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counters.hh
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counters.hh
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/*
* Copyright (C) 2016 ScyllaDB
*/
/*
* This file is part of Scylla.
*
* Scylla is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Scylla is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Scylla. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <boost/range/algorithm/find_if.hpp>
#include "atomic_cell_or_collection.hh"
#include "types.hh"
class mutation;
class mutation;
class counter_id {
int64_t _least_significant;
int64_t _most_significant;
public:
static_assert(std::is_same<decltype(std::declval<utils::UUID>().get_least_significant_bits()), int64_t>::value
&& std::is_same<decltype(std::declval<utils::UUID>().get_most_significant_bits()), int64_t>::value,
"utils::UUID is expected to work with two signed 64-bit integers");
counter_id() = default;
explicit counter_id(utils::UUID uuid) noexcept
: _least_significant(uuid.get_least_significant_bits())
, _most_significant(uuid.get_most_significant_bits())
{ }
utils::UUID to_uuid() const {
return utils::UUID(_most_significant, _least_significant);
}
bool operator<(const counter_id& other) const {
return to_uuid() < other.to_uuid();
}
bool operator>(const counter_id& other) const {
return other.to_uuid() < to_uuid();
}
bool operator==(const counter_id& other) const {
return to_uuid() == other.to_uuid();
}
bool operator!=(const counter_id& other) const {
return !(*this == other);
}
public:
// For tests.
static counter_id generate_random() {
return counter_id(utils::make_random_uuid());
}
};
static_assert(
std::is_standard_layout_v<counter_id> && std::is_trivial_v<counter_id>,
"counter_id should be a POD type");
std::ostream& operator<<(std::ostream& os, const counter_id& id);
template<mutable_view is_mutable>
class basic_counter_shard_view {
enum class offset : unsigned {
id = 0u,
value = unsigned(id) + sizeof(counter_id),
logical_clock = unsigned(value) + sizeof(int64_t),
total_size = unsigned(logical_clock) + sizeof(int64_t),
};
private:
managed_bytes_basic_view<is_mutable> _base;
private:
template<typename T>
T read(offset off) const {
auto v = _base;
v.remove_prefix(size_t(off));
return read_simple_native<T>(v);
}
public:
static constexpr auto size = size_t(offset::total_size);
public:
basic_counter_shard_view() = default;
explicit basic_counter_shard_view(managed_bytes_basic_view<is_mutable> v) noexcept
: _base(v) { }
counter_id id() const { return read<counter_id>(offset::id); }
int64_t value() const { return read<int64_t>(offset::value); }
int64_t logical_clock() const { return read<int64_t>(offset::logical_clock); }
void swap_value_and_clock(basic_counter_shard_view& other) noexcept {
static constexpr size_t off = size_t(offset::value);
static constexpr size_t size = size_t(offset::total_size) - off;
signed char tmp[size];
auto tmp_view = single_fragmented_mutable_view(bytes_mutable_view(std::data(tmp), std::size(tmp)));
managed_bytes_mutable_view this_view = _base.substr(off, size);
managed_bytes_mutable_view other_view = other._base.substr(off, size);
copy_fragmented_view(tmp_view, this_view);
copy_fragmented_view(this_view, other_view);
copy_fragmented_view(other_view, tmp_view);
}
void set_value_and_clock(const basic_counter_shard_view& other) noexcept {
static constexpr size_t off = size_t(offset::value);
static constexpr size_t size = size_t(offset::total_size) - off;
managed_bytes_mutable_view this_view = _base.substr(off, size);
managed_bytes_mutable_view other_view = other._base.substr(off, size);
copy_fragmented_view(this_view, other_view);
}
bool operator==(const basic_counter_shard_view& other) const {
return id() == other.id() && value() == other.value()
&& logical_clock() == other.logical_clock();
}
bool operator!=(const basic_counter_shard_view& other) const {
return !(*this == other);
}
struct less_compare_by_id {
bool operator()(const basic_counter_shard_view& x, const basic_counter_shard_view& y) const {
return x.id() < y.id();
}
};
};
using counter_shard_view = basic_counter_shard_view<mutable_view::no>;
std::ostream& operator<<(std::ostream& os, counter_shard_view csv);
class counter_shard {
counter_id _id;
int64_t _value;
int64_t _logical_clock;
private:
// Shared logic for applying counter_shards and counter_shard_views.
// T is either counter_shard or basic_counter_shard_view<U>.
template<typename T>
requires requires(T shard) {
{ shard.value() } -> std::same_as<int64_t>;
{ shard.logical_clock() } -> std::same_as<int64_t>;
}
counter_shard& do_apply(T&& other) noexcept {
auto other_clock = other.logical_clock();
if (_logical_clock < other_clock) {
_logical_clock = other_clock;
_value = other.value();
}
return *this;
}
public:
counter_shard(counter_id id, int64_t value, int64_t logical_clock) noexcept
: _id(id)
, _value(value)
, _logical_clock(logical_clock)
{ }
explicit counter_shard(counter_shard_view csv) noexcept
: _id(csv.id())
, _value(csv.value())
, _logical_clock(csv.logical_clock())
{ }
counter_id id() const { return _id; }
int64_t value() const { return _value; }
int64_t logical_clock() const { return _logical_clock; }
counter_shard& update(int64_t value_delta, int64_t clock_increment) noexcept {
_value = uint64_t(_value) + uint64_t(value_delta); // signed int overflow is undefined hence the cast
_logical_clock += clock_increment;
return *this;
}
counter_shard& apply(counter_shard_view other) noexcept {
return do_apply(other);
}
counter_shard& apply(const counter_shard& other) noexcept {
return do_apply(other);
}
static constexpr size_t serialized_size() {
return counter_shard_view::size;
}
void serialize(atomic_cell_value_mutable_view& out) const {
write_native<counter_id>(out, _id);
write_native<int64_t>(out, _value);
write_native<int64_t>(out, _logical_clock);
}
};
class counter_cell_builder {
std::vector<counter_shard> _shards;
bool _sorted = true;
private:
void do_sort_and_remove_duplicates();
public:
counter_cell_builder() = default;
counter_cell_builder(size_t shard_count) {
_shards.reserve(shard_count);
}
void add_shard(const counter_shard& cs) {
_shards.emplace_back(cs);
}
void add_maybe_unsorted_shard(const counter_shard& cs) {
add_shard(cs);
if (_sorted && _shards.size() > 1) {
auto current = _shards.rbegin();
auto previous = std::next(current);
_sorted = current->id() > previous->id();
}
}
void sort_and_remove_duplicates() {
if (!_sorted) {
do_sort_and_remove_duplicates();
}
}
size_t serialized_size() const {
return _shards.size() * counter_shard::serialized_size();
}
void serialize(atomic_cell_value_mutable_view& out) const {
for (auto&& cs : _shards) {
cs.serialize(out);
}
}
bool empty() const {
return _shards.empty();
}
atomic_cell build(api::timestamp_type timestamp) const {
auto ac = atomic_cell::make_live_uninitialized(*counter_type, timestamp, serialized_size());
auto dst = ac.value();
for (auto&& cs : _shards) {
cs.serialize(dst);
}
return ac;
}
static atomic_cell from_single_shard(api::timestamp_type timestamp, const counter_shard& cs) {
auto ac = atomic_cell::make_live_uninitialized(*counter_type, timestamp, counter_shard::serialized_size());
auto dst = ac.value();
cs.serialize(dst);
return ac;
}
class inserter_iterator {
public:
using iterator_category = std::output_iterator_tag;
using value_type = counter_shard;
using difference_type = std::ptrdiff_t;
using pointer = counter_shard*;
using reference = counter_shard&;
private:
counter_cell_builder* _builder;
public:
explicit inserter_iterator(counter_cell_builder& b) : _builder(&b) { }
inserter_iterator& operator=(const counter_shard& cs) {
_builder->add_shard(cs);
return *this;
}
inserter_iterator& operator=(const counter_shard_view& csv) {
return this->operator=(counter_shard(csv));
}
inserter_iterator& operator++() { return *this; }
inserter_iterator& operator++(int) { return *this; }
inserter_iterator& operator*() { return *this; };
};
inserter_iterator inserter() {
return inserter_iterator(*this);
}
};
// <counter_id> := <int64_t><int64_t>
// <shard> := <counter_id><int64_t:value><int64_t:logical_clock>
// <counter_cell> := <shard>*
template<mutable_view is_mutable>
class basic_counter_cell_view {
protected:
basic_atomic_cell_view<is_mutable> _cell;
private:
class shard_iterator {
public:
using iterator_category = std::input_iterator_tag;
using value_type = basic_counter_shard_view<is_mutable>;
using difference_type = std::ptrdiff_t;
using pointer = basic_counter_shard_view<is_mutable>*;
using reference = basic_counter_shard_view<is_mutable>&;
private:
managed_bytes_basic_view<is_mutable> _current;
basic_counter_shard_view<is_mutable> _current_view;
size_t _pos = 0;
public:
shard_iterator(managed_bytes_basic_view<is_mutable> v, size_t offset) noexcept
: _current(v), _current_view(_current), _pos(offset) { }
basic_counter_shard_view<is_mutable>& operator*() noexcept {
return _current_view;
}
basic_counter_shard_view<is_mutable>* operator->() noexcept {
return &_current_view;
}
shard_iterator& operator++() noexcept {
_pos += counter_shard_view::size;
_current_view = basic_counter_shard_view<is_mutable>(_current.substr(_pos, counter_shard_view::size));
return *this;
}
shard_iterator operator++(int) noexcept {
auto it = *this;
operator++();
return it;
}
shard_iterator& operator--() noexcept {
_pos -= counter_shard_view::size;
_current_view = basic_counter_shard_view<is_mutable>(_current.substr(_pos, counter_shard_view::size));
return *this;
}
shard_iterator operator--(int) noexcept {
auto it = *this;
operator--();
return it;
}
bool operator==(const shard_iterator& other) const noexcept {
return _pos == other._pos;
}
};
public:
boost::iterator_range<shard_iterator> shards() const {
auto value = _cell.value();
auto begin = shard_iterator(value, 0);
auto end = shard_iterator(value, value.size());
return boost::make_iterator_range(begin, end);
}
size_t shard_count() const {
return _cell.value().size() / counter_shard_view::size;
}
public:
// ac must be a live counter cell
explicit basic_counter_cell_view(basic_atomic_cell_view<is_mutable> ac) noexcept
: _cell(ac)
{
assert(_cell.is_live());
assert(!_cell.is_counter_update());
}
api::timestamp_type timestamp() const { return _cell.timestamp(); }
static data_type total_value_type() { return long_type; }
int64_t total_value() const {
return boost::accumulate(shards(), int64_t(0), [] (int64_t v, counter_shard_view cs) {
return v + cs.value();
});
}
std::optional<counter_shard_view> get_shard(const counter_id& id) const {
auto it = boost::range::find_if(shards(), [&id] (counter_shard_view csv) {
return csv.id() == id;
});
if (it == shards().end()) {
return { };
}
return *it;
}
bool operator==(const basic_counter_cell_view& other) const {
return timestamp() == other.timestamp() && boost::equal(shards(), other.shards());
}
};
struct counter_cell_view : basic_counter_cell_view<mutable_view::no> {
using basic_counter_cell_view::basic_counter_cell_view;
// Reversibly applies two counter cells, at least one of them must be live.
static void apply(const column_definition& cdef, atomic_cell_or_collection& dst, atomic_cell_or_collection& src);
// Computes a counter cell containing minimal amount of data which, when
// applied to 'b' returns the same cell as 'a' and 'b' applied together.
static std::optional<atomic_cell> difference(atomic_cell_view a, atomic_cell_view b);
friend std::ostream& operator<<(std::ostream& os, counter_cell_view ccv);
};
struct counter_cell_mutable_view : basic_counter_cell_view<mutable_view::yes> {
using basic_counter_cell_view::basic_counter_cell_view;
explicit counter_cell_mutable_view(atomic_cell_mutable_view ac) noexcept
: basic_counter_cell_view<mutable_view::yes>(ac)
{
}
void set_timestamp(api::timestamp_type ts) { _cell.set_timestamp(ts); }
};
// Transforms mutation dst from counter updates to counter shards using state
// stored in current_state.
// If current_state is present it has to be in the same schema as dst.
void transform_counter_updates_to_shards(mutation& dst, const mutation* current_state, uint64_t clock_offset, utils::UUID local_id);
template<>
struct appending_hash<counter_shard_view> {
template<typename Hasher>
void operator()(Hasher& h, const counter_shard_view& cshard) const {
::feed_hash(h, cshard.id().to_uuid());
::feed_hash(h, cshard.value());
::feed_hash(h, cshard.logical_clock());
}
};
template<>
struct appending_hash<counter_cell_view> {
template<typename Hasher>
void operator()(Hasher& h, const counter_cell_view& cell) const {
::feed_hash(h, true); // is_live
::feed_hash(h, cell.timestamp());
for (auto&& csv : cell.shards()) {
::feed_hash(h, csv);
}
}
};