identity/CredentialData.cpp - platform/system/security - Git at Google

 /*
  * Copyright (c) 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 "CredentialData"

 #include <fcntl.h>
 #include <stdlib.h>
 #include <sys/stat.h>
 #include <sys/types.h>
 #include <unistd.h>

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

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

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

 #include "CredentialData.h"
 #include "Util.h"

 namespace android {
 namespace security {
 namespace identity {

 using android::hardware::identity::V1_0::Result;
 using android::hardware::identity::V1_0::ResultCode;
 using std::optional;

 string CredentialData::calculateCredentialFileName(const string& dataPath, uid_t ownerUid,
                                                    const string& name) {
     return android::base::StringPrintf(
         "%s/%d-%s", dataPath.c_str(), (int)ownerUid,
         android::hardware::identity::support::encodeHex(name).c_str());
 }

 CredentialData::CredentialData(const string& dataPath, uid_t ownerUid, const string& name)
     : dataPath_(dataPath), ownerUid_(ownerUid), name_(name), secureUserId_(0) {
     fileName_ = calculateCredentialFileName(dataPath_, ownerUid_, name_);
 }

 void CredentialData::setSecureUserId(int64_t secureUserId) {
     secureUserId_ = secureUserId;
 }

 void CredentialData::setCredentialData(const vector<uint8_t>& credentialData) {
     credentialData_ = credentialData;
 }

 void CredentialData::setAttestationCertificate(const vector<uint8_t>& attestationCertificate) {
     attestationCertificate_ = attestationCertificate;
 }

 void CredentialData::addSecureAccessControlProfile(
     const SecureAccessControlProfile& secureAccessControlProfile) {
     secureAccessControlProfiles_.push_back(secureAccessControlProfile);
 }

 void CredentialData::addEntryData(const string& namespaceName, const string& entryName,
                                   const EntryData& data) {
     idToEncryptedChunks_[namespaceName + ":" + entryName] = data;
 }

 bool CredentialData::saveToDisk() const {
     cppbor::Map map;

     map.add("secureUserId", secureUserId_);

     map.add("credentialData", credentialData_);

     map.add("attestationCertificate", attestationCertificate_);

     cppbor::Array sacpArray;
     for (const SecureAccessControlProfile& sacp : secureAccessControlProfiles_) {
         cppbor::Array array;
         array.add(sacp.id);
         array.add((const vector<uint8_t>&)sacp.readerCertificate);
         array.add(sacp.userAuthenticationRequired);
         array.add(sacp.timeoutMillis);
         array.add(sacp.secureUserId);
         vector<uint8_t> mac = sacp.mac;
         array.add(mac);
         sacpArray.add(std::move(array));
     }
     map.add("secureAccessControlProfiles", std::move(sacpArray));

     cppbor::Map encryptedBlobsMap;
     for (auto const& [nsAndName, entryData] : idToEncryptedChunks_) {
         cppbor::Array encryptedChunkArray;
         for (const vector<uint8_t>& encryptedChunk : entryData.encryptedChunks) {
             encryptedChunkArray.add(encryptedChunk);
         }
         cppbor::Array entryDataArray;
         entryDataArray.add(entryData.size);
         cppbor::Array idsArray;
         for (uint16_t id : entryData.accessControlProfileIds) {
             idsArray.add(id);
         }
         entryDataArray.add(std::move(idsArray));
         entryDataArray.add(std::move(encryptedChunkArray));
         encryptedBlobsMap.add(nsAndName, std::move(entryDataArray));
     }
     map.add("entryData", std::move(encryptedBlobsMap));
     map.add("authKeyCount", keyCount_);
     map.add("maxUsesPerAuthKey", maxUsesPerKey_);

     cppbor::Array authKeyDatasArray;
     for (const AuthKeyData& data : authKeyDatas_) {
         cppbor::Array array;
         array.add(data.certificate);
         array.add(data.keyBlob);
         array.add(data.staticAuthenticationData);
         array.add(data.pendingCertificate);
         array.add(data.pendingKeyBlob);
         array.add(data.useCount);
         authKeyDatasArray.add(std::move(array));
     }
     map.add("authKeyData", std::move(authKeyDatasArray));

     vector<uint8_t> credentialData = map.encode();

     return fileSetContents(fileName_, credentialData);
 }

 optional<SecureAccessControlProfile> parseSacp(const cppbor::Item& item) {
     const cppbor::Array* array = item.asArray();
     if (array == nullptr || array->size() < 6) {
         LOG(ERROR) << "The SACP CBOR is not an array with at least six elements (size="
                    << (array != nullptr ? array->size() : -1) << ")";
         return {};
     }
     const cppbor::Int* itemId = ((*array)[0])->asInt();
     const cppbor::Bstr* itemReaderCertificate = ((*array)[1])->asBstr();
     const cppbor::Simple* simple = ((*array)[2])->asSimple();
     const cppbor::Bool* itemUserAuthenticationRequired =
         (simple != nullptr ? (simple->asBool()) : nullptr);
     const cppbor::Int* itemTimeoutMillis = ((*array)[3])->asInt();
     const cppbor::Int* itesecureUserId_ = ((*array)[4])->asInt();
     const cppbor::Bstr* itemMac = ((*array)[5])->asBstr();
     if (itemId == nullptr || itemReaderCertificate == nullptr ||
         itemUserAuthenticationRequired == nullptr || itemTimeoutMillis == nullptr ||
         itesecureUserId_ == nullptr || itemMac == nullptr) {
         LOG(ERROR) << "One or more items SACP array in CBOR is of wrong type";
         return {};
     }
     SecureAccessControlProfile sacp;
     sacp.id = itemId->value();
     sacp.readerCertificate = itemReaderCertificate->value();
     sacp.userAuthenticationRequired = itemUserAuthenticationRequired->value();
     sacp.timeoutMillis = itemTimeoutMillis->value();
     sacp.secureUserId = itesecureUserId_->value();
     sacp.mac = itemMac->value();
     return sacp;
 }

 optional<AuthKeyData> parseAuthKeyData(const cppbor::Item& item) {
     const cppbor::Array* array = item.asArray();
     if (array == nullptr || array->size() < 6) {
         LOG(ERROR) << "The AuthKeyData CBOR is not an array with at least six elements";
         return {};
     }
     const cppbor::Bstr* itemCertificate = ((*array)[0])->asBstr();
     const cppbor::Bstr* itemKeyBlob = ((*array)[1])->asBstr();
     const cppbor::Bstr* itemStaticAuthenticationData = ((*array)[2])->asBstr();
     const cppbor::Bstr* itemPendingCertificate = ((*array)[3])->asBstr();
     const cppbor::Bstr* itemPendingKeyBlob = ((*array)[4])->asBstr();
     const cppbor::Int* itemUseCount = ((*array)[5])->asInt();
     if (itemCertificate == nullptr || itemKeyBlob == nullptr ||
         itemStaticAuthenticationData == nullptr || itemPendingCertificate == nullptr ||
         itemPendingKeyBlob == nullptr || itemUseCount == nullptr) {
         LOG(ERROR) << "One or more items in AuthKeyData array in CBOR is of wrong type";
         return {};
     }
     AuthKeyData authKeyData;
     authKeyData.certificate = itemCertificate->value();
     authKeyData.keyBlob = itemKeyBlob->value();
     authKeyData.staticAuthenticationData = itemStaticAuthenticationData->value();
     authKeyData.pendingCertificate = itemPendingCertificate->value();
     authKeyData.pendingKeyBlob = itemPendingKeyBlob->value();
     authKeyData.useCount = itemUseCount->value();
     return authKeyData;
 }

 vector<uint16_t> parseAccessControlProfileIds(const cppbor::Item& item) {
     const cppbor::Array* array = item.asArray();
     if (array == nullptr) {
         LOG(ERROR) << "The accessControlProfileIds member is not an array";
         return {};
     }

     vector<uint16_t> accessControlProfileIds;
     for (size_t n = 0; n < array->size(); n++) {
         const cppbor::Int* itemInt = ((*array)[n])->asInt();
         if (itemInt == nullptr) {
             LOG(ERROR) << "An item in the accessControlProfileIds array is not a bstr";
             return {};
         }
         accessControlProfileIds.push_back(itemInt->value());
     }
     return accessControlProfileIds;
 }

 optional<vector<vector<uint8_t>>> parseEncryptedChunks(const cppbor::Item& item) {
     const cppbor::Array* array = item.asArray();
     if (array == nullptr) {
         LOG(ERROR) << "The encryptedChunks member is not an array";
         return {};
     }

     vector<vector<uint8_t>> encryptedChunks;
     for (size_t n = 0; n < array->size(); n++) {
         const cppbor::Bstr* itemBstr = ((*array)[n])->asBstr();
         if (itemBstr == nullptr) {
             LOG(ERROR) << "An item in the encryptedChunks array is not a bstr";
             return {};
         }
         encryptedChunks.push_back(itemBstr->value());
     }
     return encryptedChunks;
 }

 bool CredentialData::loadFromDisk() {

     // Reset all data.
     credentialData_.clear();
     attestationCertificate_.clear();
     secureAccessControlProfiles_.clear();
     idToEncryptedChunks_.clear();
     authKeyDatas_.clear();
     keyCount_ = 0;
     maxUsesPerKey_ = 1;

     optional<vector<uint8_t>> data = fileGetContents(fileName_);
     if (!data) {
         LOG(ERROR) << "Error loading data";
         return false;
     }

     auto [item, _ /* newPos */, message] = cppbor::parse(data.value());
     if (item == nullptr) {
         LOG(ERROR) << "Data loaded from " << fileName_ << " is not valid CBOR: " << message;
         return false;
     }

     const cppbor::Map* map = item->asMap();
     if (map == nullptr) {
         LOG(ERROR) << "Top-level item is not a map";
         return false;
     }

     for (size_t n = 0; n < map->size(); n++) {
         auto [keyItem, valueItem] = (*map)[n];
         const cppbor::Tstr* tstr = keyItem->asTstr();
         if (tstr == nullptr) {
             LOG(ERROR) << "Key item in top-level map is not a tstr";
             return false;
         }
         const string& key = tstr->value();

         if (key == "secureUserId") {
             const cppbor::Int* number = valueItem->asInt();
             if (number == nullptr) {
                 LOG(ERROR) << "Value for secureUserId is not a number";
                 return false;
             }
             secureUserId_ = number->value();
         } else if (key == "credentialData") {
             const cppbor::Bstr* valueBstr = valueItem->asBstr();
             if (valueBstr == nullptr) {
                 LOG(ERROR) << "Value for credentialData is not a bstr";
                 return false;
             }
             credentialData_ = valueBstr->value();
         } else if (key == "attestationCertificate") {
             const cppbor::Bstr* valueBstr = valueItem->asBstr();
             if (valueBstr == nullptr) {
                 LOG(ERROR) << "Value for attestationCertificate is not a bstr";
                 return false;
             }
             attestationCertificate_ = valueBstr->value();
         } else if (key == "secureAccessControlProfiles") {
             const cppbor::Array* array = valueItem->asArray();
             if (array == nullptr) {
                 LOG(ERROR) << "Value for attestationCertificate is not an array";
                 return false;
             }
             for (size_t m = 0; m < array->size(); m++) {
                 const std::unique_ptr<cppbor::Item>& item = (*array)[m];
                 optional<SecureAccessControlProfile> sacp = parseSacp(*item);
                 if (!sacp) {
                     LOG(ERROR) << "Error parsing SecureAccessControlProfile";
                     return false;
                 }
                 secureAccessControlProfiles_.push_back(sacp.value());
             }

         } else if (key == "entryData") {
             const cppbor::Map* map = valueItem->asMap();
             if (map == nullptr) {
                 LOG(ERROR) << "Value for encryptedChunks is not an map";
                 return false;
             }
             for (size_t m = 0; m < map->size(); m++) {
                 auto [ecKeyItem, ecValueItem] = (*map)[m];
                 const cppbor::Tstr* ecTstr = ecKeyItem->asTstr();
                 if (ecTstr == nullptr) {
                     LOG(ERROR) << "Key item in encryptedChunks map is not a tstr";
                     return false;
                 }
                 const string& ecId = ecTstr->value();

                 const cppbor::Array* ecEntryArrayItem = ecValueItem->asArray();
                 if (ecEntryArrayItem == nullptr || ecEntryArrayItem->size() < 3) {
                     LOG(ERROR) << "Value item in encryptedChunks map is an array with at least two "
                                   "elements";
                     return false;
                 }
                 const cppbor::Int* ecEntrySizeItem = (*ecEntryArrayItem)[0]->asInt();
                 if (ecEntrySizeItem == nullptr) {
                     LOG(ERROR) << "Entry size not a number";
                     return false;
                 }
                 uint64_t entrySize = ecEntrySizeItem->value();

                 optional<vector<uint16_t>> accessControlProfileIds =
                     parseAccessControlProfileIds(*(*ecEntryArrayItem)[1]);
                 if (!accessControlProfileIds) {
                     LOG(ERROR) << "Error parsing access control profile ids";
                     return false;
                 }

                 optional<vector<vector<uint8_t>>> encryptedChunks =
                     parseEncryptedChunks(*(*ecEntryArrayItem)[2]);
                 if (!encryptedChunks) {
                     LOG(ERROR) << "Error parsing encrypted chunks";
                     return false;
                 }

                 EntryData data;
                 data.size = entrySize;
                 data.accessControlProfileIds = accessControlProfileIds.value();
                 data.encryptedChunks = encryptedChunks.value();
                 idToEncryptedChunks_[ecId] = data;
             }

         } else if (key == "authKeyData") {
             const cppbor::Array* array = valueItem->asArray();
             if (array == nullptr) {
                 LOG(ERROR) << "Value for authData is not an array";
                 return false;
             }
             for (size_t m = 0; m < array->size(); m++) {
                 const std::unique_ptr<cppbor::Item>& item = (*array)[m];
                 optional<AuthKeyData> authKeyData = parseAuthKeyData(*item);
                 if (!authKeyData) {
                     LOG(ERROR) << "Error parsing AuthKeyData";
                     return false;
                 }
                 authKeyDatas_.push_back(authKeyData.value());
             }

         } else if (key == "authKeyCount") {
             const cppbor::Int* number = valueItem->asInt();
             if (number == nullptr) {
                 LOG(ERROR) << "Value for authKeyCount is not a number";
                 return false;
             }
             keyCount_ = number->value();

         } else if (key == "maxUsesPerAuthKey") {
             const cppbor::Int* number = valueItem->asInt();
             if (number == nullptr) {
                 LOG(ERROR) << "Value for maxUsesPerAuthKey is not a number";
                 return false;
             }
             maxUsesPerKey_ = number->value();
         }
     }

     if (credentialData_.size() == 0 || attestationCertificate_.size() == 0) {
         LOG(ERROR) << "Missing credentialData or attestationCertificate";
         return false;
     }

     if (size_t(keyCount_) != authKeyDatas_.size()) {
         LOG(ERROR) << "keyCount_=" << keyCount_
                    << " != authKeyDatas_.size()=" << authKeyDatas_.size();
         return false;
     }

     return true;
 }

 const vector<uint8_t>& CredentialData::getCredentialData() const {
     return credentialData_;
 }

 int64_t CredentialData::getSecureUserId() {
     return secureUserId_;
 }

 const vector<uint8_t>& CredentialData::getAttestationCertificate() const {
     return attestationCertificate_;
 }

 const vector<SecureAccessControlProfile>& CredentialData::getSecureAccessControlProfiles() const {
     return secureAccessControlProfiles_;
 }

 bool CredentialData::hasEntryData(const string& namespaceName, const string& entryName) const {
     string id = namespaceName + ":" + entryName;
     auto iter = idToEncryptedChunks_.find(id);
     if (iter == idToEncryptedChunks_.end()) {
         return false;
     }
     return true;
 }

 optional<EntryData> CredentialData::getEntryData(const string& namespaceName,
                                                  const string& entryName) const {
     string id = namespaceName + ":" + entryName;
     auto iter = idToEncryptedChunks_.find(id);
     if (iter == idToEncryptedChunks_.end()) {
         return {};
     }
     return iter->second;
 }

 bool CredentialData::deleteCredential() {
     if (unlink(fileName_.c_str()) != 0) {
         PLOG(ERROR) << "Error deleting " << fileName_;
         return false;
     }
     return true;
 }

 optional<bool> CredentialData::credentialExists(const string& dataPath, uid_t ownerUid,
                                                 const string& name) {
     struct stat statbuf;
     string filename = calculateCredentialFileName(dataPath, ownerUid, name);
     if (stat(filename.c_str(), &statbuf) != 0) {
         if (errno == ENOENT) {
             return false;
         }
         PLOG(ERROR) << "Error getting information about " << filename;
         return {};
     }
     return true;
 }

 // ---

 void CredentialData::setAvailableAuthenticationKeys(int keyCount, int maxUsesPerKey) {
     keyCount_ = keyCount;
     maxUsesPerKey_ = maxUsesPerKey;

     // If growing the number of auth keys (prevKeyCount < keyCount_ case) we'll add
     // new AuthKeyData structs to |authKeyDatas_| and each struct will have empty |certificate|
     // and |pendingCertificate| fields. Those will be filled out when the
     // getAuthKeysNeedingCertification() is called.
     //
     // If shrinking, we'll just delete the AuthKeyData structs at the end. There's nothing
     // else to do, the HAL doesn't need to know we're nuking these authentication keys.
     //
     // Therefore, in either case it's as simple as just resizing the vector.
     authKeyDatas_.resize(keyCount_);
 }

 const vector<AuthKeyData>& CredentialData::getAuthKeyDatas() const {
     return authKeyDatas_;
 }

 const AuthKeyData* CredentialData::selectAuthKey(bool allowUsingExhaustedKeys) {
     AuthKeyData* candidate = nullptr;

     int n = 0;
     int candidateNum = -1;
     for (AuthKeyData& data : authKeyDatas_) {
         if (data.certificate.size() != 0) {
             if (candidate == nullptr || data.useCount < candidate->useCount) {
                 candidate = &data;
                 candidateNum = n;
             }
         }
         n++;
     }

     if (candidate == nullptr) {
         return nullptr;
     }

     if (candidate->useCount >= maxUsesPerKey_ && !allowUsingExhaustedKeys) {
         return nullptr;
     }

     candidate->useCount += 1;
     return candidate;
 }

 optional<vector<vector<uint8_t>>> CredentialData::getAuthKeysNeedingCertification(
     const sp<android::hardware::identity::V1_0::IIdentityCredential>& halBinder) {

     vector<vector<uint8_t>> keysNeedingCert;

     for (AuthKeyData& data : authKeyDatas_) {
         bool newKeyNeeded = (data.certificate.size() == 0) || (data.useCount >= maxUsesPerKey_);
         bool certificationPending = (data.pendingCertificate.size() > 0);
         if (newKeyNeeded && !certificationPending) {
             Result result;
             vector<uint8_t> signingKeyBlob;
             vector<uint8_t> signingKeyCertificate;
             halBinder->generateSigningKeyPair(
                 [&](const Result& _result,
                     const android::hardware::hidl_vec<uint8_t> _signingKeyBlob,
                     const android::hardware::hidl_vec<uint8_t> _signingKeyCertificate) {
                     result = _result;
                     signingKeyBlob = _signingKeyBlob;
                     signingKeyCertificate = _signingKeyCertificate;
                 });
             if (result.code != ResultCode::OK) {
                 LOG(ERROR) << "Error generating signing key-pair";
                 return {};
             }
             data.pendingCertificate = signingKeyCertificate;
             data.pendingKeyBlob = signingKeyBlob;
             certificationPending = true;
         }

         if (certificationPending) {
             keysNeedingCert.push_back(data.pendingCertificate);
         }
     }
     return keysNeedingCert;
 }

 bool CredentialData::storeStaticAuthenticationData(const vector<uint8_t>& authenticationKey,
                                                    const vector<uint8_t>& staticAuthData) {
     for (AuthKeyData& data : authKeyDatas_) {
         if (data.pendingCertificate == authenticationKey) {
             data.certificate = data.pendingCertificate;
             data.keyBlob = data.pendingKeyBlob;
             data.staticAuthenticationData = staticAuthData;
             data.pendingCertificate.clear();
             data.pendingKeyBlob.clear();
             data.useCount = 0;
             return true;
         }
     }
     return false;
 }

 }  // namespace identity
 }  // namespace security
 }  // namespace android
	/*
	* Copyright (c) 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 "CredentialData"

	#include <fcntl.h>
	#include <stdlib.h>
	#include <sys/stat.h>
	#include <sys/types.h>
	#include <unistd.h>

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

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

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

	#include "CredentialData.h"
	#include "Util.h"

	namespace android {
	namespace security {
	namespace identity {

	using android::hardware::identity::V1_0::Result;
	using android::hardware::identity::V1_0::ResultCode;
	using std::optional;

	string CredentialData::calculateCredentialFileName(const string& dataPath, uid_t ownerUid,
	const string& name) {
	return android::base::StringPrintf(
	"%s/%d-%s", dataPath.c_str(), (int)ownerUid,
	android::hardware::identity::support::encodeHex(name).c_str());
	}

	CredentialData::CredentialData(const string& dataPath, uid_t ownerUid, const string& name)
	: dataPath_(dataPath), ownerUid_(ownerUid), name_(name), secureUserId_(0) {
	fileName_ = calculateCredentialFileName(dataPath_, ownerUid_, name_);
	}

	void CredentialData::setSecureUserId(int64_t secureUserId) {
	secureUserId_ = secureUserId;
	}

	void CredentialData::setCredentialData(const vector<uint8_t>& credentialData) {
	credentialData_ = credentialData;
	}

	void CredentialData::setAttestationCertificate(const vector<uint8_t>& attestationCertificate) {
	attestationCertificate_ = attestationCertificate;
	}

	void CredentialData::addSecureAccessControlProfile(
	const SecureAccessControlProfile& secureAccessControlProfile) {
	secureAccessControlProfiles_.push_back(secureAccessControlProfile);
	}

	void CredentialData::addEntryData(const string& namespaceName, const string& entryName,
	const EntryData& data) {
	idToEncryptedChunks_[namespaceName + ":" + entryName] = data;
	}

	bool CredentialData::saveToDisk() const {
	cppbor::Map map;

	map.add("secureUserId", secureUserId_);

	map.add("credentialData", credentialData_);

	map.add("attestationCertificate", attestationCertificate_);

	cppbor::Array sacpArray;
	for (const SecureAccessControlProfile& sacp : secureAccessControlProfiles_) {
	cppbor::Array array;
	array.add(sacp.id);
	array.add((const vector<uint8_t>&)sacp.readerCertificate);
	array.add(sacp.userAuthenticationRequired);
	array.add(sacp.timeoutMillis);
	array.add(sacp.secureUserId);
	vector<uint8_t> mac = sacp.mac;
	array.add(mac);
	sacpArray.add(std::move(array));
	}
	map.add("secureAccessControlProfiles", std::move(sacpArray));

	cppbor::Map encryptedBlobsMap;
	for (auto const& [nsAndName, entryData] : idToEncryptedChunks_) {
	cppbor::Array encryptedChunkArray;
	for (const vector<uint8_t>& encryptedChunk : entryData.encryptedChunks) {
	encryptedChunkArray.add(encryptedChunk);
	}
	cppbor::Array entryDataArray;
	entryDataArray.add(entryData.size);
	cppbor::Array idsArray;
	for (uint16_t id : entryData.accessControlProfileIds) {
	idsArray.add(id);
	}
	entryDataArray.add(std::move(idsArray));
	entryDataArray.add(std::move(encryptedChunkArray));
	encryptedBlobsMap.add(nsAndName, std::move(entryDataArray));
	}
	map.add("entryData", std::move(encryptedBlobsMap));
	map.add("authKeyCount", keyCount_);
	map.add("maxUsesPerAuthKey", maxUsesPerKey_);

	cppbor::Array authKeyDatasArray;
	for (const AuthKeyData& data : authKeyDatas_) {
	cppbor::Array array;
	array.add(data.certificate);
	array.add(data.keyBlob);
	array.add(data.staticAuthenticationData);
	array.add(data.pendingCertificate);
	array.add(data.pendingKeyBlob);
	array.add(data.useCount);
	authKeyDatasArray.add(std::move(array));
	}
	map.add("authKeyData", std::move(authKeyDatasArray));

	vector<uint8_t> credentialData = map.encode();

	return fileSetContents(fileName_, credentialData);
	}

	optional<SecureAccessControlProfile> parseSacp(const cppbor::Item& item) {
	const cppbor::Array* array = item.asArray();
	if (array == nullptr \|\| array->size() < 6) {
	LOG(ERROR) << "The SACP CBOR is not an array with at least six elements (size="
	<< (array != nullptr ? array->size() : -1) << ")";
	return {};
	}
	const cppbor::Int* itemId = ((*array)[0])->asInt();
	const cppbor::Bstr* itemReaderCertificate = ((*array)[1])->asBstr();
	const cppbor::Simple* simple = ((*array)[2])->asSimple();
	const cppbor::Bool* itemUserAuthenticationRequired =
	(simple != nullptr ? (simple->asBool()) : nullptr);
	const cppbor::Int* itemTimeoutMillis = ((*array)[3])->asInt();
	const cppbor::Int* itesecureUserId_ = ((*array)[4])->asInt();
	const cppbor::Bstr* itemMac = ((*array)[5])->asBstr();
	if (itemId == nullptr \|\| itemReaderCertificate == nullptr \|\|
	itemUserAuthenticationRequired == nullptr \|\| itemTimeoutMillis == nullptr \|\|
	itesecureUserId_ == nullptr \|\| itemMac == nullptr) {
	LOG(ERROR) << "One or more items SACP array in CBOR is of wrong type";
	return {};
	}
	SecureAccessControlProfile sacp;
	sacp.id = itemId->value();
	sacp.readerCertificate = itemReaderCertificate->value();
	sacp.userAuthenticationRequired = itemUserAuthenticationRequired->value();
	sacp.timeoutMillis = itemTimeoutMillis->value();
	sacp.secureUserId = itesecureUserId_->value();
	sacp.mac = itemMac->value();
	return sacp;
	}

	optional<AuthKeyData> parseAuthKeyData(const cppbor::Item& item) {
	const cppbor::Array* array = item.asArray();
	if (array == nullptr \|\| array->size() < 6) {
	LOG(ERROR) << "The AuthKeyData CBOR is not an array with at least six elements";
	return {};
	}
	const cppbor::Bstr* itemCertificate = ((*array)[0])->asBstr();
	const cppbor::Bstr* itemKeyBlob = ((*array)[1])->asBstr();
	const cppbor::Bstr* itemStaticAuthenticationData = ((*array)[2])->asBstr();
	const cppbor::Bstr* itemPendingCertificate = ((*array)[3])->asBstr();
	const cppbor::Bstr* itemPendingKeyBlob = ((*array)[4])->asBstr();
	const cppbor::Int* itemUseCount = ((*array)[5])->asInt();
	if (itemCertificate == nullptr \|\| itemKeyBlob == nullptr \|\|
	itemStaticAuthenticationData == nullptr \|\| itemPendingCertificate == nullptr \|\|
	itemPendingKeyBlob == nullptr \|\| itemUseCount == nullptr) {
	LOG(ERROR) << "One or more items in AuthKeyData array in CBOR is of wrong type";
	return {};
	}
	AuthKeyData authKeyData;
	authKeyData.certificate = itemCertificate->value();
	authKeyData.keyBlob = itemKeyBlob->value();
	authKeyData.staticAuthenticationData = itemStaticAuthenticationData->value();
	authKeyData.pendingCertificate = itemPendingCertificate->value();
	authKeyData.pendingKeyBlob = itemPendingKeyBlob->value();
	authKeyData.useCount = itemUseCount->value();
	return authKeyData;
	}

	vector<uint16_t> parseAccessControlProfileIds(const cppbor::Item& item) {
	const cppbor::Array* array = item.asArray();
	if (array == nullptr) {
	LOG(ERROR) << "The accessControlProfileIds member is not an array";
	return {};
	}

	vector<uint16_t> accessControlProfileIds;
	for (size_t n = 0; n < array->size(); n++) {
	const cppbor::Int* itemInt = ((*array)[n])->asInt();
	if (itemInt == nullptr) {
	LOG(ERROR) << "An item in the accessControlProfileIds array is not a bstr";
	return {};
	}
	accessControlProfileIds.push_back(itemInt->value());
	}
	return accessControlProfileIds;
	}

	optional<vector<vector<uint8_t>>> parseEncryptedChunks(const cppbor::Item& item) {
	const cppbor::Array* array = item.asArray();
	if (array == nullptr) {
	LOG(ERROR) << "The encryptedChunks member is not an array";
	return {};
	}

	vector<vector<uint8_t>> encryptedChunks;
	for (size_t n = 0; n < array->size(); n++) {
	const cppbor::Bstr* itemBstr = ((*array)[n])->asBstr();
	if (itemBstr == nullptr) {
	LOG(ERROR) << "An item in the encryptedChunks array is not a bstr";
	return {};
	}
	encryptedChunks.push_back(itemBstr->value());
	}
	return encryptedChunks;
	}

	bool CredentialData::loadFromDisk() {

	// Reset all data.
	credentialData_.clear();
	attestationCertificate_.clear();
	secureAccessControlProfiles_.clear();
	idToEncryptedChunks_.clear();
	authKeyDatas_.clear();
	keyCount_ = 0;
	maxUsesPerKey_ = 1;

	optional<vector<uint8_t>> data = fileGetContents(fileName_);
	if (!data) {
	LOG(ERROR) << "Error loading data";
	return false;
	}

	auto [item, _ /* newPos */, message] = cppbor::parse(data.value());
	if (item == nullptr) {
	LOG(ERROR) << "Data loaded from " << fileName_ << " is not valid CBOR: " << message;
	return false;
	}

	const cppbor::Map* map = item->asMap();
	if (map == nullptr) {
	LOG(ERROR) << "Top-level item is not a map";
	return false;
	}

	for (size_t n = 0; n < map->size(); n++) {
	auto [keyItem, valueItem] = (*map)[n];
	const cppbor::Tstr* tstr = keyItem->asTstr();
	if (tstr == nullptr) {
	LOG(ERROR) << "Key item in top-level map is not a tstr";
	return false;
	}
	const string& key = tstr->value();

	if (key == "secureUserId") {
	const cppbor::Int* number = valueItem->asInt();
	if (number == nullptr) {
	LOG(ERROR) << "Value for secureUserId is not a number";
	return false;
	}
	secureUserId_ = number->value();
	} else if (key == "credentialData") {
	const cppbor::Bstr* valueBstr = valueItem->asBstr();
	if (valueBstr == nullptr) {
	LOG(ERROR) << "Value for credentialData is not a bstr";
	return false;
	}
	credentialData_ = valueBstr->value();
	} else if (key == "attestationCertificate") {
	const cppbor::Bstr* valueBstr = valueItem->asBstr();
	if (valueBstr == nullptr) {
	LOG(ERROR) << "Value for attestationCertificate is not a bstr";
	return false;
	}
	attestationCertificate_ = valueBstr->value();
	} else if (key == "secureAccessControlProfiles") {
	const cppbor::Array* array = valueItem->asArray();
	if (array == nullptr) {
	LOG(ERROR) << "Value for attestationCertificate is not an array";
	return false;
	}
	for (size_t m = 0; m < array->size(); m++) {
	const std::unique_ptr<cppbor::Item>& item = (*array)[m];
	optional<SecureAccessControlProfile> sacp = parseSacp(*item);
	if (!sacp) {
	LOG(ERROR) << "Error parsing SecureAccessControlProfile";
	return false;
	}
	secureAccessControlProfiles_.push_back(sacp.value());
	}

	} else if (key == "entryData") {
	const cppbor::Map* map = valueItem->asMap();
	if (map == nullptr) {
	LOG(ERROR) << "Value for encryptedChunks is not an map";
	return false;
	}
	for (size_t m = 0; m < map->size(); m++) {
	auto [ecKeyItem, ecValueItem] = (*map)[m];
	const cppbor::Tstr* ecTstr = ecKeyItem->asTstr();
	if (ecTstr == nullptr) {
	LOG(ERROR) << "Key item in encryptedChunks map is not a tstr";
	return false;
	}
	const string& ecId = ecTstr->value();

	const cppbor::Array* ecEntryArrayItem = ecValueItem->asArray();
	if (ecEntryArrayItem == nullptr \|\| ecEntryArrayItem->size() < 3) {
	LOG(ERROR) << "Value item in encryptedChunks map is an array with at least two "
	"elements";
	return false;
	}
	const cppbor::Int* ecEntrySizeItem = (*ecEntryArrayItem)[0]->asInt();
	if (ecEntrySizeItem == nullptr) {
	LOG(ERROR) << "Entry size not a number";
	return false;
	}
	uint64_t entrySize = ecEntrySizeItem->value();

	optional<vector<uint16_t>> accessControlProfileIds =
	parseAccessControlProfileIds((ecEntryArrayItem)[1]);
	if (!accessControlProfileIds) {
	LOG(ERROR) << "Error parsing access control profile ids";
	return false;
	}

	optional<vector<vector<uint8_t>>> encryptedChunks =
	parseEncryptedChunks((ecEntryArrayItem)[2]);
	if (!encryptedChunks) {
	LOG(ERROR) << "Error parsing encrypted chunks";
	return false;
	}

	EntryData data;
	data.size = entrySize;
	data.accessControlProfileIds = accessControlProfileIds.value();
	data.encryptedChunks = encryptedChunks.value();
	idToEncryptedChunks_[ecId] = data;
	}

	} else if (key == "authKeyData") {
	const cppbor::Array* array = valueItem->asArray();
	if (array == nullptr) {
	LOG(ERROR) << "Value for authData is not an array";
	return false;
	}
	for (size_t m = 0; m < array->size(); m++) {
	const std::unique_ptr<cppbor::Item>& item = (*array)[m];
	optional<AuthKeyData> authKeyData = parseAuthKeyData(*item);
	if (!authKeyData) {
	LOG(ERROR) << "Error parsing AuthKeyData";
	return false;
	}
	authKeyDatas_.push_back(authKeyData.value());
	}

	} else if (key == "authKeyCount") {
	const cppbor::Int* number = valueItem->asInt();
	if (number == nullptr) {
	LOG(ERROR) << "Value for authKeyCount is not a number";
	return false;
	}
	keyCount_ = number->value();

	} else if (key == "maxUsesPerAuthKey") {
	const cppbor::Int* number = valueItem->asInt();
	if (number == nullptr) {
	LOG(ERROR) << "Value for maxUsesPerAuthKey is not a number";
	return false;
	}
	maxUsesPerKey_ = number->value();
	}
	}

	if (credentialData_.size() == 0 \|\| attestationCertificate_.size() == 0) {
	LOG(ERROR) << "Missing credentialData or attestationCertificate";
	return false;
	}

	if (size_t(keyCount_) != authKeyDatas_.size()) {
	LOG(ERROR) << "keyCount_=" << keyCount_
	<< " != authKeyDatas_.size()=" << authKeyDatas_.size();
	return false;
	}

	return true;
	}

	const vector<uint8_t>& CredentialData::getCredentialData() const {
	return credentialData_;
	}

	int64_t CredentialData::getSecureUserId() {
	return secureUserId_;
	}

	const vector<uint8_t>& CredentialData::getAttestationCertificate() const {
	return attestationCertificate_;
	}

	const vector<SecureAccessControlProfile>& CredentialData::getSecureAccessControlProfiles() const {
	return secureAccessControlProfiles_;
	}

	bool CredentialData::hasEntryData(const string& namespaceName, const string& entryName) const {
	string id = namespaceName + ":" + entryName;
	auto iter = idToEncryptedChunks_.find(id);
	if (iter == idToEncryptedChunks_.end()) {
	return false;
	}
	return true;
	}

	optional<EntryData> CredentialData::getEntryData(const string& namespaceName,
	const string& entryName) const {
	string id = namespaceName + ":" + entryName;
	auto iter = idToEncryptedChunks_.find(id);
	if (iter == idToEncryptedChunks_.end()) {
	return {};
	}
	return iter->second;
	}

	bool CredentialData::deleteCredential() {
	if (unlink(fileName_.c_str()) != 0) {
	PLOG(ERROR) << "Error deleting " << fileName_;
	return false;
	}
	return true;
	}

	optional<bool> CredentialData::credentialExists(const string& dataPath, uid_t ownerUid,
	const string& name) {
	struct stat statbuf;
	string filename = calculateCredentialFileName(dataPath, ownerUid, name);
	if (stat(filename.c_str(), &statbuf) != 0) {
	if (errno == ENOENT) {
	return false;
	}
	PLOG(ERROR) << "Error getting information about " << filename;
	return {};
	}
	return true;
	}

	// ---

	void CredentialData::setAvailableAuthenticationKeys(int keyCount, int maxUsesPerKey) {
	keyCount_ = keyCount;
	maxUsesPerKey_ = maxUsesPerKey;

	// If growing the number of auth keys (prevKeyCount < keyCount_ case) we'll add
	// new AuthKeyData structs to \|authKeyDatas_\| and each struct will have empty \|certificate\|
	// and \|pendingCertificate\| fields. Those will be filled out when the
	// getAuthKeysNeedingCertification() is called.
	//
	// If shrinking, we'll just delete the AuthKeyData structs at the end. There's nothing
	// else to do, the HAL doesn't need to know we're nuking these authentication keys.
	//
	// Therefore, in either case it's as simple as just resizing the vector.
	authKeyDatas_.resize(keyCount_);
	}

	const vector<AuthKeyData>& CredentialData::getAuthKeyDatas() const {
	return authKeyDatas_;
	}

	const AuthKeyData* CredentialData::selectAuthKey(bool allowUsingExhaustedKeys) {
	AuthKeyData* candidate = nullptr;

	int n = 0;
	int candidateNum = -1;
	for (AuthKeyData& data : authKeyDatas_) {
	if (data.certificate.size() != 0) {
	if (candidate == nullptr \|\| data.useCount < candidate->useCount) {
	candidate = &data;
	candidateNum = n;
	}
	}
	n++;
	}

	if (candidate == nullptr) {
	return nullptr;
	}

	if (candidate->useCount >= maxUsesPerKey_ && !allowUsingExhaustedKeys) {
	return nullptr;
	}

	candidate->useCount += 1;
	return candidate;
	}

	optional<vector<vector<uint8_t>>> CredentialData::getAuthKeysNeedingCertification(
	const sp<android::hardware::identity::V1_0::IIdentityCredential>& halBinder) {

	vector<vector<uint8_t>> keysNeedingCert;

	for (AuthKeyData& data : authKeyDatas_) {
	bool newKeyNeeded = (data.certificate.size() == 0) \|\| (data.useCount >= maxUsesPerKey_);
	bool certificationPending = (data.pendingCertificate.size() > 0);
	if (newKeyNeeded && !certificationPending) {
	Result result;
	vector<uint8_t> signingKeyBlob;
	vector<uint8_t> signingKeyCertificate;
	halBinder->generateSigningKeyPair(
	[&](const Result& _result,
	const android::hardware::hidl_vec<uint8_t> _signingKeyBlob,
	const android::hardware::hidl_vec<uint8_t> _signingKeyCertificate) {
	result = _result;
	signingKeyBlob = _signingKeyBlob;
	signingKeyCertificate = _signingKeyCertificate;
	});
	if (result.code != ResultCode::OK) {
	LOG(ERROR) << "Error generating signing key-pair";
	return {};
	}
	data.pendingCertificate = signingKeyCertificate;
	data.pendingKeyBlob = signingKeyBlob;
	certificationPending = true;
	}

	if (certificationPending) {
	keysNeedingCert.push_back(data.pendingCertificate);
	}
	}
	return keysNeedingCert;
	}

	bool CredentialData::storeStaticAuthenticationData(const vector<uint8_t>& authenticationKey,
	const vector<uint8_t>& staticAuthData) {
	for (AuthKeyData& data : authKeyDatas_) {
	if (data.pendingCertificate == authenticationKey) {
	data.certificate = data.pendingCertificate;
	data.keyBlob = data.pendingKeyBlob;
	data.staticAuthenticationData = staticAuthData;
	data.pendingCertificate.clear();
	data.pendingKeyBlob.clear();
	data.useCount = 0;
	return true;
	}
	}
	return false;
	}

	} // namespace identity
	} // namespace security
	} // namespace android