I need to encrypt some data using RSA in JavaScript. All of the libraries around ask for an exponent and a modulus, yet I get a single public.key file from my opponent.
How do you retrieve the public exponent and modulus part from an RSA file?
It depends on the tools you can use. I doubt there is a JavaScript too that could do it directly within the browser. It also depends if it's a one-off (always the same key) or whether you need to script it.
If you want to use something like OpenSSL on a unix command line, you can do something as follows. I'm assuming you public.key file contains something like this:
-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAmBAjFv+29CaiQqYZIw4P
J0q5Qz2gS7kbGleS3ai8Xbhu5n8PLomldxbRz0RpdCuxqd1yvaicqpDKe/TT09sR
mL1h8Sx3Qa3EQmqI0TcEEqk27Ak0DTFxuVrq7c5hHB5fbJ4o7iEq5MYfdSl4pZax
UxdNv4jRElymdap8/iOo3SU1RsaK6y7kox1/tm2cfWZZhMlRFYJnpoXpyNYrp+Yo
CNKxmZJnMsS698kaFjDlyznLlihwMroY0mQvdD7dCeBoVlfPUGPAlamwWyqtIU+9
5xVkSp3kxcNcNb/mePSKQIPafQ1sAmBKPwycA/1I5nLzDVuQa95ZWMn0JkphtFIh
HQIDAQAB
-----END PUBLIC KEY-----
Then, the commands would be:
PUBKEY=`grep -v -- ----- public.key | tr -d '\n'`
Then, you can look into the ASN.1 structure:
echo $PUBKEY | base64 -d | openssl asn1parse -inform DER -i
This should give you something like this:
0:d=0 hl=4 l= 290 cons: SEQUENCE
4:d=1 hl=2 l= 13 cons: SEQUENCE
6:d=2 hl=2 l= 9 prim: OBJECT :rsaEncryption
17:d=2 hl=2 l= 0 prim: NULL
19:d=1 hl=4 l= 271 prim: BIT STRING
The modulus and public exponent are in the last BIT STRING, offset 19, so use -strparse:
echo $PUBKEY | base64 -d | openssl asn1parse -inform DER -i -strparse 19
This will give you the modulus and the public exponent, in hexadecimal (the two INTEGERs):
0:d=0 hl=4 l= 266 cons: SEQUENCE
4:d=1 hl=4 l= 257 prim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
265:d=1 hl=2 l= 3 prim: INTEGER :010001
That's probably fine if it's always the same key, but this is probably not very convenient to put in a script.
Alternatively (and this might be easier to put into a script),
openssl rsa -pubin -inform PEM -text -noout < public.key
will return this:
Modulus (2048 bit):
00:98:10:23:16:ff:b6:f4:26:a2:42:a6:19:23:0e:
0f:27:4a:b9:43:3d:a0:4b:b9:1b:1a:57:92:dd:a8:
bc:5d:b8:6e:e6:7f:0f:2e:89:a5:77:16:d1:cf:44:
69:74:2b:b1:a9:dd:72:bd:a8:9c:aa:90:ca:7b:f4:
d3:d3:db:11:98:bd:61:f1:2c:77:41:ad:c4:42:6a:
88:d1:37:04:12:a9:36:ec:09:34:0d:31:71:b9:5a:
ea:ed:ce:61:1c:1e:5f:6c:9e:28:ee:21:2a:e4:c6:
1f:75:29:78:a5:96:b1:53:17:4d:bf:88:d1:12:5c:
a6:75:aa:7c:fe:23:a8:dd:25:35:46:c6:8a:eb:2e:
e4:a3:1d:7f:b6:6d:9c:7d:66:59:84:c9:51:15:82:
67:a6:85:e9:c8:d6:2b:a7:e6:28:08:d2:b1:99:92:
67:32:c4:ba:f7:c9:1a:16:30:e5:cb:39:cb:96:28:
70:32:ba:18:d2:64:2f:74:3e:dd:09:e0:68:56:57:
cf:50:63:c0:95:a9:b0:5b:2a:ad:21:4f:bd:e7:15:
64:4a:9d:e4:c5:c3:5c:35:bf:e6:78:f4:8a:40:83:
da:7d:0d:6c:02:60:4a:3f:0c:9c:03:fd:48:e6:72:
f3:0d:5b:90:6b:de:59:58:c9:f4:26:4a:61:b4:52:
21:1d
Exponent: 65537 (0x10001)
It depends on the input format. If it's an X.509 certificate in a keystore, use (RSAPublicKey)cert.getPublicKey(): this object has two getters for the modulus and the exponent.
If it's in the format as above, you might want to use BouncyCastle and its PEMReader to read it. I haven't tried the following code, but this would look more or less like this:
PEMReader pemReader = new PEMReader(new FileReader("file.pem"));
Object obj = pemReader.readObject();
pemReader.close();
if (obj instanceof X509Certificate) {
// Just in case your file contains in fact an X.509 certificate,
// useless otherwise.
obj = ((X509Certificate)obj).getPublicKey();
}
if (obj instanceof RSAPublicKey) {
// ... use the getters to get the BigIntegers.
}
(You can use BouncyCastle similarly in C# too.)
openssl asn1parse, it can handle PEM (and that's even the default); it can even handle a PEM body (base64 of DER with linebreaks, but no BEGIN/END lines). Just don't include any 'comments' outside the PEM block; many other openssl commands can handle that, but not asn1parse (2) BouncyCastle since 1.47 in 2012 has PEMReader in bcpkix not bcprov and since 1.50 in 2013 it is renamed PEMParser; for a certificate it returns X509CertificateHolder not X509Certificate and for publickey it returns SubjectPublicKeyInfo
Jan 30, 2021 at 5:45
Beware the leading 00 that can appear in the modulus when using:
openssl rsa -pubin -inform PEM -text -noout < public.key
The example modulus contains 257 bytes rather than 256 bytes because of that 00, which is included because the 9 in 98 looks like a negative signed number.
Mostly for my own reference, here's how you get it from a private key generated by ssh-keygen
openssl rsa -text -noout -in ~/.ssh/id_rsa
Of course, this only works with the private key.
ssh-keygen -o since 6.5 in 2014, or by default (without -m pem) since 7.8 in 2018; those use an OpenSSH-proprietary format openssl can't read. OpenSSH's id_xxx.pub is also unreadable by OpenSSL but ssh-keygen -e -m pkcs8 since about 6.0 outputs a PEM public key readable by openssl rsa -pubin -text -noout (as in Bruno's long-ago answer)
Jan 30, 2021 at 5:58
you can directly print modulus by
openssl rsa -pubin -in public_key.pem -noout -modulus
Bonus: add " | openssl md5" at the end to get a smaller string to compare easily
If you need to parse ASN.1 objects in script, there's a library for that: https://github.com/lapo-luchini/asn1js
For doing the math, I found jsbn convenient: http://www-cs-students.stanford.edu/~tjw/jsbn/
Walking the ASN.1 structure and extracting the exp/mod/subject/etc. is up to you -- I never got that far!
Apart from the above answers, we can use asn1parse to get the values
$ openssl asn1parse -i -in pub0.der -inform DER -offset 24
0:d=0 hl=4 l= 266 cons: SEQUENCE
4:d=1 hl=4 l= 257 prim: INTEGER :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
265:d=1 hl=2 l= 3 prim: INTEGER :010001
Now, to get to this offset,we try the default asn1parse
$ openssl asn1parse -i -in pub0.der -inform DER
0:d=0 hl=4 l= 290 cons: SEQUENCE
4:d=1 hl=2 l= 13 cons: SEQUENCE
6:d=2 hl=2 l= 9 prim: OBJECT :rsaEncryption
17:d=2 hl=2 l= 0 prim: NULL
19:d=1 hl=4 l= 271 prim: BIT STRING
We need to get to the BIT String part, so we add the sizes
depth_0_header(4) + depth_1_full_size(2 + 13) + Container_1_EOC_bit + BIT_STRING_header(4) = 24
This can be better visialized at: ASN.1 Parser, if you hover at tags, you will see the offsets
Another amazing resource: Microsoft's ASN.1 Docs
I manage to find the answer for this solution, have to do javascript injection for this to install atob
const atob:any = require('atob');
asn1(pem: any){
asn1parser.Enc.base64ToBuf = function (b64:any) {
return asn1parser.Enc.binToBuf(atob(b64));
};
const dertest = asn1parser.PEM.parseBlock(pem).der;
var hex = asn1parser.Enc.bufToHex(asn1parser.PEM.parseBlock(pem).der)
var buf = asn1parser.ASN1.parse(dertest);
var asn1 = JSON.stringify(asn1parser.ASN1.parse(dertest), asn1parser.ASN1._replacer, 2 );
