b2024e0349
The error messages that are printed when probing for rollback resistance support on a device that doesn't support rollback-resistant keys can make it sound like something is going wrong. Print a WARNING message afterwards to try to make it clear what is going on. Also adjust or add DEBUG messages when starting to generate each key so that it's easier to distinguish the log messages for different key generation operations. Bug: 182815123 Test: boot on device that doesn't support rollback-resistant keys and check log. Change-Id: I37a13eb5c1e839fb94581f3e7ec1cd8da0263d2b
440 lines
17 KiB
C++
440 lines
17 KiB
C++
/*
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* Copyright (C) 2016 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "KeyUtil.h"
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#include <iomanip>
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#include <sstream>
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#include <string>
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#include <fcntl.h>
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#include <linux/fscrypt.h>
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#include <openssl/sha.h>
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#include <sys/ioctl.h>
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#include <android-base/file.h>
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#include <android-base/logging.h>
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#include <android-base/properties.h>
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#include <keyutils.h>
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#include "KeyStorage.h"
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#include "Utils.h"
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namespace android {
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namespace vold {
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const KeyGeneration neverGen() {
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return KeyGeneration{0, false, false};
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}
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static bool randomKey(size_t size, KeyBuffer* key) {
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*key = KeyBuffer(size);
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if (ReadRandomBytes(key->size(), key->data()) != 0) {
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// TODO status_t plays badly with PLOG, fix it.
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LOG(ERROR) << "Random read failed";
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return false;
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}
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return true;
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}
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bool generateStorageKey(const KeyGeneration& gen, KeyBuffer* key) {
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if (!gen.allow_gen) return false;
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if (gen.use_hw_wrapped_key) {
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if (gen.keysize != FSCRYPT_MAX_KEY_SIZE) {
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LOG(ERROR) << "Cannot generate a wrapped key " << gen.keysize << " bytes long";
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return false;
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}
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LOG(DEBUG) << "Generating wrapped storage key";
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return generateWrappedStorageKey(key);
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} else {
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LOG(DEBUG) << "Generating standard storage key";
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return randomKey(gen.keysize, key);
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}
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}
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static bool isFsKeyringSupportedImpl() {
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android::base::unique_fd fd(open("/data", O_RDONLY | O_DIRECTORY | O_CLOEXEC));
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// FS_IOC_ADD_ENCRYPTION_KEY with a NULL argument will fail with ENOTTY if
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// the ioctl isn't supported. Otherwise it will fail with another error
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// code such as EFAULT.
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//
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// Note that there's no need to check for FS_IOC_REMOVE_ENCRYPTION_KEY,
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// since it's guaranteed to be available if FS_IOC_ADD_ENCRYPTION_KEY is.
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// There's also no need to check for support on external volumes separately
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// from /data, since either the kernel supports the ioctls on all
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// fscrypt-capable filesystems or it doesn't.
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errno = 0;
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(void)ioctl(fd, FS_IOC_ADD_ENCRYPTION_KEY, NULL);
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if (errno == ENOTTY) {
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LOG(INFO) << "Kernel doesn't support FS_IOC_ADD_ENCRYPTION_KEY. Falling back to "
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"session keyring";
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return false;
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}
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if (errno != EFAULT) {
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PLOG(WARNING) << "Unexpected error from FS_IOC_ADD_ENCRYPTION_KEY";
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}
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LOG(DEBUG) << "Detected support for FS_IOC_ADD_ENCRYPTION_KEY";
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android::base::SetProperty("ro.crypto.uses_fs_ioc_add_encryption_key", "true");
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return true;
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}
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// Return true if the kernel supports the ioctls to add/remove fscrypt keys
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// directly to/from the filesystem.
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bool isFsKeyringSupported(void) {
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static bool supported = isFsKeyringSupportedImpl();
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return supported;
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}
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// Get raw keyref - used to make keyname and to pass to ioctl
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static std::string generateKeyRef(const uint8_t* key, int length) {
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SHA512_CTX c;
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SHA512_Init(&c);
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SHA512_Update(&c, key, length);
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unsigned char key_ref1[SHA512_DIGEST_LENGTH];
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SHA512_Final(key_ref1, &c);
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SHA512_Init(&c);
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SHA512_Update(&c, key_ref1, SHA512_DIGEST_LENGTH);
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unsigned char key_ref2[SHA512_DIGEST_LENGTH];
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SHA512_Final(key_ref2, &c);
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static_assert(FSCRYPT_KEY_DESCRIPTOR_SIZE <= SHA512_DIGEST_LENGTH,
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"Hash too short for descriptor");
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return std::string((char*)key_ref2, FSCRYPT_KEY_DESCRIPTOR_SIZE);
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}
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static bool fillKey(const KeyBuffer& key, fscrypt_key* fs_key) {
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if (key.size() != FSCRYPT_MAX_KEY_SIZE) {
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LOG(ERROR) << "Wrong size key " << key.size();
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return false;
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}
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static_assert(FSCRYPT_MAX_KEY_SIZE == sizeof(fs_key->raw), "Mismatch of max key sizes");
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fs_key->mode = 0; // unused by kernel
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memcpy(fs_key->raw, key.data(), key.size());
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fs_key->size = key.size();
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return true;
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}
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static char const* const NAME_PREFIXES[] = {"ext4", "f2fs", "fscrypt", nullptr};
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static std::string keyrefstring(const std::string& raw_ref) {
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std::ostringstream o;
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for (unsigned char i : raw_ref) {
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o << std::hex << std::setw(2) << std::setfill('0') << (int)i;
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}
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return o.str();
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}
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static std::string buildLegacyKeyName(const std::string& prefix, const std::string& raw_ref) {
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return prefix + ":" + keyrefstring(raw_ref);
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}
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// Get the ID of the keyring we store all fscrypt keys in when the kernel is too
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// old to support FS_IOC_ADD_ENCRYPTION_KEY and FS_IOC_REMOVE_ENCRYPTION_KEY.
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static bool fscryptKeyring(key_serial_t* device_keyring) {
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*device_keyring = keyctl_search(KEY_SPEC_SESSION_KEYRING, "keyring", "fscrypt", 0);
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if (*device_keyring == -1) {
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PLOG(ERROR) << "Unable to find device keyring";
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return false;
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}
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return true;
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}
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// Add an encryption key of type "logon" to the global session keyring.
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static bool installKeyLegacy(const KeyBuffer& key, const std::string& raw_ref) {
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// Place fscrypt_key into automatically zeroing buffer.
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KeyBuffer fsKeyBuffer(sizeof(fscrypt_key));
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fscrypt_key& fs_key = *reinterpret_cast<fscrypt_key*>(fsKeyBuffer.data());
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if (!fillKey(key, &fs_key)) return false;
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key_serial_t device_keyring;
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if (!fscryptKeyring(&device_keyring)) return false;
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for (char const* const* name_prefix = NAME_PREFIXES; *name_prefix != nullptr; name_prefix++) {
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auto ref = buildLegacyKeyName(*name_prefix, raw_ref);
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key_serial_t key_id =
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add_key("logon", ref.c_str(), (void*)&fs_key, sizeof(fs_key), device_keyring);
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if (key_id == -1) {
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PLOG(ERROR) << "Failed to insert key into keyring " << device_keyring;
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return false;
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}
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LOG(DEBUG) << "Added key " << key_id << " (" << ref << ") to keyring " << device_keyring
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<< " in process " << getpid();
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}
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return true;
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}
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// Installs fscrypt-provisioning key into session level kernel keyring.
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// This allows for the given key to be installed back into filesystem keyring.
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// For more context see reloadKeyFromSessionKeyring.
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static bool installProvisioningKey(const KeyBuffer& key, const std::string& ref,
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const fscrypt_key_specifier& key_spec) {
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key_serial_t device_keyring;
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if (!fscryptKeyring(&device_keyring)) return false;
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// Place fscrypt_provisioning_key_payload into automatically zeroing buffer.
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KeyBuffer buf(sizeof(fscrypt_provisioning_key_payload) + key.size(), 0);
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fscrypt_provisioning_key_payload& provisioning_key =
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*reinterpret_cast<fscrypt_provisioning_key_payload*>(buf.data());
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memcpy(provisioning_key.raw, key.data(), key.size());
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provisioning_key.type = key_spec.type;
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key_serial_t key_id = add_key("fscrypt-provisioning", ref.c_str(), (void*)&provisioning_key,
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buf.size(), device_keyring);
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if (key_id == -1) {
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PLOG(ERROR) << "Failed to insert fscrypt-provisioning key for " << ref
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<< " into session keyring";
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return false;
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}
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LOG(DEBUG) << "Added fscrypt-provisioning key for " << ref << " to session keyring";
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return true;
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}
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// Build a struct fscrypt_key_specifier for use in the key management ioctls.
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static bool buildKeySpecifier(fscrypt_key_specifier* spec, const EncryptionPolicy& policy) {
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switch (policy.options.version) {
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case 1:
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if (policy.key_raw_ref.size() != FSCRYPT_KEY_DESCRIPTOR_SIZE) {
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LOG(ERROR) << "Invalid key specifier size for v1 encryption policy: "
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<< policy.key_raw_ref.size();
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return false;
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}
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spec->type = FSCRYPT_KEY_SPEC_TYPE_DESCRIPTOR;
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memcpy(spec->u.descriptor, policy.key_raw_ref.c_str(), FSCRYPT_KEY_DESCRIPTOR_SIZE);
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return true;
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case 2:
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if (policy.key_raw_ref.size() != FSCRYPT_KEY_IDENTIFIER_SIZE) {
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LOG(ERROR) << "Invalid key specifier size for v2 encryption policy: "
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<< policy.key_raw_ref.size();
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return false;
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}
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spec->type = FSCRYPT_KEY_SPEC_TYPE_IDENTIFIER;
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memcpy(spec->u.identifier, policy.key_raw_ref.c_str(), FSCRYPT_KEY_IDENTIFIER_SIZE);
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return true;
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default:
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LOG(ERROR) << "Invalid encryption policy version: " << policy.options.version;
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return false;
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}
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}
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// Installs key into keyring of a filesystem mounted on |mountpoint|.
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//
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// It's callers responsibility to fill key specifier, and either arg->raw or arg->key_id.
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//
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// In case arg->key_spec.type equals to FSCRYPT_KEY_SPEC_TYPE_IDENTIFIER
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// arg->key_spec.u.identifier will be populated with raw key reference generated
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// by kernel.
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//
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// For documentation on difference between arg->raw and arg->key_id see
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// https://www.kernel.org/doc/html/latest/filesystems/fscrypt.html#fs-ioc-add-encryption-key
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static bool installFsKeyringKey(const std::string& mountpoint, const EncryptionOptions& options,
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fscrypt_add_key_arg* arg) {
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if (options.use_hw_wrapped_key) arg->__flags |= __FSCRYPT_ADD_KEY_FLAG_HW_WRAPPED;
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android::base::unique_fd fd(open(mountpoint.c_str(), O_RDONLY | O_DIRECTORY | O_CLOEXEC));
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if (fd == -1) {
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PLOG(ERROR) << "Failed to open " << mountpoint << " to install key";
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return false;
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}
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if (ioctl(fd, FS_IOC_ADD_ENCRYPTION_KEY, arg) != 0) {
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PLOG(ERROR) << "Failed to install fscrypt key to " << mountpoint;
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return false;
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}
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return true;
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}
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bool installKey(const std::string& mountpoint, const EncryptionOptions& options,
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const KeyBuffer& key, EncryptionPolicy* policy) {
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policy->options = options;
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// Put the fscrypt_add_key_arg in an automatically-zeroing buffer, since we
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// have to copy the raw key into it.
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KeyBuffer arg_buf(sizeof(struct fscrypt_add_key_arg) + key.size(), 0);
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struct fscrypt_add_key_arg* arg = (struct fscrypt_add_key_arg*)arg_buf.data();
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// Initialize the "key specifier", which is like a name for the key.
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switch (options.version) {
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case 1:
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// A key for a v1 policy is specified by an arbitrary 8-byte
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// "descriptor", which must be provided by userspace. We use the
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// first 8 bytes from the double SHA-512 of the key itself.
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policy->key_raw_ref = generateKeyRef((const uint8_t*)key.data(), key.size());
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if (!isFsKeyringSupported()) {
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return installKeyLegacy(key, policy->key_raw_ref);
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}
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if (!buildKeySpecifier(&arg->key_spec, *policy)) {
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return false;
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}
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break;
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case 2:
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// A key for a v2 policy is specified by an 16-byte "identifier",
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// which is a cryptographic hash of the key itself which the kernel
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// computes and returns. Any user-provided value is ignored; we
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// just need to set the specifier type to indicate that we're adding
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// this type of key.
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arg->key_spec.type = FSCRYPT_KEY_SPEC_TYPE_IDENTIFIER;
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break;
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default:
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LOG(ERROR) << "Invalid encryption policy version: " << options.version;
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return false;
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}
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arg->raw_size = key.size();
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memcpy(arg->raw, key.data(), key.size());
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if (!installFsKeyringKey(mountpoint, options, arg)) return false;
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if (arg->key_spec.type == FSCRYPT_KEY_SPEC_TYPE_IDENTIFIER) {
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// Retrieve the key identifier that the kernel computed.
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policy->key_raw_ref =
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std::string((char*)arg->key_spec.u.identifier, FSCRYPT_KEY_IDENTIFIER_SIZE);
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}
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std::string ref = keyrefstring(policy->key_raw_ref);
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LOG(DEBUG) << "Installed fscrypt key with ref " << ref << " to " << mountpoint;
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if (!installProvisioningKey(key, ref, arg->key_spec)) return false;
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return true;
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}
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// Remove an encryption key of type "logon" from the global session keyring.
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static bool evictKeyLegacy(const std::string& raw_ref) {
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key_serial_t device_keyring;
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if (!fscryptKeyring(&device_keyring)) return false;
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bool success = true;
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for (char const* const* name_prefix = NAME_PREFIXES; *name_prefix != nullptr; name_prefix++) {
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auto ref = buildLegacyKeyName(*name_prefix, raw_ref);
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auto key_serial = keyctl_search(device_keyring, "logon", ref.c_str(), 0);
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// Unlink the key from the keyring. Prefer unlinking to revoking or
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// invalidating, since unlinking is actually no less secure currently, and
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// it avoids bugs in certain kernel versions where the keyring key is
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// referenced from places it shouldn't be.
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if (keyctl_unlink(key_serial, device_keyring) != 0) {
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PLOG(ERROR) << "Failed to unlink key with serial " << key_serial << " ref " << ref;
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success = false;
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} else {
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LOG(DEBUG) << "Unlinked key with serial " << key_serial << " ref " << ref;
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}
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}
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return success;
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}
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static bool evictProvisioningKey(const std::string& ref) {
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key_serial_t device_keyring;
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if (!fscryptKeyring(&device_keyring)) {
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return false;
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}
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auto key_serial = keyctl_search(device_keyring, "fscrypt-provisioning", ref.c_str(), 0);
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if (key_serial == -1 && errno != ENOKEY) {
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PLOG(ERROR) << "Error searching session keyring for fscrypt-provisioning key for " << ref;
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return false;
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}
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if (key_serial != -1 && keyctl_unlink(key_serial, device_keyring) != 0) {
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PLOG(ERROR) << "Failed to unlink fscrypt-provisioning key for " << ref
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<< " from session keyring";
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return false;
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}
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return true;
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}
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bool evictKey(const std::string& mountpoint, const EncryptionPolicy& policy) {
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if (policy.options.version == 1 && !isFsKeyringSupported()) {
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return evictKeyLegacy(policy.key_raw_ref);
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}
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android::base::unique_fd fd(open(mountpoint.c_str(), O_RDONLY | O_DIRECTORY | O_CLOEXEC));
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if (fd == -1) {
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PLOG(ERROR) << "Failed to open " << mountpoint << " to evict key";
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return false;
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}
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struct fscrypt_remove_key_arg arg;
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memset(&arg, 0, sizeof(arg));
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if (!buildKeySpecifier(&arg.key_spec, policy)) {
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return false;
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}
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std::string ref = keyrefstring(policy.key_raw_ref);
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if (ioctl(fd, FS_IOC_REMOVE_ENCRYPTION_KEY, &arg) != 0) {
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PLOG(ERROR) << "Failed to evict fscrypt key with ref " << ref << " from " << mountpoint;
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return false;
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}
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LOG(DEBUG) << "Evicted fscrypt key with ref " << ref << " from " << mountpoint;
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if (arg.removal_status_flags & FSCRYPT_KEY_REMOVAL_STATUS_FLAG_OTHER_USERS) {
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// Should never happen because keys are only added/removed as root.
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LOG(ERROR) << "Unexpected case: key with ref " << ref << " is still added by other users!";
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} else if (arg.removal_status_flags & FSCRYPT_KEY_REMOVAL_STATUS_FLAG_FILES_BUSY) {
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LOG(ERROR) << "Files still open after removing key with ref " << ref
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<< ". These files were not locked!";
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}
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if (!evictProvisioningKey(ref)) return false;
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return true;
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}
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bool retrieveOrGenerateKey(const std::string& key_path, const std::string& tmp_path,
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const KeyAuthentication& key_authentication, const KeyGeneration& gen,
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KeyBuffer* key) {
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if (pathExists(key_path)) {
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LOG(DEBUG) << "Key exists, using: " << key_path;
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if (!retrieveKey(key_path, key_authentication, key)) return false;
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} else {
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if (!gen.allow_gen) {
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LOG(ERROR) << "No key found in " << key_path;
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return false;
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}
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LOG(INFO) << "Creating new key in " << key_path;
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if (!generateStorageKey(gen, key)) return false;
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if (!storeKeyAtomically(key_path, tmp_path, key_authentication, *key)) return false;
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}
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return true;
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}
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bool reloadKeyFromSessionKeyring(const std::string& mountpoint, const EncryptionPolicy& policy) {
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key_serial_t device_keyring;
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if (!fscryptKeyring(&device_keyring)) {
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return false;
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}
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std::string ref = keyrefstring(policy.key_raw_ref);
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auto key_serial = keyctl_search(device_keyring, "fscrypt-provisioning", ref.c_str(), 0);
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if (key_serial == -1) {
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PLOG(ERROR) << "Failed to find fscrypt-provisioning key for " << ref
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<< " in session keyring";
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return false;
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}
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LOG(DEBUG) << "Installing fscrypt-provisioning key for " << ref << " back into " << mountpoint
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<< " fs-keyring";
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struct fscrypt_add_key_arg arg;
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memset(&arg, 0, sizeof(arg));
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if (!buildKeySpecifier(&arg.key_spec, policy)) return false;
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arg.key_id = key_serial;
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if (!installFsKeyringKey(mountpoint, policy.options, &arg)) return false;
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return true;
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|
}
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|
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} // namespace vold
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} // namespace android
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