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For an application I want to write, the webservice gives me this public key, with which I have to encrypt the password for signing in. But I don't know what kind of encryption this might be. Is this recognisable? Is it possible to tell what this is or do I have to find it out my own by sniffing into the JavaScript (of the web GUI) which handles this key?

Here it is:

-----BEGIN PUBLIC KEY-----
MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDN+SsAsYvIstaZ\/SYUNv7wvr+a
Ajkc28XxuKWpCbqFQS+EWeYpbuBB88iJU98yFjsFMh5BLbXhEX+2JmrC0DWd6o3r
1ILhNL27KmXo6Dh+2y0b9l3YXtmwiA1ThZEQun4Z1rUBPMF43DF805keLIsASFpj
nzc6zWw+jYCX7PTasQIDAQAB
-----END PUBLIC KEY-----

The fact that there is PUBLIC KEY, indicates this is asymmetric encryption. But there are lots of it. Here is a list, taken from Wikipedia of asymmetric encryption methods:

Benaloh · Blum–Goldwasser · Cayley–Purser · CEILIDH · Cramer–Shoup · Damgård–Jurik · DH · DSA · EPOC · ECDH · ECDSA · EKE · ElGamal (encryption · signature scheme) · GMR · Goldwasser–Micali · HFE · IES · Lamport · McEliece · Merkle–Hellman · MQV · Naccache–Stern · NTRUEncrypt · NTRUSign · Paillier · Rabin · RSA · Okamoto–Uchiyama · Schnorr · Schmidt–Samoa · SPEKE · SRP · STS · Three-pass protocol · XTR

RSA is the only one I know by it's name. Is that the most common one?

Thanks you very much for the help.

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1  
Looks like a certificate signing request (CSR) for an SSL cert. It's not though -- sslshopper.com/csr-decoder.html –  George Johnston Dec 12 '11 at 19:43
    
openssl can't seem to decode it (tries in rsa, dsa mode with -pubin with all -inform options, as well as req and with gpg –  bdonlan Dec 12 '11 at 19:47

1 Answer 1

up vote 11 down vote accepted

It's a 1024-bit RSA public key in PEM format with one character mangled in the first line:

Public-Key: (1024 bit)
Modulus:
 00:cd:f9:2b:00:b1:8b:c8:b2:d6:99:fd:26:14:36:
 fe:f0:be:bf:9a:02:39:1c:db:c5:f1:b8:a5:a9:09:
 ba:85:41:2f:84:59:e6:29:6e:e0:41:f3:c8:89:53:
 df:32:16:3b:05:32:1e:41:2d:b5:e1:11:7f:b6:26:
 6a:c2:d0:35:9d:ea:8d:eb:d4:82:e1:34:bd:bb:2a:
 65:e8:e8:38:7e:db:2d:1b:f6:5d:d8:5e:d9:b0:88:
 0d:53:85:91:10:ba:7e:19:d6:b5:01:3c:c1:78:dc:
 31:7c:d3:99:1e:2c:8b:00:48:5a:63:9f:37:3a:cd:
 6c:3e:8d:80:97:ec:f4:da:b1
Exponent: 65537 (0x10001)
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Are you very sure about this? If so, you are amazing! –  Martijn Courteaux Dec 12 '11 at 19:49
    
I'll happily +1 this if you can tell us how you knew that? –  Darren Lewis Dec 12 '11 at 19:52
    
Did you write a script to try various one-character substitutions until you found this? :) –  bdonlan Dec 12 '11 at 19:52
    
Can you explain what the "mangled character" is? –  Martijn Courteaux Dec 12 '11 at 20:26
3  
Look at the first line. You'll see it's one character longer than the others. Backslash is not a legal base64 character. –  David Schwartz Dec 12 '11 at 21:07

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