I have a purpose to create the same private key / public key based on an input string:

I am facing a problem when trying to import a ECC private key:

This private key was created from a hash:

import sys
import base64
import string
from Crypto.PublicKey import ECC
from Crypto.Hash import SHA256
from Crypto.IO import PEM
input = sys.argv[1]
input_hash = SHA256.new(input)
private_pem = PEM.encode(input_hash.digest(), "PRIVATE KEY",  passphrase=None, randfunc=None)
key = ECC.import_key(private_pem)

bellow the trace:

Traceback (most recent call last): File "request.py", line 29, in key = ECC.import_key(private_pem) File "C:\Python27\lib\site-packages\Crypto\PublicKey\ECC.py", line 792, in import_key return _import_der(der_encoded, passphrase) File "C:\Python27\lib\site-packages\Crypto\PublicKey\ECC.py", line 725, in _import_der raise ValueError("Not an ECC DER key") ValueError: Not an ECC DER key

Anyone have an idea about the problem?


There are standard on how keys should be encoded. It seems the import_key method validates that it is ASN.1 DER encoded, after stripping the ASCII armor supplied by the PEM encoding.

PEM consists of a header- and footer line, in this case the generic PRIVATE KEY header. This line doesn't indicate the type of the key. Therefore it uses the PKCS#8 wrapped representation of the key, which contains an identifier to indicate the key type. This PKCS#8 has been specified by the ASN.1 notation which indicates the structure of the key and DER which specified how the values are encoded using that structure. PKCS#8 may also wrap the key, but as you've not specified a password I assume it isn't.

Now inside the PKCS#8 there should be a representation of the key itself. For ECC usually X9.62 is used. This is again an ASN.1 / DER encoding of the key. It doesn't just contain the private key value. It also contains a reference to the ECC domain parameters used - or the domain parameters in full. You will have to create this structure yourself if you use the method you've specified. How the structure is to be encoded is specified in section 3 of RFC-5915.

It seems that you should be able to create a shortcut and only supply a X9.62 public key as specified in the RFC to import_key (check the documentation!). In that case use PRIVATE EC KEY instead of PRIVATE KEY in the header and footer line. See the answer of Thomas here for more info on the structure - or just reference the RFC.

You may need an ASN.1 or DER library as ASN.1 encoding/decoding is not for the weak of heart (and is a common source for out of bounds, buffer overruns and integer overflow errors in many implementations, negating most of the security that crypto can provide).

  • Apologies, my Python environment is not operative at the moment, I can only explain, not code. – Maarten Bodewes Jan 27 '18 at 13:12

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