I have two XML files, structured as follows:

My Key

  <Modulus> ... </Modulus>
  <Exponent> ... </Exponent>
  <P> ... </P>
  <Q> ... </Q>
  <DP> ... </DP>
  <DQ> ... </DQ>
  <InverseQ> ... </InverseQ>
  <D> ... </D>

A Public Key

   <Modulus> ... </Modulus>
   <Exponent> ... </Exponent>

I am using the xmlseclibs library by Robert Richards which requires a .PEM representation of the key in order to encrypt and decrypt things.

As an encryption novice, I'm not sure where to begin, and a cursory Google search did not reveal anything particularly obvious...


  • It appears that the xmlseclibs has a method XMLSecurityKey::convertRSA which accepts a modulus and an exponent and will create a PEM compatible public key. However, it does not seem to have any methods to create the necessary private keys. Any help on that?
    – Philip
    Commented Jun 22, 2010 at 15:54
  • I believe the key format/presentation is from RFC 3275, XML-Signature Syntax and Processing
    – jww
    Commented Dec 18, 2017 at 17:28

6 Answers 6


I have found a Java utility that can do it.


For those who want the resulting PEM to be readable by BouncyCastle:

  1. use XMLSec2PEM tool to get a pem file
  2. convert pem to pkcs8 and back (!)

The final solution I am happy with:

  1. java XMLSec2PEM my.xml > my.pem
  2. edit my.pem manually a bit
  3. org.bouncycastle.openssl.PEMReader.readObject() returns null :-(
  4. openssl pkcs8 -topk8 -inform pem -in my.pem -outform pem -nocrypt -out my.pkcs8
  5. openssl pkcs8 -inform pem -nocrypt -in my.pkcs8 -out my.pkcs8.pem
  6. now my.pkcs8.pem is readable with the PEMReader

my solution in python works like this:

  1. extract modulus and exponent from xml
    xml = etree.fromstring(key_bin)
    modulus = xml.find('Modulus').text
    exponent = xml.find('Exponent').text
  2. decode them in base64 and iterate the result to save it as a character string of length 2:
    mod_b64 = b64decode(modulus.encode())
    exp_b64 = b64decode(exponent.encode())
    exp = ''.join(['{:02x}'.format(x) for x in exp_b64])
    mod = ''.join(['{:02x}'.format(x) for x in mod_b64]) 
  3. Convert the hexadecimal string to integer and generate the rsa public key with the rsa library:
    exp_num = int(exp, 16)
    mod_num = int(mod, 16)
    rsa_key = rsa.PublicKey(mod_num, exp_num)
  4. Finally any text can be encrypted:
    msg_cryp = rsa.encrypt(msg.encode('ascii'), rsa_key)
    msg_cryp_str = b64encode(msg_cryp).decode('ascii') 

I did this development to consume a web service which requires that an encrypted password be sent from a public key in XML format. In this way I managed to encrypt the password and consume the web service without problems.


Since xmlseclibs is PHP it seems like another PHP solution might be desirable. Here's how:


$rsa = new Crypt_RSA();
  <Modulus> ... </Modulus>
  <Exponent> ... </Exponent>
  <P> ... </P>
  <Q> ... </Q>
  <DP> ... </DP>
  <DQ> ... </DQ>
  <InverseQ> ... </InverseQ>
  <D> ... </D>

$privatekey = $rsa->getPrivateKey();
$publickey = $rsa->getPublicKey();

phpseclib has built in support for XML keys, PuTTY keys and PKCS1 keys. It'll auto detect the format and load it and getPrivateKey / getPublicKey will output PKCS1 formatted keys by default if no parameters are provided. More info:



Here is a ruby version script to convert RSA to pem, vice versa.

  1. Make sure Ruby has been installed.

  2. start irb in your terminal

    > irb
  3. Paste the following code to the irb console.

    require 'openssl'
    require 'base64'
    require 'rexml/document'
    class PKeyRSAConverter
      def initialize(from_pem:nil, from_xml:nil)
        @from_pem = from_pem
        @from_xml = from_xml
      def to_xml
        xml  = '<RSAKeyValue>'
        xml += "<Modulus>#{xml_base64(xml_pkey.n)}</Modulus>"
        xml += "<Exponent>#{xml_base64(xml_pkey.e)}</Exponent>"
        xml += '</RSAKeyValue>'
      def to_pem
      def pem_key
        exponent = xml_find_exponent.to_s
        modulus = xml_find_modulus.to_s
        key = OpenSSL::PKey::RSA.new
        key.set_key(pem_base64(modulus), pem_base64(exponent), nil)
      def xml_find_modulus
        REXML::XPath.match(xml_document.root, "//RSAKeyValue/Modulus/text()")[0]
      def xml_find_exponent
        REXML::XPath.match(xml_document.root, "//RSAKeyValue/Exponent/text()")[0]
      def xml_document
        @xml_document ||= REXML::Document.new(@from_xml.to_s)
      def pem_base64(string)
        Base64.urlsafe_decode64(string).bytes.inject(0){|a,e| (a << 8)| e }
      def xml_pkey
        @xml_pkey ||= OpenSSL::PKey::RSA.new(@from_pem)
      def xml_base64(int)
  4. pem -> xml

    Here is an example to convert PEM to xml

    rsa_pem="-----BEGIN PUBLIC KEY-----\nMFwwDQYJKoZIhvcNAQEBBQADSwAwSAJBAJYOlB8N/EdJL9nqEsRNF+No/9QkmPaX\n/xxpPleZTTNgakTkUlmyZPud8eEGsaX7nLgoVF39zTrXeg4hIeaWsAsCAwEAAQ==\n-----END     PUBLIC KEY-----\n"
    puts 'Convert PEM to XML'
    to_xml = PKeyRSAConverter.new(from_pem: rsa_pem).to_xml
    puts to_xml == rsa_xml
  5. xml -> pem

    Here is an example to convert xml to PEM

    puts 'Convert XML to PEM'
    to_pem = PKeyRSAConverter.new(from_xml: rsa_xml).to_pem
    puts rsa_pem == to_pem


  1. Github Gist: anicet/pkey_rsa_converter.rb

Found this useful online tool RSA Key Converter, which supports

  • XML -> PEM
  • PEM -> XML
  • 20
    Never use online tools for this kind of sensitive information.
    – Torge
    Commented Feb 11, 2015 at 11:21
  • 1
    It can be used for public keys only.
    – Ofigenn
    Commented Jan 10, 2017 at 15:32
  • 1
    It can be useful for publicly known private keys, that are used for demonstrations too. Commented Jul 23, 2017 at 20:03

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