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counters.cc
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counters.cc
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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/>.
*/
#include "service/storage_service.hh"
#include "counters.hh"
#include "mutation.hh"
#include "combine.hh"
counter_id counter_id::local()
{
return counter_id(service::get_local_storage_service().get_local_id());
}
std::ostream& operator<<(std::ostream& os, const counter_id& id) {
return os << id.to_uuid();
}
std::ostream& operator<<(std::ostream& os, counter_shard_view csv) {
return os << "{global_shard id: " << csv.id() << " value: " << csv.value()
<< " clock: " << csv.logical_clock() << "}";
}
std::ostream& operator<<(std::ostream& os, counter_cell_view ccv) {
return os << "{counter_cell timestamp: " << ccv.timestamp() << " shards: {" << ::join(", ", ccv.shards()) << "}}";
}
static bool apply_in_place(atomic_cell_or_collection& dst, atomic_cell_or_collection& src)
{
auto dst_ccmv = counter_cell_mutable_view(dst.as_mutable_atomic_cell());
auto src_ccmv = counter_cell_mutable_view(src.as_mutable_atomic_cell());
auto dst_shards = dst_ccmv.shards();
auto src_shards = src_ccmv.shards();
auto dst_it = dst_shards.begin();
auto src_it = src_shards.begin();
while (src_it != src_shards.end()) {
while (dst_it != dst_shards.end() && dst_it->id() < src_it->id()) {
++dst_it;
}
if (dst_it == dst_shards.end() || dst_it->id() != src_it->id()) {
// Fast-path failed. Revert and fall back to the slow path.
if (dst_it == dst_shards.end()) {
--dst_it;
}
while (src_it != src_shards.begin()) {
--src_it;
while (dst_it->id() != src_it->id()) {
--dst_it;
}
src_it->swap_value_and_clock(*dst_it);
}
return false;
}
if (dst_it->logical_clock() < src_it->logical_clock()) {
dst_it->swap_value_and_clock(*src_it);
} else {
src_it->set_value_and_clock(*dst_it);
}
++src_it;
}
auto dst_ts = dst_ccmv.timestamp();
auto src_ts = src_ccmv.timestamp();
dst_ccmv.set_timestamp(std::max(dst_ts, src_ts));
src_ccmv.set_timestamp(dst_ts);
src.as_mutable_atomic_cell().set_counter_in_place_revert(true);
return true;
}
static void revert_in_place_apply(atomic_cell_or_collection& dst, atomic_cell_or_collection& src)
{
assert(dst.can_use_mutable_view() && src.can_use_mutable_view());
auto dst_ccmv = counter_cell_mutable_view(dst.as_mutable_atomic_cell());
auto src_ccmv = counter_cell_mutable_view(src.as_mutable_atomic_cell());
auto dst_shards = dst_ccmv.shards();
auto src_shards = src_ccmv.shards();
auto dst_it = dst_shards.begin();
auto src_it = src_shards.begin();
while (src_it != src_shards.end()) {
while (dst_it != dst_shards.end() && dst_it->id() < src_it->id()) {
++dst_it;
}
assert(dst_it != dst_shards.end() && dst_it->id() == src_it->id());
dst_it->swap_value_and_clock(*src_it);
++src_it;
}
auto dst_ts = dst_ccmv.timestamp();
auto src_ts = src_ccmv.timestamp();
dst_ccmv.set_timestamp(src_ts);
src_ccmv.set_timestamp(dst_ts);
src.as_mutable_atomic_cell().set_counter_in_place_revert(false);
}
bool counter_cell_view::apply_reversibly(atomic_cell_or_collection& dst, atomic_cell_or_collection& src)
{
auto dst_ac = dst.as_atomic_cell();
auto src_ac = src.as_atomic_cell();
if (!dst_ac.is_live() || !src_ac.is_live()) {
if (dst_ac.is_live() || (!src_ac.is_live() && compare_atomic_cell_for_merge(dst_ac, src_ac) < 0)) {
std::swap(dst, src);
return true;
}
return false;
}
if (dst_ac.is_counter_update() && src_ac.is_counter_update()) {
auto src_v = src_ac.counter_update_value();
auto dst_v = dst_ac.counter_update_value();
dst = atomic_cell::make_live_counter_update(std::max(dst_ac.timestamp(), src_ac.timestamp()),
src_v + dst_v);
return true;
}
assert(!dst_ac.is_counter_update());
assert(!src_ac.is_counter_update());
if (counter_cell_view(dst_ac).shard_count() >= counter_cell_view(src_ac).shard_count()
&& dst.can_use_mutable_view() && src.can_use_mutable_view()) {
if (apply_in_place(dst, src)) {
return true;
}
}
src.as_mutable_atomic_cell().set_counter_in_place_revert(false);
auto dst_shards = counter_cell_view(dst_ac).shards();
auto src_shards = counter_cell_view(src_ac).shards();
counter_cell_builder result;
combine(dst_shards.begin(), dst_shards.end(), src_shards.begin(), src_shards.end(),
result.inserter(), counter_shard_view::less_compare_by_id(), [] (auto& x, auto& y) {
return x.logical_clock() < y.logical_clock() ? y : x;
});
auto cell = result.build(std::max(dst_ac.timestamp(), src_ac.timestamp()));
src = std::exchange(dst, atomic_cell_or_collection(cell));
return true;
}
void counter_cell_view::revert_apply(atomic_cell_or_collection& dst, atomic_cell_or_collection& src)
{
if (dst.as_atomic_cell().is_counter_update()) {
auto src_v = src.as_atomic_cell().counter_update_value();
auto dst_v = dst.as_atomic_cell().counter_update_value();
dst = atomic_cell::make_live(dst.as_atomic_cell().timestamp(),
long_type->decompose(dst_v - src_v));
} else if (src.as_atomic_cell().is_counter_in_place_revert_set()) {
revert_in_place_apply(dst, src);
} else {
std::swap(dst, src);
}
}
stdx::optional<atomic_cell> counter_cell_view::difference(atomic_cell_view a, atomic_cell_view b)
{
assert(!a.is_counter_update());
assert(!b.is_counter_update());
if (!b.is_live()) {
return { };
} else if (!a.is_live()) {
return atomic_cell(a);
}
auto a_shards = counter_cell_view(a).shards();
auto b_shards = counter_cell_view(b).shards();
auto a_it = a_shards.begin();
auto a_end = a_shards.end();
auto b_it = b_shards.begin();
auto b_end = b_shards.end();
counter_cell_builder result;
while (a_it != a_end) {
while (b_it != b_end && (*b_it).id() < (*a_it).id()) {
++b_it;
}
if (b_it == b_end || (*a_it).id() != (*b_it).id() || (*a_it).logical_clock() > (*b_it).logical_clock()) {
result.add_shard(counter_shard(*a_it));
}
++a_it;
}
stdx::optional<atomic_cell> diff;
if (!result.empty()) {
diff = result.build(std::max(a.timestamp(), b.timestamp()));
} else if (a.timestamp() > b.timestamp()) {
diff = atomic_cell::make_live(a.timestamp(), bytes_view());
}
return diff;
}
void transform_counter_updates_to_shards(mutation& m, const mutation* current_state, uint64_t clock_offset) {
// FIXME: allow current_state to be frozen_mutation
auto transform_new_row_to_shards = [clock_offset] (auto& cells) {
cells.for_each_cell([clock_offset] (auto, atomic_cell_or_collection& ac_o_c) {
auto acv = ac_o_c.as_atomic_cell();
if (!acv.is_live()) {
return; // continue -- we are in lambda
}
auto delta = acv.counter_update_value();
auto cs = counter_shard(counter_id::local(), delta, clock_offset + 1);
ac_o_c = counter_cell_builder::from_single_shard(acv.timestamp(), cs);
});
};
if (!current_state) {
transform_new_row_to_shards(m.partition().static_row());
for (auto& cr : m.partition().clustered_rows()) {
transform_new_row_to_shards(cr.row().cells());
}
return;
}
clustering_key::less_compare cmp(*m.schema());
auto transform_row_to_shards = [clock_offset] (auto& transformee, auto& state) {
std::deque<std::pair<column_id, counter_shard>> shards;
state.for_each_cell([&] (column_id id, const atomic_cell_or_collection& ac_o_c) {
auto acv = ac_o_c.as_atomic_cell();
if (!acv.is_live()) {
return; // continue -- we are in lambda
}
counter_cell_view ccv(acv);
auto cs = ccv.local_shard();
if (!cs) {
return; // continue
}
shards.emplace_back(std::make_pair(id, counter_shard(*cs)));
});
transformee.for_each_cell([&] (column_id id, atomic_cell_or_collection& ac_o_c) {
auto acv = ac_o_c.as_atomic_cell();
if (!acv.is_live()) {
return; // continue -- we are in lambda
}
while (!shards.empty() && shards.front().first < id) {
shards.pop_front();
}
auto delta = acv.counter_update_value();
if (shards.empty() || shards.front().first > id) {
auto cs = counter_shard(counter_id::local(), delta, clock_offset + 1);
ac_o_c = counter_cell_builder::from_single_shard(acv.timestamp(), cs);
} else {
auto& cs = shards.front().second;
cs.update(delta, clock_offset + 1);
ac_o_c = counter_cell_builder::from_single_shard(acv.timestamp(), cs);
shards.pop_front();
}
});
};
transform_row_to_shards(m.partition().static_row(), current_state->partition().static_row());
auto& cstate = current_state->partition();
auto it = cstate.clustered_rows().begin();
auto end = cstate.clustered_rows().end();
for (auto& cr : m.partition().clustered_rows()) {
while (it != end && cmp(it->key(), cr.key())) {
++it;
}
if (it == end || cmp(cr.key(), it->key())) {
transform_new_row_to_shards(cr.row().cells());
continue;
}
transform_row_to_shards(cr.row().cells(), it->row().cells());
}
}