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98c6d7fd80
Summary: ... so that a non-cryptographic whole file checksum would be highly resistant to manipulation by a user able to manipulate key-value data (e.g. a user whose data is stored in RocksDB) and able to predict SST metadata such as DB session id and file number based on read access to logs or DB files. The adversary would also need to predict the salt in order to influence the checksum result toward collision with another file's checksum. This change is just internal code to support such a future feature. I think this should be a passive feature, not option-controlled, because you probably won't think about needing it until you discover you do need it, and it should be low cost, in space (16 bytes per SST file) and CPU. Pull Request resolved: https://github.com/facebook/rocksdb/pull/11331 Test Plan: Unit tests added to verify at least pseudorandom behavior. (Actually caught a bug in first draft!) The new "stress" style tests run in ~3ms each on my system. Reviewed By: ajkr Differential Revision: D46129415 Pulled By: pdillinger fbshipit-source-id: 7972dc74487e062b29b1fd9c227425e922c98796
120 lines
4.5 KiB
C++
120 lines
4.5 KiB
C++
// Copyright (c) Facebook, Inc. and its affiliates. 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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// This file is for functions that generate unique identifiers by
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// (at least in part) by extracting novel entropy or sources of uniqueness
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// from the execution environment. (By contrast, random.h is for algorithmic
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// pseudorandomness.)
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//
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// These functions could eventually migrate to public APIs, such as in Env.
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#pragma once
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#include <array>
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#include <atomic>
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#include <cstdint>
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#include <type_traits>
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#include "port/port.h"
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#include "rocksdb/rocksdb_namespace.h"
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namespace ROCKSDB_NAMESPACE {
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// Generates a new 128-bit identifier that is universally unique
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// (with high probability) for each call. The result is split into
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// two 64-bit pieces. This function has NOT been validated for use in
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// cryptography.
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//
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// This is used in generating DB session IDs and by Env::GenerateUniqueId
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// (used for DB IDENTITY) if the platform does not provide a generator of
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// RFC 4122 UUIDs or fails somehow. (Set exclude_port_uuid=true if this
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// function is used as a fallback for GenerateRfcUuid, because no need
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// trying it again.)
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void GenerateRawUniqueId(uint64_t* a, uint64_t* b,
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bool exclude_port_uuid = false);
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#ifndef NDEBUG
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// A version of above with options for challenge testing
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void TEST_GenerateRawUniqueId(uint64_t* a, uint64_t* b, bool exclude_port_uuid,
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bool exclude_env_details,
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bool exclude_random_device);
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#endif
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// Generates globally unique ids with lower probability of any collisions
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// vs. each unique id being independently random (GenerateRawUniqueId).
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// We call this "semi-structured" because between different
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// SemiStructuredUniqueIdGen objects, the IDs are separated by random
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// intervals (unstructured), but within a single SemiStructuredUniqueIdGen
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// object, the generated IDs are trivially related (structured). See
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// https://github.com/pdillinger/unique_id for how this improves probability
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// of no collision. In short, if we have n SemiStructuredUniqueIdGen
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// objects each generating m IDs, the first collision is expected at
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// around n = sqrt(2^128 / m), equivalently n * sqrt(m) = 2^64,
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// rather than n * m = 2^64 for fully random IDs.
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class SemiStructuredUniqueIdGen {
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public:
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// Initializes with random starting state (from GenerateRawUniqueId)
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SemiStructuredUniqueIdGen() { Reset(); }
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// Re-initializes, but not thread safe
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void Reset();
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// Assuming no fork(), `lower` is guaranteed unique from one call
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// to the next (thread safe).
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void GenerateNext(uint64_t* upper, uint64_t* lower);
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// For generating smaller values. Will cycle through all the possibilities
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// before repeating.
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template <typename T>
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T GenerateNext() {
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static_assert(sizeof(T) <= sizeof(uint64_t));
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static_assert(std::is_integral_v<T>);
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uint64_t ignore, val;
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GenerateNext(&ignore, &val);
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return static_cast<T>(val);
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}
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uint64_t GetBaseUpper() const { return base_upper_; }
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private:
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uint64_t base_upper_;
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uint64_t base_lower_;
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std::atomic<uint64_t> counter_;
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int64_t saved_process_id_;
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};
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// A unique id generator that should provide reasonable security against
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// predicting the output from previous outputs, but is NOT known to be
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// cryptographically secure. Unlike std::random_device, this is guaranteed
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// not to block once initialized.
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class ALIGN_AS(CACHE_LINE_SIZE) UnpredictableUniqueIdGen {
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public:
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// Initializes with random starting state (from several GenerateRawUniqueId)
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UnpredictableUniqueIdGen() { Reset(); }
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// Re-initializes, but not thread safe
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void Reset();
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// Generate next probabilistically unique value. Thread safe. Uses timing
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// information to add to the entropy pool.
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void GenerateNext(uint64_t* upper, uint64_t* lower);
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// Explicitly include given value for entropy pool instead of timing
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// information.
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void GenerateNextWithEntropy(uint64_t* upper, uint64_t* lower,
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uint64_t extra_entropy);
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#ifndef NDEBUG
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struct TEST_ZeroInitialized {};
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explicit UnpredictableUniqueIdGen(TEST_ZeroInitialized);
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std::atomic<uint64_t>& TEST_counter() { return counter_; }
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#endif
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private:
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// 256 bit entropy pool
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std::array<std::atomic<uint64_t>, 4> pool_;
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// Counter to ensure unique hash inputs
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std::atomic<uint64_t> counter_;
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};
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} // namespace ROCKSDB_NAMESPACE
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