2 * Copyright (c) 2014-2021 Samsung Electronics Co., Ltd. All rights reserved
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License
18 * @author Bartlomiej Grzelewski (b.grzelewski@samsung.com)
20 * @brief Sample service implementation.
22 #include <dpl/serialization.h>
23 #include <dpl/log/log.h>
24 #include <ckm/ckm-error.h>
25 #include <ckm/ckm-type.h>
26 #include <key-provider.h>
27 #include <file-system.h>
28 #include <ckm-logic.h>
30 #include <key-aes-impl.h>
31 #include <certificate-config.h>
32 #include <certificate-store.h>
34 #include <sw-backend/store.h>
35 #include <generic-backend/exception.h>
36 #include <ss-migrate.h>
39 const char *const CERT_SYSTEM_DIR = CA_CERTS_DIR;
40 const char *const DEFAULT_UNLOCK_STRING = "cAtRugU7";
42 bool isClientValid(const CKM::ClientId &client)
44 if (client.find(CKM::ALIAS_SEPARATOR) != CKM::ClientId::npos)
50 bool isNameValid(const CKM::Name &name)
52 if (name.find(CKM::ALIAS_SEPARATOR) != CKM::Name::npos)
58 } // anonymous namespace
64 template <int ERROR_ON_CKM_EXCEPTION = CKM_API_ERROR_SERVER_ERROR, class F>
68 static_assert(std::is_same_v<decltype(std::forward<F>(f)()), int>);
69 return std::forward<F>(f)();
70 } catch (const Exc::Exception &e) {
72 } catch (const CKM::Exception &e) {
73 LogError("CKM::Exception: " << e.GetMessage());
74 return ERROR_ON_CKM_EXCEPTION;
78 int toBinaryData(const Crypto::Data &input, Crypto::Data &output)
80 // verify the data integrity
81 if (input.type.isKey()) {
84 if (input.type.isSKey())
85 output_key = CKM::Key::createAES(input.data);
87 output_key = CKM::Key::create(input.data);
89 if (output_key.get() == NULL) {
90 LogDebug("provided binary data is not valid key data");
91 return CKM_API_ERROR_INPUT_PARAM;
94 output = Crypto::Data(input.type, output_key->getDER());
95 } else if (input.type.isCertificate() || input.type.isChainCert()) {
96 CertificateShPtr cert = CKM::Certificate::create(input.data, DataFormat::FORM_DER);
98 if (cert.get() == NULL) {
99 LogDebug("provided binary data is not valid certificate data");
100 return CKM_API_ERROR_INPUT_PARAM;
103 output = Crypto::Data(input.type, cert->getDER());
108 // TODO: add here BINARY_DATA verification, i.e: max size etc.
109 return CKM_API_SUCCESS;
112 int verifyBinaryData(const Crypto::Data &input)
115 return toBinaryData(input, dummy);
118 int readSingleRow(const Name &name,
119 const ClientId &owner,
121 DB::Crypto &database,
124 DB::Crypto::RowOptional row_optional;
126 if (dataType.isKey()) {
127 // read all key types
128 row_optional = database.getRow(name,
130 DataType::DB_KEY_FIRST,
131 DataType::DB_KEY_LAST);
133 // read anything else
134 row_optional = database.getRow(name,
140 LogDebug("No row for given name, owner and type");
141 return CKM_API_ERROR_DB_ALIAS_UNKNOWN;
146 return CKM_API_SUCCESS;
149 int readMultiRow(const Name &name,
150 const ClientId &owner,
152 DB::Crypto &database,
153 DB::RowVector &output)
155 if (dataType.isKey())
156 // read all key types
157 database.getRows(name,
159 DataType::DB_KEY_FIRST,
160 DataType::DB_KEY_LAST,
162 else if (dataType.isChainCert())
163 // read all key types
164 database.getRows(name,
166 DataType::DB_CHAIN_FIRST,
167 DataType::DB_CHAIN_LAST,
170 // read anything else
171 database.getRows(name,
176 if (!output.size()) {
177 LogDebug("No row for given name, owner and type");
178 return CKM_API_ERROR_DB_ALIAS_UNKNOWN;
181 return CKM_API_SUCCESS;
186 const uid_t CKMLogic::SYSTEM_DB_UID = 0;
187 const uid_t CKMLogic::ADMIN_USER_DB_UID = 5001;
191 CertificateConfig::addSystemCertificateDir(CERT_SYSTEM_DIR);
193 m_accessControl.updateCCMode();
196 CKMLogic::~CKMLogic() {}
198 void CKMLogic::loadDKEKFile(uid_t user, const Password &password)
200 auto &handle = m_userDataMap[user];
204 auto wrappedDKEK = fs.getDKEK();
206 if (wrappedDKEK.empty()) {
207 wrappedDKEK = KeyProvider::generateDomainKEK(std::to_string(user), password);
208 fs.saveDKEK(wrappedDKEK);
211 handle.keyProvider = KeyProvider(wrappedDKEK, password);
212 if (!handle.keyProvider.isInitialized()) {
213 handle.keyProvider.migrateDomainKEK(wrappedDKEK, password);
214 fs.saveDKEK(handle.keyProvider.getWrappedDomainKEK(password));
215 LogInfo("DKEK migrated");
219 void CKMLogic::saveDKEKFile(uid_t user, const Password &password)
221 auto &handle = m_userDataMap[user];
224 fs.saveDKEK(handle.keyProvider.getWrappedDomainKEK(password));
227 void CKMLogic::migrateSecureStorageData(bool isAdminUser)
229 SsMigration::migrate(isAdminUser, [this](const std::string &name,
230 const Crypto::Data &data,
231 bool adminUserFlag) {
232 LogInfo("Migrate data called with name: " << name);
233 auto ownerId = adminUserFlag ? CLIENT_ID_ADMIN_USER : CLIENT_ID_SYSTEM;
234 auto uid = adminUserFlag ? ADMIN_USER_DB_UID : SYSTEM_DB_UID;
236 int ret = verifyAndSaveDataHelper(Credentials(uid, ownerId), name, ownerId, data,
237 PolicySerializable());
239 if (ret == CKM_API_ERROR_DB_ALIAS_EXISTS)
240 LogWarning("Alias already exist for migrated name: " << name);
241 else if (ret != CKM_API_SUCCESS)
242 LogError("Failed to migrate secure-storage data. name: " << name <<
247 int CKMLogic::unlockDatabase(uid_t user, const Password &password)
249 if (0 < m_userDataMap.count(user) &&
250 m_userDataMap[user].keyProvider.isInitialized())
251 return CKM_API_SUCCESS;
253 int retCode = tryRet([&] {
254 auto &handle = m_userDataMap[user];
257 loadDKEKFile(user, password);
259 auto wrappedDatabaseDEK = fs.getDBDEK();
261 if (wrappedDatabaseDEK.empty()) {
262 wrappedDatabaseDEK = handle.keyProvider.generateDEK(std::to_string(user));
263 fs.saveDBDEK(wrappedDatabaseDEK);
266 RawBuffer key = handle.keyProvider.getPureDEK(wrappedDatabaseDEK);
268 handle.database = DB::Crypto(fs.getLegacyDBPath(), fs.getDBPath(), key);
269 handle.crypto = CryptoLogic();
271 if (!m_accessControl.isSystemService(user)) {
272 // remove data of removed apps during locked state
273 ClientIdVector removedApps = fs.clearRemovedsApps();
275 for (auto &app : removedApps) {
276 handle.crypto.removeKey(app);
277 handle.database.deleteKey(app);
281 if (user == SYSTEM_DB_UID && SsMigration::hasData())
282 migrateSecureStorageData(false);
283 else if (user == ADMIN_USER_DB_UID && SsMigration::hasData())
284 migrateSecureStorageData(true);
286 return CKM_API_SUCCESS;
289 if (CKM_API_SUCCESS != retCode)
290 m_userDataMap.erase(user);
295 int CKMLogic::unlockSystemDB()
297 return unlockDatabase(SYSTEM_DB_UID, DEFAULT_UNLOCK_STRING);
300 UserData &CKMLogic::selectDatabase(const Credentials &cred,
301 const ClientId &owner)
303 // if user trying to access system service - check:
304 // * if user database is unlocked [mandatory]
305 // * if not - proceed with regular user database
306 // * if explicit system database owner given -> switch to system DB
307 if (!m_accessControl.isSystemService(cred)) {
308 if (0 == m_userDataMap.count(cred.clientUid))
309 ThrowErr(Exc::DatabaseLocked, "database with UID: ", cred.clientUid, " locked");
311 if (0 != owner.compare(CLIENT_ID_SYSTEM))
312 return m_userDataMap[cred.clientUid];
315 // system database selected, modify the owner id
316 if (CKM_API_SUCCESS != unlockSystemDB())
317 ThrowErr(Exc::DatabaseLocked, "can not unlock system database");
319 return m_userDataMap[SYSTEM_DB_UID];
322 RawBuffer CKMLogic::unlockUserKey(uid_t user, const Password &password)
324 int retCode = CKM_API_SUCCESS;
326 if (!m_accessControl.isSystemService(user))
327 retCode = unlockDatabase(user, password);
328 else // do not allow lock/unlock operations for system users
329 retCode = CKM_API_ERROR_INPUT_PARAM;
331 return SerializeMessage(retCode);
334 RawBuffer CKMLogic::updateCCMode()
336 m_accessControl.updateCCMode();
337 return SerializeMessage(CKM_API_SUCCESS);
340 RawBuffer CKMLogic::lockUserKey(uid_t user)
342 int retCode = CKM_API_SUCCESS;
344 if (!m_accessControl.isSystemService(user))
345 m_userDataMap.erase(user);
346 else // do not allow lock/unlock operations for system users
347 retCode = CKM_API_ERROR_INPUT_PARAM;
349 return SerializeMessage(retCode);
352 RawBuffer CKMLogic::removeUserData(uid_t user)
354 if (m_accessControl.isSystemService(user))
355 user = SYSTEM_DB_UID;
357 m_userDataMap.erase(user);
359 const int retCode = FileSystem(user).removeUserData()
360 ? CKM_API_ERROR_FILE_SYSTEM
363 return SerializeMessage(retCode);
366 RawBuffer CKMLogic::changeUserPassword(
368 const Password &oldPassword,
369 const Password &newPassword)
371 return SerializeMessage(tryRet([&] {
372 // do not allow to change system database password
373 if (m_accessControl.isSystemService(user))
374 return CKM_API_ERROR_INPUT_PARAM;
376 loadDKEKFile(user, oldPassword);
377 saveDKEKFile(user, newPassword);
379 return CKM_API_SUCCESS;
383 RawBuffer CKMLogic::resetUserPassword(
385 const Password &newPassword)
387 return SerializeMessage(tryRet([&] {
388 // do not allow to reset system database password
389 if (m_accessControl.isSystemService(user))
390 return CKM_API_ERROR_INPUT_PARAM;
392 int retCode = CKM_API_SUCCESS;
394 if (0 == m_userDataMap.count(user)) {
395 // Check if key exists. If exists we must return error
397 auto wrappedDKEKMain = fs.getDKEK();
399 if (!wrappedDKEKMain.empty())
400 retCode = CKM_API_ERROR_BAD_REQUEST;
402 saveDKEKFile(user, newPassword);
409 RawBuffer CKMLogic::removeApplicationData(const ClientId &owner)
411 return SerializeMessage(tryRet([&] {
413 return CKM_API_ERROR_INPUT_PARAM;
415 UidVector uids = FileSystem::getUIDsFromDBFile();
417 for (auto userId : uids) {
418 if (0 == m_userDataMap.count(userId)) {
419 FileSystem fs(userId);
420 fs.addRemovedApp(owner);
422 auto &handle = m_userDataMap[userId];
423 handle.crypto.removeKey(owner);
424 handle.database.deleteKey(owner);
428 return CKM_API_SUCCESS;
432 int CKMLogic::verifyAndSaveDataHelper(
433 const Credentials &cred,
435 const ClientId &owner,
436 const Crypto::Data &data,
437 const PolicySerializable &policy)
440 // check if data is correct
441 Crypto::Data binaryData;
442 int retCode = toBinaryData(data, binaryData);
443 if (retCode != CKM_API_SUCCESS)
446 auto [dbOp, digest, ret] = beginSaveAndGetHash(cred, name, owner);
447 if (ret != CKM_API_SUCCESS)
450 Crypto::GStore &store = m_decider.getStore(binaryData.type, policy);
452 // do not encrypt data with password during cc_mode on
453 Token token = store.import(binaryData,
454 m_accessControl.isCCMode() ? "" : policy.password,
455 Crypto::EncryptionParams(), digest);
456 dbOp.finalize(std::move(token), policy);
457 return CKM_API_SUCCESS;
461 int CKMLogic::getKeyForService(
462 const Credentials &cred,
464 const ClientId &owner,
465 const Password &pass,
466 Crypto::GObjShPtr &key)
469 // Key is for internal service use. It won't be exported to the client
470 Crypto::GObjUPtr obj;
471 int retCode = readDataHelper(false, cred, DataType::DB_KEY_FIRST, name, owner, pass, obj);
472 if (retCode == CKM_API_SUCCESS)
473 key = std::move(obj);
479 RawBuffer CKMLogic::saveData(
480 const Credentials &cred,
483 const ClientId &owner,
484 const Crypto::Data &data,
485 const PolicySerializable &policy)
487 int retCode = verifyAndSaveDataHelper(cred, name, owner, data, policy);
488 return SerializeMessage(msgId, retCode, data.type);
491 RawBuffer CKMLogic::savePKCS12(
492 const Credentials &cred,
495 const ClientId &owner,
496 const PKCS12Serializable &pkcs,
497 const PolicySerializable &keyPolicy,
498 const PolicySerializable &certPolicy)
500 return SerializeMessage(msgId, tryRet([&] {
501 auto [dbOp, retCode] = beginSave(cred, name, owner);
502 if (retCode != CKM_API_SUCCESS)
505 // extract and encrypt the data
506 DB::RowVector encryptedRows;
508 auto import = [&](const Crypto::Data &data, const Policy& policy){
509 retCode = verifyBinaryData(data);
510 if (retCode != CKM_API_SUCCESS)
513 auto digest = CryptoLogic::makeHash(name, owner, cred.clientUid, data.type);
515 return CKM_API_ERROR_HASH_ERROR;
517 Crypto::GStore &store = m_decider.getStore(data.type, policy);
519 // do not encrypt data with password during cc_mode on
520 Token token = store.import(data,
521 m_accessControl.isCCMode() ? "" : policy.password,
522 Crypto::EncryptionParams(), digest);
524 encryptedRows.push_back(dbOp.encryptOne(std::move(token), policy));
525 return CKM_API_SUCCESS;
528 // private key is mandatory
529 auto key = pkcs.getKey();
531 LogError("Failed to get private key from pkcs");
532 return CKM_API_ERROR_INVALID_FORMAT;
535 Crypto::Data keyData(DataType(key->getType()), key->getDER());
536 retCode = import(keyData, keyPolicy);
537 if (retCode != CKM_API_SUCCESS)
540 // certificate is mandatory
541 auto cert = pkcs.getCertificate();
543 LogError("Failed to get certificate from pkcs");
544 return CKM_API_ERROR_INVALID_FORMAT;
547 Crypto::Data certData(DataType::CERTIFICATE, cert->getDER());
548 retCode = import(certData, certPolicy);
549 if (retCode != CKM_API_SUCCESS)
553 unsigned int cert_index = 0;
554 for (const auto &ca : pkcs.getCaCertificateShPtrVector()) {
555 Crypto::Data caCertData(DataType::getChainDatatype(cert_index ++), ca->getDER());
556 retCode = import(caCertData, certPolicy);
557 if (retCode != CKM_API_SUCCESS)
562 dbOp.database().saveRows(name, owner, encryptedRows);
563 dbOp.transaction().commit();
565 return CKM_API_SUCCESS;
569 RawBuffer CKMLogic::removeData(
570 const Credentials &cred,
573 const ClientId &owner)
575 return SerializeMessage(msgId, tryRet([&] {
576 auto [dbOp, permission, retCode] = beginAndGetPerm(cred, name, owner);
577 if (retCode != CKM_API_SUCCESS)
580 retCode = m_accessControl.canDelete(cred, permission);
581 if (retCode != CKM_API_SUCCESS) {
582 LogWarning("access control check result: " << retCode);
586 // get all matching rows
588 dbOp.database().getRows(name, owner, DataType::DB_FIRST, DataType::DB_LAST, rows);
590 LogDebug("No row for given name and owner");
591 return CKM_API_ERROR_DB_ALIAS_UNKNOWN;
594 retCode = dbOp.loadAppKey();
595 if (retCode != CKM_API_SUCCESS)
598 // destroy it in store
599 for (auto &r : rows) {
601 dbOp.handler().crypto.decryptRow(Password(), r);
602 m_decider.getStore(r).destroy(r);
603 } catch (const Exc::AuthenticationFailed &) {
604 LogDebug("Authentication failed when removing data. Ignored.");
609 dbOp.database().deleteRow(name, owner);
610 dbOp.transaction().commit();
612 return CKM_API_SUCCESS;
617 int CKMLogic::checkDataPermissionsHelper(const Credentials &accessorCred,
620 const PermissionMask& permission)
623 return m_accessControl.canExport(accessorCred, row, permission);
625 return m_accessControl.canRead(accessorCred, permission);
628 void CKMLogic::decryptRow(
631 const Password &password,
632 const RawBuffer &hash)
634 if (CryptoLogic::getSchemeVersion(row.encryptionScheme) ==
635 CryptoLogic::ENCRYPTION_V2) {
636 handler.crypto.decryptRow(Password(), row);
638 Crypto::GStore &store = m_decider.getStore(row);
640 Password pass = m_accessControl.isCCMode() ? "" : password;
642 // decrypt entirely with old scheme: b64(pass(appkey(data))) -> data
643 handler.crypto.decryptRow(pass, row);
644 // destroy it in store
647 // import it to store with new scheme: data -> pass(data)
648 Token token = store.import(Crypto::Data(row.dataType, row.data),
650 Crypto::EncryptionParams(),
653 // update row with new token
654 *static_cast<Token *>(&row) = std::move(token);
656 // encrypt it with app key: pass(data) -> b64(appkey(pass(data))
657 auto encryptedRow = handler.crypto.encryptRow(row);
660 handler.database.updateRow(encryptedRow);
664 Crypto::GObjUPtr CKMLogic::rowToObject(
667 const Password &password,
668 const RawBuffer &hash)
670 decryptRow(handler, row, password, hash);
672 return decryptedRowToObj(row, password);
675 int CKMLogic::readDataHelper(
677 const Credentials &cred,
680 const ClientId &owner,
681 const Password &password,
682 Crypto::GObjUPtrVector &objs)
684 auto [dbOp, permission, retCode] = beginAndGetPerm(cred, name, owner);
685 if (retCode != CKM_API_SUCCESS)
690 retCode = readMultiRow(name, owner, dataType, dbOp.database(), rows);
691 if (CKM_API_SUCCESS != retCode)
694 // all read rows belong to the same owner
695 DB::Row &firstRow = rows.at(0);
697 // check access rights
698 retCode = checkDataPermissionsHelper(cred, firstRow, exportFlag, permission);
699 if (CKM_API_SUCCESS != retCode)
702 // for multiple objects add type as hash input (see pkcs12)
703 bool multiple = rows.size() > 1;
707 retCode = dbOp.loadAppKey();
708 if (retCode != CKM_API_SUCCESS)
712 for (auto &row : rows) {
714 digest = CryptoLogic::makeHash(name, owner, cred.clientUid, row.dataType);
716 digest = CryptoLogic::makeHash(name, owner, cred.clientUid);
719 return CKM_API_ERROR_HASH_ERROR;
721 objs.push_back(rowToObject(dbOp.handler(), std::move(row), password, digest));
724 // rowToObject may modify db
725 dbOp.transaction().commit();
727 return CKM_API_SUCCESS;
730 int CKMLogic::readDataHelper(
732 const Credentials &cred,
735 const ClientId &owner,
736 const Password &password,
737 Crypto::GObjUPtr &obj)
739 DataType objDataType;
740 return readDataHelper(exportFlag, cred, dataType, name, owner,
741 password, obj, objDataType);
744 int CKMLogic::readRowHelper(
746 const Credentials &cred,
749 const ClientId &owner,
750 const Password &password,
752 DataType &objDataType)
754 auto [dbOp, permission, retCode] = beginAndGetPerm(cred, name, owner);
755 if (retCode != CKM_API_SUCCESS)
758 retCode = readSingleRow(name, owner, dataType, dbOp.database(), row);
759 if (CKM_API_SUCCESS != retCode)
762 retCode = dbOp.loadAppKey();
763 if (retCode != CKM_API_SUCCESS)
766 objDataType = row.dataType;
768 // check access rights
769 retCode = checkDataPermissionsHelper(cred, row, exportFlag, permission);
770 if (retCode != CKM_API_SUCCESS)
773 auto digest = CryptoLogic::makeHash(name, owner, cred.clientUid);
775 return CKM_API_ERROR_HASH_ERROR;
777 decryptRow(dbOp.handler(), row, password, digest);
779 // decryptRow may modify db
780 dbOp.transaction().commit();
782 return CKM_API_SUCCESS;
785 Crypto::GObjUPtr CKMLogic::decryptedRowToObj(const DB::Row& row, const Password &password)
787 Crypto::GStore &store = m_decider.getStore(row);
789 Password pass = m_accessControl.isCCMode() ? "" : password;
790 return store.getObject(row, pass);
793 int CKMLogic::readDataHelper(
795 const Credentials &cred,
798 const ClientId &owner,
799 const Password &password,
800 Crypto::GObjUPtr &obj,
801 DataType &objDataType)
804 int retCode = readRowHelper(exportFlag, cred, dataType, name, owner, password, row, objDataType);
805 if (retCode != CKM_API_SUCCESS)
808 obj = decryptedRowToObj(row, password);
810 return CKM_API_SUCCESS;
813 RawBuffer CKMLogic::getData(
814 const Credentials &cred,
818 const ClientId &owner,
819 const Password &password)
822 DataType objDataType;
824 int retCode = tryRet([&] {
825 Crypto::GObjUPtr obj;
826 int retCode = readDataHelper(true, cred, dataType, name, owner,
827 password, obj, objDataType);
829 if (retCode == CKM_API_SUCCESS)
830 rowData = obj->getBinary();
835 if (CKM_API_SUCCESS != retCode)
838 return SerializeMessage(msgId, retCode, objDataType, rowData);
841 RawBuffer CKMLogic::getDataProtectionStatus(
842 const Credentials &cred,
846 const ClientId &owner)
849 DataType objDataType;
852 int retCode = tryRet([&] {
853 Crypto::GObjUPtr obj;
854 return readDataHelper(false, cred, dataType, name, owner, password, obj, objDataType);
857 if (retCode == CKM_API_ERROR_AUTHENTICATION_FAILED) {
859 retCode = CKM_API_SUCCESS;
862 return SerializeMessage(msgId, retCode, objDataType, status);
865 RawBuffer CKMLogic::getPKCS12(
866 const Credentials &cred,
869 const ClientId &owner,
870 const Password &keyPassword,
871 const Password &certPassword)
873 PKCS12Serializable output;
875 int retCode = tryRet([&] {
877 CertificateShPtr cert;
878 CertificateShPtrVector caChain;
880 // read private key (mandatory)
881 Crypto::GObjUPtr keyObj;
882 int retCode = readDataHelper(true, cred, DataType::DB_KEY_FIRST, name, owner,
883 keyPassword, keyObj);
885 if (retCode != CKM_API_SUCCESS) {
886 if (retCode != CKM_API_ERROR_NOT_EXPORTABLE)
889 privKey = CKM::Key::create(keyObj->getBinary());
892 // read certificate (mandatory)
893 Crypto::GObjUPtr certObj;
894 retCode = readDataHelper(true, cred, DataType::CERTIFICATE, name, owner,
895 certPassword, certObj);
897 if (retCode != CKM_API_SUCCESS) {
898 if (retCode != CKM_API_ERROR_NOT_EXPORTABLE)
901 cert = CKM::Certificate::create(certObj->getBinary(), DataFormat::FORM_DER);
904 // read CA cert chain (optional)
905 Crypto::GObjUPtrVector caChainObjs;
906 retCode = readDataHelper(true, cred, DataType::DB_CHAIN_FIRST, name, owner,
907 certPassword, caChainObjs);
909 if (retCode != CKM_API_SUCCESS && retCode != CKM_API_ERROR_DB_ALIAS_UNKNOWN) {
910 if (retCode != CKM_API_ERROR_NOT_EXPORTABLE)
913 for (auto &caCertObj : caChainObjs)
914 caChain.push_back(CKM::Certificate::create(caCertObj->getBinary(),
915 DataFormat::FORM_DER));
918 // if anything found, return it
919 if (privKey || cert || caChain.size() > 0)
920 retCode = CKM_API_SUCCESS;
923 if (retCode != CKM_API_SUCCESS)
926 output = PKCS12Serializable(std::move(privKey), std::move(cert), std::move(caChain));
927 return CKM_API_SUCCESS;
930 return SerializeMessage(msgId, retCode, output);
933 int CKMLogic::getDataListHelper(const Credentials &cred,
934 const DataType dataType,
935 OwnerNameVector &ownerNameVector)
937 int retCode = CKM_API_ERROR_DB_LOCKED;
939 if (0 < m_userDataMap.count(cred.clientUid)) {
940 auto &database = m_userDataMap[cred.clientUid].database;
942 retCode = tryRet<CKM_API_ERROR_DB_ERROR>([&] {
943 OwnerNameVector tmpVector;
945 if (dataType.isKey()) {
946 // list all key types
947 database.listNames(cred.client,
949 DataType::DB_KEY_FIRST,
950 DataType::DB_KEY_LAST);
952 // list anything else
953 database.listNames(cred.client,
958 ownerNameVector.insert(ownerNameVector.end(), tmpVector.begin(),
960 return CKM_API_SUCCESS;
967 RawBuffer CKMLogic::getDataList(
968 const Credentials &cred,
972 OwnerNameVector systemVector;
973 OwnerNameVector userVector;
974 OwnerNameVector ownerNameVector;
976 int retCode = unlockSystemDB();
978 if (CKM_API_SUCCESS == retCode) {
980 if (m_accessControl.isSystemService(cred)) {
982 retCode = getDataListHelper(Credentials(SYSTEM_DB_UID, CLIENT_ID_SYSTEM),
986 // user - lookup system, then client DB
987 retCode = getDataListHelper(Credentials(SYSTEM_DB_UID, cred.client),
992 if (retCode == CKM_API_SUCCESS) {
993 retCode = getDataListHelper(cred,
1000 if (retCode == CKM_API_SUCCESS) {
1001 ownerNameVector.insert(ownerNameVector.end(), systemVector.begin(),
1002 systemVector.end());
1003 ownerNameVector.insert(ownerNameVector.end(), userVector.begin(),
1007 return SerializeMessage(msgId, retCode, dataType, ownerNameVector);
1010 int CKMLogic::importInitialData(
1012 const Crypto::Data &data,
1013 const Crypto::EncryptionParams &encParams,
1014 const Policy &policy)
1018 if (encParams.iv.empty() != encParams.tag.empty()) {
1019 LogError("Both iv and tag must be empty or set");
1020 return CKM_API_ERROR_INPUT_PARAM;
1023 // Inital values are always imported with root credentials. Client id is not important.
1024 Credentials rootCred(0, "whatever");
1025 ClientId owner(CLIENT_ID_SYSTEM);
1027 auto [dbOp, digest, retCode] = beginSaveAndGetHash(rootCred, name, owner);
1028 if (retCode != CKM_API_SUCCESS)
1031 Crypto::GStore &store = m_decider.getStore(data.type, policy, !encParams.iv.empty());
1034 if (encParams.iv.empty()) {
1035 // Data are not encrypted, let's try to verify them
1036 Crypto::Data binaryData;
1038 if (CKM_API_SUCCESS != (retCode = toBinaryData(data, binaryData)))
1041 token = store.import(binaryData,
1042 m_accessControl.isCCMode() ? "" : policy.password,
1045 token = store.import(data,
1046 m_accessControl.isCCMode() ? "" : policy.password,
1050 dbOp.finalize(std::move(token), policy);
1052 return CKM_API_SUCCESS;
1054 } catch (const std::exception &e) {
1055 LogError("Std::exception: " << e.what());
1056 return CKM_API_ERROR_SERVER_ERROR;
1060 int CKMLogic::DBOperation::loadAppKey(bool keyRequired)
1062 if (!m_handler.crypto.haveKey(m_owner)) {
1063 RawBuffer wrappedDEK;
1064 auto wrappedDEKOptional = m_handler.database.getKey(m_owner);
1066 if (!wrappedDEKOptional) {
1068 LogError("No key for given owner in database");
1069 return CKM_API_ERROR_DB_ERROR;
1071 LogDebug("No Key in database found. Generating new one for client: " << m_owner);
1072 wrappedDEK = m_handler.keyProvider.generateDEK(m_owner);
1073 m_handler.database.saveKey(m_owner, wrappedDEK);
1075 wrappedDEK = *wrappedDEKOptional;
1078 m_handler.crypto.pushKey(m_owner, m_handler.keyProvider.getPureDEK(wrappedDEK));
1081 return CKM_API_SUCCESS;
1084 std::tuple<CKMLogic::DBOperation, int> CKMLogic::begin(
1085 const Credentials &cred,
1087 const ClientId &owner)
1089 auto &handler = selectDatabase(cred, owner);
1090 DBOperation op(handler, name, owner);
1092 if (cred.client.empty() || !isClientValid(cred.client) ||
1093 !isNameValid(name) || !isClientValid(owner))
1094 return std::make_tuple(std::move(op), CKM_API_ERROR_INPUT_PARAM);
1096 return std::make_tuple(std::move(op), CKM_API_SUCCESS);
1099 std::tuple<CKMLogic::DBOperation, PermissionMask, int> CKMLogic::beginAndGetPerm(
1100 const Credentials &cred,
1102 const ClientId &owner)
1104 PermissionMask permission;
1105 auto [dbOp, retCode] = begin(cred, name, owner);
1106 if (retCode == CKM_API_SUCCESS)
1107 permission = toPermissionMask(dbOp.database().getPermissionRow(name, owner, cred.client));
1109 return std::make_tuple(std::move(dbOp), permission, retCode);
1112 std::tuple<CKMLogic::DBOperation, int> CKMLogic::beginSave(
1113 const Credentials &cred,
1115 const ClientId &owner)
1117 auto [dbOp, retCode] = begin(cred, name, owner);
1118 if (retCode != CKM_API_SUCCESS)
1119 return std::make_tuple(std::move(dbOp), retCode);
1121 retCode = dbOp.loadAppKey(false);
1122 if (retCode != CKM_API_SUCCESS)
1123 return std::make_tuple(std::move(dbOp), retCode);
1125 // check if accessor is allowed to save owner's items
1126 retCode = m_accessControl.canSave(cred, owner);
1127 if (retCode != CKM_API_SUCCESS) {
1128 LogDebug("accessor " << cred.client << " can not save rows owned by " << owner);
1129 return std::make_tuple(std::move(dbOp), retCode);
1132 if (dbOp.database().isNameOwnerPresent(name, owner))
1133 retCode = CKM_API_ERROR_DB_ALIAS_EXISTS;
1135 return std::make_tuple(std::move(dbOp), retCode);
1138 std::tuple<CKMLogic::DBOperation, RawBuffer, int> CKMLogic::beginSaveAndGetHash(
1139 const Credentials &cred,
1141 const ClientId &owner)
1144 auto [dbOp, retCode] = beginSave(cred, name, owner);
1145 if (retCode == CKM_API_SUCCESS) {
1146 digest = CryptoLogic::makeHash(name, owner, cred.clientUid);
1148 retCode = CKM_API_ERROR_HASH_ERROR;
1151 return std::make_tuple(std::move(dbOp), std::move(digest), retCode);
1154 RawBuffer CKMLogic::createKeyPair(
1155 const Credentials &cred,
1157 const CryptoAlgorithmSerializable &keyGenParams,
1158 const Name &namePrv,
1159 const ClientId &ownerPrv,
1160 const Name &namePub,
1161 const ClientId &ownerPub,
1162 const PolicySerializable &policyPrv,
1163 const PolicySerializable &policyPub)
1165 return SerializeMessage(msgId, tryRet([&] {
1166 auto [dbOpPrv, digestPrv, retCodePrv] = beginSaveAndGetHash(cred, namePrv, ownerPrv);
1167 if (retCodePrv != CKM_API_SUCCESS)
1170 auto [dbOpPub, digestPub, retCodePub] = beginSaveAndGetHash(cred, namePub, ownerPub);
1171 if (retCodePub != CKM_API_SUCCESS)
1174 if (policyPrv.backend != policyPub.backend)
1175 ThrowErr(Exc::InputParam, "Error, key pair must be supported with the same backend.");
1177 bool exportable = policyPrv.extractable || policyPub.extractable;
1178 Policy lessRestricted(Password(), exportable, policyPrv.backend);
1180 TokenPair keys = m_decider.getStore(policyPrv).generateAKey(
1184 digestPrv, digestPub);
1186 dbOpPrv.finalize(std::move(keys.first), policyPrv);
1187 dbOpPub.finalize(std::move(keys.second), policyPub);
1189 return CKM_API_SUCCESS;
1193 RawBuffer CKMLogic::createKeyAES(
1194 const Credentials &cred,
1198 const ClientId &owner,
1199 const PolicySerializable &policy)
1201 int retCode = CKM_API_SUCCESS;
1204 retCode = tryRet([&] {
1205 auto [dbOp, digest, retCode] = beginSaveAndGetHash(cred, name, owner);
1206 if (retCode != CKM_API_SUCCESS)
1209 // create key in store
1210 CryptoAlgorithm keyGenAlgorithm;
1211 keyGenAlgorithm.setParam(ParamName::ALGO_TYPE, AlgoType::AES_GEN);
1212 keyGenAlgorithm.setParam(ParamName::GEN_KEY_LEN, size);
1213 Token key = m_decider.getStore(DataType::KEY_AES, policy).generateSKey(keyGenAlgorithm,
1217 dbOp.finalize(std::move(key), policy);
1218 return CKM_API_SUCCESS;
1220 } catch (std::invalid_argument &e) {
1221 LogDebug("invalid argument error: " << e.what());
1222 retCode = CKM_API_ERROR_INPUT_PARAM;
1225 return SerializeMessage(msgId, retCode);
1228 int CKMLogic::readCertificateHelper(
1229 const Credentials &cred,
1230 const OwnerNameVector &ownerNameVector,
1231 CertificateImplVector &certVector)
1233 for (auto &i : ownerNameVector) {
1234 // certificates can't be protected with custom user password
1235 Crypto::GObjUPtr obj;
1237 ec = readDataHelper(true,
1239 DataType::CERTIFICATE,
1241 cred.effectiveOwner(i.first),
1245 if (ec != CKM_API_SUCCESS)
1248 certVector.emplace_back(obj->getBinary(), DataFormat::FORM_DER);
1250 // try to read chain certificates (if present)
1251 Crypto::GObjUPtrVector caChainObjs;
1252 ec = readDataHelper(true,
1254 DataType::DB_CHAIN_FIRST,
1256 cred.effectiveOwner(i.first),
1260 if (ec != CKM_API_SUCCESS && ec != CKM_API_ERROR_DB_ALIAS_UNKNOWN)
1263 for (auto &caCertObj : caChainObjs)
1264 certVector.emplace_back(caCertObj->getBinary(), DataFormat::FORM_DER);
1267 return CKM_API_SUCCESS;
1270 int CKMLogic::getCertificateChainHelper(
1271 const CertificateImpl &cert,
1272 const RawBufferVector &untrustedCertificates,
1273 const RawBufferVector &trustedCertificates,
1274 bool useTrustedSystemCertificates,
1275 RawBufferVector &chainRawVector)
1277 CertificateImplVector untrustedCertVector;
1278 CertificateImplVector trustedCertVector;
1279 CertificateImplVector chainVector;
1282 return CKM_API_ERROR_INPUT_PARAM;
1284 for (auto &e : untrustedCertificates) {
1285 CertificateImpl c(e, DataFormat::FORM_DER);
1288 return CKM_API_ERROR_INPUT_PARAM;
1290 untrustedCertVector.push_back(std::move(c));
1293 for (auto &e : trustedCertificates) {
1294 CertificateImpl c(e, DataFormat::FORM_DER);
1297 return CKM_API_ERROR_INPUT_PARAM;
1299 trustedCertVector.push_back(std::move(c));
1302 CertificateStore store;
1303 int retCode = store.verifyCertificate(cert,
1304 untrustedCertVector,
1306 useTrustedSystemCertificates,
1307 m_accessControl.isCCMode(),
1310 if (retCode != CKM_API_SUCCESS)
1313 for (auto &e : chainVector)
1314 chainRawVector.push_back(e.getDER());
1316 return CKM_API_SUCCESS;
1319 int CKMLogic::getCertificateChainHelper(
1320 const Credentials &cred,
1321 const CertificateImpl &cert,
1322 const OwnerNameVector &untrusted,
1323 const OwnerNameVector &trusted,
1324 bool useTrustedSystemCertificates,
1325 RawBufferVector &chainRawVector)
1327 CertificateImplVector untrustedCertVector;
1328 CertificateImplVector trustedCertVector;
1329 CertificateImplVector chainVector;
1332 return CKM_API_ERROR_INPUT_PARAM;
1334 int retCode = readCertificateHelper(cred, untrusted, untrustedCertVector);
1336 if (retCode != CKM_API_SUCCESS)
1339 retCode = readCertificateHelper(cred, trusted, trustedCertVector);
1341 if (retCode != CKM_API_SUCCESS)
1344 CertificateStore store;
1345 retCode = store.verifyCertificate(cert,
1346 untrustedCertVector,
1348 useTrustedSystemCertificates,
1349 m_accessControl.isCCMode(),
1352 if (retCode != CKM_API_SUCCESS)
1355 for (auto &i : chainVector)
1356 chainRawVector.push_back(i.getDER());
1358 return CKM_API_SUCCESS;
1361 RawBuffer CKMLogic::getCertificateChain(
1362 const Credentials & /*cred*/,
1364 const RawBuffer &certificate,
1365 const RawBufferVector &untrustedCertificates,
1366 const RawBufferVector &trustedCertificates,
1367 bool useTrustedSystemCertificates)
1369 CertificateImpl cert(certificate, DataFormat::FORM_DER);
1370 RawBufferVector chainRawVector;
1371 int retCode = CKM_API_ERROR_UNKNOWN;
1374 retCode = getCertificateChainHelper(cert,
1375 untrustedCertificates,
1376 trustedCertificates,
1377 useTrustedSystemCertificates,
1379 } catch (const Exc::Exception &e) {
1380 retCode = e.error();
1381 } catch (const std::exception &e) {
1382 LogError("STD exception " << e.what());
1383 retCode = CKM_API_ERROR_SERVER_ERROR;
1385 LogError("Unknown error.");
1388 return SerializeMessage(msgId, retCode, chainRawVector);
1391 RawBuffer CKMLogic::getCertificateChain(
1392 const Credentials &cred,
1394 const RawBuffer &certificate,
1395 const OwnerNameVector &untrustedCertificates,
1396 const OwnerNameVector &trustedCertificates,
1397 bool useTrustedSystemCertificates)
1399 int retCode = CKM_API_ERROR_UNKNOWN;
1400 CertificateImpl cert(certificate, DataFormat::FORM_DER);
1401 RawBufferVector chainRawVector;
1404 retCode = getCertificateChainHelper(cred,
1406 untrustedCertificates,
1407 trustedCertificates,
1408 useTrustedSystemCertificates,
1410 } catch (const Exc::Exception &e) {
1411 retCode = e.error();
1412 } catch (const std::exception &e) {
1413 LogError("STD exception " << e.what());
1414 retCode = CKM_API_ERROR_SERVER_ERROR;
1416 LogError("Unknown error.");
1419 return SerializeMessage(msgId, retCode, chainRawVector);
1422 RawBuffer CKMLogic::createSignature(
1423 const Credentials &cred,
1425 const Name &privateKeyName,
1426 const ClientId &owner,
1427 const Password &password, // password for private_key
1428 const RawBuffer &message,
1429 const CryptoAlgorithm &cryptoAlg)
1431 RawBuffer signature;
1433 int retCode = CKM_API_SUCCESS;
1436 retCode = tryRet([&] {
1437 Crypto::GObjUPtr obj;
1438 int retCode = readDataHelper(false, cred, DataType::DB_KEY_FIRST, privateKeyName,
1439 owner, password, obj);
1441 if (retCode == CKM_API_SUCCESS)
1442 signature = obj->sign(cryptoAlg, message);
1446 } catch (const std::exception &e) {
1447 LogError("STD exception " << e.what());
1448 retCode = CKM_API_ERROR_SERVER_ERROR;
1451 return SerializeMessage(msgId, retCode, signature);
1454 RawBuffer CKMLogic::verifySignature(
1455 const Credentials &cred,
1457 const Name &publicKeyOrCertName,
1458 const ClientId &owner,
1459 const Password &password, // password for public_key (optional)
1460 const RawBuffer &message,
1461 const RawBuffer &signature,
1462 const CryptoAlgorithm ¶ms)
1464 return SerializeMessage(msgId, tryRet([&] {
1465 // try certificate first - looking for a public key.
1466 // in case of PKCS, pub key from certificate will be found first
1467 // rather than private key from the same PKCS.
1468 Crypto::GObjUPtr obj;
1469 int retCode = readDataHelper(false, cred, DataType::CERTIFICATE,
1470 publicKeyOrCertName, owner, password, obj);
1472 if (retCode == CKM_API_ERROR_DB_ALIAS_UNKNOWN)
1473 retCode = readDataHelper(false, cred, DataType::DB_KEY_FIRST,
1474 publicKeyOrCertName, owner, password, obj);
1476 if (retCode == CKM_API_SUCCESS)
1477 retCode = obj->verify(params, message, signature);
1483 int CKMLogic::setPermissionHelper(
1484 const Credentials &cred, // who's the client
1486 const ClientId &owner, // who's the owner
1487 const ClientId &accessor, // who will get the access
1488 const PermissionMask permissionMask)
1490 auto [dbOp, retCode] = beginSave(cred, name, owner);
1491 // Normally, saving requires alias to be unoccupied. When changing permissions it's the opposite
1492 if (retCode != CKM_API_ERROR_DB_ALIAS_EXISTS) {
1493 if (retCode == CKM_API_SUCCESS)
1494 retCode = CKM_API_ERROR_DB_ALIAS_UNKNOWN;
1498 // currently we don't support modification of owner's permissions to his own rows
1499 if (owner == accessor)
1500 return CKM_API_ERROR_INPUT_PARAM;
1502 // system database does not support write/remove permissions
1503 if ((0 == owner.compare(CLIENT_ID_SYSTEM)) && (permissionMask & Permission::REMOVE))
1504 return CKM_API_ERROR_INPUT_PARAM;
1506 // set permissions to the row owned by owner for accessor
1507 dbOp.database().setPermission(name, owner, accessor, permissionMask);
1508 dbOp.transaction().commit();
1510 return CKM_API_SUCCESS;
1513 RawBuffer CKMLogic::setPermission(
1514 const Credentials &cred,
1517 const ClientId &owner,
1518 const ClientId &accessor,
1519 const PermissionMask permissionMask)
1521 return SerializeMessage(msgID, tryRet([&] {
1522 return setPermissionHelper(cred, name, owner, accessor, permissionMask);
1526 RawBuffer CKMLogic::deriveKey(
1527 const Credentials &cred,
1529 const CryptoAlgorithm ¶ms,
1530 const Name &secretName,
1531 const ClientId &secretOwner,
1532 const Password &secretPassword,
1533 const Name &newKeyName,
1534 const ClientId &newKeyOwner,
1535 const Policy &newKeyPolicy)
1537 return SerializeMessage(msgID, tryRet([&] {
1538 // Get key/secret for internal service use. It won't be exported to the client
1539 Crypto::GObjUPtr obj;
1540 int retCode = readDataHelper(false, cred, DataType::DB_KEY_FIRST,
1541 secretName, secretOwner, secretPassword, obj);
1542 if (retCode != CKM_API_SUCCESS) {
1543 if (retCode != CKM_API_ERROR_DB_ALIAS_UNKNOWN)
1546 retCode = readDataHelper(false, cred, DataType::BINARY_DATA,
1547 secretName, secretOwner, secretPassword, obj);
1548 if (retCode != CKM_API_SUCCESS)
1552 auto [dbOp, digest, ret] = beginSaveAndGetHash(cred, newKeyName, newKeyOwner);
1553 if (ret != CKM_API_SUCCESS)
1557 Token derived = obj->derive(params, newKeyPolicy.password, digest);
1559 dbOp.finalize(std::move(derived), newKeyPolicy);
1561 return CKM_API_SUCCESS;