The following command generates a signature for an input file:
openssl dgst -sha1 -sign privateKey.pem -out signature1 someInputFile
The following commands also generates a signature for an input file:
openssl dgst -binary -sha1 someInputFile > digest
openssl rsautl -sign -in digest -inkey privateKey.pem -out signature2
As far as I know, they should both create the RSA signature of a SHA1 digest of the file. But they don't generate the same signature.
As a result, the signature generated with method 2 can also not be verified by an openssl dgst -verify
call.
Does somebody know what the difference is, and how that can be overcome?
The simple answer is that dgst -sign
creates a hash, ASN1 encodes it, and then signs the ASN1 encoded hash, whereas rsautl -sign
just signs the input without hashing or ASN1 encoding. Both methods include the input data in the output, together with the signature, rather than producing only a signature as output. Here is a Bash script that shows the difference between openssl dgst -sign
and openssl rsautl -sign
.
#!/bin/bash
# @(#) Bash script demos difference between openssl rsautl and dgst signing
# Usage: $0 <name of file to sign> <private key file, without passphrase>
# 1. Make an ASN1 config file
cat >asn1.conf <<EOF
asn1 = SEQUENCE:digest_info_and_digest
[digest_info_and_digest]
dinfo = SEQUENCE:digest_info
digest = FORMAT:HEX,OCT:`openssl dgst -sha256 $1 |cut -f 2 -d ' '`
[digest_info]
algid = OID:2.16.840.1.101.3.4.2.1
params = NULL
EOF
# If you are wondering what the "algid = OID:2.16.840.1.101.3.4.2.1" is, it's
# the SHA256 OID, see http://oid-info.com/get/2.16.840.1.101.3.4.2.1
# 2. Make a DER encoded ASN1 structure that contains the hash and
# the hash type
openssl asn1parse -i -genconf asn1.conf -out $1.dgst.asn1
# 3. Make a signature file that contains both the ASN1 structure and
# its signature
openssl rsautl -sign -in $1.dgst.asn1 -inkey $2 -out $1.sig.rsa
# 4. Verify the signature that we just made and ouput the ASN structure
openssl rsautl -verify -in $1.sig.rsa -inkey $2 -out $1.dgst.asn1_v
# 5. Verify that the output from the signature matches the original
# ASN1 structure
diff $1.dgst.asn1 $1.dgst.asn1_v
# 6. Do the equivalent of steps 1-5 above in one "dgst" command
openssl dgst -sha256 -sign $2 -out $1.sig.rsa_dgst $1
# 7. Verify that the signature file produced from the rsautl and the dgst
# are identical
diff $1.sig.rsa $1.sig.rsa_dgst
See my comment above to the OP for the credits.
The first one creates a signature. The second one encrypts the hash. They are not doing the same thing.