// Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #pragma once #include "rocksdb/db.h" #include "rocksdb/env.h" #include "rocksdb/compaction_filter.h" #include "rocksdb/merge_operator.h" #include "utilities/utility_db.h" #include "db/db_impl.h" namespace rocksdb { class DBWithTTL : public StackableDB { public: static void SanitizeOptions(int32_t ttl, Options* options); explicit DBWithTTL(DB* db); virtual ~DBWithTTL(); using StackableDB::Put; virtual Status Put(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& val) override; using StackableDB::Get; virtual Status Get(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value) override; using StackableDB::MultiGet; virtual std::vector MultiGet( const ReadOptions& options, const std::vector& column_family, const std::vector& keys, std::vector* values) override; using StackableDB::KeyMayExist; virtual bool KeyMayExist(const ReadOptions& options, ColumnFamilyHandle* column_family, const Slice& key, std::string* value, bool* value_found = nullptr) override; using StackableDB::Merge; virtual Status Merge(const WriteOptions& options, ColumnFamilyHandle* column_family, const Slice& key, const Slice& value) override; virtual Status Write(const WriteOptions& opts, WriteBatch* updates) override; using StackableDB::NewIterator; virtual Iterator* NewIterator(const ReadOptions& opts, ColumnFamilyHandle* column_family) override; virtual DB* GetBaseDB() { return db_; } static bool IsStale(const Slice& value, int32_t ttl); static Status AppendTS(const Slice& val, std::string& val_with_ts); static Status SanityCheckTimestamp(const Slice& str); static Status StripTS(std::string* str); static Status GetCurrentTime(int64_t& curtime); static const uint32_t kTSLength = sizeof(int32_t); // size of timestamp static const int32_t kMinTimestamp = 1368146402; // 05/09/2013:5:40PM GMT-8 static const int32_t kMaxTimestamp = 2147483647; // 01/18/2038:7:14PM GMT-8 }; class TtlIterator : public Iterator { public: explicit TtlIterator(Iterator* iter) : iter_(iter) { assert(iter_); } ~TtlIterator() { delete iter_; } bool Valid() const { return iter_->Valid(); } void SeekToFirst() { iter_->SeekToFirst(); } void SeekToLast() { iter_->SeekToLast(); } void Seek(const Slice& target) { iter_->Seek(target); } void Next() { iter_->Next(); } void Prev() { iter_->Prev(); } Slice key() const { return iter_->key(); } int32_t timestamp() const { return DecodeFixed32( iter_->value().data() + iter_->value().size() - DBWithTTL::kTSLength); } Slice value() const { //TODO: handle timestamp corruption like in general iterator semantics assert(DBWithTTL::SanityCheckTimestamp(iter_->value()).ok()); Slice trimmed_value = iter_->value(); trimmed_value.size_ -= DBWithTTL::kTSLength; return trimmed_value; } Status status() const { return iter_->status(); } private: Iterator* iter_; }; class TtlCompactionFilter : public CompactionFilter { public: TtlCompactionFilter( int32_t ttl, const CompactionFilter* user_comp_filter, std::unique_ptr user_comp_filter_from_factory = nullptr) : ttl_(ttl), user_comp_filter_(user_comp_filter), user_comp_filter_from_factory_(std::move(user_comp_filter_from_factory)) { // Unlike the merge operator, compaction filter is necessary for TTL, hence // this would be called even if user doesn't specify any compaction-filter if (!user_comp_filter_) { user_comp_filter_ = user_comp_filter_from_factory_.get(); } } virtual bool Filter(int level, const Slice& key, const Slice& old_val, std::string* new_val, bool* value_changed) const override { if (DBWithTTL::IsStale(old_val, ttl_)) { return true; } if (user_comp_filter_ == nullptr) { return false; } assert(old_val.size() >= DBWithTTL::kTSLength); Slice old_val_without_ts(old_val.data(), old_val.size() - DBWithTTL::kTSLength); if (user_comp_filter_->Filter(level, key, old_val_without_ts, new_val, value_changed)) { return true; } if (*value_changed) { new_val->append(old_val.data() + old_val.size() - DBWithTTL::kTSLength, DBWithTTL::kTSLength); } return false; } virtual const char* Name() const override { return "Delete By TTL"; } private: int32_t ttl_; const CompactionFilter* user_comp_filter_; std::unique_ptr user_comp_filter_from_factory_; }; class TtlCompactionFilterFactory : public CompactionFilterFactory { public: TtlCompactionFilterFactory( int32_t ttl, std::shared_ptr comp_filter_factory) : ttl_(ttl), user_comp_filter_factory_(comp_filter_factory) { } virtual std::unique_ptr CreateCompactionFilter( const CompactionFilter::Context& context) { return std::unique_ptr( new TtlCompactionFilter( ttl_, nullptr, std::move(user_comp_filter_factory_->CreateCompactionFilter(context)) ) ); } virtual const char* Name() const override { return "TtlCompactionFilterFactory"; } private: int32_t ttl_; std::shared_ptr user_comp_filter_factory_; }; class TtlMergeOperator : public MergeOperator { public: explicit TtlMergeOperator(const std::shared_ptr merge_op) : user_merge_op_(merge_op) { assert(merge_op); } virtual bool FullMerge(const Slice& key, const Slice* existing_value, const std::deque& operands, std::string* new_value, Logger* logger) const override { const uint32_t ts_len = DBWithTTL::kTSLength; if (existing_value && existing_value->size() < ts_len) { Log(logger, "Error: Could not remove timestamp from existing value."); return false; } // Extract time-stamp from each operand to be passed to user_merge_op_ std::deque operands_without_ts; for (const auto &operand : operands) { if (operand.size() < ts_len) { Log(logger, "Error: Could not remove timestamp from operand value."); return false; } operands_without_ts.push_back(operand.substr(0, operand.size() - ts_len)); } // Apply the user merge operator (store result in *new_value) bool good = true; if (existing_value) { Slice existing_value_without_ts(existing_value->data(), existing_value->size() - ts_len); good = user_merge_op_->FullMerge(key, &existing_value_without_ts, operands_without_ts, new_value, logger); } else { good = user_merge_op_->FullMerge(key, nullptr, operands_without_ts, new_value, logger); } // Return false if the user merge operator returned false if (!good) { return false; } // Augment the *new_value with the ttl time-stamp int64_t curtime; if (!DBWithTTL::GetCurrentTime(curtime).ok()) { Log(logger, "Error: Could not get current time to be attached internally " "to the new value."); return false; } else { char ts_string[ts_len]; EncodeFixed32(ts_string, (int32_t)curtime); new_value->append(ts_string, ts_len); return true; } } virtual bool PartialMerge(const Slice& key, const Slice& left_operand, const Slice& right_operand, std::string* new_value, Logger* logger) const override { const uint32_t ts_len = DBWithTTL::kTSLength; if (left_operand.size() < ts_len || right_operand.size() < ts_len) { Log(logger, "Error: Could not remove timestamp from value."); return false; } // Apply the user partial-merge operator (store result in *new_value) assert(new_value); Slice left_without_ts(left_operand.data(), left_operand.size() - ts_len); Slice right_without_ts(right_operand.data(), right_operand.size() - ts_len); if (!user_merge_op_->PartialMerge(key, left_without_ts, right_without_ts, new_value, logger)) { return false; } // Augment the *new_value with the ttl time-stamp int64_t curtime; if (!DBWithTTL::GetCurrentTime(curtime).ok()) { Log(logger, "Error: Could not get current time to be attached internally " "to the new value."); return false; } else { char ts_string[ts_len]; EncodeFixed32(ts_string, (int32_t)curtime); new_value->append(ts_string, ts_len); return true; } } virtual const char* Name() const override { return "Merge By TTL"; } private: std::shared_ptr user_merge_op_; }; }