/*
* Copyright (C) 2015 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.
*/
#ifndef KEYSTORE_BLOB_H_
#define KEYSTORE_BLOB_H_
#include <stdint.h>
#include <openssl/aes.h>
#include <openssl/md5.h>
#include <condition_variable>
#include <functional>
#include <keystore/keymaster_types.h>
#include <keystore/keystore.h>
#include <list>
#include <mutex>
#include <set>
#include <sstream>
#include <vector>
constexpr size_t kValueSize = 32768;
constexpr size_t kAesKeySize = 128 / 8;
constexpr size_t kGcmTagLength = 128 / 8;
constexpr size_t kGcmIvLength = 96 / 8;
constexpr size_t kAes128KeySizeBytes = 128 / 8;
/* Here is the file format. There are two parts in blob.value, the secret and
* the description. The secret is stored in ciphertext, and its original size
* can be found in blob.length. The description is stored after the secret in
* plaintext, and its size is specified in blob.info. The total size of the two
* parts must be no more than kValueSize bytes. The first field is the version,
* the second is the blob's type, and the third byte is flags. Fields other
* than blob.info, blob.length, and blob.value are modified by encryptBlob()
* and decryptBlob(). Thus they should not be accessed from outside. */
struct __attribute__((packed)) blobv3 {
uint8_t version;
uint8_t type;
uint8_t flags;
uint8_t info;
uint8_t initialization_vector[AES_BLOCK_SIZE]; // Only 96 bits is used, rest is zeroed.
uint8_t aead_tag[kGcmTagLength];
int32_t length; // in network byte order, only for backward compatibility
uint8_t value[kValueSize + AES_BLOCK_SIZE];
};
struct __attribute__((packed)) blobv2 {
uint8_t version;
uint8_t type;
uint8_t flags;
uint8_t info;
uint8_t vector[AES_BLOCK_SIZE];
uint8_t encrypted[0]; // Marks offset to encrypted data.
uint8_t digest[MD5_DIGEST_LENGTH];
uint8_t digested[0]; // Marks offset to digested data.
int32_t length; // in network byte order
uint8_t value[kValueSize + AES_BLOCK_SIZE];
};
static_assert(sizeof(blobv3) == sizeof(blobv2) &&
offsetof(blobv3, initialization_vector) == offsetof(blobv2, vector) &&
offsetof(blobv3, aead_tag) == offsetof(blobv2, digest) &&
offsetof(blobv3, aead_tag) == offsetof(blobv2, encrypted) &&
offsetof(blobv3, length) == offsetof(blobv2, length) &&
offsetof(blobv3, value) == offsetof(blobv2, value),
"Oops. Blob layout changed.");
static const uint8_t CURRENT_BLOB_VERSION = 3;
typedef enum {
TYPE_ANY = 0, // meta type that matches anything
TYPE_GENERIC = 1,
TYPE_MASTER_KEY = 2,
TYPE_KEY_PAIR = 3,
TYPE_KEYMASTER_10 = 4,
TYPE_KEY_CHARACTERISTICS = 5,
TYPE_KEY_CHARACTERISTICS_CACHE = 6,
TYPE_MASTER_KEY_AES256 = 7,
} BlobType;
class LockedKeyBlobEntry;
/**
* The Blob represents the content of a KeyBlobEntry.
*
* BEWARE: It is only save to call any member function of a Blob b if bool(b) yields true.
* Exceptions are putKeyCharacteristics(), the assignment operators and operator bool.
*/
class Blob {
friend LockedKeyBlobEntry;
public:
Blob(const uint8_t* value, size_t valueLength, const uint8_t* info, uint8_t infoLength,
BlobType type);
explicit Blob(blobv3 b);
Blob();
Blob(const Blob& rhs);
Blob(Blob&& rhs);
~Blob() {
if (mBlob) *mBlob = {};
}
Blob& operator=(const Blob& rhs);
Blob& operator=(Blob&& rhs);
explicit operator bool() const { return bool(mBlob); }
const uint8_t* getValue() const { return mBlob->value; }
int32_t getLength() const { return mBlob->length; }
const uint8_t* getInfo() const { return mBlob->value + mBlob->length; }
uint8_t getInfoLength() const { return mBlob->info; }
uint8_t getVersion() const { return mBlob->version; }
bool isEncrypted() const;
void setEncrypted(bool encrypted);
bool isSuperEncrypted() const;
void setSuperEncrypted(bool superEncrypted);
bool isCriticalToDeviceEncryption() const;
void setCriticalToDeviceEncryption(bool critical);
bool isFallback() const { return mBlob->flags & KEYSTORE_FLAG_FALLBACK; }
void setFallback(bool fallback);
void setVersion(uint8_t version) { mBlob->version = version; }
BlobType getType() const { return BlobType(mBlob->type); }
void setType(BlobType type) { mBlob->type = uint8_t(type); }
keystore::SecurityLevel getSecurityLevel() const;
void setSecurityLevel(keystore::SecurityLevel);
std::tuple<bool, keystore::AuthorizationSet, keystore::AuthorizationSet>
getKeyCharacteristics() const;
bool putKeyCharacteristics(const keystore::AuthorizationSet& hwEnforced,
const keystore::AuthorizationSet& swEnforced);
private:
std::unique_ptr<blobv3> mBlob;
ResponseCode readBlob(const std::string& filename, const std::vector<uint8_t>& aes_key,
State state);
};
/**
* A KeyBlobEntry represents a full qualified key blob as known by Keystore. The key blob
* is given by the uid of the owning app and the alias used by the app to refer to this key.
* The user_dir_ is technically implied by the uid, but computation of the user directory is
* done in the user state database. Which is why we also cache it here.
*
* The KeyBlobEntry knows the location of the key blob files (which may include a characteristics
* cache file) but does not allow read or write access to the content. It also does not imply
* the existence of the files.
*
* KeyBlobEntry abstracts, to some extent, from the the file system based storage of key blobs.
* An evolution of KeyBlobEntry may be used for key blob storage based on a back end other than
* file system, e.g., SQL database or other.
*
* For access to the key blob content the programmer has to acquire a LockedKeyBlobEntry (see
* below).
*/
class KeyBlobEntry {
private:
std::string alias_;
std::string user_dir_;
uid_t uid_;
bool masterkey_;
public:
KeyBlobEntry(std::string alias, std::string user_dir, uid_t uid, bool masterkey = false)
: alias_(std::move(alias)), user_dir_(std::move(user_dir)), uid_(uid),
masterkey_(masterkey) {}
std::string getKeyBlobBaseName() const;
std::string getKeyBlobPath() const;
std::string getCharacteristicsBlobBaseName() const;
std::string getCharacteristicsBlobPath() const;
bool hasKeyBlob() const;
bool hasCharacteristicsBlob() const;
bool operator<(const KeyBlobEntry& rhs) const {
return std::tie(uid_, alias_, user_dir_) < std::tie(rhs.uid_, rhs.alias_, rhs.user_dir_);
}
bool operator==(const KeyBlobEntry& rhs) const {
return std::tie(uid_, alias_, user_dir_) == std::tie(rhs.uid_, rhs.alias_, rhs.user_dir_);
}
bool operator!=(const KeyBlobEntry& rhs) const { return !(*this == rhs); }
inline const std::string& alias() const { return alias_; }
inline const std::string& user_dir() const { return user_dir_; }
inline uid_t uid() const { return uid_; }
};
/**
* The LockedKeyBlobEntry is a proxy object to KeyBlobEntry that expresses exclusive ownership
* of a KeyBlobEntry. LockedKeyBlobEntries can be acquired by calling
* LockedKeyBlobEntry::get() or LockedKeyBlobEntry::list().
*
* LockedKeyBlobEntries are movable but not copyable. By convention they can only
* be taken by the dispatcher thread of keystore, but not by any keymaster worker thread.
* The dispatcher thread may transfer ownership of a locked entry to a keymaster worker thread.
*
* Locked entries are tracked on the stack or as members of movable functor objects passed to the
* keymaster worker request queues. Locks are relinquished as the locked entry gets destroyed, e.g.,
* when it goes out of scope or when the owning request functor gets destroyed.
*
* LockedKeyBlobEntry::list(), which must only be called by the dispatcher, blocks until all
* LockedKeyBlobEntries have been destroyed. Thereby list acts as a fence to make sure it gets a
* consistent view of the key blob database. Under the assumption that keymaster worker requests
* cannot run or block indefinitely and cannot grab new locked entries, progress is guaranteed.
* It then grabs locked entries in accordance with the given filter rule.
*
* LockedKeyBlobEntry allow access to the proxied KeyBlobEntry interface through the operator->.
* They add additional functionality to access and modify the key blob's content on disk.
* LockedKeyBlobEntry ensures atomic operations on the persistently stored key blobs on a per
* entry granularity.
*/
class LockedKeyBlobEntry {
private:
static std::set<KeyBlobEntry> locked_blobs_;
static std::mutex locked_blobs_mutex_;
static std::condition_variable locked_blobs_mutex_cond_var_;
const KeyBlobEntry* entry_;
// NOLINTNEXTLINE(google-explicit-constructor)
LockedKeyBlobEntry(const KeyBlobEntry& entry) : entry_(&entry) {}
static void put(const KeyBlobEntry& entry);
LockedKeyBlobEntry(const LockedKeyBlobEntry&) = delete;
LockedKeyBlobEntry& operator=(const LockedKeyBlobEntry&) = delete;
public:
LockedKeyBlobEntry() : entry_(nullptr){};
~LockedKeyBlobEntry();
LockedKeyBlobEntry(LockedKeyBlobEntry&& rhs) : entry_(rhs.entry_) { rhs.entry_ = nullptr; }
LockedKeyBlobEntry& operator=(LockedKeyBlobEntry&& rhs) {
// as dummy goes out of scope it relinquishes the lock on this
LockedKeyBlobEntry dummy(std::move(*this));
entry_ = rhs.entry_;
rhs.entry_ = nullptr;
return *this;
}
static LockedKeyBlobEntry get(KeyBlobEntry entry);
static std::tuple<ResponseCode, std::list<LockedKeyBlobEntry>>
list(const std::string& user_dir,
std::function<bool(uid_t, const std::string&)> filter =
[](uid_t, const std::string&) -> bool { return true; });
ResponseCode writeBlobs(Blob keyBlob, Blob characteristicsBlob,
const std::vector<uint8_t>& aes_key, State state) const;
std::tuple<ResponseCode, Blob, Blob> readBlobs(const std::vector<uint8_t>& aes_key,
State state) const;
ResponseCode deleteBlobs() const;
inline explicit operator bool() const { return entry_ != nullptr; }
inline const KeyBlobEntry& operator*() const { return *entry_; }
inline const KeyBlobEntry* operator->() const { return entry_; }
};
// Visible for testing
std::string encodeKeyName(const std::string& keyName);
std::string decodeKeyName(const std::string& encodedName);
#endif // KEYSTORE_BLOB_H_