I have a certificate in der format, from it with this command I generate a public key:

openssl x509 -inform der -in ejbcacert.cer -noout -pubkey > pub1key.pub

Which results in this:

-----END PUBLIC KEY-----

How can I obtain a public key like this? Either from certificate or from this public key?

ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAAAgQC7vbqajDw4o6gJy8UtmIbkcpnkO3Kwc4qsEnSZp/TR+fQi62F79RHWmwKOtFmwteURgLbj7D/WGuNLGOfa/2vse3G2eHnHl5CB8ruRX9fBl/KgwCVr2JaEuUm66bBQeP5XeBotdR4cvX38uPYivCDdPjJ1QWPdspTBKcxeFbccDw==

This was obtained with this command:

ssh-keygen -y -f private_key1.pem > public_key1.pub
  • 17
    The way you posted in the "This was obtained with this command" worked for me better than any of the answers below. Commented Nov 20, 2012 at 21:21
  • 11
    @YoavShipra. Yes but the whole question is that he wants to convert using only the public key. Maybe he doesn't have the private key and he only has the public key and wants to convert from PEM format to ssh-rsa format. Commented Mar 23, 2015 at 14:44
  • 13
    Given a .pem from AWS, the command you give above ssh-keygen -y -f private_key1.pem > public_key1.pub worked great for me.
    – Kzqai
    Commented Apr 21, 2015 at 20:03
  • 5
    All wrong answers. This is the correct one: ssh-keygen -i -m PKCS8 -f public-key.pem
    – Boeboe
    Commented Mar 28, 2018 at 14:55
  • 4
    Beauty is in the eye of the beholder. We need to note that a pem key could container either public key or private key, or both; encrypted or maybe not; plus with various format. Also the meaning of option -m is different for -i/-e. So my friends, please make sure you know what you want and what you have. :-)
    – ryenus
    Commented Sep 4, 2019 at 3:19

13 Answers 13


No need to compile stuff. You can do the same with ssh-keygen:

ssh-keygen -f pub1key.pub -i

will read the public key in openssl format from pub1key.pub and output it in OpenSSH format.

Note: In some cases you will need to specify the input format:

ssh-keygen -f pub1key.pub -i -m PKCS8

From the ssh-keygen docs (From man ssh-keygen):

-m key_format Specify a key format for the -i (import) or -e (export) conversion options. The supported key formats are: “RFC4716” (RFC 4716/SSH2 public or private key), “PKCS8” (PEM PKCS8 public key) or “PEM” (PEM public key). The default conversion format is “RFC4716”.

  • 4
    ssh-keygen: illegal option -- m
    – mbonnin
    Commented Jun 12, 2012 at 14:05
  • 3
    The question goes the other way.
    – 131
    Commented Jul 20, 2015 at 21:51
  • 24
    In my case, the -m PKCS8 was necessary
    – Ian Hunter
    Commented Apr 13, 2016 at 22:43
  • 1
    $ ssh-keygen -f mykey.pub -i key_from_blob: invalid format decode blob failed. Commented Dec 2, 2016 at 13:27
  • 1
    I added back the more specific, longer format to the answer because it was required by myself and some others. Seems like which works depends on what version of ssh-keygen you are using and/ or input format.
    – Ogre Codes
    Commented Aug 23, 2017 at 21:51

No need for scripts or other 'tricks': openssl and ssh-keygen are enough. I'm assuming no password for the keys (which is bad).

Generate an RSA pair

All the following methods give an RSA key pair in the same format

  1. With openssl (man genrsa)

    openssl genrsa -out dummy-genrsa.pem 2048

    In OpenSSL v1.0.1 genrsa is superseded by genpkey so this is the new way to do it (man genpkey):

    openssl genpkey -algorithm RSA -out dummy-genpkey.pem -pkeyopt rsa_keygen_bits:2048
  2. With ssh-keygen

    ssh-keygen -t rsa -b 2048 -f dummy-ssh-keygen.pem -N '' -C "Test Key"

Converting DER to PEM

If you have an RSA key pair in DER format, you may want to convert it to PEM to allow the format conversion below:


openssl genpkey -algorithm RSA -out genpkey-dummy.cer -outform DER -pkeyopt rsa_keygen_bits:2048


openssl rsa -inform DER -outform PEM -in genpkey-dummy.cer -out dummy-der2pem.pem

Extract the public key from the PEM formatted RSA pair

  1. in PEM format:

    openssl rsa -in dummy-xxx.pem -pubout
  2. in OpenSSH v2 format see:

    ssh-keygen -y -f dummy-xxx.pem


OS and software version:

[user@test1 ~]# cat /etc/redhat-release ; uname -a ; openssl version
CentOS release 6.5 (Final)
Linux test1.example.local 2.6.32-431.el6.x86_64 #1 SMP Fri Nov 22 03:15:09 UTC 2013 x86_64 x86_64 x86_64 GNU/Linux
OpenSSL 1.0.1e-fips 11 Feb 2013


  • // , Does this actually generate a key in the ssh-rsa format? Good reference, btw. Commented Nov 17, 2016 at 5:05
  • @NathanBasanese, yes (see "Extract the public key from the PEM formatted RSA pair", point 2): once one has the certificate in pem format: ssh-keygen -y -f dummy-xxx.pem produces an ssh-rsa AAAA[...]== fit for ssh's authorized_keys file.
    – Thomas BDX
    Commented Feb 9, 2017 at 14:54
  • Good informative piece... but I don't think it really answers the question as well as the above much shorter piece.
    – Ogre Codes
    Commented Aug 23, 2017 at 21:48
  • By converting it shows: unable to load Private Key 10828:error:0D0680A8:asn1 encoding routines:ASN1_CHECK_TLEN:wrong tag:.\crypto\a sn1\tasn_dec.c:1200: Commented Sep 29, 2021 at 12:08
  • Write out: OpenSSL> rsa -in genpkeySSH.pem -pubout -out genpubkeySSH.pem Commented Sep 29, 2021 at 12:27

To answer my own question, after posting on openssl mailing list got this:

Here is C code to convert from an OpenSSL public key to an OpenSSH public key. You can grab the code from this link and compile it yourself:

static unsigned char pSshHeader[11] = { 0x00, 0x00, 0x00, 0x07, 0x73, 0x73, 0x68, 0x2D, 0x72, 0x73, 0x61};

static int SshEncodeBuffer(unsigned char *pEncoding, int bufferLen, unsigned char* pBuffer)
   int adjustedLen = bufferLen, index;
   if (*pBuffer & 0x80)
      pEncoding[4] = 0;
      index = 5;
      index = 4;
   pEncoding[0] = (unsigned char) (adjustedLen >> 24);
   pEncoding[1] = (unsigned char) (adjustedLen >> 16);
   pEncoding[2] = (unsigned char) (adjustedLen >>  8);
   pEncoding[3] = (unsigned char) (adjustedLen      );
   memcpy(&pEncoding[index], pBuffer, bufferLen);
   return index + bufferLen;

int main(int argc, char**  argv)
   int iRet = 0;
   int nLen = 0, eLen = 0;
   int encodingLength = 0;
   int index = 0;
   unsigned char *nBytes = NULL, *eBytes = NULL;
   unsigned char* pEncoding = NULL;
   FILE* pFile = NULL;
   EVP_PKEY *pPubKey = NULL;
   RSA* pRsa = NULL;
   BIO *bio, *b64;


   if (argc != 3)
      printf("usage: %s public_key_file_name ssh_key_description\n", argv[0]);
      iRet = 1;
      goto error;

   pFile = fopen(argv[1], "rt");
   if (!pFile)
      printf("Failed to open the given file\n");
      iRet = 2;
      goto error;

   pPubKey = PEM_read_PUBKEY(pFile, NULL, NULL, NULL);
   if (!pPubKey)
      printf("Unable to decode public key from the given file: %s\n", ERR_error_string(ERR_get_error(), NULL));
      iRet = 3;
      goto error;

   if (EVP_PKEY_type(pPubKey->type) != EVP_PKEY_RSA)
      printf("Only RSA public keys are currently supported\n");
      iRet = 4;
      goto error;

   pRsa = EVP_PKEY_get1_RSA(pPubKey);
   if (!pRsa)
      printf("Failed to get RSA public key : %s\n", ERR_error_string(ERR_get_error(), NULL));
      iRet = 5;
      goto error;

   // reading the modulus
   nLen = BN_num_bytes(pRsa->n);
   nBytes = (unsigned char*) malloc(nLen);
   BN_bn2bin(pRsa->n, nBytes);

   // reading the public exponent
   eLen = BN_num_bytes(pRsa->e);
   eBytes = (unsigned char*) malloc(eLen);
   BN_bn2bin(pRsa->e, eBytes);

   encodingLength = 11 + 4 + eLen + 4 + nLen;
   // correct depending on the MSB of e and N
   if (eBytes[0] & 0x80)
   if (nBytes[0] & 0x80)

   pEncoding = (unsigned char*) malloc(encodingLength);
   memcpy(pEncoding, pSshHeader, 11);

   index = SshEncodeBuffer(&pEncoding[11], eLen, eBytes);
   index = SshEncodeBuffer(&pEncoding[11 + index], nLen, nBytes);

   b64 = BIO_new(BIO_f_base64());
   BIO_set_flags(b64, BIO_FLAGS_BASE64_NO_NL);
   bio = BIO_new_fp(stdout, BIO_NOCLOSE);
   BIO_printf(bio, "ssh-rsa ");
   bio = BIO_push(b64, bio);
   BIO_write(bio, pEncoding, encodingLength);
   bio = BIO_pop(b64);
   BIO_printf(bio, " %s\n", argv[2]);

   if (pFile)
   if (pRsa)
   if (pPubKey)
   if (nBytes)
   if (eBytes)
   if (pEncoding)

   return iRet;
  • 5
    In case someone is wondering how to compile this (I was), here's the compiler call: gcc -o pubkey2ssh pubkey2ssh.c -lcrypto Commented Feb 20, 2011 at 14:10
  • where does on get argv[2] (ssh_key_description) from... I just have a -----BEGIN RSA PUBLIC KEY----- MIGJAoGBAMC62xWiOZYlhUhmk+JESy5eZunwGoG9kSHUMn67iBNZLEsR2qN44J1B TOtZRuEsSAKxu7alFlJVu5aSGbUvin3DusYAsl5sZjTf9VZgJHsVycOrtChC1tUi WMAWfv2BLTmK4zBEC33riEBLeX8Trphp3YbIMtzqV81ZrzHZbSnrAgMBAAE= -----END RSA PUBLIC KEY----- it doesn't have a description
    – braden
    Commented Sep 18, 2013 at 19:24
  • @braden. Usually it is just the email address of the key's owner. But you can put whatever you want int he description. Commented Mar 23, 2015 at 14:45
  • A php implementation opensshtopem here github.com/131/yks/blob/master/class/stds/crypt.php#L346
    – 131
    Commented Jul 20, 2015 at 21:53
  • The answer from @mkalkov below does the conversion using Linux command line tools. It just needs public key pem file with headers removed and lines merged as an input. Commented Jan 22, 2016 at 19:01
ssh-keygen -i -m PKCS8 -f public-key.pem
  • 5
    Did not work for me: "do_convert_from_pkcs8: key.pem is not a recognised public key format". What did work was "ssh-keygen -y -f key.pem" which prints out the ssh-rsa text needed for authorized_keys.
    – Curt
    Commented Feb 4, 2019 at 21:00
  • 2
    This is not working do_convert_from_pkcs8: TEST.pem is not a recognised public key format Commented Apr 4, 2019 at 13:44
  • Worked for me after openssl genrsa -out newkey.pem 2048 and openssl rsa -in newkey.pem -outform PEM -pubout -out newkeypublic.pem
    – xirix
    Commented Aug 9, 2019 at 18:34
ssh-keygen -f private.pem -y > public.pub

The following script would obtain the ci.jenkins-ci.org public key certificate in base64-encoded DER format and convert it to an OpenSSH public key file. This code assumes that a 2048-bit RSA key is used and draws a lot from this Ian Boyd's answer. I've explained a bit more how it works in comments to this article in Jenkins wiki.

echo -n "ssh-rsa " > jenkins.pub
curl -sfI https://ci.jenkins-ci.org/ | grep -i X-Instance-Identity | tr -d \\r | cut -d\  -f2 | base64 -d | dd bs=1 skip=32 count=257 status=none | xxd -p -c257 | sed s/^/00000007\ 7373682d727361\ 00000003\ 010001\ 00000101\ / | xxd -p -r | base64 -w0 >> jenkins.pub
echo >> jenkins.pub
  • 1
    OMG this is the best answer! And it works! (I only had to replace status=none with status=noxfer). Just use the second command starting with "base64" and give it a PEM file on input with headers stripped out and all lines concatenated into one. Thank you @mkalkov! Commented Jan 22, 2016 at 18:59
  • Note the commands above assume 2048-bit key and will not work correctly if given a key of a different size. Commented Jan 27, 2016 at 2:00

I did with

ssh-keygen -i -f $sshkeysfile >> authorized_keys

Credit goes here

  • 1
    Why did you not give credit to Victor above? He gave you the same command almost 8 months earlier.
    – jww
    Commented May 27, 2015 at 22:16
  • 1
    @jww From the edit log of Victor's reply you may see that originally the answer was a little different, I assume this is the reason
    – periklis
    Commented May 28, 2015 at 5:46

FWIW, this BASH script will take a PEM- or DER-format X.509 certificate or OpenSSL public key file (also PEM format) as the first argument and disgorge an OpenSSH RSA public key. This expands upon @mkalkov's answer above. Requirements are cat, grep, tr, dd, xxd, sed, xargs, file, uuidgen, base64, openssl (1.0+), and of course bash. All except openssl (contains base64) are pretty much guaranteed to be part of the base install on any modern Linux system, except maybe xxd (which Fedora shows in the vim-common package). If anyone wants to clean it up and make it nicer, caveat lector.

# Extract a valid SSH format public key from an X509 public certificate.

# Variables:

# See if a file was passed:
[ ! -f "$pubFile" ] && echo "Error, bad or no input file $pubFile." && exit 1

# If it is a PEM format X.509 public cert, set $fileType appropriately:
pemCertType="X$(file $pubFile | grep 'PEM certificate')"
[ "$pemCertType" != "X" ] && fileType="PEM"

# If it is an OpenSSL PEM-format PKCS#8-style public key, set $fileType appropriately:
pkEightType="X$(grep -e '-BEGIN PUBLIC KEY-' $pubFile)"
[ "$pkEightType" != "X" ] && fileType="PKCS"

# If this is a file we can't recognise, try to decode a (binary) DER-format X.509 cert:
if [ "$fileType" = "no" ]; then
        openssl x509 -in $pubFile -inform DER -noout
        derResult=$(echo $?)
        [ "$derResult" = "0" ] && fileType="DER"

# Exit if not detected as a file we can use:
[ "$fileType" = "no" ] && echo "Error, input file not of type X.509 public certificate or OpenSSL PKCS#8-style public key (not encrypted)." && exit 1

# Convert the X.509 public cert to an OpenSSL PEM-format PKCS#8-style public key:
if [ "$fileType" = "PEM" -o "$fileType" = "DER" ]; then
        openssl x509 -in $pubFile -inform $fileType -noout -pubkey > $tmpFile

# Build the string:
# Front matter:
frontString="$(echo -en 'ssh-rsa ')"

# Encoded modulus and exponent, with appropriate pointers:
encodedModulus="$(cat $pkEightTypeFile | grep -v -e "----" | tr -d '\n' | base64 -d | dd bs=1 skip=32 count=257 status=none | xxd -p -c257 | sed s/^/00000007\ 7373682d727361\ 00000003\ 010001\ 00000101\ / | xxd -p -r | base64 -w0 )"

# Add a comment string based on the filename, just to be nice:
commentString=" $(echo $pubFile | xargs basename | sed -e 's/\.crt\|\.cer\|\.pem\|\.pk8\|\.der//')"

# Give the user a string:
echo $frontString $encodedModulus $commentString

# cleanup:
rm -f $tmpFile

This is what worked for me, since i only had access to the Public Key:

  1. Convert the PEM public key to a PKCS8 compatible Public Key
    openssl x509 -pubkey -noout -in pubcertkey.pem > pubcertkey.pub
  1. Convert the PKCS8 Public Key to a ssh-rsa key
    ssh-keygen -i -mPKCS8 -f pubcertkey.pub > pubcertkey-ssh-rsa.pub

Please be aware that even current Win32-OpenSSH builds seem to have a bug preventing this conversion from happening, as referenced here on this dedicated GitHub issue page.

Issue can be confirmed with this behaviour :

  • Output from the command is blank (but no error printed) : Blank output
  • An error can be found in Windows event viewer under the "Windows Logs/Applications" journal : Error in "Applications" journal

Only alternative seems to not use Win32-OpenSSH for this specific task.


Tested for Oracle Cloud Instance public key request:

Private key generation (with passphrase):

openssl genrsa -des3 -out private.pem 4096

Public key extraction:

openssl rsa -in private.pem -pubout -out public.pem

Public key conversion in "ssh-rsa" format:

ssh-keygen -i -m PKCS8 -f public.pem > public.pub

Ensure that the permissions for the SSH folder and keys are as follows (public keys must be 644, private keys must be 400):

chmod 400 private.pem
chmod 644 public.pem
chmod 644 public.pub

You can also use phpseclib library

$keyObj = phpseclib3\Crypt\PublicKeyLoader::load($key, $passphrase)
$keyString = $keyObj->getPublicKey()->toString('OpenSSH');

$key can be a public or private string. If it is a file then just wrap it in file_get_contents($key)


Don't reinvent the wheel and use what exists, it's better for everyone. I'm using an Ubuntu server with Puttygen, which is an excellent tool. There are a few lines, or just one, if you prefer (single liner with a few && and ||):

apt update
apt install -y putty-tools
puttygen "./key-to-convert.pem" -o "./key-in-ssh-openssl.txt" -O public-openssh
cat "./key-in-ssh-openssl.txt"

Just it..

Note: If possible, take a look at puttygen help, it has lots of cool and easy-to-access stuff. For example, theses are the output formats that can be used with puttygen using '-O' option:

  1. private output PuTTY private key format (.ppk)
  2. private-openssh export OpenSSH private key
  3. private-openssh-new export OpenSSH private key (force new format)
  4. private-sshcom export ssh.com private key
  5. public RFC 4716 / ssh.com public key
  6. public-openssh OpenSSH public key
  7. fingerprint output the key fingerprint
  8. cert-info print certificate information
  9. text output the key components as 'name=0x####'

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