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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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#include "db/dbformat.h"
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#include <cstdio>
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#include <sstream>
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#include "port/port.h"
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#include "util/coding.h"
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namespace leveldb {
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static uint64_t PackSequenceAndTypeAndTtl(
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uint64_t seq, ValueType t, bool havettl) {
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assert(seq <= kMaxSequenceNumber);
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assert(t <= kValueTypeForSeek);
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return (seq << 8) | (havettl << 1) | t;
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}
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static uint64_t PackSequenceAndType(uint64_t seq, ValueType t) {
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assert(seq <= kMaxSequenceNumber);
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assert(t <= kValueTypeForSeek);
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return (seq << 8) | t;
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}
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void AppendInternalKey(std::string* result, const ParsedInternalKey& key) {
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result->append(key.user_key.data(), key.user_key.size());
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if(key.deadTime != 0)
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PutFixed64(result, key.deadTime);
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PutFixed64(result, PackSequenceAndTypeAndTtl(
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key.sequence, key.type, (key.deadTime != 0)));
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}
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std::string ParsedInternalKey::DebugString() const {
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std::ostringstream ss;
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ss << '\'' << EscapeString(user_key.ToString()) << "' @ " << sequence << " : "
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<< static_cast<int>(type);
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return ss.str();
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}
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std::string InternalKey::DebugString() const {
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ParsedInternalKey parsed;
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if (ParseInternalKey(rep_, &parsed)) {
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return parsed.DebugString();
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}
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std::ostringstream ss;
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ss << "(bad)" << EscapeString(rep_);
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return ss.str();
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}
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const char* InternalKeyComparator::Name() const {
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return "leveldb.InternalKeyComparator";
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}
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int InternalKeyComparator::Compare(const Slice& akey, const Slice& bkey) const {
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// Order by:
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// increasing user key (according to user-supplied comparator)
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// decreasing sequence number
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// decreasing type (though sequence# should be enough to disambiguate)
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//目前看调用时都是a为node, b为key,万一有不是的,逻辑还得补充
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//for debug
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// std::string a = ExtractUserKey(akey).ToString();
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// std::string b = ExtractUserKey(bkey).ToString();
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int r = user_comparator_->Compare(ExtractUserKey(akey), ExtractUserKey(bkey));
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if (r == 0) {
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const uint64_t atag = DecodeFixed64(akey.data() + akey.size() - 8);
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const uint64_t btag = DecodeFixed64(bkey.data() + bkey.size() - 8);
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const uint64_t aseq = atag >> 8;
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const uint64_t bseq = btag >> 8;
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if (aseq > bseq) {
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r = -1;
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return r;
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}
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const uint64_t atime = DecodeFixed64(akey.data() + akey.size() - 16);
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const uint64_t btime = DecodeFixed64(bkey.data() + bkey.size() - 16);
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//原本应该找到了,新加判断
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// if((btag & 0b100) && (atag & 0b10)){ //一个是查询键,另一个有ttl
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// const uint64_t atime = DecodeFixed64(akey.data() + akey.size() - 16);
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// const uint64_t btime = DecodeFixed64(bkey.data() + bkey.size() - 16);
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// std::cout<<"atime:"<<atime<<" btime:"<<btime<<" "<<aseq<<" "<<bseq<<" "<<btag<<" "<<atag<<std::endl;
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// if(atime <= btime){//过期了继续找
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// r = -1;
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// return r;
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// }
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// }
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if (aseq < bseq) {
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r = +1;
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}
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}
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return r;
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}
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void InternalKeyComparator::FindShortestSeparator(std::string* start,
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const Slice& limit) const {
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// Attempt to shorten the user portion of the key
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Slice user_start = ExtractUserKey(*start);
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Slice user_limit = ExtractUserKey(limit);
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std::string tmp(user_start.data(), user_start.size());
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user_comparator_->FindShortestSeparator(&tmp, user_limit);
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if (tmp.size() < user_start.size() &&
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user_comparator_->Compare(user_start, tmp) < 0) {
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// User key has become shorter physically, but larger logically.
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// Tack on the earliest possible number to the shortened user key.
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PutFixed64(&tmp,
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PackSequenceAndType(kMaxSequenceNumber, kValueTypeForSeek));
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assert(this->Compare(*start, tmp) < 0);
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assert(this->Compare(tmp, limit) < 0);
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start->swap(tmp);
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}
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}
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void InternalKeyComparator::FindShortSuccessor(std::string* key) const {
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Slice user_key = ExtractUserKey(*key);
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std::string tmp(user_key.data(), user_key.size());
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user_comparator_->FindShortSuccessor(&tmp);
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if (tmp.size() < user_key.size() &&
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user_comparator_->Compare(user_key, tmp) < 0) {
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// User key has become shorter physically, but larger logically.
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// Tack on the earliest possible number to the shortened user key.
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PutFixed64(&tmp,
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PackSequenceAndType(kMaxSequenceNumber, kValueTypeForSeek));
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assert(this->Compare(*key, tmp) < 0);
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key->swap(tmp);
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}
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}
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const char* InternalFilterPolicy::Name() const { return user_policy_->Name(); }
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void InternalFilterPolicy::CreateFilter(const Slice* keys, int n,
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std::string* dst) const {
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// We rely on the fact that the code in table.cc does not mind us
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// adjusting keys[].
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Slice* mkey = const_cast<Slice*>(keys);
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for (int i = 0; i < n; i++) {
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mkey[i] = ExtractUserKey(keys[i]);
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// TODO(sanjay): Suppress dups?
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}
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user_policy_->CreateFilter(keys, n, dst);
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}
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bool InternalFilterPolicy::KeyMayMatch(const Slice& key, const Slice& f) const {
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return user_policy_->KeyMayMatch(ExtractUserKey(key), f);
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}
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LookupKey::LookupKey(const Slice& user_key, SequenceNumber s, uint64_t nowTime) {
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size_t usize = user_key.size();
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size_t needed = usize + 21; // A conservative estimate
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char* dst;
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if (needed <= sizeof(space_)) {
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dst = space_;
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} else {
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dst = new char[needed];
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}
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start_ = dst;
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dst = EncodeVarint32(dst, usize + 16);
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kstart_ = dst;
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std::memcpy(dst, user_key.data(), usize);
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dst += usize;
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EncodeFixed64(dst, nowTime);
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dst += 8;
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// EncodeFixed64(dst, PackSequenceAndTypeAndTtlAndLookup(s, kValueTypeForSeek, 0, true));
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EncodeFixed64(dst, PackSequenceAndTypeAndTtl(s, kValueTypeForSeek, 1));
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dst += 8;
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end_ = dst;
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printf("lookupkey tag:%lx\n",PackSequenceAndTypeAndTtl(s, kValueTypeForSeek, 1));
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}
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} // namespace leveldb
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