I am using the RSA_verify() function to validate a SHA that I signed by using the openssl program (via a console). RSA_verify() is always returning a non successful validation, so I think that I am sending incorrect parameters to it.

The following console commands are run in Linux Ubuntu with OpenSSL 0.9.8k.

The C functions are compiled for Android, using OpenSSL 1.0.1...c as far as I remember. It's definitely 1.0.1 (we are updating it to avoid the Heartbleed issue).

This is what I do... please forgive any mistake as I am learning this by myself.

  1. Generate a private key

    openssl genrsa -out private.key 2048
  2. Extract the public key from the private key

    openssl rsa -in private.key -out public.key -outform PEM -pubout
  3. Calculate the SHA from a file called permissions and then sign it with the private.key, the output will be a SHA but with RSA encryption (permissions.sign)

    openssl dgst -sha256 -sign private.key -out permissions.sign permissions
  4. Validate a received SHA signature against the permissions file (it's successful in the Ubuntu console)

    openssl dgst -sha256 -verify public.key -signature permissions.sign permissions
  5. I copy the permissions file, the permissions.sign file and the public.key file to the file system in Android.

  6. I verify that permissions.sign was created with permissions and with a matching private.key... all of this with my public.key (I don't have the private key in Android).

This is the C function.

#include <openssl/pem.h>
#include <openssl/rsa.h>
#include <openssl/sha.h>


/* Initialize the public key */
RSA *pub_key = RSA_new();

if(NULL == pub_key)
   ANDROID_LOGE("RSA_new failed");
   result = 0;
   FILE* fp = fopen(public_key, "r");

   if(NULL == fp)
      ANDROID_LOGE_P("fopen [%s] failed", public_key);
      result = 0;
      /* Read it from the passed path */
      if(PEM_read_RSA_PUBKEY(fp, &pub_key, NULL, NULL) == NULL)
         ANDROID_LOGE_P("[%s] can't be read", public_key);
         result = 0;
         /* Verify the file and its SHA with the public key */
         int verified = RSA_verify(
             file, /* message digest (message to validate) */
             file_size, /* message size */
             sign, /* signature (signed SHA) */
             sign_size, /* signature size */

            result = 1;
            ANDROID_LOGD_P("[%s] is valid", file_to_verify);
            ANDROID_LOGE_P("[%s] is NOT valid", file_to_verify);


  • public_key is a path to public.key
  • PEM_read_RSA_PUBKEY succeeds
  • NID_sha256 is what I think I should use for the verification
  • file is a byte array with the contents of permissions
  • file_size is the array size of file
  • sign is a byte array with the contents of permissions.sign
  • sign_size is the array size of sign
  • RSA_verify() fails, it returns a 0

So the question is, is it correct to:

  • generate the keys with the commands I used,

  • sign the permissions file (which generates permissions.sign),

  • and then try to verify the files with PEM_read_RSA_PUBKEY() and RSA_verify() ?

Are the commands I used for the signing process equivalent to the C functions I used for the verification process?

Please let me know if more info is required or where I could study more about this.


EDIT: I added some error printing after calling RSA_Verify():

ANDROID_LOGE_P("openssl: %s", ERR_reason_error_string(ERR_get_error()));

It prints:

openssl: bad signature

Still investigating.

  • perhaps the error is in reading in the files?
    – Hans Z.
    Apr 10, 2015 at 20:09
  • I verified them, the read process is ok. Thx. Apr 12, 2015 at 14:54
  • 1
    The OpenSSL team recommends you use EVP_DigestSign* and EVP_DigestVerify* functions. See EVP Signing and Verifying. The wiki also provides code you can copy/paste to do it.
    – jww
    Apr 12, 2015 at 18:44

1 Answer 1


There were several missing steps in my reading process for the public key.

The correct commands to generate the private and public keys are as follows:

Generate a private key "openssl genrsa -out private.key 2048"

Extract the public key (DER certificate form) from the private key (needed by RSA_SHA_Verify()) "openssl req -outform DER -new -x509 -key private.key -out public.key -days 30000"

Generate a public key with no certificate info (only needed by "openssl dgst -sha1 -verify ...") "openssl x509 -inform DER -in public.key -pubkey -noout > public_no_cert.key"

Sign a file with the private key "openssl dgst -sha1 -sign private.key -out permissions.sign permissions"

Verify a file with the public key (no certificate info) "openssl dgst -sha1 -verify public_no_cert.key -signature permissions.sign permissions"

Please refer to the documentation on OpenSSL.org for details. I required a X509 DER certificate that was holding the public key to verify the signed SHA with RSA_verify().

An equivalency in command mode to RSA_verify() is:

openssl dgst -sha1 -verify public.key -signature permissions.sign permissions

For code source, please refer to this link: http://www.bmt-online.org/geekisms/RSA_verify

It does NOT compile at first sight, you have to tweak it. Call the functions in there as follows:

   result = sign_data(

   result = verify_data(

Everything has to be in RAM, pass them as pointers.

The signing function expects the pointer to a pointer (**) to save the signed SHA into it. You can later save it into a file.

Tested under Ubuntu openssl 0.9.8k.

If you see that something is missing, please let me know. Thanks for reading!

EDIT: Here's a link to the source code... http://migsantiago.com/index.php/tutoriales/32-firma-y-valida-archivos-con-openssl

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