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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2013 Inktank <info@inktank.com>
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#ifndef CEPH_OSD_HITSET_H
#define CEPH_OSD_HITSET_H
#include <string_view>
#include <boost/scoped_ptr.hpp>
#include "include/encoding.h"
#include "include/unordered_set.h"
#include "common/bloom_filter.hpp"
#include "common/hobject.h"
/**
* generic container for a HitSet
*
* Encapsulate a HitSetImpl of any type. Expose a generic interface
* to users and wrap the encoded object with a type so that it can be
* safely decoded later.
*/
class HitSet {
public:
typedef enum {
TYPE_NONE = 0,
TYPE_EXPLICIT_HASH = 1,
TYPE_EXPLICIT_OBJECT = 2,
TYPE_BLOOM = 3
} impl_type_t;
static std::string_view get_type_name(impl_type_t t) {
switch (t) {
case TYPE_NONE: return "none";
case TYPE_EXPLICIT_HASH: return "explicit_hash";
case TYPE_EXPLICIT_OBJECT: return "explicit_object";
case TYPE_BLOOM: return "bloom";
default: return "???";
}
}
std::string_view get_type_name() const {
if (impl)
return get_type_name(impl->get_type());
return get_type_name(TYPE_NONE);
}
/// abstract interface for a HitSet implementation
class Impl {
public:
virtual impl_type_t get_type() const = 0;
virtual bool is_full() const = 0;
virtual void insert(const hobject_t& o) = 0;
virtual bool contains(const hobject_t& o) const = 0;
virtual unsigned insert_count() const = 0;
virtual unsigned approx_unique_insert_count() const = 0;
virtual void encode(bufferlist &bl) const = 0;
virtual void decode(bufferlist::const_iterator& p) = 0;
virtual void dump(Formatter *f) const = 0;
virtual Impl* clone() const = 0;
virtual void seal() {}
virtual ~Impl() {}
};
boost::scoped_ptr<Impl> impl;
bool sealed;
class Params {
/// create an Impl* of the given type
bool create_impl(impl_type_t t);
public:
class Impl {
public:
virtual impl_type_t get_type() const = 0;
virtual HitSet::Impl *get_new_impl() const = 0;
virtual void encode(bufferlist &bl) const {}
virtual void decode(bufferlist::const_iterator& p) {}
virtual void dump(Formatter *f) const {}
virtual void dump_stream(ostream& o) const {}
virtual ~Impl() {}
};
Params() {}
explicit Params(Impl *i) : impl(i) {}
virtual ~Params() {}
boost::scoped_ptr<Params::Impl> impl;
impl_type_t get_type() const {
if (impl)
return impl->get_type();
return TYPE_NONE;
}
Params(const Params& o) noexcept;
const Params& operator=(const Params& o);
void encode(bufferlist &bl) const;
void decode(bufferlist::const_iterator& bl);
void dump(Formatter *f) const;
static void generate_test_instances(list<HitSet::Params*>& o);
friend ostream& operator<<(ostream& out, const HitSet::Params& p);
};
HitSet() : impl(NULL), sealed(false) {}
explicit HitSet(Impl *i) : impl(i), sealed(false) {}
explicit HitSet(const HitSet::Params& params);
HitSet(const HitSet& o) {
sealed = o.sealed;
if (o.impl)
impl.reset(o.impl->clone());
else
impl.reset(NULL);
}
const HitSet& operator=(const HitSet& o) {
sealed = o.sealed;
if (o.impl)
impl.reset(o.impl->clone());
else
impl.reset(NULL);
return *this;
}
bool is_full() const {
return impl->is_full();
}
/// insert a hash into the set
void insert(const hobject_t& o) {
impl->insert(o);
}
/// query whether a hash is in the set
bool contains(const hobject_t& o) const {
return impl->contains(o);
}
unsigned insert_count() const {
return impl->insert_count();
}
unsigned approx_unique_insert_count() const {
return impl->approx_unique_insert_count();
}
void seal() {
ceph_assert(!sealed);
sealed = true;
impl->seal();
}
void encode(bufferlist &bl) const;
void decode(bufferlist::const_iterator& bl);
void dump(Formatter *f) const;
static void generate_test_instances(list<HitSet*>& o);
private:
void reset_to_type(impl_type_t type);
};
WRITE_CLASS_ENCODER(HitSet)
WRITE_CLASS_ENCODER(HitSet::Params)
typedef boost::shared_ptr<HitSet> HitSetRef;
ostream& operator<<(ostream& out, const HitSet::Params& p);
/**
* explicitly enumerate hash hits in the set
*/
class ExplicitHashHitSet : public HitSet::Impl {
uint64_t count;
ceph::unordered_set<uint32_t> hits;
public:
class Params : public HitSet::Params::Impl {
public:
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_EXPLICIT_HASH;
}
HitSet::Impl *get_new_impl() const override {
return new ExplicitHashHitSet;
}
static void generate_test_instances(list<Params*>& o) {
o.push_back(new Params);
}
};
ExplicitHashHitSet() : count(0) {}
explicit ExplicitHashHitSet(const ExplicitHashHitSet::Params *p) : count(0) {}
ExplicitHashHitSet(const ExplicitHashHitSet &o) : count(o.count),
hits(o.hits) {}
HitSet::Impl *clone() const override {
return new ExplicitHashHitSet(*this);
}
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_EXPLICIT_HASH;
}
bool is_full() const override {
return false;
}
void insert(const hobject_t& o) override {
hits.insert(o.get_hash());
++count;
}
bool contains(const hobject_t& o) const override {
return hits.count(o.get_hash());
}
unsigned insert_count() const override {
return count;
}
unsigned approx_unique_insert_count() const override {
return hits.size();
}
void encode(bufferlist &bl) const override {
ENCODE_START(1, 1, bl);
encode(count, bl);
encode(hits, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator &bl) override {
DECODE_START(1, bl);
decode(count, bl);
decode(hits, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const override;
static void generate_test_instances(list<ExplicitHashHitSet*>& o) {
o.push_back(new ExplicitHashHitSet);
o.push_back(new ExplicitHashHitSet);
o.back()->insert(hobject_t());
o.back()->insert(hobject_t("asdf", "", CEPH_NOSNAP, 123, 1, ""));
o.back()->insert(hobject_t("qwer", "", CEPH_NOSNAP, 456, 1, ""));
}
};
WRITE_CLASS_ENCODER(ExplicitHashHitSet)
/**
* explicitly enumerate objects in the set
*/
class ExplicitObjectHitSet : public HitSet::Impl {
uint64_t count;
ceph::unordered_set<hobject_t> hits;
public:
class Params : public HitSet::Params::Impl {
public:
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_EXPLICIT_OBJECT;
}
HitSet::Impl *get_new_impl() const override {
return new ExplicitObjectHitSet;
}
static void generate_test_instances(list<Params*>& o) {
o.push_back(new Params);
}
};
ExplicitObjectHitSet() : count(0) {}
explicit ExplicitObjectHitSet(const ExplicitObjectHitSet::Params *p) : count(0) {}
ExplicitObjectHitSet(const ExplicitObjectHitSet &o) : count(o.count),
hits(o.hits) {}
HitSet::Impl *clone() const override {
return new ExplicitObjectHitSet(*this);
}
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_EXPLICIT_OBJECT;
}
bool is_full() const override {
return false;
}
void insert(const hobject_t& o) override {
hits.insert(o);
++count;
}
bool contains(const hobject_t& o) const override {
return hits.count(o);
}
unsigned insert_count() const override {
return count;
}
unsigned approx_unique_insert_count() const override {
return hits.size();
}
void encode(bufferlist &bl) const override {
ENCODE_START(1, 1, bl);
encode(count, bl);
encode(hits, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) override {
DECODE_START(1, bl);
decode(count, bl);
decode(hits, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const override;
static void generate_test_instances(list<ExplicitObjectHitSet*>& o) {
o.push_back(new ExplicitObjectHitSet);
o.push_back(new ExplicitObjectHitSet);
o.back()->insert(hobject_t());
o.back()->insert(hobject_t("asdf", "", CEPH_NOSNAP, 123, 1, ""));
o.back()->insert(hobject_t("qwer", "", CEPH_NOSNAP, 456, 1, ""));
}
};
WRITE_CLASS_ENCODER(ExplicitObjectHitSet)
/**
* use a bloom_filter to track hits to the set
*/
class BloomHitSet : public HitSet::Impl {
compressible_bloom_filter bloom;
public:
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_BLOOM;
}
class Params : public HitSet::Params::Impl {
public:
HitSet::impl_type_t get_type() const override {
return HitSet::TYPE_BLOOM;
}
HitSet::Impl *get_new_impl() const override {
return new BloomHitSet;
}
uint32_t fpp_micro; ///< false positive probability / 1M
uint64_t target_size; ///< number of unique insertions we expect to this HitSet
uint64_t seed; ///< seed to use when initializing the bloom filter
Params()
: fpp_micro(0), target_size(0), seed(0) {}
Params(double fpp, uint64_t t, uint64_t s)
: fpp_micro(fpp * 1000000.0), target_size(t), seed(s) {}
Params(const Params &o)
: fpp_micro(o.fpp_micro),
target_size(o.target_size),
seed(o.seed) {}
~Params() override {}
double get_fpp() const {
return (double)fpp_micro / 1000000.0;
}
void set_fpp(double f) {
fpp_micro = (unsigned)(llrintl(f * 1000000.0));
}
void encode(bufferlist& bl) const override {
ENCODE_START(1, 1, bl);
encode(fpp_micro, bl);
encode(target_size, bl);
encode(seed, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) override {
DECODE_START(1, bl);
decode(fpp_micro, bl);
decode(target_size, bl);
decode(seed, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const override;
void dump_stream(ostream& o) const override {
o << "false_positive_probability: "
<< get_fpp() << ", target_size: " << target_size
<< ", seed: " << seed;
}
static void generate_test_instances(list<Params*>& o) {
o.push_back(new Params);
o.push_back(new Params);
(*o.rbegin())->fpp_micro = 123456;
(*o.rbegin())->target_size = 300;
(*o.rbegin())->seed = 99;
}
};
BloomHitSet() {}
BloomHitSet(unsigned inserts, double fpp, int seed)
: bloom(inserts, fpp, seed)
{}
explicit BloomHitSet(const BloomHitSet::Params *p) : bloom(p->target_size,
p->get_fpp(),
p->seed)
{}
BloomHitSet(const BloomHitSet &o) {
// oh god
bufferlist bl;
o.encode(bl);
auto bli = std::cbegin(bl);
this->decode(bli);
}
HitSet::Impl *clone() const override {
return new BloomHitSet(*this);
}
bool is_full() const override {
return bloom.is_full();
}
void insert(const hobject_t& o) override {
bloom.insert(o.get_hash());
}
bool contains(const hobject_t& o) const override {
return bloom.contains(o.get_hash());
}
unsigned insert_count() const override {
return bloom.element_count();
}
unsigned approx_unique_insert_count() const override {
return bloom.approx_unique_element_count();
}
void seal() override {
// aim for a density of .5 (50% of bit set)
double pc = bloom.density() * 2.0;
if (pc < 1.0)
bloom.compress(pc);
}
void encode(bufferlist &bl) const override {
ENCODE_START(1, 1, bl);
encode(bloom, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) override {
DECODE_START(1, bl);
decode(bloom, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const override;
static void generate_test_instances(list<BloomHitSet*>& o) {
o.push_back(new BloomHitSet);
o.push_back(new BloomHitSet(10, .1, 1));
o.back()->insert(hobject_t());
o.back()->insert(hobject_t("asdf", "", CEPH_NOSNAP, 123, 1, ""));
o.back()->insert(hobject_t("qwer", "", CEPH_NOSNAP, 456, 1, ""));
}
};
WRITE_CLASS_ENCODER(BloomHitSet)
#endif
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