dsa = OpenSSL::PKey::DSA.new(2048) # doc = "Sign me" # digest = OpenSSL::Digest.digest('SHA1', doc) # # # With legacy #syssign and #sysverify: # sig = dsa.syssign(digest) # p dsa.sysverify(digest, sig) #=> true # # # With #sign_raw and #verify_raw: # sig = dsa.sign_raw(nil, digest) # p dsa.verify_raw(nil, sig, digest) #=> true def syssign(string) q or raise OpenSSL::PKey::DSAError, "incomplete DSA" private? or raise OpenSSL::PKey::DSAError, "Private DSA key needed!" begin sign_raw(nil, string) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::DSAError, $!.message end end # :call-seq: # dsa.sysverify(digest, sig) -> true | false # # Verifies whether the signature is valid given the message digest input. # It does so by validating +sig+ using the public key of this DSA instance. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw instead. # # +digest+:: # A message digest of the original input data to be signed. # +sig+:: # A \DSA signature value. def sysverify(digest, sig) verify_raw(nil, sig, digest) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::DSAError, $!.message end end if defined?(EC) class EC include OpenSSL::Marshal # :call-seq: # key.dsa_sign_asn1(data) -> String # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw instead. def dsa_sign_asn1(data) sign_raw(nil, data) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::ECError, $!.message end # :call-seq: # key.dsa_verify_asn1(data, sig) -> true | false # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw instead. def dsa_verify_asn1(data, sig) verify_raw(nil, sig, data) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::ECError, $!.message end # :call-seq: # ec.dh_compute_key(pubkey) -> string # # Derives a shared secret by ECDH. _pubkey_ must be an instance of # OpenSSL::PKey::EC::Point and must belong to the same group. # # This method is provided for backwards compatibility, and calls #derive # internally. def dh_compute_key(pubkey) obj = OpenSSL::ASN1.Sequence([ OpenSSL::ASN1.Sequence([ OpenSSL::ASN1.ObjectId("id-ecPublicKey"), group.to_der, ]), OpenSSL::ASN1.BitString(pubkey.to_octet_string(:uncompressed)), ]) derive(OpenSSL::PKey.read(obj.to_der)) end end class EC::Point # :call-seq: # point.to_bn([conversion_form]) -> OpenSSL::BN # # Returns the octet string representation of the EC point as an instance of # OpenSSL::BN. # # If _conversion_form_ is not given, the _point_conversion_form_ attribute # set to the group is used. # # See #to_octet_string for more information. def to_bn(conversion_form = group.point_conversion_form) OpenSSL::BN.new(to_octet_string(conversion_form), 2) end end end class RSA include OpenSSL::Marshal # :call-seq: # rsa.public_key -> rsanew # # Returns a new RSA instance that carries just the public key components. # # This method is provided for backwards compatibility. In most cases, there # is no need to call this method. # # For the purpose of serializing the public key, to PEM or DER encoding of # X.509 SubjectPublicKeyInfo format, check PKey#public_to_pem and # PKey#public_to_der. def public_key OpenSSL::PKey.read(public_to_der) end class << self # :call-seq: # RSA.generate(size, exponent = 65537) -> RSA # # Generates an \RSA keypair. # # See also OpenSSL::PKey.generate_key. # # +size+:: # The desired key size in bits. # +exponent+:: # An odd Integer, normally 3, 17, or 65537. def generate(size, exp = 0x10001, &blk) OpenSSL::PKey.generate_key("RSA", { "rsa_keygen_bits" => size, "rsa_keygen_pubexp" => exp, }, &blk) end # Handle RSA.new(size, exponent) form here; new(str) and new() forms # are handled by #initialize def new(*args, &blk) # :nodoc: if args[0].is_a?(Integer) generate(*args, &blk) else super end end end # :call-seq: # rsa.private_encrypt(string) -> String # rsa.private_encrypt(string, padding) -> String # # Encrypt +string+ with the private key. +padding+ defaults to # PKCS1_PADDING. The encrypted string output can be decrypted using # #public_decrypt. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw, and # PKey::PKey#verify_recover instead. def private_encrypt(string, padding = PKCS1_PADDING) n or raise OpenSSL::PKey::RSAError, "incomplete RSA" private? or raise OpenSSL::PKey::RSAError, "private key needed." begin sign_raw(nil, string, { "rsa_padding_mode" => translate_padding_mode(padding), }) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::RSAError, $!.message end end # :call-seq: # rsa.public_decrypt(string) -> String # rsa.public_decrypt(string, padding) -> String # # Decrypt +string+, which has been encrypted with the private key, with the # public key. +padding+ defaults to PKCS1_PADDING. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#sign_raw and PKey::PKey#verify_raw, and # PKey::PKey#verify_recover instead. def public_decrypt(string, padding = PKCS1_PADDING) n or raise OpenSSL::PKey::RSAError, "incomplete RSA" begin verify_recover(nil, string, { "rsa_padding_mode" => translate_padding_mode(padding), }) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::RSAError, $!.message end end # :call-seq: # rsa.public_encrypt(string) -> String # rsa.public_encrypt(string, padding) -> String # # Encrypt +string+ with the public key. +padding+ defaults to # PKCS1_PADDING. The encrypted string output can be decrypted using # #private_decrypt. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#encrypt and PKey::PKey#decrypt instead. def public_encrypt(data, padding = PKCS1_PADDING) n or raise OpenSSL::PKey::RSAError, "incomplete RSA" begin encrypt(data, { "rsa_padding_mode" => translate_padding_mode(padding), }) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::RSAError, $!.message end end # :call-seq: # rsa.private_decrypt(string) -> String # rsa.private_decrypt(string, padding) -> String # # Decrypt +string+, which has been encrypted with the public key, with the # private key. +padding+ defaults to PKCS1_PADDING. # # <b>Deprecated in version 3.0</b>. # Consider using PKey::PKey#encrypt and PKey::PKey#decrypt instead. def private_decrypt(data, padding = PKCS1_PADDING) n or raise OpenSSL::PKey::RSAError, "incomplete RSA" private? or raise OpenSSL::PKey::RSAError, "private key needed." begin decrypt(data, { "rsa_padding_mode" => translate_padding_mode(padding), }) rescue OpenSSL::PKey::PKeyError raise OpenSSL::PKey::RSAError, $!.message end end PKCS1_PADDING = 1 SSLV23_PADDING = 2 NO_PADDING = 3 PKCS1_OAEP_PADDING = 4 private def translate_padding_mode(num) case num when PKCS1_PADDING "pkcs1" when SSLV23_PADDING "sslv23" when NO_PADDING "none" when PKCS1_OAEP_PADDING "oaep" else raise OpenSSL::PKey::PKeyError, "unsupported padding mode" end end end end