KM_EncodeECParams2M
#include“kmlib.h”
Windows library: Kmlib.lib
UNIX library: Libkmlib.a
typedef enum { ECBT_GnBasis, /* Gaussian Normal Basis - parameters = 0, 0, 0 */ ECBT_TpBasis, /* Trinomial Basis - parameters = k, 0, 0 */ ECBT_PpBasis /* Pentanomial Basis - parameters = k1, k2, k3 */ } ECBasisType; CK_RV KM_EncodeECParams2M(
CK_SIZE m, ECBasisType basis, CK_SIZE parameters[3], CK_BYTE_PTR curveA, CK_SIZE curveALen, CK_BYTE_PTR curveB, CK_SIZE curveBLen, CK_BYTE_PTR curveSeed,CK_SIZE curveSeedLen, CK_BYTE_PTR baseX, CK_SIZE baseXLen, CK_BYTE_PTR baseY, CK_SIZE baseYLen, CK_BYTE_PTR bpOrder, CK_SIZE bpOrderLen, CK_BYTE_PTR cofactor, CK_SIZE cofactorLen, CK_BYTE_PTR result, CK_SIZE * resultLen
);
Do DER enc of ECC Domain Parameters 2^M
All long integer values are variable length big endian numbers with optional leading zeros, lengths are all in bytes.
Parameters
M |
Degree of field |
basis |
Should be ECBT_GnBasis or ECBT_TpBasis or ECBT_PpBasis |
parameters |
Array of three integers - values depend on basis ECBT_GnBasis - parameters = 0. 0. 0 ECBT_TpBasis - parameters = k. 0. 0 ECBT_PpBasis - parameters = k1.k2.k3 |
curveA |
Elliptic Curve coefficient a |
curveALen |
Elliptic Curve coefficient a length |
curveB |
Elliptic Curve coefficient b |
curveBLen |
Elliptic Curve coefficient b length |
curveSeed |
Seed (optional may be NULL) |
curveSeedLen |
Seed length |
baseX |
Elliptic Curve point X coord |
baseXLen |
Elliptic Curve point X coord length |
baseY |
Elliptic Curve point Y coord |
baseYLen |
Elliptic Curve point Y coord length |
bpOrder |
Order n of the Base Point |
bpOrderLen |
Order n of the Base Point length |
cofactor |
The integer h = #E(Fq)/n (optional) |
cofactorLen |
h length |
result |
Resultant Encoding (length prediction supported if NULL) |
resultLen |
Buffer len/Length of resultant encoding |
Return |
Status of operation. CKR_OK if ok |