rocksdb/include/rocksdb/env_encryption.h

//  Copyright (c) 2016-present, Facebook, Inc.  All rights reserved.
//  This source code is licensed under both the GPLv2 (found in the
//  COPYING file in the root directory) and Apache 2.0 License
//  (found in the LICENSE.Apache file in the root directory).

#pragma once

#if !defined(ROCKSDB_LITE) 

#include <string>

#include "env.h"

namespace rocksdb {

class EncryptionProvider;

// Returns an Env that encrypts data when stored on disk and decrypts data when 
// read from disk.
Env* NewEncryptedEnv(Env* base_env, EncryptionProvider* provider);

// BlockAccessCipherStream is the base class for any cipher stream that 
// supports random access at block level (without requiring data from other blocks).
// E.g. CTR (Counter operation mode) supports this requirement.
class BlockAccessCipherStream {
    public:
      virtual ~BlockAccessCipherStream() {};

      // BlockSize returns the size of each block supported by this cipher stream.
      virtual size_t BlockSize() = 0;

      // Encrypt one or more (partial) blocks of data at the file offset.
      // Length of data is given in dataSize.
      virtual Status Encrypt(uint64_t fileOffset, char *data, size_t dataSize);

      // Decrypt one or more (partial) blocks of data at the file offset.
      // Length of data is given in dataSize.
      virtual Status Decrypt(uint64_t fileOffset, char *data, size_t dataSize);

    protected:
      // Allocate scratch space which is passed to EncryptBlock/DecryptBlock.
      virtual void AllocateScratch(std::string&) = 0;

      // Encrypt a block of data at the given block index.
      // Length of data is equal to BlockSize();
      virtual Status EncryptBlock(uint64_t blockIndex, char *data, char* scratch) = 0;

      // Decrypt a block of data at the given block index.
      // Length of data is equal to BlockSize();
      virtual Status DecryptBlock(uint64_t blockIndex, char *data, char* scratch) = 0;
};

// BlockCipher 
class BlockCipher {
    public:
      virtual ~BlockCipher() {};

      // BlockSize returns the size of each block supported by this cipher stream.
      virtual size_t BlockSize() = 0;

      // Encrypt a block of data.
      // Length of data is equal to BlockSize().
      virtual Status Encrypt(char *data) = 0;

      // Decrypt a block of data.
      // Length of data is equal to BlockSize().
      virtual Status Decrypt(char *data) = 0;
};

// Implements a BlockCipher using ROT13.
//
// Note: This is a sample implementation of BlockCipher, 
// it is NOT considered safe and should NOT be used in production.
class ROT13BlockCipher : public BlockCipher {
    private: 
      size_t blockSize_;
    public:
      ROT13BlockCipher(size_t blockSize) 
        : blockSize_(blockSize) {}
      virtual ~ROT13BlockCipher() {};

      // BlockSize returns the size of each block supported by this cipher stream.
      virtual size_t BlockSize() override { return blockSize_; }

      // Encrypt a block of data.
      // Length of data is equal to BlockSize().
      virtual Status Encrypt(char *data) override;

      // Decrypt a block of data.
      // Length of data is equal to BlockSize().
      virtual Status Decrypt(char *data) override;
};

// CTRCipherStream implements BlockAccessCipherStream using an 
// Counter operations mode. 
// See https://en.wikipedia.org/wiki/Block_cipher_mode_of_operation
//
// Note: This is a possible implementation of BlockAccessCipherStream, 
// it is considered suitable for use.
class CTRCipherStream final : public BlockAccessCipherStream {
    private:
      BlockCipher& cipher_;
      std::string iv_;
      uint64_t initialCounter_;
    public:
      CTRCipherStream(BlockCipher& c, const char *iv, uint64_t initialCounter) 
        : cipher_(c), iv_(iv, c.BlockSize()), initialCounter_(initialCounter) {};
      virtual ~CTRCipherStream() {};

      // BlockSize returns the size of each block supported by this cipher stream.
      virtual size_t BlockSize() override { return cipher_.BlockSize(); }

    protected:
      // Allocate scratch space which is passed to EncryptBlock/DecryptBlock.
      virtual void AllocateScratch(std::string&) override;

      // Encrypt a block of data at the given block index.
      // Length of data is equal to BlockSize();
      virtual Status EncryptBlock(uint64_t blockIndex, char *data, char *scratch) override;

      // Decrypt a block of data at the given block index.
      // Length of data is equal to BlockSize();
      virtual Status DecryptBlock(uint64_t blockIndex, char *data, char *scratch) override;
};

// The encryption provider is used to create a cipher stream for a specific file.
// The returned cipher stream will be used for actual encryption/decryption 
// actions.
class EncryptionProvider {
 public:
    virtual ~EncryptionProvider() {};

    // GetPrefixLength returns the length of the prefix that is added to every file
    // and used for storing encryption options.
    // For optimal performance, the prefix length should be a multiple of 
    // the page size.
    virtual size_t GetPrefixLength() = 0;

    // CreateNewPrefix initialized an allocated block of prefix memory 
    // for a new file.
    virtual Status CreateNewPrefix(const std::string& fname, char *prefix, size_t prefixLength) = 0;

    // CreateCipherStream creates a block access cipher stream for a file given
    // given name and options.
    virtual Status CreateCipherStream(const std::string& fname, const EnvOptions& options,
      Slice& prefix, unique_ptr<BlockAccessCipherStream>* result) = 0;
};

// This encryption provider uses a CTR cipher stream, with a given block cipher 
// and IV.
//
// Note: This is a possible implementation of EncryptionProvider, 
// it is considered suitable for use, provided a safe BlockCipher is used.
class CTREncryptionProvider : public EncryptionProvider {
    private:
      BlockCipher& cipher_;
    protected:
      const static size_t defaultPrefixLength = 4096;

 public:
      CTREncryptionProvider(BlockCipher& c) 
        : cipher_(c) {};
    virtual ~CTREncryptionProvider() {}

    // GetPrefixLength returns the length of the prefix that is added to every file
    // and used for storing encryption options.
    // For optimal performance, the prefix length should be a multiple of 
    // the page size.
    virtual size_t GetPrefixLength() override;

    // CreateNewPrefix initialized an allocated block of prefix memory 
    // for a new file.
    virtual Status CreateNewPrefix(const std::string& fname, char *prefix, size_t prefixLength) override;

    // CreateCipherStream creates a block access cipher stream for a file given
    // given name and options.
    virtual Status CreateCipherStream(const std::string& fname, const EnvOptions& options,
      Slice& prefix, unique_ptr<BlockAccessCipherStream>* result) override;

  protected:
    // PopulateSecretPrefixPart initializes the data into a new prefix block 
    // that will be encrypted. This function will store the data in plain text. 
    // It will be encrypted later (before written to disk).
    // Returns the amount of space (starting from the start of the prefix)
    // that has been initialized.
    virtual size_t PopulateSecretPrefixPart(char *prefix, size_t prefixLength, size_t blockSize);

    // CreateCipherStreamFromPrefix creates a block access cipher stream for a file given
    // given name and options. The given prefix is already decrypted.
    virtual Status CreateCipherStreamFromPrefix(const std::string& fname, const EnvOptions& options,
      uint64_t initialCounter, const Slice& iv, const Slice& prefix, unique_ptr<BlockAccessCipherStream>* result);
};

}  // namespace rocksdb

#endif  // !defined(ROCKSDB_LITE)