/*############################################################################
# Copyright 2017 Intel Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
############################################################################*/
/// EpidMemberStartup implementation.
/*!
* \file
*/
#include <epid/member/api.h>
#include <string.h>
#include "epid/common/math/ecgroup.h"
#include "epid/common/math/finitefield.h"
#include "epid/common/src/epid2params.h"
#include "epid/common/types.h" // MemberPrecomp
#include "epid/member/src/context.h"
#include "epid/member/src/precomp.h"
#include "epid/member/src/storage.h"
/// Handle SDK Error with Break
#define BREAK_ON_EPID_ERROR(ret) \
if (kEpidNoErr != (ret)) { \
break; \
}
static EpidStatus MemberReadPrecomputation(MemberCtx* ctx,
MemberPrecomp const* precomp);
EpidStatus EpidMemberStartup(MemberCtx* ctx) {
EpidStatus sts = kEpidErr;
uint32_t const nv_index = 0x01c10100;
if (!ctx) {
return kEpidBadArgErr;
}
do {
EcGroup* G1 = ctx->epid2_params->G1;
EcGroup* G2 = ctx->epid2_params->G2;
FiniteField* Fp = ctx->epid2_params->Fp;
EcPoint* A = (EcPoint*)ctx->A;
FfElement* x = (FfElement*)ctx->x;
EcPoint* h1 = (EcPoint*)ctx->h1;
EcPoint* h2 = (EcPoint*)ctx->h2;
EcPoint* w = (EcPoint*)ctx->w;
sts = EpidNvReadMembershipCredential(ctx->tpm2_ctx, nv_index, &ctx->pub_key,
&ctx->credential);
BREAK_ON_EPID_ERROR(sts);
if (!ctx->precomp_ready) {
sts = PrecomputeMemberPairing(ctx->epid2_params, &ctx->pub_key,
&ctx->credential.A, &ctx->precomp);
BREAK_ON_EPID_ERROR(sts);
ctx->precomp_ready = true;
}
if (!ctx->is_provisioned && !ctx->is_initially_provisioned) {
sts = EpidMemberInitialProvision(ctx);
BREAK_ON_EPID_ERROR(sts);
}
sts = ReadEcPoint(G1, &ctx->credential.A, sizeof(ctx->credential.A), A);
BREAK_ON_EPID_ERROR(sts);
sts = ReadFfElement(Fp, &ctx->credential.x, sizeof(ctx->credential.x), x);
BREAK_ON_EPID_ERROR(sts);
sts = ReadEcPoint(G1, &ctx->pub_key.h1, sizeof(ctx->pub_key.h1), h1);
BREAK_ON_EPID_ERROR(sts);
sts = ReadEcPoint(G1, &ctx->pub_key.h2, sizeof(ctx->pub_key.h2), h2);
BREAK_ON_EPID_ERROR(sts);
sts = ReadEcPoint(G2, &ctx->pub_key.w, sizeof(ctx->pub_key.w), w);
BREAK_ON_EPID_ERROR(sts);
sts = MemberReadPrecomputation(ctx, &ctx->precomp);
BREAK_ON_EPID_ERROR(sts);
sts = kEpidNoErr;
} while (0);
return sts;
}
static EpidStatus MemberReadPrecomputation(MemberCtx* ctx,
MemberPrecomp const* precomp) {
EpidStatus sts = kEpidErr;
if (!ctx || !precomp || !ctx->epid2_params || !ctx) {
return kEpidBadArgErr;
}
do {
FiniteField* GT = ctx->epid2_params->GT;
FfElement* e12 = (FfElement*)ctx->e12;
FfElement* e22 = (FfElement*)ctx->e22;
FfElement* e2w = (FfElement*)ctx->e2w;
FfElement* ea2 = (FfElement*)ctx->ea2;
sts = ReadFfElement(GT, &precomp->e12, sizeof(precomp->e12), e12);
BREAK_ON_EPID_ERROR(sts);
sts = ReadFfElement(GT, &precomp->e22, sizeof(precomp->e22), e22);
BREAK_ON_EPID_ERROR(sts);
sts = ReadFfElement(GT, &precomp->e2w, sizeof(precomp->e2w), e2w);
BREAK_ON_EPID_ERROR(sts);
sts = ReadFfElement(GT, &precomp->ea2, sizeof(precomp->ea2), ea2);
BREAK_ON_EPID_ERROR(sts);
sts = kEpidNoErr;
} while (0);
return sts;
}