One way to do this is to generate a DER encoded key using OpenSSL's `asn1parse`

command's `-genconf`

option.

You'll need to construct an input file for `asn1parse -genconf`

to produce an RSA key in the standard format (per RFC 3447). The syntax for `asn1parse -genconf`

is given here: http://www.openssl.org/docs/crypto/ASN1_generate_nconf.html and indeed, it already has an example for constructing an RSA key.

You need to calculate a few more values (specifically, `d mod (p-1)`

, `d mod (q-1)`

and `q^-1 mod p`

. For the values of `p`

, `q`

, `d`

you gave, these are:

`d mod(p-1) = 23 mod 16 = 7`

`d mod(q-1) = 23 mod 10 = 3`

`q^-1 mod p = 14`

Put this all together into a text file in the appropriate format:

```
asn1=SEQUENCE:rsa_key
[rsa_key]
version=INTEGER:0
modulus=INTEGER:187
pubExp=INTEGER:7
privExp=INTEGER:23
p=INTEGER:17
q=INTEGER:11
e1=INTEGER:7
e2=INTEGER:3
coeff=INTEGER:14
```

To construct the binary DER file:

```
openssl asn1parse -genconf <path to above file> -out newkey.der
```

You can then run this through OpenSSL's `rsa`

command to confirm:

```
openssl rsa -in newkey.der -inform der -text -check
```

Which should output:

```
Private-Key: (8 bit)
modulus: 187 (0xbb)
publicExponent: 7 (0x7)
privateExponent: 23 (0x17)
prime1: 17 (0x11)
prime2: 11 (0xb)
exponent1: 7 (0x7)
exponent2: 3 (0x3)
coefficient: 14 (0xe)
RSA key ok
writing RSA key
-----BEGIN RSA PRIVATE KEY-----
MBwCAQACAgC7AgEHAgEXAgERAgELAgEHAgEDAgEO
-----END RSA PRIVATE KEY-----
```

You can use this to encrypt data with OpenSSL's `rsautl`

command (though with this key you're limited to encrypting just a single byte of data providing that byte is also less than 187).