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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#ifndef STORAGE_LEVELDB_DB_FORMAT_H_
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#define STORAGE_LEVELDB_DB_FORMAT_H_
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#include <stdio.h>
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#include "leveldb/comparator.h"
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#include "leveldb/db.h"
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#include "leveldb/slice.h"
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#include "leveldb/table_builder.h"
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#include "util/coding.h"
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#include "util/logging.h"
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namespace leveldb {
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// Grouping of constants. We may want to make some of these
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// parameters set via options.
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namespace config {
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static const int kNumLevels = 7;
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}
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class InternalKey;
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// Value types encoded as the last component of internal keys.
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// DO NOT CHANGE THESE ENUM VALUES: they are embedded in the on-disk
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// data structures.
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enum ValueType {
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kTypeDeletion = 0x0,
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kTypeValue = 0x1,
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kTypeLargeValueRef = 0x2,
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};
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// kValueTypeForSeek defines the ValueType that should be passed when
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// constructing a ParsedInternalKey object for seeking to a particular
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// sequence number (since we sort sequence numbers in decreasing order
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// and the value type is embedded as the low 8 bits in the sequence
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// number in internal keys, we need to use the highest-numbered
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// ValueType, not the lowest).
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static const ValueType kValueTypeForSeek = kTypeLargeValueRef;
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typedef uint64_t SequenceNumber;
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// We leave eight bits empty at the bottom so a type and sequence#
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// can be packed together into 64-bits.
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static const SequenceNumber kMaxSequenceNumber =
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((0x1ull << 56) - 1);
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struct ParsedInternalKey {
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Slice user_key;
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SequenceNumber sequence;
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ValueType type;
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ParsedInternalKey() { } // Intentionally left uninitialized (for speed)
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ParsedInternalKey(const Slice& u, const SequenceNumber& seq, ValueType t)
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: user_key(u), sequence(seq), type(t) { }
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std::string DebugString() const;
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};
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// Return the length of the encoding of "key".
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inline size_t InternalKeyEncodingLength(const ParsedInternalKey& key) {
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return key.user_key.size() + 8;
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}
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// Append the serialization of "key" to *result.
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extern void AppendInternalKey(std::string* result,
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const ParsedInternalKey& key);
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// Attempt to parse an internal key from "internal_key". On success,
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// stores the parsed data in "*result", and returns true.
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//
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// On error, returns false, leaves "*result" in an undefined state.
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extern bool ParseInternalKey(const Slice& internal_key,
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ParsedInternalKey* result);
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// Returns the user key portion of an internal key.
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inline Slice ExtractUserKey(const Slice& internal_key) {
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assert(internal_key.size() >= 8);
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return Slice(internal_key.data(), internal_key.size() - 8);
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}
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inline ValueType ExtractValueType(const Slice& internal_key) {
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assert(internal_key.size() >= 8);
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const size_t n = internal_key.size();
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uint64_t num = DecodeFixed64(internal_key.data() + n - 8);
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unsigned char c = num & 0xff;
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return static_cast<ValueType>(c);
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}
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// A comparator for internal keys that uses a specified comparator for
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// the user key portion and breaks ties by decreasing sequence number.
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class InternalKeyComparator : public Comparator {
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private:
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const Comparator* user_comparator_;
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public:
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explicit InternalKeyComparator(const Comparator* c) : user_comparator_(c) { }
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virtual const char* Name() const;
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virtual int Compare(const Slice& a, const Slice& b) const;
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virtual void FindShortestSeparator(
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std::string* start,
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const Slice& limit) const;
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virtual void FindShortSuccessor(std::string* key) const;
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const Comparator* user_comparator() const { return user_comparator_; }
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int Compare(const InternalKey& a, const InternalKey& b) const;
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};
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// Modules in this directory should keep internal keys wrapped inside
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// the following class instead of plain strings so that we do not
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// incorrectly use string comparisons instead of an InternalKeyComparator.
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class InternalKey {
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private:
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std::string rep_;
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public:
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InternalKey() { } // Leave rep_ as empty to indicate it is invalid
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InternalKey(const Slice& user_key, SequenceNumber s, ValueType t) {
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AppendInternalKey(&rep_, ParsedInternalKey(user_key, s, t));
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}
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void DecodeFrom(const Slice& s) { rep_.assign(s.data(), s.size()); }
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Slice Encode() const {
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assert(!rep_.empty());
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return rep_;
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}
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Slice user_key() const { return ExtractUserKey(rep_); }
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void SetFrom(const ParsedInternalKey& p) {
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rep_.clear();
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AppendInternalKey(&rep_, p);
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}
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void Clear() { rep_.clear(); }
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};
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inline int InternalKeyComparator::Compare(
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const InternalKey& a, const InternalKey& b) const {
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return Compare(a.Encode(), b.Encode());
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}
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// LargeValueRef is a 160-bit hash value (20 bytes), plus an 8 byte
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// uncompressed size, and a 1 byte CompressionType code. An
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// encoded form of it is embedded in the filenames of large value
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// files stored in the database, and the raw binary form is stored as
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// the iter->value() result for values of type kTypeLargeValueRef in
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// the table and log files that make up the database.
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struct LargeValueRef {
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char data[29];
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// Initialize a large value ref for the given data
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static LargeValueRef Make(const Slice& data,
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CompressionType compression_type);
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// Initialize a large value ref from a serialized, 29-byte reference value
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static LargeValueRef FromRef(const Slice& ref) {
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LargeValueRef result;
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assert(ref.size() == sizeof(result.data));
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memcpy(result.data, ref.data(), sizeof(result.data));
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return result;
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}
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// Return the number of bytes in a LargeValueRef (not the
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// number of bytes in the value referenced).
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static size_t ByteSize() { return sizeof(LargeValueRef().data); }
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// Return the number of bytes in the value referenced by "*this".
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uint64_t ValueSize() const { return DecodeFixed64(&data[20]); }
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CompressionType compression_type() const {
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return static_cast<CompressionType>(data[28]);
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}
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bool operator==(const LargeValueRef& b) const {
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return memcmp(data, b.data, sizeof(data)) == 0;
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}
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bool operator<(const LargeValueRef& b) const {
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return memcmp(data, b.data, sizeof(data)) < 0;
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}
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};
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// Convert the large value ref to a human-readable string suitable
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// for embedding in a large value filename.
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extern std::string LargeValueRefToFilenameString(const LargeValueRef& h);
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// Parse the large value filename string in "input" and store it in
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// "*h". If successful, returns true. Otherwise returns false.
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extern bool FilenameStringToLargeValueRef(const Slice& in, LargeValueRef* ref);
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inline bool ParseInternalKey(const Slice& internal_key,
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ParsedInternalKey* result) {
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const size_t n = internal_key.size();
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if (n < 8) return false;
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uint64_t num = DecodeFixed64(internal_key.data() + n - 8);
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unsigned char c = num & 0xff;
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result->sequence = num >> 8;
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result->type = static_cast<ValueType>(c);
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result->user_key = Slice(internal_key.data(), n - 8);
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return (c <= static_cast<unsigned char>(kTypeLargeValueRef));
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}
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}
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#endif // STORAGE_LEVELDB_DB_FORMAT_H_
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