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I am attempting to create the properly DER encoded ECC parameters for the custom Microsoft P160 PlayReady curve to feed into a HSM. I have found a few sources that specify the definition of the P160 curve since it is non-standard and custom. Below is a link to one source. In particular, the PlayReady curve values are discussed in Section 6.4.2 of the book Elementary Number Theory,A Computational Approach by William Stein.

Below is an exert from another source concerning the P160 PlayReady curve parameters.

For ECC, Microsoft is using an elliptic curve over Zp, where p is a 160 bit prime number (given below). The curve consists of the points that lie on the curve y^2=x^3+ax+b, where the operations are done over the field Zp and a and b are coefficients that are given below. All values are represented as packed binary values: in other words, a single value over Zp is encoded simply as 20 bytes, stored in little endian order. A point on the elliptic curve is therefore a 40 byte block, which consists of two 20 byte little endian values (the x coordinate followed by the y coordinate). Here are the parameters for the elliptic curve used in MS-DRM:

p (modulus): 89abcdef012345672718281831415926141424f7
coefficient a: 37a5abccd277bce87632ff3d4780c009ebe41497
coefficient b: 0dd8dabf725e2f3228e85f1ad78fdedf9328239e
generator x: 8723947fd6a3a1e53510c07dba38daf0109fa120
*generator y: 445744911075522d8c3c5856d4ed7acda379936f
Order of curve: 89abcdef012345672716b26eec14904428c2a675

These constants are fixed, and used by all parties in the MS-DRM system. The "nerd appeal" of the modulus is high when you see this number in hexadecimal: it includes counting in the hexadecimal, as well as the digits of fundamental constants e, pi, and sqrt(2).

Based on this information I have created the following hex-encoding of the DER encoded curve parameters for the P160 curve using BouncyCastle as my base ASN.1 library. Note that no seed value is specified in these curve parameters.

308195020101302006072a8648ce3d010102150089abcdef012345672718281831415926141424f7302c041437a5abccd277bce87632ff3d4780c009ebe4149704140dd8dabf725e2f3228e85f1ad78fdedf9328239e0429048723947fd6a3a1e53510c07dba38daf0109fa120445744911075522d8c3c5856d4ed7acda379936f02150089abcdef012345672716b26eec14904428c2a675

Although mathematically these curve parameters are accepted by the HSM and OpenSSL, the P160 curve points produced are not acceptable to PlayReady. I am able to use the same process to produce valid P256 curve points that are acceptable to PlayReady so I do no believe my methods are flawed. Does anyone have any experience with the PlayReady P160 curve parameters?

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1 Answer 1

After researching with Microsoft the solution was found. Apparently one must byte swap the public key x/y points, and the private key to get the PlayReady tool kit to accept the EC key pair only for the P160 curve. This odd byte swapping was not required for the P256 EC key pair.

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That answer (swapping public and private key) does not make any sense to me, hopefully it does make sense to others. –  Maarten Bodewes May 9 '13 at 11:08

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