/* * Copyright (C) 2016 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. */ #include "KeyStorage.h" #include "Checkpoint.h" #include "Keymaster.h" #include "ScryptParameters.h" #include "Utils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern "C" { #include "crypto_scrypt.h" } namespace android { namespace vold { const KeyAuthentication kEmptyAuthentication{""}; static constexpr size_t AES_KEY_BYTES = 32; static constexpr size_t GCM_NONCE_BYTES = 12; static constexpr size_t GCM_MAC_BYTES = 16; static constexpr size_t SECDISCARDABLE_BYTES = 1 << 14; static const char* kCurrentVersion = "1"; static const char* kRmPath = "/system/bin/rm"; static const char* kSecdiscardPath = "/system/bin/secdiscard"; static const char* kStretch_none = "none"; static const char* kStretch_nopassword = "nopassword"; static const char* kHashPrefix_secdiscardable = "Android secdiscardable SHA512"; static const char* kHashPrefix_keygen = "Android key wrapping key generation SHA512"; static const char* kFn_encrypted_key = "encrypted_key"; static const char* kFn_keymaster_key_blob = "keymaster_key_blob"; static const char* kFn_keymaster_key_blob_upgraded = "keymaster_key_blob_upgraded"; static const char* kFn_secdiscardable = "secdiscardable"; static const char* kFn_stretching = "stretching"; static const char* kFn_version = "version"; namespace { // Storage binding info for ensuring key encryption keys include a // platform-provided seed in their derivation. struct StorageBindingInfo { enum class State { UNINITIALIZED, IN_USE, // key storage keys are bound to seed NOT_USED, // key storage keys are NOT bound to seed }; // Binding seed mixed into all key storage keys. std::vector seed; // State tracker for the key storage key binding. State state = State::UNINITIALIZED; std::mutex guard; }; // Never freed as the dtor is non-trivial. StorageBindingInfo& storage_binding_info = *new StorageBindingInfo; } // namespace static bool checkSize(const std::string& kind, size_t actual, size_t expected) { if (actual != expected) { LOG(ERROR) << "Wrong number of bytes in " << kind << ", expected " << expected << " got " << actual; return false; } return true; } static void hashWithPrefix(char const* prefix, const std::string& tohash, std::string* res) { SHA512_CTX c; SHA512_Init(&c); // Personalise the hashing by introducing a fixed prefix. // Hashing applications should use personalization except when there is a // specific reason not to; see section 4.11 of https://www.schneier.com/skein1.3.pdf std::string hashingPrefix = prefix; hashingPrefix.resize(SHA512_CBLOCK); SHA512_Update(&c, hashingPrefix.data(), hashingPrefix.size()); SHA512_Update(&c, tohash.data(), tohash.size()); res->assign(SHA512_DIGEST_LENGTH, '\0'); SHA512_Final(reinterpret_cast(&(*res)[0]), &c); } // Generates a keymaster key, using rollback resistance if supported. static bool generateKeymasterKey(Keymaster& keymaster, const km::AuthorizationSetBuilder& paramBuilder, std::string* key) { auto paramsWithRollback = paramBuilder; paramsWithRollback.Authorization(km::TAG_ROLLBACK_RESISTANCE); if (!keymaster.generateKey(paramsWithRollback, key)) { LOG(WARNING) << "Failed to generate rollback-resistant key. This is expected if keymaster " "doesn't support rollback resistance. Falling back to " "non-rollback-resistant key."; if (!keymaster.generateKey(paramBuilder, key)) return false; } return true; } static bool generateKeyStorageKey(Keymaster& keymaster, const std::string& appId, std::string* key) { auto paramBuilder = km::AuthorizationSetBuilder() .AesEncryptionKey(AES_KEY_BYTES * 8) .GcmModeMinMacLen(GCM_MAC_BYTES * 8) .Authorization(km::TAG_APPLICATION_ID, appId) .Authorization(km::TAG_NO_AUTH_REQUIRED); LOG(DEBUG) << "Generating \"key storage\" key"; return generateKeymasterKey(keymaster, paramBuilder, key); } bool generateWrappedStorageKey(KeyBuffer* key) { Keymaster keymaster; if (!keymaster) return false; std::string key_temp; auto paramBuilder = km::AuthorizationSetBuilder().AesEncryptionKey(AES_KEY_BYTES * 8); paramBuilder.Authorization(km::TAG_STORAGE_KEY); if (!generateKeymasterKey(keymaster, paramBuilder, &key_temp)) return false; *key = KeyBuffer(key_temp.size()); memcpy(reinterpret_cast(key->data()), key_temp.c_str(), key->size()); return true; } bool exportWrappedStorageKey(const KeyBuffer& kmKey, KeyBuffer* key) { Keymaster keymaster; if (!keymaster) return false; std::string key_temp; if (!keymaster.exportKey(kmKey, &key_temp)) return false; *key = KeyBuffer(key_temp.size()); memcpy(reinterpret_cast(key->data()), key_temp.c_str(), key->size()); return true; } static km::AuthorizationSet beginParams(const std::string& appId) { return km::AuthorizationSetBuilder() .GcmModeMacLen(GCM_MAC_BYTES * 8) .Authorization(km::TAG_APPLICATION_ID, appId); } static bool readFileToString(const std::string& filename, std::string* result) { if (!android::base::ReadFileToString(filename, result)) { PLOG(ERROR) << "Failed to read from " << filename; return false; } return true; } static bool readRandomBytesOrLog(size_t count, std::string* out) { auto status = ReadRandomBytes(count, *out); if (status != OK) { LOG(ERROR) << "Random read failed with status: " << status; return false; } return true; } bool createSecdiscardable(const std::string& filename, std::string* hash) { std::string secdiscardable; if (!readRandomBytesOrLog(SECDISCARDABLE_BYTES, &secdiscardable)) return false; if (!writeStringToFile(secdiscardable, filename)) return false; hashWithPrefix(kHashPrefix_secdiscardable, secdiscardable, hash); return true; } bool readSecdiscardable(const std::string& filename, std::string* hash) { std::string secdiscardable; if (!readFileToString(filename, &secdiscardable)) return false; hashWithPrefix(kHashPrefix_secdiscardable, secdiscardable, hash); return true; } static std::mutex key_upgrade_lock; // List of key directories that have had their Keymaster key upgraded during // this boot and written to "keymaster_key_blob_upgraded", but replacing the old // key was delayed due to an active checkpoint. Protected by key_upgrade_lock. static std::vector key_dirs_to_commit; // Replaces |dir|/keymaster_key_blob with |dir|/keymaster_key_blob_upgraded and // deletes the old key from Keymaster. static bool CommitUpgradedKey(Keymaster& keymaster, const std::string& dir) { auto blob_file = dir + "/" + kFn_keymaster_key_blob; auto upgraded_blob_file = dir + "/" + kFn_keymaster_key_blob_upgraded; std::string blob; if (!readFileToString(blob_file, &blob)) return false; if (rename(upgraded_blob_file.c_str(), blob_file.c_str()) != 0) { PLOG(ERROR) << "Failed to rename " << upgraded_blob_file << " to " << blob_file; return false; } // Ensure that the rename is persisted before deleting the Keymaster key. if (!FsyncDirectory(dir)) return false; if (!keymaster || !keymaster.deleteKey(blob)) { LOG(WARNING) << "Failed to delete old key " << blob_file << " from Keymaster; continuing anyway"; // Continue on, but the space in Keymaster used by the old key won't be freed. } return true; } static void DeferredCommitKeys() { android::base::WaitForProperty("vold.checkpoint_committed", "1"); LOG(INFO) << "Committing upgraded keys"; Keymaster keymaster; if (!keymaster) { LOG(ERROR) << "Failed to open Keymaster; old keys won't be deleted from Keymaster"; // Continue on, but the space in Keymaster used by the old keys won't be freed. } std::lock_guard lock(key_upgrade_lock); for (auto& dir : key_dirs_to_commit) { LOG(INFO) << "Committing upgraded key " << dir; CommitUpgradedKey(keymaster, dir); } key_dirs_to_commit.clear(); } // Returns true if the Keymaster key in |dir| has already been upgraded and is // pending being committed. Assumes that key_upgrade_lock is held. static bool IsKeyCommitPending(const std::string& dir) { for (const auto& dir_to_commit : key_dirs_to_commit) { if (IsSameFile(dir, dir_to_commit)) return true; } return false; } // Schedules the upgraded Keymaster key in |dir| to be committed later. // Assumes that key_upgrade_lock is held. static void ScheduleKeyCommit(const std::string& dir) { if (key_dirs_to_commit.empty()) std::thread(DeferredCommitKeys).detach(); key_dirs_to_commit.push_back(dir); } static void CancelPendingKeyCommit(const std::string& dir) { std::lock_guard lock(key_upgrade_lock); for (auto it = key_dirs_to_commit.begin(); it != key_dirs_to_commit.end(); it++) { if (IsSameFile(*it, dir)) { LOG(DEBUG) << "Cancelling pending commit of upgraded key " << dir << " because it is being destroyed"; key_dirs_to_commit.erase(it); break; } } } // Renames a key directory. Also updates the deferred commit vector // (key_dirs_to_commit) appropriately. // // However, @old_name must be the path to the directory that was used to put that // directory into the deferred commit list in the first place (since this function // directly compares paths instead of using IsSameFile()). static bool RenameKeyDir(const std::string& old_name, const std::string& new_name) { std::lock_guard lock(key_upgrade_lock); if (rename(old_name.c_str(), new_name.c_str()) != 0) return false; // IsSameFile() doesn't work here since we just renamed @old_name. for (auto it = key_dirs_to_commit.begin(); it != key_dirs_to_commit.end(); it++) { if (*it == old_name) *it = new_name; } return true; } // Deletes a leftover upgraded key, if present. An upgraded key can be left // over if an update failed, or if we rebooted before committing the key in a // freak accident. Either way, we can re-upgrade the key if we need to. static void DeleteUpgradedKey(Keymaster& keymaster, const std::string& path) { if (pathExists(path)) { LOG(DEBUG) << "Deleting leftover upgraded key " << path; std::string blob; if (!android::base::ReadFileToString(path, &blob)) { LOG(WARNING) << "Failed to read leftover upgraded key " << path << "; continuing anyway"; } else if (!keymaster.deleteKey(blob)) { LOG(WARNING) << "Failed to delete leftover upgraded key " << path << " from Keymaster; continuing anyway"; } if (unlink(path.c_str()) != 0) { LOG(WARNING) << "Failed to unlink leftover upgraded key " << path << "; continuing anyway"; } } } // Begins a Keymaster operation using the key stored in |dir|. static KeymasterOperation BeginKeymasterOp(Keymaster& keymaster, const std::string& dir, const km::AuthorizationSet& keyParams, const km::AuthorizationSet& opParams, km::AuthorizationSet* outParams) { km::AuthorizationSet inParams(keyParams); inParams.append(opParams.begin(), opParams.end()); auto blob_file = dir + "/" + kFn_keymaster_key_blob; auto upgraded_blob_file = dir + "/" + kFn_keymaster_key_blob_upgraded; std::lock_guard lock(key_upgrade_lock); std::string blob; bool already_upgraded = IsKeyCommitPending(dir); if (already_upgraded) { LOG(DEBUG) << blob_file << " was already upgraded and is waiting to be committed; using the upgraded blob"; if (!readFileToString(upgraded_blob_file, &blob)) return KeymasterOperation(); } else { DeleteUpgradedKey(keymaster, upgraded_blob_file); if (!readFileToString(blob_file, &blob)) return KeymasterOperation(); } auto opHandle = keymaster.begin(blob, inParams, outParams); if (!opHandle) return opHandle; // If key blob wasn't upgraded, nothing left to do. if (!opHandle.getUpgradedBlob()) return opHandle; if (already_upgraded) { LOG(ERROR) << "Unexpected case; already-upgraded key " << upgraded_blob_file << " still requires upgrade"; return KeymasterOperation(); } LOG(INFO) << "Upgrading key: " << blob_file; if (!writeStringToFile(*opHandle.getUpgradedBlob(), upgraded_blob_file)) return KeymasterOperation(); if (cp_needsCheckpoint()) { LOG(INFO) << "Wrote upgraded key to " << upgraded_blob_file << "; delaying commit due to checkpoint"; ScheduleKeyCommit(dir); } else { if (!CommitUpgradedKey(keymaster, dir)) return KeymasterOperation(); LOG(INFO) << "Key upgraded: " << blob_file; } return opHandle; } static bool encryptWithKeymasterKey(Keymaster& keymaster, const std::string& dir, const km::AuthorizationSet& keyParams, const KeyBuffer& message, std::string* ciphertext) { km::AuthorizationSet opParams = km::AuthorizationSetBuilder().Authorization(km::TAG_PURPOSE, km::KeyPurpose::ENCRYPT); km::AuthorizationSet outParams; auto opHandle = BeginKeymasterOp(keymaster, dir, keyParams, opParams, &outParams); if (!opHandle) return false; auto nonceBlob = outParams.GetTagValue(km::TAG_NONCE); if (!nonceBlob) { LOG(ERROR) << "GCM encryption but no nonce generated"; return false; } // nonceBlob here is just a pointer into existing data, must not be freed std::string nonce(nonceBlob.value().get().begin(), nonceBlob.value().get().end()); if (!checkSize("nonce", nonce.size(), GCM_NONCE_BYTES)) return false; std::string body; if (!opHandle.updateCompletely(message, &body)) return false; std::string mac; if (!opHandle.finish(&mac)) return false; if (!checkSize("mac", mac.size(), GCM_MAC_BYTES)) return false; *ciphertext = nonce + body + mac; return true; } static bool decryptWithKeymasterKey(Keymaster& keymaster, const std::string& dir, const km::AuthorizationSet& keyParams, const std::string& ciphertext, KeyBuffer* message) { const std::string nonce = ciphertext.substr(0, GCM_NONCE_BYTES); auto bodyAndMac = ciphertext.substr(GCM_NONCE_BYTES); auto opParams = km::AuthorizationSetBuilder() .Authorization(km::TAG_NONCE, nonce) .Authorization(km::TAG_PURPOSE, km::KeyPurpose::DECRYPT); auto opHandle = BeginKeymasterOp(keymaster, dir, keyParams, opParams, nullptr); if (!opHandle) return false; if (!opHandle.updateCompletely(bodyAndMac, message)) return false; if (!opHandle.finish(nullptr)) return false; return true; } static std::string getStretching(const KeyAuthentication& auth) { if (auth.usesKeymaster()) { return kStretch_nopassword; } else { return kStretch_none; } } static bool stretchSecret(const std::string& stretching, const std::string& secret, std::string* stretched) { if (stretching == kStretch_nopassword) { if (!secret.empty()) { LOG(WARNING) << "Password present but stretching is nopassword"; // Continue anyway } stretched->clear(); } else if (stretching == kStretch_none) { *stretched = secret; } else { LOG(ERROR) << "Unknown stretching type: " << stretching; return false; } return true; } static bool generateAppId(const KeyAuthentication& auth, const std::string& stretching, const std::string& secdiscardable_hash, std::string* appId) { std::string stretched; if (!stretchSecret(stretching, auth.secret, &stretched)) return false; *appId = secdiscardable_hash + stretched; const std::lock_guard scope_lock(storage_binding_info.guard); switch (storage_binding_info.state) { case StorageBindingInfo::State::UNINITIALIZED: storage_binding_info.state = StorageBindingInfo::State::NOT_USED; break; case StorageBindingInfo::State::IN_USE: appId->append(storage_binding_info.seed.begin(), storage_binding_info.seed.end()); break; case StorageBindingInfo::State::NOT_USED: // noop break; } return true; } static void logOpensslError() { LOG(ERROR) << "Openssl error: " << ERR_get_error(); } static bool encryptWithoutKeymaster(const std::string& preKey, const KeyBuffer& plaintext, std::string* ciphertext) { std::string key; hashWithPrefix(kHashPrefix_keygen, preKey, &key); key.resize(AES_KEY_BYTES); if (!readRandomBytesOrLog(GCM_NONCE_BYTES, ciphertext)) return false; auto ctx = std::unique_ptr( EVP_CIPHER_CTX_new(), EVP_CIPHER_CTX_free); if (!ctx) { logOpensslError(); return false; } if (1 != EVP_EncryptInit_ex(ctx.get(), EVP_aes_256_gcm(), NULL, reinterpret_cast(key.data()), reinterpret_cast(ciphertext->data()))) { logOpensslError(); return false; } ciphertext->resize(GCM_NONCE_BYTES + plaintext.size() + GCM_MAC_BYTES); int outlen; if (1 != EVP_EncryptUpdate( ctx.get(), reinterpret_cast(&(*ciphertext)[0] + GCM_NONCE_BYTES), &outlen, reinterpret_cast(plaintext.data()), plaintext.size())) { logOpensslError(); return false; } if (outlen != static_cast(plaintext.size())) { LOG(ERROR) << "GCM ciphertext length should be " << plaintext.size() << " was " << outlen; return false; } if (1 != EVP_EncryptFinal_ex( ctx.get(), reinterpret_cast(&(*ciphertext)[0] + GCM_NONCE_BYTES + plaintext.size()), &outlen)) { logOpensslError(); return false; } if (outlen != 0) { LOG(ERROR) << "GCM EncryptFinal should be 0, was " << outlen; return false; } if (1 != EVP_CIPHER_CTX_ctrl(ctx.get(), EVP_CTRL_GCM_GET_TAG, GCM_MAC_BYTES, reinterpret_cast(&(*ciphertext)[0] + GCM_NONCE_BYTES + plaintext.size()))) { logOpensslError(); return false; } return true; } static bool decryptWithoutKeymaster(const std::string& preKey, const std::string& ciphertext, KeyBuffer* plaintext) { if (ciphertext.size() < GCM_NONCE_BYTES + GCM_MAC_BYTES) { LOG(ERROR) << "GCM ciphertext too small: " << ciphertext.size(); return false; } std::string key; hashWithPrefix(kHashPrefix_keygen, preKey, &key); key.resize(AES_KEY_BYTES); auto ctx = std::unique_ptr( EVP_CIPHER_CTX_new(), EVP_CIPHER_CTX_free); if (!ctx) { logOpensslError(); return false; } if (1 != EVP_DecryptInit_ex(ctx.get(), EVP_aes_256_gcm(), NULL, reinterpret_cast(key.data()), reinterpret_cast(ciphertext.data()))) { logOpensslError(); return false; } *plaintext = KeyBuffer(ciphertext.size() - GCM_NONCE_BYTES - GCM_MAC_BYTES); int outlen; if (1 != EVP_DecryptUpdate(ctx.get(), reinterpret_cast(&(*plaintext)[0]), &outlen, reinterpret_cast(ciphertext.data() + GCM_NONCE_BYTES), plaintext->size())) { logOpensslError(); return false; } if (outlen != static_cast(plaintext->size())) { LOG(ERROR) << "GCM plaintext length should be " << plaintext->size() << " was " << outlen; return false; } if (1 != EVP_CIPHER_CTX_ctrl(ctx.get(), EVP_CTRL_GCM_SET_TAG, GCM_MAC_BYTES, const_cast(reinterpret_cast( ciphertext.data() + GCM_NONCE_BYTES + plaintext->size())))) { logOpensslError(); return false; } if (1 != EVP_DecryptFinal_ex(ctx.get(), reinterpret_cast(&(*plaintext)[0] + plaintext->size()), &outlen)) { logOpensslError(); return false; } if (outlen != 0) { LOG(ERROR) << "GCM EncryptFinal should be 0, was " << outlen; return false; } return true; } bool storeKey(const std::string& dir, const KeyAuthentication& auth, const KeyBuffer& key) { if (TEMP_FAILURE_RETRY(mkdir(dir.c_str(), 0700)) == -1) { PLOG(ERROR) << "key mkdir " << dir; return false; } if (!writeStringToFile(kCurrentVersion, dir + "/" + kFn_version)) return false; std::string secdiscardable_hash; if (!createSecdiscardable(dir + "/" + kFn_secdiscardable, &secdiscardable_hash)) return false; std::string stretching = getStretching(auth); if (!writeStringToFile(stretching, dir + "/" + kFn_stretching)) return false; std::string appId; if (!generateAppId(auth, stretching, secdiscardable_hash, &appId)) return false; std::string encryptedKey; if (auth.usesKeymaster()) { Keymaster keymaster; if (!keymaster) return false; std::string kmKey; if (!generateKeyStorageKey(keymaster, appId, &kmKey)) return false; if (!writeStringToFile(kmKey, dir + "/" + kFn_keymaster_key_blob)) return false; km::AuthorizationSet keyParams = beginParams(appId); if (!encryptWithKeymasterKey(keymaster, dir, keyParams, key, &encryptedKey)) return false; } else { if (!encryptWithoutKeymaster(appId, key, &encryptedKey)) return false; } if (!writeStringToFile(encryptedKey, dir + "/" + kFn_encrypted_key)) return false; if (!FsyncDirectory(dir)) return false; return true; } bool storeKeyAtomically(const std::string& key_path, const std::string& tmp_path, const KeyAuthentication& auth, const KeyBuffer& key) { if (pathExists(key_path)) { LOG(ERROR) << "Already exists, cannot create key at: " << key_path; return false; } if (pathExists(tmp_path)) { LOG(DEBUG) << "Already exists, destroying: " << tmp_path; destroyKey(tmp_path); // May be partially created so ignore errors } if (!storeKey(tmp_path, auth, key)) return false; if (!RenameKeyDir(tmp_path, key_path)) { PLOG(ERROR) << "Unable to move new key to location: " << key_path; return false; } if (!FsyncParentDirectory(key_path)) return false; LOG(DEBUG) << "Created key: " << key_path; return true; } bool retrieveKey(const std::string& dir, const KeyAuthentication& auth, KeyBuffer* key) { std::string version; if (!readFileToString(dir + "/" + kFn_version, &version)) return false; if (version != kCurrentVersion) { LOG(ERROR) << "Version mismatch, expected " << kCurrentVersion << " got " << version; return false; } std::string secdiscardable_hash; if (!readSecdiscardable(dir + "/" + kFn_secdiscardable, &secdiscardable_hash)) return false; std::string stretching; if (!readFileToString(dir + "/" + kFn_stretching, &stretching)) return false; std::string appId; if (!generateAppId(auth, stretching, secdiscardable_hash, &appId)) return false; std::string encryptedMessage; if (!readFileToString(dir + "/" + kFn_encrypted_key, &encryptedMessage)) return false; if (auth.usesKeymaster()) { Keymaster keymaster; if (!keymaster) return false; km::AuthorizationSet keyParams = beginParams(appId); if (!decryptWithKeymasterKey(keymaster, dir, keyParams, encryptedMessage, key)) return false; } else { if (!decryptWithoutKeymaster(appId, encryptedMessage, key)) return false; } return true; } static bool DeleteKeymasterKey(const std::string& blob_file) { std::string blob; if (!readFileToString(blob_file, &blob)) return false; Keymaster keymaster; if (!keymaster) return false; LOG(DEBUG) << "Deleting key " << blob_file << " from Keymaster"; if (!keymaster.deleteKey(blob)) return false; return true; } bool runSecdiscardSingle(const std::string& file) { if (ForkExecvp(std::vector{kSecdiscardPath, "--", file}) != 0) { LOG(ERROR) << "secdiscard failed"; return false; } return true; } static bool recursiveDeleteKey(const std::string& dir) { if (ForkExecvp(std::vector{kRmPath, "-rf", dir}) != 0) { LOG(ERROR) << "recursive delete failed"; return false; } return true; } bool destroyKey(const std::string& dir) { bool success = true; CancelPendingKeyCommit(dir); auto secdiscard_cmd = std::vector{ kSecdiscardPath, "--", dir + "/" + kFn_encrypted_key, dir + "/" + kFn_secdiscardable, }; // Try each thing, even if previous things failed. for (auto& fn : {kFn_keymaster_key_blob, kFn_keymaster_key_blob_upgraded}) { auto blob_file = dir + "/" + fn; if (pathExists(blob_file)) { success &= DeleteKeymasterKey(blob_file); secdiscard_cmd.push_back(blob_file); } } if (ForkExecvp(secdiscard_cmd) != 0) { LOG(ERROR) << "secdiscard failed"; success = false; } success &= recursiveDeleteKey(dir); return success; } bool setKeyStorageBindingSeed(const std::vector& seed) { const std::lock_guard scope_lock(storage_binding_info.guard); switch (storage_binding_info.state) { case StorageBindingInfo::State::UNINITIALIZED: storage_binding_info.state = StorageBindingInfo::State::IN_USE; storage_binding_info.seed = seed; return true; case StorageBindingInfo::State::IN_USE: LOG(ERROR) << "key storage binding seed already set"; return false; case StorageBindingInfo::State::NOT_USED: LOG(ERROR) << "key storage already in use without binding"; return false; } return false; } } // namespace vold } // namespace android