/* * 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 <keystore/keystore.h> #define VALUE_SIZE 32768 /* 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 VALUE_SIZE 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. */ /* ** Note to future implementors of encryption: ** * Currently this is the construction: * metadata || Enc(MD5(data) || data) * * This should be the construction used for encrypting if re-implementing: * * Derive independent keys for encryption and MAC: * Kenc = AES_encrypt(masterKey, "Encrypt") * Kmac = AES_encrypt(masterKey, "MAC") * * Store this: * metadata || AES_CTR_encrypt(Kenc, rand_IV, data) || * HMAC(Kmac, metadata || Enc(data)) */ struct __attribute__((packed)) blob { 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 when encrypted uint8_t value[VALUE_SIZE + AES_BLOCK_SIZE]; }; static const uint8_t CURRENT_BLOB_VERSION = 2; 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, } BlobType; class Entropy; class Blob { public: Blob(const uint8_t* value, size_t valueLength, const uint8_t* info, uint8_t infoLength, BlobType type); Blob(blob b); Blob(); 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 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); } ResponseCode writeBlob(const char* filename, AES_KEY* aes_key, State state, Entropy* entropy); ResponseCode readBlob(const char* filename, AES_KEY* aes_key, State state); private: struct blob mBlob; }; #endif // KEYSTORE_BLOB_H_