identity/aidl/default/common/WritableIdentityCredential.cpp - LeafOS-Project/android_hardware_interfaces - Gitiles

 /*
  * Copyright 2019, The Android Open Source Project
  *
  * 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.
  */

 #define LOG_TAG "WritableIdentityCredential"

 #include "WritableIdentityCredential.h"

 #include <android/hardware/identity/support/IdentityCredentialSupport.h>

 #include <android-base/logging.h>
 #include <android-base/stringprintf.h>

 #include <cppbor.h>
 #include <cppbor_parse.h>

 #include <utility>

 #include "IdentityCredentialStore.h"

 #include "FakeSecureHardwareProxy.h"

 namespace aidl::android::hardware::identity {

 using ::android::base::StringPrintf;
 using ::std::optional;
 using namespace ::android::hardware::identity;

 bool WritableIdentityCredential::initialize() {
     if (!hwProxy_->initialize(testCredential_)) {
         LOG(ERROR) << "hwProxy->initialize() failed";
         return false;
     }
     startPersonalizationCalled_ = false;
     firstEntry_ = true;

     return true;
 }

 // Used when updating a credential. Returns false on failure.
 bool WritableIdentityCredential::initializeForUpdate(
         const vector<uint8_t>& encryptedCredentialKeys) {
     if (!hwProxy_->initializeForUpdate(testCredential_, docType_, encryptedCredentialKeys)) {
         LOG(ERROR) << "hwProxy->initializeForUpdate() failed";
         return false;
     }
     startPersonalizationCalled_ = false;
     firstEntry_ = true;

     return true;
 }

 WritableIdentityCredential::~WritableIdentityCredential() {}

 ndk::ScopedAStatus WritableIdentityCredential::getAttestationCertificate(
         const vector<uint8_t>& attestationApplicationId,
         const vector<uint8_t>& attestationChallenge, vector<Certificate>* outCertificateChain) {
     if (getAttestationCertificateAlreadyCalled_) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Error attestation certificate previously generated"));
     }
     getAttestationCertificateAlreadyCalled_ = true;

     if (attestationChallenge.empty()) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA, "Challenge can not be empty"));
     }

     optional<vector<uint8_t>> certChain;
     if (attestationKeyBlob_ && attestationCertificateChain_) {
         certChain = hwProxy_->createCredentialKeyUsingRkp(
                 attestationChallenge, attestationApplicationId, *attestationKeyBlob_,
                 attestationCertificateChain_->at(0));
     } else {
         certChain = hwProxy_->createCredentialKey(attestationChallenge, attestationApplicationId);
     }

     if (!certChain) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Error generating attestation certificate chain"));
     }

     optional<vector<vector<uint8_t>>> certs = support::certificateChainSplit(certChain.value());
     if (!certs) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Error splitting chain into separate certificates"));
     }

     *outCertificateChain = vector<Certificate>();
     for (vector<uint8_t>& cert : certs.value()) {
         Certificate c;
         c.encodedCertificate = std::move(cert);
         outCertificateChain->push_back(std::move(c));
     }

     for (const vector<uint8_t>& cert : *attestationCertificateChain_) {
         Certificate c;
         c.encodedCertificate = cert;
         outCertificateChain->push_back(std::move(c));
     }

     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::setExpectedProofOfProvisioningSize(
         int32_t expectedProofOfProvisioningSize) {
     expectedProofOfProvisioningSize_ = expectedProofOfProvisioningSize;
     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::startPersonalization(
         int32_t accessControlProfileCount, const vector<int32_t>& entryCounts) {
     if (startPersonalizationCalled_) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "startPersonalization called already"));
     }
     startPersonalizationCalled_ = true;

     numAccessControlProfileRemaining_ = accessControlProfileCount;
     remainingEntryCounts_ = entryCounts;
     entryNameSpace_ = "";

     signedDataAccessControlProfiles_ = cppbor::Array();
     signedDataNamespaces_ = cppbor::Map();
     signedDataCurrentNamespace_ = cppbor::Array();

     if (!hwProxy_->startPersonalization(accessControlProfileCount, entryCounts, docType_,
                                         expectedProofOfProvisioningSize_)) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "eicStartPersonalization"));
     }

     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::addAccessControlProfile(
         int32_t id, const Certificate& readerCertificate, bool userAuthenticationRequired,
         int64_t timeoutMillis, int64_t secureUserId,
         SecureAccessControlProfile* outSecureAccessControlProfile) {
     if (numAccessControlProfileRemaining_ == 0) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "numAccessControlProfileRemaining_ is 0 and expected non-zero"));
     }

     if (accessControlProfileIds_.find(id) != accessControlProfileIds_.end()) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "Access Control Profile id must be unique"));
     }
     accessControlProfileIds_.insert(id);

     if (id < 0 || id >= 32) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "Access Control Profile id must be non-negative and less than 32"));
     }

     // Spec requires if |userAuthenticationRequired| is false, then |timeoutMillis| must also
     // be zero.
     if (!userAuthenticationRequired && timeoutMillis != 0) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "userAuthenticationRequired is false but timeout is non-zero"));
     }

     optional<vector<uint8_t>> mac = hwProxy_->addAccessControlProfile(
             id, readerCertificate.encodedCertificate, userAuthenticationRequired, timeoutMillis,
             secureUserId);
     if (!mac) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "eicAddAccessControlProfile"));
     }

     SecureAccessControlProfile profile;
     profile.id = id;
     profile.readerCertificate = readerCertificate;
     profile.userAuthenticationRequired = userAuthenticationRequired;
     profile.timeoutMillis = timeoutMillis;
     profile.secureUserId = secureUserId;
     profile.mac = mac.value();
     cppbor::Map profileMap;
     profileMap.add("id", profile.id);
     if (profile.readerCertificate.encodedCertificate.size() > 0) {
         profileMap.add("readerCertificate",
                        cppbor::Bstr(profile.readerCertificate.encodedCertificate));
     }
     if (profile.userAuthenticationRequired) {
         profileMap.add("userAuthenticationRequired", profile.userAuthenticationRequired);
         profileMap.add("timeoutMillis", profile.timeoutMillis);
     }
     signedDataAccessControlProfiles_.add(std::move(profileMap));

     numAccessControlProfileRemaining_--;

     *outSecureAccessControlProfile = profile;
     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::beginAddEntry(
         const vector<int32_t>& accessControlProfileIds, const string& nameSpace, const string& name,
         int32_t entrySize) {
     if (numAccessControlProfileRemaining_ != 0) {
         LOG(ERROR) << "numAccessControlProfileRemaining_ is " << numAccessControlProfileRemaining_
                    << " and expected zero";
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "numAccessControlProfileRemaining_ is not zero"));
     }

     // Ensure passed-in profile ids reference valid access control profiles
     for (const int32_t id : accessControlProfileIds) {
         if (accessControlProfileIds_.find(id) == accessControlProfileIds_.end()) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA,
                     "An id in accessControlProfileIds references non-existing ACP"));
         }
     }

     if (remainingEntryCounts_.size() == 0) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA, "No more namespaces to add to"));
     }

     // Handle initial beginEntry() call.
     if (firstEntry_) {
         firstEntry_ = false;
         entryNameSpace_ = nameSpace;
         allNameSpaces_.insert(nameSpace);
     }

     // If the namespace changed...
     if (nameSpace != entryNameSpace_) {
         if (allNameSpaces_.find(nameSpace) != allNameSpaces_.end()) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA,
                     "Name space cannot be added in interleaving fashion"));
         }

         // Then check that all entries in the previous namespace have been added..
         if (remainingEntryCounts_[0] != 0) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA,
                     "New namespace but a non-zero number of entries remain to be added"));
         }
         remainingEntryCounts_.erase(remainingEntryCounts_.begin());
         remainingEntryCounts_[0] -= 1;
         allNameSpaces_.insert(nameSpace);

         if (signedDataCurrentNamespace_.size() > 0) {
             signedDataNamespaces_.add(entryNameSpace_, std::move(signedDataCurrentNamespace_));
             signedDataCurrentNamespace_ = cppbor::Array();
         }
     } else {
         // Same namespace...
         if (remainingEntryCounts_[0] == 0) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA,
                     "Same namespace but no entries remain to be added"));
         }
         remainingEntryCounts_[0] -= 1;
     }

     entryRemainingBytes_ = entrySize;
     entryNameSpace_ = nameSpace;
     entryName_ = name;
     entryAccessControlProfileIds_ = accessControlProfileIds;
     entryBytes_.resize(0);
     // LOG(INFO) << "name=" << name << " entrySize=" << entrySize;

     if (!hwProxy_->beginAddEntry(accessControlProfileIds, nameSpace, name, entrySize)) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "eicBeginAddEntry"));
     }

     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::addEntryValue(const vector<uint8_t>& content,
                                                              vector<uint8_t>* outEncryptedContent) {
     size_t contentSize = content.size();

     if (contentSize > IdentityCredentialStore::kGcmChunkSize) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "Passed in chunk of is bigger than kGcmChunkSize"));
     }
     if (contentSize > entryRemainingBytes_) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "Passed in chunk is bigger than remaining space"));
     }

     entryBytes_.insert(entryBytes_.end(), content.begin(), content.end());
     entryRemainingBytes_ -= contentSize;
     if (entryRemainingBytes_ > 0) {
         if (contentSize != IdentityCredentialStore::kGcmChunkSize) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA,
                     "Retrieved non-final chunk which isn't kGcmChunkSize"));
         }
     }

     optional<vector<uint8_t>> encryptedContent = hwProxy_->addEntryValue(
             entryAccessControlProfileIds_, entryNameSpace_, entryName_, content);
     if (!encryptedContent) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "eicAddEntryValue"));
     }

     if (entryRemainingBytes_ == 0) {
         // TODO: ideally do do this without parsing the data (but still validate data is valid
         // CBOR).
         auto [item, _, message] = cppbor::parse(entryBytes_);
         if (item == nullptr) {
             return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                     IIdentityCredentialStore::STATUS_INVALID_DATA, "Data is not valid CBOR"));
         }
         cppbor::Map entryMap;
         entryMap.add("name", entryName_);
         entryMap.add("value", std::move(item));
         cppbor::Array profileIdArray;
         for (auto id : entryAccessControlProfileIds_) {
             profileIdArray.add(id);
         }
         entryMap.add("accessControlProfiles", std::move(profileIdArray));
         signedDataCurrentNamespace_.add(std::move(entryMap));
     }

     *outEncryptedContent = encryptedContent.value();
     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::finishAddingEntries(
         vector<uint8_t>* outCredentialData, vector<uint8_t>* outProofOfProvisioningSignature) {
     if (numAccessControlProfileRemaining_ != 0) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "numAccessControlProfileRemaining_ is not 0 and expected zero"));
     }

     if (remainingEntryCounts_.size() > 1 || remainingEntryCounts_[0] != 0) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 "More entry spaces remain than startPersonalization configured"));
     }

     if (signedDataCurrentNamespace_.size() > 0) {
         signedDataNamespaces_.add(entryNameSpace_, std::move(signedDataCurrentNamespace_));
     }
     cppbor::Array popArray;
     popArray.add("ProofOfProvisioning")
             .add(docType_)
             .add(std::move(signedDataAccessControlProfiles_))
             .add(std::move(signedDataNamespaces_))
             .add(testCredential_);
     vector<uint8_t> encodedCbor = popArray.encode();

     if (encodedCbor.size() != expectedProofOfProvisioningSize_) {
         LOG(ERROR) << "CBOR for proofOfProvisioning is " << encodedCbor.size() << " bytes, "
                    << "was expecting " << expectedProofOfProvisioningSize_;
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_INVALID_DATA,
                 StringPrintf("Unexpected CBOR size %zd for proofOfProvisioning, was expecting %zd",
                              encodedCbor.size(), expectedProofOfProvisioningSize_)
                         .c_str()));
     }

     optional<vector<uint8_t>> signatureOfToBeSigned = hwProxy_->finishAddingEntries();
     if (!signatureOfToBeSigned) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "eicFinishAddingEntries"));
     }

     optional<vector<uint8_t>> signature =
             support::coseSignEcDsaWithSignature(signatureOfToBeSigned.value(),
                                                 encodedCbor,  // data
                                                 {});          // certificateChain
     if (!signature) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "Error signing data"));
     }

     optional<vector<uint8_t>> encryptedCredentialKeys = hwProxy_->finishGetCredentialData(docType_);
     if (!encryptedCredentialKeys) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Error generating encrypted CredentialKeys"));
     }
     cppbor::Array array;
     array.add(docType_);
     array.add(testCredential_);
     array.add(encryptedCredentialKeys.value());
     vector<uint8_t> credentialData = array.encode();

     *outCredentialData = credentialData;
     *outProofOfProvisioningSignature = signature.value();
     hwProxy_->shutdown();

     return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus WritableIdentityCredential::setRemotelyProvisionedAttestationKey(
         const vector<uint8_t>& attestationKeyBlob,
         const vector<uint8_t>& attestationCertificateChain) {
     if (!hardwareInformation_.isRemoteKeyProvisioningSupported) {
         return ndk::ScopedAStatus(AStatus_fromExceptionCodeWithMessage(
                 EX_UNSUPPORTED_OPERATION, "Remote key provisioning is not supported"));
     }

     if (attestationKeyBlob.empty() || attestationCertificateChain.empty()) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Empty data passed to setRemotlyProvisionedAttestationKey"));
     }

     if (attestationKeyBlob_.has_value()) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED, "Attestation key already set"));
     }

     optional<vector<vector<uint8_t>>> certs =
             support::certificateChainSplit(attestationCertificateChain);
     if (!certs) {
         return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
                 IIdentityCredentialStore::STATUS_FAILED,
                 "Error splitting chain into separate certificates"));
     }

     attestationKeyBlob_ = attestationKeyBlob;
     attestationCertificateChain_ = *certs;
     return ndk::ScopedAStatus::ok();
 }

 }  // namespace aidl::android::hardware::identity
	/*
	* Copyright 2019, The Android Open Source Project
	*
	* 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.
	*/

	#define LOG_TAG "WritableIdentityCredential"

	#include "WritableIdentityCredential.h"

	#include <android/hardware/identity/support/IdentityCredentialSupport.h>

	#include <android-base/logging.h>
	#include <android-base/stringprintf.h>

	#include <cppbor.h>
	#include <cppbor_parse.h>

	#include <utility>

	#include "IdentityCredentialStore.h"

	#include "FakeSecureHardwareProxy.h"

	namespace aidl::android::hardware::identity {

	using ::android::base::StringPrintf;
	using ::std::optional;
	using namespace ::android::hardware::identity;

	bool WritableIdentityCredential::initialize() {
	if (!hwProxy_->initialize(testCredential_)) {
	LOG(ERROR) << "hwProxy->initialize() failed";
	return false;
	}
	startPersonalizationCalled_ = false;
	firstEntry_ = true;

	return true;
	}

	// Used when updating a credential. Returns false on failure.
	bool WritableIdentityCredential::initializeForUpdate(
	const vector<uint8_t>& encryptedCredentialKeys) {
	if (!hwProxy_->initializeForUpdate(testCredential_, docType_, encryptedCredentialKeys)) {
	LOG(ERROR) << "hwProxy->initializeForUpdate() failed";
	return false;
	}
	startPersonalizationCalled_ = false;
	firstEntry_ = true;

	return true;
	}

	WritableIdentityCredential::~WritableIdentityCredential() {}

	ndk::ScopedAStatus WritableIdentityCredential::getAttestationCertificate(
	const vector<uint8_t>& attestationApplicationId,
	const vector<uint8_t>& attestationChallenge, vector<Certificate>* outCertificateChain) {
	if (getAttestationCertificateAlreadyCalled_) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Error attestation certificate previously generated"));
	}
	getAttestationCertificateAlreadyCalled_ = true;

	if (attestationChallenge.empty()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA, "Challenge can not be empty"));
	}

	optional<vector<uint8_t>> certChain;
	if (attestationKeyBlob_ && attestationCertificateChain_) {
	certChain = hwProxy_->createCredentialKeyUsingRkp(
	attestationChallenge, attestationApplicationId, *attestationKeyBlob_,
	attestationCertificateChain_->at(0));
	} else {
	certChain = hwProxy_->createCredentialKey(attestationChallenge, attestationApplicationId);
	}

	if (!certChain) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Error generating attestation certificate chain"));
	}

	optional<vector<vector<uint8_t>>> certs = support::certificateChainSplit(certChain.value());
	if (!certs) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Error splitting chain into separate certificates"));
	}

	*outCertificateChain = vector<Certificate>();
	for (vector<uint8_t>& cert : certs.value()) {
	Certificate c;
	c.encodedCertificate = std::move(cert);
	outCertificateChain->push_back(std::move(c));
	}

	for (const vector<uint8_t>& cert : *attestationCertificateChain_) {
	Certificate c;
	c.encodedCertificate = cert;
	outCertificateChain->push_back(std::move(c));
	}

	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::setExpectedProofOfProvisioningSize(
	int32_t expectedProofOfProvisioningSize) {
	expectedProofOfProvisioningSize_ = expectedProofOfProvisioningSize;
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::startPersonalization(
	int32_t accessControlProfileCount, const vector<int32_t>& entryCounts) {
	if (startPersonalizationCalled_) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "startPersonalization called already"));
	}
	startPersonalizationCalled_ = true;

	numAccessControlProfileRemaining_ = accessControlProfileCount;
	remainingEntryCounts_ = entryCounts;
	entryNameSpace_ = "";

	signedDataAccessControlProfiles_ = cppbor::Array();
	signedDataNamespaces_ = cppbor::Map();
	signedDataCurrentNamespace_ = cppbor::Array();

	if (!hwProxy_->startPersonalization(accessControlProfileCount, entryCounts, docType_,
	expectedProofOfProvisioningSize_)) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "eicStartPersonalization"));
	}

	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::addAccessControlProfile(
	int32_t id, const Certificate& readerCertificate, bool userAuthenticationRequired,
	int64_t timeoutMillis, int64_t secureUserId,
	SecureAccessControlProfile* outSecureAccessControlProfile) {
	if (numAccessControlProfileRemaining_ == 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"numAccessControlProfileRemaining_ is 0 and expected non-zero"));
	}

	if (accessControlProfileIds_.find(id) != accessControlProfileIds_.end()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Access Control Profile id must be unique"));
	}
	accessControlProfileIds_.insert(id);

	if (id < 0 \|\| id >= 32) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Access Control Profile id must be non-negative and less than 32"));
	}

	// Spec requires if \|userAuthenticationRequired\| is false, then \|timeoutMillis\| must also
	// be zero.
	if (!userAuthenticationRequired && timeoutMillis != 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"userAuthenticationRequired is false but timeout is non-zero"));
	}

	optional<vector<uint8_t>> mac = hwProxy_->addAccessControlProfile(
	id, readerCertificate.encodedCertificate, userAuthenticationRequired, timeoutMillis,
	secureUserId);
	if (!mac) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "eicAddAccessControlProfile"));
	}

	SecureAccessControlProfile profile;
	profile.id = id;
	profile.readerCertificate = readerCertificate;
	profile.userAuthenticationRequired = userAuthenticationRequired;
	profile.timeoutMillis = timeoutMillis;
	profile.secureUserId = secureUserId;
	profile.mac = mac.value();
	cppbor::Map profileMap;
	profileMap.add("id", profile.id);
	if (profile.readerCertificate.encodedCertificate.size() > 0) {
	profileMap.add("readerCertificate",
	cppbor::Bstr(profile.readerCertificate.encodedCertificate));
	}
	if (profile.userAuthenticationRequired) {
	profileMap.add("userAuthenticationRequired", profile.userAuthenticationRequired);
	profileMap.add("timeoutMillis", profile.timeoutMillis);
	}
	signedDataAccessControlProfiles_.add(std::move(profileMap));

	numAccessControlProfileRemaining_--;

	*outSecureAccessControlProfile = profile;
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::beginAddEntry(
	const vector<int32_t>& accessControlProfileIds, const string& nameSpace, const string& name,
	int32_t entrySize) {
	if (numAccessControlProfileRemaining_ != 0) {
	LOG(ERROR) << "numAccessControlProfileRemaining_ is " << numAccessControlProfileRemaining_
	<< " and expected zero";
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"numAccessControlProfileRemaining_ is not zero"));
	}

	// Ensure passed-in profile ids reference valid access control profiles
	for (const int32_t id : accessControlProfileIds) {
	if (accessControlProfileIds_.find(id) == accessControlProfileIds_.end()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"An id in accessControlProfileIds references non-existing ACP"));
	}
	}

	if (remainingEntryCounts_.size() == 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA, "No more namespaces to add to"));
	}

	// Handle initial beginEntry() call.
	if (firstEntry_) {
	firstEntry_ = false;
	entryNameSpace_ = nameSpace;
	allNameSpaces_.insert(nameSpace);
	}

	// If the namespace changed...
	if (nameSpace != entryNameSpace_) {
	if (allNameSpaces_.find(nameSpace) != allNameSpaces_.end()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Name space cannot be added in interleaving fashion"));
	}

	// Then check that all entries in the previous namespace have been added..
	if (remainingEntryCounts_[0] != 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"New namespace but a non-zero number of entries remain to be added"));
	}
	remainingEntryCounts_.erase(remainingEntryCounts_.begin());
	remainingEntryCounts_[0] -= 1;
	allNameSpaces_.insert(nameSpace);

	if (signedDataCurrentNamespace_.size() > 0) {
	signedDataNamespaces_.add(entryNameSpace_, std::move(signedDataCurrentNamespace_));
	signedDataCurrentNamespace_ = cppbor::Array();
	}
	} else {
	// Same namespace...
	if (remainingEntryCounts_[0] == 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Same namespace but no entries remain to be added"));
	}
	remainingEntryCounts_[0] -= 1;
	}

	entryRemainingBytes_ = entrySize;
	entryNameSpace_ = nameSpace;
	entryName_ = name;
	entryAccessControlProfileIds_ = accessControlProfileIds;
	entryBytes_.resize(0);
	// LOG(INFO) << "name=" << name << " entrySize=" << entrySize;

	if (!hwProxy_->beginAddEntry(accessControlProfileIds, nameSpace, name, entrySize)) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "eicBeginAddEntry"));
	}

	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::addEntryValue(const vector<uint8_t>& content,
	vector<uint8_t>* outEncryptedContent) {
	size_t contentSize = content.size();

	if (contentSize > IdentityCredentialStore::kGcmChunkSize) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Passed in chunk of is bigger than kGcmChunkSize"));
	}
	if (contentSize > entryRemainingBytes_) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Passed in chunk is bigger than remaining space"));
	}

	entryBytes_.insert(entryBytes_.end(), content.begin(), content.end());
	entryRemainingBytes_ -= contentSize;
	if (entryRemainingBytes_ > 0) {
	if (contentSize != IdentityCredentialStore::kGcmChunkSize) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"Retrieved non-final chunk which isn't kGcmChunkSize"));
	}
	}

	optional<vector<uint8_t>> encryptedContent = hwProxy_->addEntryValue(
	entryAccessControlProfileIds_, entryNameSpace_, entryName_, content);
	if (!encryptedContent) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "eicAddEntryValue"));
	}

	if (entryRemainingBytes_ == 0) {
	// TODO: ideally do do this without parsing the data (but still validate data is valid
	// CBOR).
	auto [item, _, message] = cppbor::parse(entryBytes_);
	if (item == nullptr) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA, "Data is not valid CBOR"));
	}
	cppbor::Map entryMap;
	entryMap.add("name", entryName_);
	entryMap.add("value", std::move(item));
	cppbor::Array profileIdArray;
	for (auto id : entryAccessControlProfileIds_) {
	profileIdArray.add(id);
	}
	entryMap.add("accessControlProfiles", std::move(profileIdArray));
	signedDataCurrentNamespace_.add(std::move(entryMap));
	}

	*outEncryptedContent = encryptedContent.value();
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::finishAddingEntries(
	vector<uint8_t>* outCredentialData, vector<uint8_t>* outProofOfProvisioningSignature) {
	if (numAccessControlProfileRemaining_ != 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"numAccessControlProfileRemaining_ is not 0 and expected zero"));
	}

	if (remainingEntryCounts_.size() > 1 \|\| remainingEntryCounts_[0] != 0) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	"More entry spaces remain than startPersonalization configured"));
	}

	if (signedDataCurrentNamespace_.size() > 0) {
	signedDataNamespaces_.add(entryNameSpace_, std::move(signedDataCurrentNamespace_));
	}
	cppbor::Array popArray;
	popArray.add("ProofOfProvisioning")
	.add(docType_)
	.add(std::move(signedDataAccessControlProfiles_))
	.add(std::move(signedDataNamespaces_))
	.add(testCredential_);
	vector<uint8_t> encodedCbor = popArray.encode();

	if (encodedCbor.size() != expectedProofOfProvisioningSize_) {
	LOG(ERROR) << "CBOR for proofOfProvisioning is " << encodedCbor.size() << " bytes, "
	<< "was expecting " << expectedProofOfProvisioningSize_;
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_INVALID_DATA,
	StringPrintf("Unexpected CBOR size %zd for proofOfProvisioning, was expecting %zd",
	encodedCbor.size(), expectedProofOfProvisioningSize_)
	.c_str()));
	}

	optional<vector<uint8_t>> signatureOfToBeSigned = hwProxy_->finishAddingEntries();
	if (!signatureOfToBeSigned) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "eicFinishAddingEntries"));
	}

	optional<vector<uint8_t>> signature =
	support::coseSignEcDsaWithSignature(signatureOfToBeSigned.value(),
	encodedCbor, // data
	{}); // certificateChain
	if (!signature) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "Error signing data"));
	}

	optional<vector<uint8_t>> encryptedCredentialKeys = hwProxy_->finishGetCredentialData(docType_);
	if (!encryptedCredentialKeys) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Error generating encrypted CredentialKeys"));
	}
	cppbor::Array array;
	array.add(docType_);
	array.add(testCredential_);
	array.add(encryptedCredentialKeys.value());
	vector<uint8_t> credentialData = array.encode();

	*outCredentialData = credentialData;
	*outProofOfProvisioningSignature = signature.value();
	hwProxy_->shutdown();

	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus WritableIdentityCredential::setRemotelyProvisionedAttestationKey(
	const vector<uint8_t>& attestationKeyBlob,
	const vector<uint8_t>& attestationCertificateChain) {
	if (!hardwareInformation_.isRemoteKeyProvisioningSupported) {
	return ndk::ScopedAStatus(AStatus_fromExceptionCodeWithMessage(
	EX_UNSUPPORTED_OPERATION, "Remote key provisioning is not supported"));
	}

	if (attestationKeyBlob.empty() \|\| attestationCertificateChain.empty()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Empty data passed to setRemotlyProvisionedAttestationKey"));
	}

	if (attestationKeyBlob_.has_value()) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED, "Attestation key already set"));
	}

	optional<vector<vector<uint8_t>>> certs =
	support::certificateChainSplit(attestationCertificateChain);
	if (!certs) {
	return ndk::ScopedAStatus(AStatus_fromServiceSpecificErrorWithMessage(
	IIdentityCredentialStore::STATUS_FAILED,
	"Error splitting chain into separate certificates"));
	}

	attestationKeyBlob_ = attestationKeyBlob;
	attestationCertificateChain_ = *certs;
	return ndk::ScopedAStatus::ok();
	}

	} // namespace aidl::android::hardware::identity