identity/Credential.cpp - android_system_security - Gitiles

 /*
  * 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 "Credential"

 #include <android-base/logging.h>

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

 #include <android/security/identity/ICredentialStore.h>

 #include <android/security/keystore/BnCredstoreTokenCallback.h>
 #include <android/security/keystore/IKeystoreService.h>
 #include <binder/IPCThreadState.h>
 #include <binder/IServiceManager.h>
 #include <keymasterV4_0/keymaster_utils.h>

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

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

 namespace android {
 namespace security {
 namespace identity {

 using std::optional;
 using std::promise;
 using std::tuple;

 using android::security::keystore::IKeystoreService;

 using ::android::hardware::identity::support::ecKeyPairGetPkcs12;
 using ::android::hardware::identity::support::ecKeyPairGetPrivateKey;
 using ::android::hardware::identity::support::ecKeyPairGetPublicKey;
 using ::android::hardware::identity::support::sha256;

 using android::hardware::keymaster::V4_0::HardwareAuthToken;
 using android::hardware::keymaster::V4_0::VerificationToken;
 using AidlHardwareAuthToken = android::hardware::keymaster::HardwareAuthToken;
 using AidlVerificationToken = android::hardware::keymaster::VerificationToken;

 Credential::Credential(CipherSuite cipherSuite, const std::string& dataPath,
                        const std::string& credentialName)
     : cipherSuite_(cipherSuite), dataPath_(dataPath), credentialName_(credentialName) {}

 Credential::~Credential() {}

 Status Credential::loadCredential(sp<IIdentityCredentialStore> halStoreBinder) {
     uid_t callingUid = android::IPCThreadState::self()->getCallingUid();
     sp<CredentialData> data = new CredentialData(dataPath_, callingUid, credentialName_);
     if (!data->loadFromDisk()) {
         LOG(ERROR) << "Error loading data for credential";
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error loading data for credential");
     }

     data_ = data;

     sp<IIdentityCredential> halBinder;
     Status status =
         halStoreBinder->getCredential(cipherSuite_, data_->getCredentialData(), &halBinder);
     if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
         int code = status.serviceSpecificErrorCode();
         if (code == IIdentityCredentialStore::STATUS_CIPHER_SUITE_NOT_SUPPORTED) {
             return halStatusToError(status, ICredentialStore::ERROR_CIPHER_SUITE_NOT_SUPPORTED);
         }
     }
     if (!status.isOk()) {
         LOG(ERROR) << "Error getting HAL binder";
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC);
     }

     halBinder_ = halBinder;

     return Status::ok();
 }

 Status Credential::getCredentialKeyCertificateChain(std::vector<uint8_t>* _aidl_return) {
     *_aidl_return = data_->getAttestationCertificate();
     return Status::ok();
 }

 // Returns operation handle
 Status Credential::selectAuthKey(bool allowUsingExhaustedKeys, int64_t* _aidl_return) {

     selectedAuthKey_ = data_->selectAuthKey(allowUsingExhaustedKeys);
     if (selectedAuthKey_ == nullptr) {
         return Status::fromServiceSpecificError(
             ICredentialStore::ERROR_NO_AUTHENTICATION_KEY_AVAILABLE,
             "No suitable authentication key available");
     }

     int64_t challenge;
     Status status = halBinder_->createAuthChallenge(&challenge);
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }
     if (challenge == 0) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Returned challenge is 0 (bug in HAL or TA)");
     }

     selectedChallenge_ = challenge;
     *_aidl_return = challenge;
     return Status::ok();
 }

 class CredstoreTokenCallback : public android::security::keystore::BnCredstoreTokenCallback,
                                public promise<tuple<bool, vector<uint8_t>, vector<uint8_t>>> {
   public:
     CredstoreTokenCallback() {}
     virtual Status onFinished(bool success, const vector<uint8_t>& authToken,
                               const vector<uint8_t>& verificationToken) override {
         this->set_value({success, authToken, verificationToken});
         return Status::ok();
     }
 };

 // Returns false if an error occurred communicating with keystore.
 //
 bool getTokensFromKeystore(uint64_t challenge, uint64_t secureUserId,
                            unsigned int authTokenMaxAgeMillis, vector<uint8_t>& authToken,
                            vector<uint8_t>& verificationToken) {
     sp<IServiceManager> sm = defaultServiceManager();
     sp<IBinder> binder = sm->getService(String16("android.security.keystore"));
     sp<IKeystoreService> keystore = interface_cast<IKeystoreService>(binder);
     if (keystore == nullptr) {
         return false;
     }

     sp<CredstoreTokenCallback> callback = new CredstoreTokenCallback();
     auto future = callback->get_future();

     Status status =
         keystore->getTokensForCredstore(challenge, secureUserId, authTokenMaxAgeMillis, callback);
     if (!status.isOk()) {
         return false;
     }

     auto fstatus = future.wait_for(std::chrono::milliseconds(5000));
     if (fstatus != std::future_status::ready) {
         LOG(ERROR) << "Waited 5 seconds from tokens for credstore, aborting";
         return false;
     }
     auto [success, returnedAuthToken, returnedVerificationToken] = future.get();
     if (!success) {
         LOG(ERROR) << "Error getting tokens from credstore";
         return false;
     }
     authToken = returnedAuthToken;
     verificationToken = returnedVerificationToken;
     return true;
 }

 Status Credential::getEntries(const vector<uint8_t>& requestMessage,
                               const vector<RequestNamespaceParcel>& requestNamespaces,
                               const vector<uint8_t>& sessionTranscript,
                               const vector<uint8_t>& readerSignature, bool allowUsingExhaustedKeys,
                               GetEntriesResultParcel* _aidl_return) {
     GetEntriesResultParcel ret;

     // Calculate requestCounts ahead of time and be careful not to include
     // elements that don't exist.
     //
     // Also go through and figure out which access control profiles to include
     // in the startRetrieval() call.
     vector<int32_t> requestCounts;
     const vector<SecureAccessControlProfile>& allProfiles = data_->getSecureAccessControlProfiles();
     vector<bool> includeProfile(allProfiles.size());
     for (const RequestNamespaceParcel& rns : requestNamespaces) {
         size_t numEntriesInNsToRequest = 0;
         for (const RequestEntryParcel& rep : rns.entries) {
             if (data_->hasEntryData(rns.namespaceName, rep.name)) {
                 numEntriesInNsToRequest++;
             }

             optional<EntryData> data = data_->getEntryData(rns.namespaceName, rep.name);
             if (data) {
                 for (int32_t id : data.value().accessControlProfileIds) {
                     if (id >= int32_t(includeProfile.size())) {
                         LOG(ERROR) << "Invalid accessControlProfileId " << id << " for "
                                    << rns.namespaceName << ": " << rep.name;
                         return Status::fromServiceSpecificError(
                             ICredentialStore::ERROR_GENERIC, "Invalid accessProfileId for entry");
                     }
                     includeProfile[id] = true;
                 }
             }
         }
         requestCounts.push_back(numEntriesInNsToRequest);
     }

     // Now that we know which profiles are needed, send only those to the
     // HAL.
     vector<SecureAccessControlProfile> selectedProfiles;
     for (size_t n = 0; n < allProfiles.size(); n++) {
         if (includeProfile[n]) {
             selectedProfiles.push_back(allProfiles[n]);
         }
     }

     // Calculate the highest [1] non-zero timeout and if user-auth is needed
     // ... we need this to select an appropriate authToken.
     //
     // [1] : Why do we request the highest timeout and not the lowest? Well, we
     //       return partial results in getEntries e.g. if some data elements
     //       fail to authorize we'll still return the ones that did not fail. So
     //       e.g. consider data elements A and B where A has an ACP with 60
     //       seconds and B has an ACP with 3600 seconds. In this case we'll be
     //       fine with getting an authToken for e.g. 2400 seconds which would
     //       mean returning only B.
     //
     bool userAuthNeeded = false;
     unsigned int authTokenMaxAgeMillis = 0;
     for (auto& profile : selectedProfiles) {
         if (profile.userAuthenticationRequired) {
             userAuthNeeded = true;
             if (profile.timeoutMillis > 0) {
                 if (profile.timeoutMillis > authTokenMaxAgeMillis) {
                     authTokenMaxAgeMillis = profile.timeoutMillis;
                 }
             }
         }
     }

     // If requesting a challenge-based authToken the idea is that authentication
     // happens as part of the transaction. As such, authTokenMaxAgeMillis should
     // be nearly zero. We'll use 10 seconds for this.
     if (userAuthNeeded && selectedChallenge_ != 0) {
         authTokenMaxAgeMillis = 10 * 1000;
     }

     // Reset tokens and only get them if they're actually needed, e.g. if user authentication
     // is needed in any of the access control profiles for data items being requested.
     //
     AidlHardwareAuthToken aidlAuthToken;
     AidlVerificationToken aidlVerificationToken;
     aidlAuthToken.challenge = 0;
     aidlAuthToken.userId = 0;
     aidlAuthToken.authenticatorId = 0;
     aidlAuthToken.authenticatorType =
         ::android::hardware::keymaster::HardwareAuthenticatorType::NONE;
     aidlAuthToken.timestamp.milliSeconds = 0;
     aidlAuthToken.mac.clear();
     aidlVerificationToken.challenge = 0;
     aidlVerificationToken.timestamp.milliSeconds = 0;
     aidlVerificationToken.securityLevel = ::android::hardware::keymaster::SecurityLevel::SOFTWARE;
     aidlVerificationToken.mac.clear();
     if (userAuthNeeded) {
         vector<uint8_t> authTokenBytes;
         vector<uint8_t> verificationTokenBytes;
         if (!getTokensFromKeystore(selectedChallenge_, data_->getSecureUserId(),
                                    authTokenMaxAgeMillis, authTokenBytes, verificationTokenBytes)) {
             LOG(ERROR) << "Error getting tokens from keystore";
             return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                     "Error getting tokens from keystore");
         }

         // It's entirely possible getTokensFromKeystore() succeeded but didn't
         // return any tokens (in which case the returned byte-vectors are
         // empty). For example, this can happen if no auth token is available
         // which satifies e.g. |authTokenMaxAgeMillis|.
         //
         if (authTokenBytes.size() > 0) {
             HardwareAuthToken authToken =
                 android::hardware::keymaster::V4_0::support::hidlVec2AuthToken(authTokenBytes);
             // Convert from HIDL to AIDL...
             aidlAuthToken.challenge = int64_t(authToken.challenge);
             aidlAuthToken.userId = int64_t(authToken.userId);
             aidlAuthToken.authenticatorId = int64_t(authToken.authenticatorId);
             aidlAuthToken.authenticatorType =
                 ::android::hardware::keymaster::HardwareAuthenticatorType(
                     int32_t(authToken.authenticatorType));
             aidlAuthToken.timestamp.milliSeconds = int64_t(authToken.timestamp);
             aidlAuthToken.mac = authToken.mac;
         }

         if (verificationTokenBytes.size() > 0) {
             optional<VerificationToken> token =
                 android::hardware::keymaster::V4_0::support::deserializeVerificationToken(
                     verificationTokenBytes);
             if (!token) {
                 LOG(ERROR) << "Error deserializing verification token";
                 return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                         "Error deserializing verification token");
             }
             aidlVerificationToken.challenge = token->challenge;
             aidlVerificationToken.timestamp.milliSeconds = token->timestamp;
             aidlVerificationToken.securityLevel =
                 ::android::hardware::keymaster::SecurityLevel(token->securityLevel);
             aidlVerificationToken.mac = token->mac;
         }
     }

     // Note that the selectAuthKey() method is only called if a CryptoObject is involved at
     // the Java layer. So we could end up with no previously selected auth key and we may
     // need one.
     const AuthKeyData* authKey = selectedAuthKey_;
     if (sessionTranscript.size() > 0) {
         if (authKey == nullptr) {
             authKey = data_->selectAuthKey(allowUsingExhaustedKeys);
             if (authKey == nullptr) {
                 return Status::fromServiceSpecificError(
                     ICredentialStore::ERROR_NO_AUTHENTICATION_KEY_AVAILABLE,
                     "No suitable authentication key available");
             }
         }
     }
     vector<uint8_t> signingKeyBlob;
     if (authKey != nullptr) {
         signingKeyBlob = authKey->keyBlob;
     }

     // Pass the HAL enough information to allow calculating the size of
     // DeviceNameSpaces ahead of time.
     vector<RequestNamespace> halRequestNamespaces;
     for (const RequestNamespaceParcel& rns : requestNamespaces) {
         RequestNamespace ns;
         ns.namespaceName = rns.namespaceName;
         for (const RequestEntryParcel& rep : rns.entries) {
             optional<EntryData> entryData = data_->getEntryData(rns.namespaceName, rep.name);
             if (entryData) {
                 RequestDataItem di;
                 di.name = rep.name;
                 di.size = entryData.value().size;
                 di.accessControlProfileIds = entryData.value().accessControlProfileIds;
                 ns.items.push_back(di);
             }
         }
         if (ns.items.size() > 0) {
             halRequestNamespaces.push_back(ns);
         }
     }
     // This is not catastrophic, we might be dealing with a version 1 implementation which
     // doesn't have this method.
     Status status = halBinder_->setRequestedNamespaces(halRequestNamespaces);
     if (!status.isOk()) {
         LOG(INFO) << "Failed setting expected requested namespaces, assuming V1 HAL "
                   << "and continuing";
     }

     // Pass the verification token. Failure is OK, this method isn't in the V1 HAL.
     status = halBinder_->setVerificationToken(aidlVerificationToken);
     if (!status.isOk()) {
         LOG(INFO) << "Failed setting verification token, assuming V1 HAL "
                   << "and continuing";
     }

     status =
         halBinder_->startRetrieval(selectedProfiles, aidlAuthToken, requestMessage, signingKeyBlob,
                                    sessionTranscript, readerSignature, requestCounts);
     if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
         int code = status.serviceSpecificErrorCode();
         if (code == IIdentityCredentialStore::STATUS_EPHEMERAL_PUBLIC_KEY_NOT_FOUND) {
             return halStatusToError(status, ICredentialStore::ERROR_EPHEMERAL_PUBLIC_KEY_NOT_FOUND);
         } else if (code == IIdentityCredentialStore::STATUS_READER_SIGNATURE_CHECK_FAILED) {
             return halStatusToError(status, ICredentialStore::ERROR_INVALID_READER_SIGNATURE);
         } else if (code == IIdentityCredentialStore::STATUS_INVALID_ITEMS_REQUEST_MESSAGE) {
             return halStatusToError(status, ICredentialStore::ERROR_INVALID_ITEMS_REQUEST_MESSAGE);
         } else if (code == IIdentityCredentialStore::STATUS_SESSION_TRANSCRIPT_MISMATCH) {
             return halStatusToError(status, ICredentialStore::ERROR_SESSION_TRANSCRIPT_MISMATCH);
         }
     }
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }

     for (const RequestNamespaceParcel& rns : requestNamespaces) {
         ResultNamespaceParcel resultNamespaceParcel;
         resultNamespaceParcel.namespaceName = rns.namespaceName;

         for (const RequestEntryParcel& rep : rns.entries) {
             ResultEntryParcel resultEntryParcel;
             resultEntryParcel.name = rep.name;

             optional<EntryData> data = data_->getEntryData(rns.namespaceName, rep.name);
             if (!data) {
                 resultEntryParcel.status = STATUS_NO_SUCH_ENTRY;
                 resultNamespaceParcel.entries.push_back(resultEntryParcel);
                 continue;
             }

             status =
                 halBinder_->startRetrieveEntryValue(rns.namespaceName, rep.name, data.value().size,
                                                     data.value().accessControlProfileIds);
             if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
                 int code = status.serviceSpecificErrorCode();
                 if (code == IIdentityCredentialStore::STATUS_USER_AUTHENTICATION_FAILED) {
                     resultEntryParcel.status = STATUS_USER_AUTHENTICATION_FAILED;
                     resultNamespaceParcel.entries.push_back(resultEntryParcel);
                     continue;
                 } else if (code == IIdentityCredentialStore::STATUS_READER_AUTHENTICATION_FAILED) {
                     resultEntryParcel.status = STATUS_READER_AUTHENTICATION_FAILED;
                     resultNamespaceParcel.entries.push_back(resultEntryParcel);
                     continue;
                 } else if (code == IIdentityCredentialStore::STATUS_NOT_IN_REQUEST_MESSAGE) {
                     resultEntryParcel.status = STATUS_NOT_IN_REQUEST_MESSAGE;
                     resultNamespaceParcel.entries.push_back(resultEntryParcel);
                     continue;
                 } else if (code == IIdentityCredentialStore::STATUS_NO_ACCESS_CONTROL_PROFILES) {
                     resultEntryParcel.status = STATUS_NO_ACCESS_CONTROL_PROFILES;
                     resultNamespaceParcel.entries.push_back(resultEntryParcel);
                     continue;
                 }
             }
             if (!status.isOk()) {
                 return halStatusToGenericError(status);
             }

             vector<uint8_t> value;
             for (const auto& encryptedChunk : data.value().encryptedChunks) {
                 vector<uint8_t> chunk;
                 status = halBinder_->retrieveEntryValue(encryptedChunk, &chunk);
                 if (!status.isOk()) {
                     return halStatusToGenericError(status);
                 }
                 value.insert(value.end(), chunk.begin(), chunk.end());
             }

             resultEntryParcel.status = STATUS_OK;
             resultEntryParcel.value = value;
             resultNamespaceParcel.entries.push_back(resultEntryParcel);
         }
         ret.resultNamespaces.push_back(resultNamespaceParcel);
     }

     status = halBinder_->finishRetrieval(&ret.mac, &ret.deviceNameSpaces);
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }
     if (authKey != nullptr) {
         ret.staticAuthenticationData = authKey->staticAuthenticationData;
     }

     // Ensure useCount is updated on disk.
     if (authKey != nullptr) {
         if (!data_->saveToDisk()) {
             return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                     "Error saving data");
         }
     }

     *_aidl_return = ret;
     return Status::ok();
 }

 Status Credential::deleteCredential(vector<uint8_t>* _aidl_return) {
     vector<uint8_t> proofOfDeletionSignature;
     Status status = halBinder_->deleteCredential(&proofOfDeletionSignature);
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }
     if (!data_->deleteCredential()) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error deleting credential data on disk");
     }
     *_aidl_return = proofOfDeletionSignature;
     return Status::ok();
 }

 Status Credential::createEphemeralKeyPair(vector<uint8_t>* _aidl_return) {
     vector<uint8_t> keyPair;
     Status status = halBinder_->createEphemeralKeyPair(&keyPair);
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }

     optional<vector<uint8_t>> pkcs12Bytes = ecKeyPairGetPkcs12(keyPair,
                                                                "ephemeralKey",  // Alias for key
                                                                "0",  // Serial, as a decimal number
                                                                "Credstore",      // Issuer
                                                                "Ephemeral Key",  // Subject
                                                                0,  // Validity Not Before
                                                                24 * 60 * 60);  // Validity Not After
     if (!pkcs12Bytes) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error creating PKCS#12 structure for key pair");
     }
     *_aidl_return = pkcs12Bytes.value();
     return Status::ok();
 }

 Status Credential::setReaderEphemeralPublicKey(const vector<uint8_t>& publicKey) {
     Status status = halBinder_->setReaderEphemeralPublicKey(publicKey);
     if (!status.isOk()) {
         return halStatusToGenericError(status);
     }
     return Status::ok();
 }

 Status Credential::setAvailableAuthenticationKeys(int32_t keyCount, int32_t maxUsesPerKey) {
     data_->setAvailableAuthenticationKeys(keyCount, maxUsesPerKey);
     if (!data_->saveToDisk()) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error saving data");
     }
     return Status::ok();
 }

 Status Credential::getAuthKeysNeedingCertification(vector<AuthKeyParcel>* _aidl_return) {
     optional<vector<vector<uint8_t>>> keysNeedingCert =
         data_->getAuthKeysNeedingCertification(halBinder_);
     if (!keysNeedingCert) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error getting auth keys neededing certification");
     }
     vector<AuthKeyParcel> authKeyParcels;
     for (const vector<uint8_t>& key : keysNeedingCert.value()) {
         AuthKeyParcel authKeyParcel;
         authKeyParcel.x509cert = key;
         authKeyParcels.push_back(authKeyParcel);
     }
     if (!data_->saveToDisk()) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error saving data");
     }
     *_aidl_return = authKeyParcels;
     return Status::ok();
 }

 Status Credential::storeStaticAuthenticationData(const AuthKeyParcel& authenticationKey,
                                                  const vector<uint8_t>& staticAuthData) {
     if (!data_->storeStaticAuthenticationData(authenticationKey.x509cert, staticAuthData)) {
         return Status::fromServiceSpecificError(
             ICredentialStore::ERROR_AUTHENTICATION_KEY_NOT_FOUND,
             "Error finding authentication key to store static "
             "authentication data for");
     }
     if (!data_->saveToDisk()) {
         return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
                                                 "Error saving data");
     }
     return Status::ok();
 }

 Status Credential::getAuthenticationDataUsageCount(vector<int32_t>* _aidl_return) {
     const vector<AuthKeyData>& authKeyDatas = data_->getAuthKeyDatas();
     vector<int32_t> ret;
     for (const AuthKeyData& authKeyData : authKeyDatas) {
         ret.push_back(authKeyData.useCount);
     }
     *_aidl_return = ret;
     return Status::ok();
 }

 }  // 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 "Credential"

	#include <android-base/logging.h>

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

	#include <android/security/identity/ICredentialStore.h>

	#include <android/security/keystore/BnCredstoreTokenCallback.h>
	#include <android/security/keystore/IKeystoreService.h>
	#include <binder/IPCThreadState.h>
	#include <binder/IServiceManager.h>
	#include <keymasterV4_0/keymaster_utils.h>

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

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

	namespace android {
	namespace security {
	namespace identity {

	using std::optional;
	using std::promise;
	using std::tuple;

	using android::security::keystore::IKeystoreService;

	using ::android::hardware::identity::support::ecKeyPairGetPkcs12;
	using ::android::hardware::identity::support::ecKeyPairGetPrivateKey;
	using ::android::hardware::identity::support::ecKeyPairGetPublicKey;
	using ::android::hardware::identity::support::sha256;

	using android::hardware::keymaster::V4_0::HardwareAuthToken;
	using android::hardware::keymaster::V4_0::VerificationToken;
	using AidlHardwareAuthToken = android::hardware::keymaster::HardwareAuthToken;
	using AidlVerificationToken = android::hardware::keymaster::VerificationToken;

	Credential::Credential(CipherSuite cipherSuite, const std::string& dataPath,
	const std::string& credentialName)
	: cipherSuite_(cipherSuite), dataPath_(dataPath), credentialName_(credentialName) {}

	Credential::~Credential() {}

	Status Credential::loadCredential(sp<IIdentityCredentialStore> halStoreBinder) {
	uid_t callingUid = android::IPCThreadState::self()->getCallingUid();
	sp<CredentialData> data = new CredentialData(dataPath_, callingUid, credentialName_);
	if (!data->loadFromDisk()) {
	LOG(ERROR) << "Error loading data for credential";
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error loading data for credential");
	}

	data_ = data;

	sp<IIdentityCredential> halBinder;
	Status status =
	halStoreBinder->getCredential(cipherSuite_, data_->getCredentialData(), &halBinder);
	if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
	int code = status.serviceSpecificErrorCode();
	if (code == IIdentityCredentialStore::STATUS_CIPHER_SUITE_NOT_SUPPORTED) {
	return halStatusToError(status, ICredentialStore::ERROR_CIPHER_SUITE_NOT_SUPPORTED);
	}
	}
	if (!status.isOk()) {
	LOG(ERROR) << "Error getting HAL binder";
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC);
	}

	halBinder_ = halBinder;

	return Status::ok();
	}

	Status Credential::getCredentialKeyCertificateChain(std::vector<uint8_t>* _aidl_return) {
	*_aidl_return = data_->getAttestationCertificate();
	return Status::ok();
	}

	// Returns operation handle
	Status Credential::selectAuthKey(bool allowUsingExhaustedKeys, int64_t* _aidl_return) {

	selectedAuthKey_ = data_->selectAuthKey(allowUsingExhaustedKeys);
	if (selectedAuthKey_ == nullptr) {
	return Status::fromServiceSpecificError(
	ICredentialStore::ERROR_NO_AUTHENTICATION_KEY_AVAILABLE,
	"No suitable authentication key available");
	}

	int64_t challenge;
	Status status = halBinder_->createAuthChallenge(&challenge);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}
	if (challenge == 0) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Returned challenge is 0 (bug in HAL or TA)");
	}

	selectedChallenge_ = challenge;
	*_aidl_return = challenge;
	return Status::ok();
	}

	class CredstoreTokenCallback : public android::security::keystore::BnCredstoreTokenCallback,
	public promise<tuple<bool, vector<uint8_t>, vector<uint8_t>>> {
	public:
	CredstoreTokenCallback() {}
	virtual Status onFinished(bool success, const vector<uint8_t>& authToken,
	const vector<uint8_t>& verificationToken) override {
	this->set_value({success, authToken, verificationToken});
	return Status::ok();
	}
	};

	// Returns false if an error occurred communicating with keystore.
	//
	bool getTokensFromKeystore(uint64_t challenge, uint64_t secureUserId,
	unsigned int authTokenMaxAgeMillis, vector<uint8_t>& authToken,
	vector<uint8_t>& verificationToken) {
	sp<IServiceManager> sm = defaultServiceManager();
	sp<IBinder> binder = sm->getService(String16("android.security.keystore"));
	sp<IKeystoreService> keystore = interface_cast<IKeystoreService>(binder);
	if (keystore == nullptr) {
	return false;
	}

	sp<CredstoreTokenCallback> callback = new CredstoreTokenCallback();
	auto future = callback->get_future();

	Status status =
	keystore->getTokensForCredstore(challenge, secureUserId, authTokenMaxAgeMillis, callback);
	if (!status.isOk()) {
	return false;
	}

	auto fstatus = future.wait_for(std::chrono::milliseconds(5000));
	if (fstatus != std::future_status::ready) {
	LOG(ERROR) << "Waited 5 seconds from tokens for credstore, aborting";
	return false;
	}
	auto [success, returnedAuthToken, returnedVerificationToken] = future.get();
	if (!success) {
	LOG(ERROR) << "Error getting tokens from credstore";
	return false;
	}
	authToken = returnedAuthToken;
	verificationToken = returnedVerificationToken;
	return true;
	}

	Status Credential::getEntries(const vector<uint8_t>& requestMessage,
	const vector<RequestNamespaceParcel>& requestNamespaces,
	const vector<uint8_t>& sessionTranscript,
	const vector<uint8_t>& readerSignature, bool allowUsingExhaustedKeys,
	GetEntriesResultParcel* _aidl_return) {
	GetEntriesResultParcel ret;

	// Calculate requestCounts ahead of time and be careful not to include
	// elements that don't exist.
	//
	// Also go through and figure out which access control profiles to include
	// in the startRetrieval() call.
	vector<int32_t> requestCounts;
	const vector<SecureAccessControlProfile>& allProfiles = data_->getSecureAccessControlProfiles();
	vector<bool> includeProfile(allProfiles.size());
	for (const RequestNamespaceParcel& rns : requestNamespaces) {
	size_t numEntriesInNsToRequest = 0;
	for (const RequestEntryParcel& rep : rns.entries) {
	if (data_->hasEntryData(rns.namespaceName, rep.name)) {
	numEntriesInNsToRequest++;
	}

	optional<EntryData> data = data_->getEntryData(rns.namespaceName, rep.name);
	if (data) {
	for (int32_t id : data.value().accessControlProfileIds) {
	if (id >= int32_t(includeProfile.size())) {
	LOG(ERROR) << "Invalid accessControlProfileId " << id << " for "
	<< rns.namespaceName << ": " << rep.name;
	return Status::fromServiceSpecificError(
	ICredentialStore::ERROR_GENERIC, "Invalid accessProfileId for entry");
	}
	includeProfile[id] = true;
	}
	}
	}
	requestCounts.push_back(numEntriesInNsToRequest);
	}

	// Now that we know which profiles are needed, send only those to the
	// HAL.
	vector<SecureAccessControlProfile> selectedProfiles;
	for (size_t n = 0; n < allProfiles.size(); n++) {
	if (includeProfile[n]) {
	selectedProfiles.push_back(allProfiles[n]);
	}
	}

	// Calculate the highest [1] non-zero timeout and if user-auth is needed
	// ... we need this to select an appropriate authToken.
	//
	// [1] : Why do we request the highest timeout and not the lowest? Well, we
	// return partial results in getEntries e.g. if some data elements
	// fail to authorize we'll still return the ones that did not fail. So
	// e.g. consider data elements A and B where A has an ACP with 60
	// seconds and B has an ACP with 3600 seconds. In this case we'll be
	// fine with getting an authToken for e.g. 2400 seconds which would
	// mean returning only B.
	//
	bool userAuthNeeded = false;
	unsigned int authTokenMaxAgeMillis = 0;
	for (auto& profile : selectedProfiles) {
	if (profile.userAuthenticationRequired) {
	userAuthNeeded = true;
	if (profile.timeoutMillis > 0) {
	if (profile.timeoutMillis > authTokenMaxAgeMillis) {
	authTokenMaxAgeMillis = profile.timeoutMillis;
	}
	}
	}
	}

	// If requesting a challenge-based authToken the idea is that authentication
	// happens as part of the transaction. As such, authTokenMaxAgeMillis should
	// be nearly zero. We'll use 10 seconds for this.
	if (userAuthNeeded && selectedChallenge_ != 0) {
	authTokenMaxAgeMillis = 10 * 1000;
	}

	// Reset tokens and only get them if they're actually needed, e.g. if user authentication
	// is needed in any of the access control profiles for data items being requested.
	//
	AidlHardwareAuthToken aidlAuthToken;
	AidlVerificationToken aidlVerificationToken;
	aidlAuthToken.challenge = 0;
	aidlAuthToken.userId = 0;
	aidlAuthToken.authenticatorId = 0;
	aidlAuthToken.authenticatorType =
	::android::hardware::keymaster::HardwareAuthenticatorType::NONE;
	aidlAuthToken.timestamp.milliSeconds = 0;
	aidlAuthToken.mac.clear();
	aidlVerificationToken.challenge = 0;
	aidlVerificationToken.timestamp.milliSeconds = 0;
	aidlVerificationToken.securityLevel = ::android::hardware::keymaster::SecurityLevel::SOFTWARE;
	aidlVerificationToken.mac.clear();
	if (userAuthNeeded) {
	vector<uint8_t> authTokenBytes;
	vector<uint8_t> verificationTokenBytes;
	if (!getTokensFromKeystore(selectedChallenge_, data_->getSecureUserId(),
	authTokenMaxAgeMillis, authTokenBytes, verificationTokenBytes)) {
	LOG(ERROR) << "Error getting tokens from keystore";
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error getting tokens from keystore");
	}

	// It's entirely possible getTokensFromKeystore() succeeded but didn't
	// return any tokens (in which case the returned byte-vectors are
	// empty). For example, this can happen if no auth token is available
	// which satifies e.g. \|authTokenMaxAgeMillis\|.
	//
	if (authTokenBytes.size() > 0) {
	HardwareAuthToken authToken =
	android::hardware::keymaster::V4_0::support::hidlVec2AuthToken(authTokenBytes);
	// Convert from HIDL to AIDL...
	aidlAuthToken.challenge = int64_t(authToken.challenge);
	aidlAuthToken.userId = int64_t(authToken.userId);
	aidlAuthToken.authenticatorId = int64_t(authToken.authenticatorId);
	aidlAuthToken.authenticatorType =
	::android::hardware::keymaster::HardwareAuthenticatorType(
	int32_t(authToken.authenticatorType));
	aidlAuthToken.timestamp.milliSeconds = int64_t(authToken.timestamp);
	aidlAuthToken.mac = authToken.mac;
	}

	if (verificationTokenBytes.size() > 0) {
	optional<VerificationToken> token =
	android::hardware::keymaster::V4_0::support::deserializeVerificationToken(
	verificationTokenBytes);
	if (!token) {
	LOG(ERROR) << "Error deserializing verification token";
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error deserializing verification token");
	}
	aidlVerificationToken.challenge = token->challenge;
	aidlVerificationToken.timestamp.milliSeconds = token->timestamp;
	aidlVerificationToken.securityLevel =
	::android::hardware::keymaster::SecurityLevel(token->securityLevel);
	aidlVerificationToken.mac = token->mac;
	}
	}

	// Note that the selectAuthKey() method is only called if a CryptoObject is involved at
	// the Java layer. So we could end up with no previously selected auth key and we may
	// need one.
	const AuthKeyData* authKey = selectedAuthKey_;
	if (sessionTranscript.size() > 0) {
	if (authKey == nullptr) {
	authKey = data_->selectAuthKey(allowUsingExhaustedKeys);
	if (authKey == nullptr) {
	return Status::fromServiceSpecificError(
	ICredentialStore::ERROR_NO_AUTHENTICATION_KEY_AVAILABLE,
	"No suitable authentication key available");
	}
	}
	}
	vector<uint8_t> signingKeyBlob;
	if (authKey != nullptr) {
	signingKeyBlob = authKey->keyBlob;
	}

	// Pass the HAL enough information to allow calculating the size of
	// DeviceNameSpaces ahead of time.
	vector<RequestNamespace> halRequestNamespaces;
	for (const RequestNamespaceParcel& rns : requestNamespaces) {
	RequestNamespace ns;
	ns.namespaceName = rns.namespaceName;
	for (const RequestEntryParcel& rep : rns.entries) {
	optional<EntryData> entryData = data_->getEntryData(rns.namespaceName, rep.name);
	if (entryData) {
	RequestDataItem di;
	di.name = rep.name;
	di.size = entryData.value().size;
	di.accessControlProfileIds = entryData.value().accessControlProfileIds;
	ns.items.push_back(di);
	}
	}
	if (ns.items.size() > 0) {
	halRequestNamespaces.push_back(ns);
	}
	}
	// This is not catastrophic, we might be dealing with a version 1 implementation which
	// doesn't have this method.
	Status status = halBinder_->setRequestedNamespaces(halRequestNamespaces);
	if (!status.isOk()) {
	LOG(INFO) << "Failed setting expected requested namespaces, assuming V1 HAL "
	<< "and continuing";
	}

	// Pass the verification token. Failure is OK, this method isn't in the V1 HAL.
	status = halBinder_->setVerificationToken(aidlVerificationToken);
	if (!status.isOk()) {
	LOG(INFO) << "Failed setting verification token, assuming V1 HAL "
	<< "and continuing";
	}

	status =
	halBinder_->startRetrieval(selectedProfiles, aidlAuthToken, requestMessage, signingKeyBlob,
	sessionTranscript, readerSignature, requestCounts);
	if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
	int code = status.serviceSpecificErrorCode();
	if (code == IIdentityCredentialStore::STATUS_EPHEMERAL_PUBLIC_KEY_NOT_FOUND) {
	return halStatusToError(status, ICredentialStore::ERROR_EPHEMERAL_PUBLIC_KEY_NOT_FOUND);
	} else if (code == IIdentityCredentialStore::STATUS_READER_SIGNATURE_CHECK_FAILED) {
	return halStatusToError(status, ICredentialStore::ERROR_INVALID_READER_SIGNATURE);
	} else if (code == IIdentityCredentialStore::STATUS_INVALID_ITEMS_REQUEST_MESSAGE) {
	return halStatusToError(status, ICredentialStore::ERROR_INVALID_ITEMS_REQUEST_MESSAGE);
	} else if (code == IIdentityCredentialStore::STATUS_SESSION_TRANSCRIPT_MISMATCH) {
	return halStatusToError(status, ICredentialStore::ERROR_SESSION_TRANSCRIPT_MISMATCH);
	}
	}
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}

	for (const RequestNamespaceParcel& rns : requestNamespaces) {
	ResultNamespaceParcel resultNamespaceParcel;
	resultNamespaceParcel.namespaceName = rns.namespaceName;

	for (const RequestEntryParcel& rep : rns.entries) {
	ResultEntryParcel resultEntryParcel;
	resultEntryParcel.name = rep.name;

	optional<EntryData> data = data_->getEntryData(rns.namespaceName, rep.name);
	if (!data) {
	resultEntryParcel.status = STATUS_NO_SUCH_ENTRY;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	continue;
	}

	status =
	halBinder_->startRetrieveEntryValue(rns.namespaceName, rep.name, data.value().size,
	data.value().accessControlProfileIds);
	if (!status.isOk() && status.exceptionCode() == binder::Status::EX_SERVICE_SPECIFIC) {
	int code = status.serviceSpecificErrorCode();
	if (code == IIdentityCredentialStore::STATUS_USER_AUTHENTICATION_FAILED) {
	resultEntryParcel.status = STATUS_USER_AUTHENTICATION_FAILED;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	continue;
	} else if (code == IIdentityCredentialStore::STATUS_READER_AUTHENTICATION_FAILED) {
	resultEntryParcel.status = STATUS_READER_AUTHENTICATION_FAILED;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	continue;
	} else if (code == IIdentityCredentialStore::STATUS_NOT_IN_REQUEST_MESSAGE) {
	resultEntryParcel.status = STATUS_NOT_IN_REQUEST_MESSAGE;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	continue;
	} else if (code == IIdentityCredentialStore::STATUS_NO_ACCESS_CONTROL_PROFILES) {
	resultEntryParcel.status = STATUS_NO_ACCESS_CONTROL_PROFILES;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	continue;
	}
	}
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}

	vector<uint8_t> value;
	for (const auto& encryptedChunk : data.value().encryptedChunks) {
	vector<uint8_t> chunk;
	status = halBinder_->retrieveEntryValue(encryptedChunk, &chunk);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}
	value.insert(value.end(), chunk.begin(), chunk.end());
	}

	resultEntryParcel.status = STATUS_OK;
	resultEntryParcel.value = value;
	resultNamespaceParcel.entries.push_back(resultEntryParcel);
	}
	ret.resultNamespaces.push_back(resultNamespaceParcel);
	}

	status = halBinder_->finishRetrieval(&ret.mac, &ret.deviceNameSpaces);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}
	if (authKey != nullptr) {
	ret.staticAuthenticationData = authKey->staticAuthenticationData;
	}

	// Ensure useCount is updated on disk.
	if (authKey != nullptr) {
	if (!data_->saveToDisk()) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error saving data");
	}
	}

	*_aidl_return = ret;
	return Status::ok();
	}

	Status Credential::deleteCredential(vector<uint8_t>* _aidl_return) {
	vector<uint8_t> proofOfDeletionSignature;
	Status status = halBinder_->deleteCredential(&proofOfDeletionSignature);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}
	if (!data_->deleteCredential()) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error deleting credential data on disk");
	}
	*_aidl_return = proofOfDeletionSignature;
	return Status::ok();
	}

	Status Credential::createEphemeralKeyPair(vector<uint8_t>* _aidl_return) {
	vector<uint8_t> keyPair;
	Status status = halBinder_->createEphemeralKeyPair(&keyPair);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}

	optional<vector<uint8_t>> pkcs12Bytes = ecKeyPairGetPkcs12(keyPair,
	"ephemeralKey", // Alias for key
	"0", // Serial, as a decimal number
	"Credstore", // Issuer
	"Ephemeral Key", // Subject
	0, // Validity Not Before
	24 * 60 * 60); // Validity Not After
	if (!pkcs12Bytes) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error creating PKCS#12 structure for key pair");
	}
	*_aidl_return = pkcs12Bytes.value();
	return Status::ok();
	}

	Status Credential::setReaderEphemeralPublicKey(const vector<uint8_t>& publicKey) {
	Status status = halBinder_->setReaderEphemeralPublicKey(publicKey);
	if (!status.isOk()) {
	return halStatusToGenericError(status);
	}
	return Status::ok();
	}

	Status Credential::setAvailableAuthenticationKeys(int32_t keyCount, int32_t maxUsesPerKey) {
	data_->setAvailableAuthenticationKeys(keyCount, maxUsesPerKey);
	if (!data_->saveToDisk()) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error saving data");
	}
	return Status::ok();
	}

	Status Credential::getAuthKeysNeedingCertification(vector<AuthKeyParcel>* _aidl_return) {
	optional<vector<vector<uint8_t>>> keysNeedingCert =
	data_->getAuthKeysNeedingCertification(halBinder_);
	if (!keysNeedingCert) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error getting auth keys neededing certification");
	}
	vector<AuthKeyParcel> authKeyParcels;
	for (const vector<uint8_t>& key : keysNeedingCert.value()) {
	AuthKeyParcel authKeyParcel;
	authKeyParcel.x509cert = key;
	authKeyParcels.push_back(authKeyParcel);
	}
	if (!data_->saveToDisk()) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error saving data");
	}
	*_aidl_return = authKeyParcels;
	return Status::ok();
	}

	Status Credential::storeStaticAuthenticationData(const AuthKeyParcel& authenticationKey,
	const vector<uint8_t>& staticAuthData) {
	if (!data_->storeStaticAuthenticationData(authenticationKey.x509cert, staticAuthData)) {
	return Status::fromServiceSpecificError(
	ICredentialStore::ERROR_AUTHENTICATION_KEY_NOT_FOUND,
	"Error finding authentication key to store static "
	"authentication data for");
	}
	if (!data_->saveToDisk()) {
	return Status::fromServiceSpecificError(ICredentialStore::ERROR_GENERIC,
	"Error saving data");
	}
	return Status::ok();
	}

	Status Credential::getAuthenticationDataUsageCount(vector<int32_t>* _aidl_return) {
	const vector<AuthKeyData>& authKeyDatas = data_->getAuthKeyDatas();
	vector<int32_t> ret;
	for (const AuthKeyData& authKeyData : authKeyDatas) {
	ret.push_back(authKeyData.useCount);
	}
	*_aidl_return = ret;
	return Status::ok();
	}

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