I am looking for a procedure of enroll a certificate.

I have search a lot but didn't find a good answer.Till now I get that firstly I have to generate a Key store (For creating a public key and a private key)then private key should be kept private and public key is send with other information (like name ,organization )to the CA.Then CA will generate something and give me back which contain the public key and information.

Till now i get this but What CA generate? What is P12 file and what is .cer file contain?

Can anyone help me with this question i am really feel helpless. Thanks in advance.

up vote 10 down vote accepted

The general procedure to issue certificates in a Public Key Infraestructure is moreless the following.

1) the client generates a key pair, private and public

2) the client generates a CSR (Certificate Signing Request) including attributes like Common Name and the Public key. Signs it with the private key and sends it to the server

3) The server builds the X509 Certificate with the CSR data, sins it with the CA private key and returns the X509 to client

4) the client stores the private key and the certificate in a KeyStore

What CA generate?

The x509 certificate

What is P12 file

A file in PKCS#12 format (.pfx,.p12) containing a key store

what is .cer file contain

The public part of the certificate( not private key) in DER or PEM format

EDITED - CSR generation on Android

Gradle dependencies

compile 'com.madgag.spongycastle:core:'
compile 'com.madgag.spongycastle:pkix:'

Generate KeyPair and CSR

//Generate KeyPair
KeyPairGenerator keyGen = KeyPairGenerator.getInstance("RSA");
keyGen.initialize(KEY_SIZE, new SecureRandom());
KeyPair keyPair = keyGen.generateKeyPair();

//Generate CSR in PKCS#10 format encoded in DER
PKCS10CertificationRequest csr = CsrHelper.generateCSR(keyPair, commonname);
byte  CSRder[] = csr.getEncoded();


public class CsrHelper {

  private final static String DEFAULT_SIGNATURE_ALGORITHM = "SHA256withRSA";
  private final static String CN_PATTERN = "CN=%s, O=Aralink, OU=OrgUnit";

  private static class JCESigner implements ContentSigner {

        private static Map<String, AlgorithmIdentifier> ALGOS = new HashMap<String, AlgorithmIdentifier>();

        static {
            ALGOS.put("SHA256withRSA".toLowerCase(), new AlgorithmIdentifier(
                    new ASN1ObjectIdentifier("1.2.840.113549.1.1.11")));
            ALGOS.put("SHA1withRSA".toLowerCase(), new AlgorithmIdentifier(
                    new ASN1ObjectIdentifier("1.2.840.113549.1.1.5")));


        private String mAlgo;
        private Signature signature;
        private ByteArrayOutputStream outputStream;

        public JCESigner(PrivateKey privateKey, String sigAlgo) {
            //Utils.throwIfNull(privateKey, sigAlgo);
            mAlgo = sigAlgo.toLowerCase();
            try {
                this.outputStream = new ByteArrayOutputStream();
                this.signature = Signature.getInstance(sigAlgo);
            } catch (GeneralSecurityException gse) {
                throw new IllegalArgumentException(gse.getMessage());

        public AlgorithmIdentifier getAlgorithmIdentifier() {
            AlgorithmIdentifier id = ALGOS.get(mAlgo);
            if (id == null) {
                throw new IllegalArgumentException("Does not support algo: " +
            return id;

        public OutputStream getOutputStream() {
            return outputStream;

        public byte[] getSignature() {
            try {
                return signature.sign();
            } catch (GeneralSecurityException gse) {
                return null;

//Create the certificate signing request (CSR) from private and public keys
public static PKCS10CertificationRequest generateCSR(KeyPair keyPair, String cn) throws IOException,
            OperatorCreationException {
        String principal = String.format(CN_PATTERN, cn);

        ContentSigner signer = new JCESigner (keyPair.getPrivate(),DEFAULT_SIGNATURE_ALGORITHM);

        PKCS10CertificationRequestBuilder csrBuilder = new JcaPKCS10CertificationRequestBuilder(
                new X500Name(principal), keyPair.getPublic());
        ExtensionsGenerator extensionsGenerator = new ExtensionsGenerator();
        extensionsGenerator.addExtension(Extension.basicConstraints, true, new BasicConstraints(
        PKCS10CertificationRequest csr = csrBuilder.build(signer);

        return csr;
  • Thanks for this beautiful answer @pedrofb – Dante Jun 20 '16 at 7:20
  • can you provide me the code for this. – Dante Jun 21 '16 at 7:44
  • Which part you need? ¿Client and / or server? What language? I can send you links. – pedrofb Jun 21 '16 at 8:58
  • 1
    Haha. The server part could be difficult and you have to be aware of many considerations. I suggest you to take a look to this opensource project ejbca.org which is a full PKI server written in Java. You can find there all you need. For example, in this class you can found the code to generate a final entity certificate cesecore.eu/svn/ejbca/tags/Rel_3_0_2/ejbca/src/java/se/anatom/…. After this ask for specific answers in StackOverflow – pedrofb Jun 21 '16 at 12:51
  • 1
    I'm afraid this site does not work like that. Stack Overflow is a programming site. If you have specific cryptography questions I suggest you ask at crypto.stackexchange.com or security.stackexchange.com There are a lot of people out there who know a lot more about cryptography than I do and who will be Delighted to help you – pedrofb Jul 18 '17 at 8:11

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