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78ee8564ad
Summary: This PR adds the foundation classes for key-value integrity protection and the first use case: protecting live updates from the source buffers added to `WriteBatch` through the destination buffer in `MemTable`. The width of the protection info is not yet configurable -- only eight bytes per key is supported. This PR allows users to enable protection by constructing `WriteBatch` with `protection_bytes_per_key == 8`. It does not yet expose a way for users to get integrity protection via other write APIs (e.g., `Put()`, `Merge()`, `Delete()`, etc.). The foundation classes (`ProtectionInfo.*`) embed the coverage info in their type, and provide `Protect.*()` and `Strip.*()` functions to navigate between types with different coverage. For making bytes per key configurable (for powers of two up to eight) in the future, these classes are templated on the unsigned integer type used to store the protection info. That integer contains the XOR'd result of hashes with independent seeds for all covered fields. For integer fields, the hash is computed on the raw unadjusted bytes, so the result is endian-dependent. The most significant bytes are truncated when the hash value (8 bytes) is wider than the protection integer. When `WriteBatch` is constructed with `protection_bytes_per_key == 8`, we hold a `ProtectionInfoKVOTC` (i.e., one that covers key, value, optype aka `ValueType`, timestamp, and CF ID) for each entry added to the batch. The protection info is generated from the original buffers passed by the user, as well as the original metadata generated internally. When writing to memtable, each entry is transformed to a `ProtectionInfoKVOTS` (i.e., dropping coverage of CF ID and adding coverage of sequence number), since at that point we know the sequence number, and have already selected a memtable corresponding to a particular CF. This protection info is verified once the entry is encoded in the `MemTable` buffer. Pull Request resolved: https://github.com/facebook/rocksdb/pull/7748 Test Plan: - an integration test to verify a wide variety of single-byte changes to the encoded `MemTable` buffer are caught - add to stress/crash test to verify it works in variety of configs/operations without intentional corruption - [deferred] unit tests for `ProtectionInfo.*` classes for edge cases like KV swap, `SliceParts` and `Slice` APIs are interchangeable, etc. Reviewed By: pdillinger Differential Revision: D25754492 Pulled By: ajkr fbshipit-source-id: e481bac6c03c2ab268be41359730f1ceb9964866
425 lines
15 KiB
C++
425 lines
15 KiB
C++
// Copyright (c) 2020-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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//
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// This file contains classes containing fields to protect individual entries.
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// The classes are named "ProtectionInfo<suffix>", where <suffix> indicates the
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// combination of fields that are covered. Each field has a single letter
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// abbreviation as follows.
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//
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// K = key
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// V = value
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// O = optype aka value type
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// T = timestamp
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// S = seqno
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// C = CF ID
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//
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// Then, for example, a class that protects an entry consisting of key, value,
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// optype, timestamp, and CF ID (i.e., a `WriteBatch` entry) would be named
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// `ProtectionInfoKVOTC`.
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//
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// The `ProtectionInfo.*` classes are templated on the integer type used to hold
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// the XOR of hashes for each field. Only unsigned integer types are supported,
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// and the maximum supported integer width is 64 bits. When the integer type is
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// narrower than the hash values, we lop off the most significant bits to make
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// them fit.
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//
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// The `ProtectionInfo.*` classes are all intended to be non-persistent. We do
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// not currently make the byte order consistent for integer fields before
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// hashing them, so the resulting values are endianness-dependent.
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#pragma once
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#include <type_traits>
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#include "db/dbformat.h"
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#include "rocksdb/types.h"
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#include "util/hash.h"
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namespace ROCKSDB_NAMESPACE {
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template <typename T>
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class ProtectionInfo;
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template <typename T>
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class ProtectionInfoKVOT;
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template <typename T>
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class ProtectionInfoKVOTC;
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template <typename T>
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class ProtectionInfoKVOTS;
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// Aliases for 64-bit protection infos.
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typedef ProtectionInfo<uint64_t> ProtectionInfo64;
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typedef ProtectionInfoKVOT<uint64_t> ProtectionInfoKVOT64;
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typedef ProtectionInfoKVOTC<uint64_t> ProtectionInfoKVOTC64;
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typedef ProtectionInfoKVOTS<uint64_t> ProtectionInfoKVOTS64;
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template <typename T>
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class ProtectionInfo {
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public:
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ProtectionInfo<T>() = default;
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Status GetStatus() const;
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ProtectionInfoKVOT<T> ProtectKVOT(const Slice& key, const Slice& value,
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ValueType op_type,
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const Slice& timestamp) const;
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ProtectionInfoKVOT<T> ProtectKVOT(const SliceParts& key,
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const SliceParts& value, ValueType op_type,
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const Slice& timestamp) const;
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private:
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friend class ProtectionInfoKVOT<T>;
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friend class ProtectionInfoKVOTS<T>;
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friend class ProtectionInfoKVOTC<T>;
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// Each field is hashed with an independent value so we can catch fields being
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// swapped. Per the `NPHash64()` docs, using consecutive seeds is a pitfall,
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// and we should instead vary our seeds by a large odd number. This value by
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// which we increment (0xD28AAD72F49BD50B) was taken from
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// `head -c8 /dev/urandom | hexdump`, run repeatedly until it yielded an odd
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// number. The values are computed manually since the Windows C++ compiler
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// complains about the overflow when adding constants.
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static const uint64_t kSeedK = 0;
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static const uint64_t kSeedV = 0xD28AAD72F49BD50B;
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static const uint64_t kSeedO = 0xA5155AE5E937AA16;
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static const uint64_t kSeedT = 0x77A00858DDD37F21;
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static const uint64_t kSeedS = 0x4A2AB5CBD26F542C;
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static const uint64_t kSeedC = 0x1CB5633EC70B2937;
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ProtectionInfo<T>(T val) : val_(val) {
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static_assert(sizeof(ProtectionInfo<T>) == sizeof(T), "");
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}
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T GetVal() const { return val_; }
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void SetVal(T val) { val_ = val; }
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T val_ = 0;
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};
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template <typename T>
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class ProtectionInfoKVOT {
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public:
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ProtectionInfoKVOT<T>() = default;
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ProtectionInfo<T> StripKVOT(const Slice& key, const Slice& value,
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ValueType op_type, const Slice& timestamp) const;
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ProtectionInfo<T> StripKVOT(const SliceParts& key, const SliceParts& value,
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ValueType op_type, const Slice& timestamp) const;
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ProtectionInfoKVOTC<T> ProtectC(ColumnFamilyId column_family_id) const;
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ProtectionInfoKVOTS<T> ProtectS(SequenceNumber sequence_number) const;
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void UpdateK(const Slice& old_key, const Slice& new_key);
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void UpdateK(const SliceParts& old_key, const SliceParts& new_key);
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void UpdateV(const Slice& old_value, const Slice& new_value);
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void UpdateV(const SliceParts& old_value, const SliceParts& new_value);
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void UpdateO(ValueType old_op_type, ValueType new_op_type);
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void UpdateT(const Slice& old_timestamp, const Slice& new_timestamp);
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private:
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friend class ProtectionInfo<T>;
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friend class ProtectionInfoKVOTS<T>;
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friend class ProtectionInfoKVOTC<T>;
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ProtectionInfoKVOT<T>(T val) : info_(val) {
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static_assert(sizeof(ProtectionInfoKVOT<T>) == sizeof(T), "");
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}
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T GetVal() const { return info_.GetVal(); }
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void SetVal(T val) { info_.SetVal(val); }
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ProtectionInfo<T> info_;
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};
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template <typename T>
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class ProtectionInfoKVOTC {
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public:
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ProtectionInfoKVOTC<T>() = default;
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ProtectionInfoKVOT<T> StripC(ColumnFamilyId column_family_id) const;
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void UpdateK(const Slice& old_key, const Slice& new_key) {
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kvot_.UpdateK(old_key, new_key);
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}
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void UpdateK(const SliceParts& old_key, const SliceParts& new_key) {
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kvot_.UpdateK(old_key, new_key);
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}
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void UpdateV(const Slice& old_value, const Slice& new_value) {
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kvot_.UpdateV(old_value, new_value);
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}
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void UpdateV(const SliceParts& old_value, const SliceParts& new_value) {
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kvot_.UpdateV(old_value, new_value);
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}
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void UpdateO(ValueType old_op_type, ValueType new_op_type) {
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kvot_.UpdateO(old_op_type, new_op_type);
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}
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void UpdateT(const Slice& old_timestamp, const Slice& new_timestamp) {
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kvot_.UpdateT(old_timestamp, new_timestamp);
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}
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void UpdateC(ColumnFamilyId old_column_family_id,
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ColumnFamilyId new_column_family_id);
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private:
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friend class ProtectionInfoKVOT<T>;
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ProtectionInfoKVOTC<T>(T val) : kvot_(val) {
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static_assert(sizeof(ProtectionInfoKVOTC<T>) == sizeof(T), "");
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}
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T GetVal() const { return kvot_.GetVal(); }
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void SetVal(T val) { kvot_.SetVal(val); }
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ProtectionInfoKVOT<T> kvot_;
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};
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template <typename T>
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class ProtectionInfoKVOTS {
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public:
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ProtectionInfoKVOTS<T>() = default;
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ProtectionInfoKVOT<T> StripS(SequenceNumber sequence_number) const;
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void UpdateK(const Slice& old_key, const Slice& new_key) {
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kvot_.UpdateK(old_key, new_key);
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}
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void UpdateK(const SliceParts& old_key, const SliceParts& new_key) {
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kvot_.UpdateK(old_key, new_key);
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}
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void UpdateV(const Slice& old_value, const Slice& new_value) {
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kvot_.UpdateV(old_value, new_value);
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}
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void UpdateV(const SliceParts& old_value, const SliceParts& new_value) {
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kvot_.UpdateV(old_value, new_value);
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}
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void UpdateO(ValueType old_op_type, ValueType new_op_type) {
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kvot_.UpdateO(old_op_type, new_op_type);
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}
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void UpdateT(const Slice& old_timestamp, const Slice& new_timestamp) {
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kvot_.UpdateT(old_timestamp, new_timestamp);
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}
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void UpdateS(SequenceNumber old_sequence_number,
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SequenceNumber new_sequence_number);
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private:
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friend class ProtectionInfoKVOT<T>;
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ProtectionInfoKVOTS<T>(T val) : kvot_(val) {
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static_assert(sizeof(ProtectionInfoKVOTS<T>) == sizeof(T), "");
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}
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T GetVal() const { return kvot_.GetVal(); }
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void SetVal(T val) { kvot_.SetVal(val); }
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ProtectionInfoKVOT<T> kvot_;
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};
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template <typename T>
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Status ProtectionInfo<T>::GetStatus() const {
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if (val_ != 0) {
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return Status::Corruption("ProtectionInfo mismatch");
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}
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return Status::OK();
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}
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template <typename T>
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ProtectionInfoKVOT<T> ProtectionInfo<T>::ProtectKVOT(
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const Slice& key, const Slice& value, ValueType op_type,
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const Slice& timestamp) const {
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T val = GetVal();
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val = val ^ static_cast<T>(GetSliceNPHash64(key, ProtectionInfo<T>::kSeedK));
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val =
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val ^ static_cast<T>(GetSliceNPHash64(value, ProtectionInfo<T>::kSeedV));
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val = val ^
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static_cast<T>(NPHash64(reinterpret_cast<char*>(&op_type),
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sizeof(op_type), ProtectionInfo<T>::kSeedO));
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val = val ^
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static_cast<T>(GetSliceNPHash64(timestamp, ProtectionInfo<T>::kSeedT));
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return ProtectionInfoKVOT<T>(val);
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}
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template <typename T>
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ProtectionInfoKVOT<T> ProtectionInfo<T>::ProtectKVOT(
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const SliceParts& key, const SliceParts& value, ValueType op_type,
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const Slice& timestamp) const {
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T val = GetVal();
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val = val ^
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static_cast<T>(GetSlicePartsNPHash64(key, ProtectionInfo<T>::kSeedK));
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val = val ^
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static_cast<T>(GetSlicePartsNPHash64(value, ProtectionInfo<T>::kSeedV));
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val = val ^
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static_cast<T>(NPHash64(reinterpret_cast<char*>(&op_type),
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sizeof(op_type), ProtectionInfo<T>::kSeedO));
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val = val ^
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static_cast<T>(GetSliceNPHash64(timestamp, ProtectionInfo<T>::kSeedT));
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return ProtectionInfoKVOT<T>(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateK(const Slice& old_key,
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const Slice& new_key) {
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T val = GetVal();
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val = val ^
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static_cast<T>(GetSliceNPHash64(old_key, ProtectionInfo<T>::kSeedK));
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val = val ^
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static_cast<T>(GetSliceNPHash64(new_key, ProtectionInfo<T>::kSeedK));
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SetVal(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateK(const SliceParts& old_key,
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const SliceParts& new_key) {
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T val = GetVal();
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val = val ^ static_cast<T>(
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GetSlicePartsNPHash64(old_key, ProtectionInfo<T>::kSeedK));
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val = val ^ static_cast<T>(
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GetSlicePartsNPHash64(new_key, ProtectionInfo<T>::kSeedK));
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SetVal(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateV(const Slice& old_value,
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const Slice& new_value) {
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T val = GetVal();
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val = val ^
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static_cast<T>(GetSliceNPHash64(old_value, ProtectionInfo<T>::kSeedV));
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val = val ^
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static_cast<T>(GetSliceNPHash64(new_value, ProtectionInfo<T>::kSeedV));
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SetVal(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateV(const SliceParts& old_value,
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const SliceParts& new_value) {
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T val = GetVal();
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val = val ^ static_cast<T>(
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GetSlicePartsNPHash64(old_value, ProtectionInfo<T>::kSeedV));
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val = val ^ static_cast<T>(
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GetSlicePartsNPHash64(new_value, ProtectionInfo<T>::kSeedV));
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SetVal(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateO(ValueType old_op_type,
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ValueType new_op_type) {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(reinterpret_cast<char*>(&old_op_type),
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sizeof(old_op_type),
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ProtectionInfo<T>::kSeedO));
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val = val ^ static_cast<T>(NPHash64(reinterpret_cast<char*>(&new_op_type),
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sizeof(new_op_type),
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ProtectionInfo<T>::kSeedO));
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SetVal(val);
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}
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template <typename T>
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void ProtectionInfoKVOT<T>::UpdateT(const Slice& old_timestamp,
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const Slice& new_timestamp) {
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T val = GetVal();
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val = val ^ static_cast<T>(
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GetSliceNPHash64(old_timestamp, ProtectionInfo<T>::kSeedT));
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val = val ^ static_cast<T>(
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GetSliceNPHash64(new_timestamp, ProtectionInfo<T>::kSeedT));
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SetVal(val);
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}
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template <typename T>
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ProtectionInfo<T> ProtectionInfoKVOT<T>::StripKVOT(
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const Slice& key, const Slice& value, ValueType op_type,
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const Slice& timestamp) const {
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T val = GetVal();
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val = val ^ static_cast<T>(GetSliceNPHash64(key, ProtectionInfo<T>::kSeedK));
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val =
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val ^ static_cast<T>(GetSliceNPHash64(value, ProtectionInfo<T>::kSeedV));
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val = val ^
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static_cast<T>(NPHash64(reinterpret_cast<char*>(&op_type),
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sizeof(op_type), ProtectionInfo<T>::kSeedO));
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val = val ^
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static_cast<T>(GetSliceNPHash64(timestamp, ProtectionInfo<T>::kSeedT));
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return ProtectionInfo<T>(val);
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}
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template <typename T>
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ProtectionInfo<T> ProtectionInfoKVOT<T>::StripKVOT(
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const SliceParts& key, const SliceParts& value, ValueType op_type,
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const Slice& timestamp) const {
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T val = GetVal();
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val = val ^
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static_cast<T>(GetSlicePartsNPHash64(key, ProtectionInfo<T>::kSeedK));
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val = val ^
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static_cast<T>(GetSlicePartsNPHash64(value, ProtectionInfo<T>::kSeedV));
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val = val ^
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static_cast<T>(NPHash64(reinterpret_cast<char*>(&op_type),
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sizeof(op_type), ProtectionInfo<T>::kSeedO));
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val = val ^
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static_cast<T>(GetSliceNPHash64(timestamp, ProtectionInfo<T>::kSeedT));
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return ProtectionInfo<T>(val);
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}
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template <typename T>
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ProtectionInfoKVOTC<T> ProtectionInfoKVOT<T>::ProtectC(
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ColumnFamilyId column_family_id) const {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(
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reinterpret_cast<char*>(&column_family_id),
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sizeof(column_family_id), ProtectionInfo<T>::kSeedC));
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return ProtectionInfoKVOTC<T>(val);
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}
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template <typename T>
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ProtectionInfoKVOT<T> ProtectionInfoKVOTC<T>::StripC(
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ColumnFamilyId column_family_id) const {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(
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reinterpret_cast<char*>(&column_family_id),
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sizeof(column_family_id), ProtectionInfo<T>::kSeedC));
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return ProtectionInfoKVOT<T>(val);
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}
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template <typename T>
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void ProtectionInfoKVOTC<T>::UpdateC(ColumnFamilyId old_column_family_id,
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ColumnFamilyId new_column_family_id) {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(
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reinterpret_cast<char*>(&old_column_family_id),
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sizeof(old_column_family_id), ProtectionInfo<T>::kSeedC));
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val = val ^ static_cast<T>(NPHash64(
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reinterpret_cast<char*>(&new_column_family_id),
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sizeof(new_column_family_id), ProtectionInfo<T>::kSeedC));
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SetVal(val);
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}
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template <typename T>
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ProtectionInfoKVOTS<T> ProtectionInfoKVOT<T>::ProtectS(
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SequenceNumber sequence_number) const {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(reinterpret_cast<char*>(&sequence_number),
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sizeof(sequence_number),
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ProtectionInfo<T>::kSeedS));
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return ProtectionInfoKVOTS<T>(val);
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}
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template <typename T>
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ProtectionInfoKVOT<T> ProtectionInfoKVOTS<T>::StripS(
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SequenceNumber sequence_number) const {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(reinterpret_cast<char*>(&sequence_number),
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sizeof(sequence_number),
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ProtectionInfo<T>::kSeedS));
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return ProtectionInfoKVOT<T>(val);
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}
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template <typename T>
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void ProtectionInfoKVOTS<T>::UpdateS(SequenceNumber old_sequence_number,
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SequenceNumber new_sequence_number) {
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T val = GetVal();
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val = val ^ static_cast<T>(NPHash64(
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reinterpret_cast<char*>(&old_sequence_number),
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sizeof(old_sequence_number), ProtectionInfo<T>::kSeedS));
|
|
val = val ^ static_cast<T>(NPHash64(
|
|
reinterpret_cast<char*>(&new_sequence_number),
|
|
sizeof(new_sequence_number), ProtectionInfo<T>::kSeedS));
|
|
SetVal(val);
|
|
}
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|
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} // namespace ROCKSDB_NAMESPACE
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