// This file was extracted from the TCG Published // Trusted Platform Module Library // Part 3: Commands // Family "2.0" // Level 00 Revision 01.16 // October 30, 2014 #include "InternalRoutines.h" #include "ECDH_ZGen_fp.h" #ifdef TPM_ALG_ECC // // // Error Returns Meaning // // TPM_RC_ATTRIBUTES key referenced by keyA is restricted or not a decrypt key // TPM_RC_KEY key referenced by keyA is not an ECC key // TPM_RC_NO_RESULT multiplying inPoint resulted in a point at infinity // TPM_RC_SCHEME the scheme of the key referenced by keyA is not TPM_ALG_NULL, // TPM_ALG_ECDH, // TPM_RC TPM2_ECDH_ZGen( ECDH_ZGen_In *in, // IN: input parameter list ECDH_ZGen_Out *out // OUT: output parameter list ) { TPM_RC result; OBJECT *eccKey; // Input Validation eccKey = ObjectGet(in->keyHandle); // Input key must be a non-restricted, decrypt ECC key if( eccKey->publicArea.type != TPM_ALG_ECC) return TPM_RC_KEY + RC_ECDH_ZGen_keyHandle; if( eccKey->publicArea.objectAttributes.restricted == SET || eccKey->publicArea.objectAttributes.decrypt != SET ) return TPM_RC_ATTRIBUTES + RC_ECDH_ZGen_keyHandle; // Make sure the scheme allows this use if( eccKey->publicArea.parameters.eccDetail.scheme.scheme != TPM_ALG_ECDH && eccKey->publicArea.parameters.eccDetail.scheme.scheme != TPM_ALG_NULL) return TPM_RC_SCHEME + RC_ECDH_ZGen_keyHandle; // Command Output // Compute Z. TPM_RC_ECC_POINT or TPM_RC_NO_RESULT may be returned here. result = CryptEccPointMultiply(&out->outPoint.t.point, eccKey->publicArea.parameters.eccDetail.curveID, &eccKey->sensitive.sensitive.ecc, &in->inPoint.t.point); if(result != TPM_RC_SUCCESS) return RcSafeAddToResult(result, RC_ECDH_ZGen_inPoint); out->outPoint.t.size = TPMS_ECC_POINT_Marshal(&out->outPoint.t.point, NULL, NULL); return TPM_RC_SUCCESS; } #endif