/*############################################################################ # Copyright 2016-2017 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. ############################################################################*/ /*! * \file * \brief CheckPrivRlEntry unit tests. */ #include "epid/common-testhelper/epid_gtest-testhelper.h" #include "gtest/gtest.h" extern "C" { #include "epid/verifier/api.h" } #include "epid/common-testhelper/errors-testhelper.h" #include "epid/common-testhelper/verifier_wrapper-testhelper.h" #include "epid/verifier/unittests/verifier-testhelper.h" namespace { TEST_F(EpidVerifierTest, CheckPrivRlEntryFailsGivenNullPtr) { // check ctx, sig, f for NULL auto& pub_key = this->kGrpXKey; auto& priv_rl = this->kGrpXPrivRl; auto& sig = this->kSigGrpXMember0Sha256Bsn0Msg0; VerifierCtxObj verifier(pub_key); FpElemStr fp_str = ((PrivRl const*)priv_rl.data())->f[0]; BasicSignature basic_signature = ((EpidSignature const*)sig.data())->sigma0; EXPECT_EQ(kEpidBadArgErr, EpidCheckPrivRlEntry(nullptr, &basic_signature, &fp_str)); EXPECT_EQ(kEpidBadArgErr, EpidCheckPrivRlEntry(verifier, nullptr, &fp_str)); EXPECT_EQ(kEpidBadArgErr, EpidCheckPrivRlEntry(verifier, &basic_signature, nullptr)); } TEST_F(EpidVerifierTest, CheckPrivRlEntryFailsGivenRevokedPrivKey) { // test a revoked priv key // check ctx, sig, f for NULL auto& pub_key = this->kGrpXKey; auto& priv_rl = this->kGrpXPrivRl; // signed using revoked key auto& sig = this->kSigGrpXRevokedPrivKey000Sha256Bsn0Msg0; VerifierCtxObj verifier(pub_key); FpElemStr fp_str = ((PrivRl const*)priv_rl.data())->f[0]; BasicSignature basic_signature = ((EpidSignature const*)sig.data())->sigma0; EXPECT_EQ(kEpidSigRevokedInPrivRl, EpidCheckPrivRlEntry(verifier, &basic_signature, &fp_str)); } TEST_F(EpidVerifierTest, CheckPrivRlEntryFailsGivenRevokedPrivKeyUsingIkgfData) { // test a revoked priv key // check ctx, sig, f for NULL auto& pub_key = this->kPubKeyIkgfStr; auto& priv_rl = this->kPrivRlIkgf; // signed using revoked key auto& sig = this->kSigRevokedPrivKeySha256Bsn0Msg0Ikgf; VerifierCtxObj verifier(pub_key); FpElemStr fp_str = ((PrivRl const*)priv_rl.data())->f[2]; BasicSignature basic_signature = ((EpidSignature const*)sig.data())->sigma0; EXPECT_EQ(kEpidSigRevokedInPrivRl, EpidCheckPrivRlEntry(verifier, &basic_signature, &fp_str)); } TEST_F(EpidVerifierTest, CheckPrivRlEntrySucceedsGivenUnRevokedPrivKey) { // test a non revoked priv key auto& pub_key = this->kGrpXKey; auto& priv_rl = this->kGrpXPrivRl; // signed using un revoked key auto& sig = this->kSigGrpXMember0Sha256Bsn0Msg0; VerifierCtxObj verifier(pub_key); FpElemStr fp_str = ((PrivRl const*)priv_rl.data())->f[0]; BasicSignature basic_signature = ((EpidSignature const*)sig.data())->sigma0; EXPECT_EQ(kEpidNoErr, EpidCheckPrivRlEntry(verifier, &basic_signature, &fp_str)); } TEST_F(EpidVerifierTest, CheckPrivRlEntrySucceedsGivenUnRevokedPrivKeyUsingIkgfData) { // test a non revoked priv key auto& pub_key = this->kPubKeyIkgfStr; auto& priv_rl = this->kPrivRlIkgf; // signed using un revoked key auto& sig = this->kSigMember0Sha256Bsn0Msg0Ikgf; VerifierCtxObj verifier(pub_key); FpElemStr fp_str = ((PrivRl const*)priv_rl.data())->f[0]; BasicSignature basic_signature = ((EpidSignature const*)sig.data())->sigma0; EXPECT_EQ(kEpidNoErr, EpidCheckPrivRlEntry(verifier, &basic_signature, &fp_str)); } } // namespace