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scylladb/mutation/canonical_mutation.cc
Avi Kivity f3eade2f62 treewide: relicense to ScyllaDB-Source-Available-1.0 
Drop the AGPL license in favor of a source-available license.
See the blog post [1] for details.

[1] https://www.scylladb.com/2024/12/18/why-were-moving-to-a-source-available-license/
2024-12-18 17:45:13 +02:00

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/*
* Copyright (C) 2015-present ScyllaDB
*/
/*
* SPDX-License-Identifier: LicenseRef-ScyllaDB-Source-Available-1.0
*/
#include "canonical_mutation.hh"
#include "mutation.hh"
#include "mutation_partition_view.hh"
#include "mutation_partition_visitor.hh"
#include "mutation_partition_serializer.hh"
#include "counters.hh"
#include "converting_mutation_partition_applier.hh"
#include "idl/mutation.dist.impl.hh"
canonical_mutation::canonical_mutation(bytes_ostream data)
: _data(std::move(data))
{ }
canonical_mutation::canonical_mutation(const mutation& m)
{
mutation_partition_serializer part_ser(*m.schema(), m.partition());
ser::writer_of_canonical_mutation<bytes_ostream> wr(_data);
std::move(wr).write_table_id(m.schema()->id())
.write_schema_version(m.schema()->version())
.write_key(m.key())
.write_mapping(m.schema()->get_column_mapping())
.partition([&] (auto wr) {
part_ser.write(std::move(wr));
}).end_canonical_mutation();
}
table_id canonical_mutation::column_family_id() const {
auto in = ser::as_input_stream(_data);
auto mv = ser::deserialize(in, std::type_identity<ser::canonical_mutation_view>());
return mv.table_id();
}
partition_key canonical_mutation::key() const {
auto in = ser::as_input_stream(_data);
auto mv = ser::deserialize(in, std::type_identity<ser::canonical_mutation_view>());
return mv.key();
}
mutation canonical_mutation::to_mutation(schema_ptr s) const {
auto in = ser::as_input_stream(_data);
auto mv = ser::deserialize(in, std::type_identity<ser::canonical_mutation_view>());
auto cf_id = mv.table_id();
if (s->id() != cf_id) {
throw std::runtime_error(format("Attempted to deserialize canonical_mutation of table {} with schema of table {} ({}.{})",
cf_id, s->id(), s->ks_name(), s->cf_name()));
}
auto version = mv.schema_version();
auto pk = mv.key();
mutation m(std::move(s), std::move(pk));
if (version == m.schema()->version()) {
auto partition_view = mutation_partition_view::from_view(mv.partition());
mutation_application_stats app_stats;
m.partition().apply(*m.schema(), partition_view, *m.schema(), app_stats);
} else {
column_mapping cm = mv.mapping();
converting_mutation_partition_applier v(cm, *m.schema(), m.partition());
auto partition_view = mutation_partition_view::from_view(mv.partition());
partition_view.accept(cm, v);
}
return m;
}
static sstring bytes_to_text(bytes_view bv) {
sstring ret = uninitialized_string(bv.size());
std::copy_n(reinterpret_cast<const char*>(bv.data()), bv.size(), ret.data());
return ret;
}
auto fmt::formatter<canonical_mutation>::format(const canonical_mutation& cm, fmt::format_context& ctx) const
-> decltype(ctx.out()) {
auto out = ctx.out();
auto in = ser::as_input_stream(cm._data);
auto mv = ser::deserialize(in, std::type_identity<ser::canonical_mutation_view>());
column_mapping mapping = mv.mapping();
auto partition_view = mutation_partition_view::from_view(mv.partition());
out = fmt::format_to(out, "{{canonical_mutation: ");
out = fmt::format_to(out, "table_id {} schema_version {} ", mv.table_id(), mv.schema_version());
out = fmt::format_to(out, "partition_key {} ", mv.key());
using out_t = decltype(out);
class printing_visitor : public mutation_partition_view_virtual_visitor {
out_t _os;
const column_mapping& _cm;
bool _first = true;
bool _in_row = false;
private:
void print_separator() {
if (!_first) {
_os = fmt::format_to(_os, ", ");
}
_first = false;
}
public:
printing_visitor(out_t os, const column_mapping& cm) : _os(os), _cm(cm) {}
virtual void accept_partition_tombstone(tombstone t) override {
print_separator();
_os = fmt::format_to(_os, "partition_tombstone {}", t);
}
virtual void accept_static_cell(column_id id, atomic_cell ac) override {
print_separator();
auto&& entry = _cm.static_column_at(id);
_os = fmt::format_to(_os, "static column {} {}", bytes_to_text(entry.name()), atomic_cell::printer(*entry.type(), ac));
}
virtual void accept_static_cell(column_id id, collection_mutation_view cmv) override {
print_separator();
auto&& entry = _cm.static_column_at(id);
_os = fmt::format_to(_os, "static column {} {}", bytes_to_text(entry.name()), collection_mutation_view::printer(*entry.type(), cmv));
}
virtual stop_iteration accept_row_tombstone(range_tombstone rt) override {
print_separator();
_os = fmt::format_to(_os, "row tombstone {}", rt);
return stop_iteration::no;
}
virtual stop_iteration accept_row(position_in_partition_view pipv, row_tombstone rt, row_marker rm, is_dummy, is_continuous) override {
if (_in_row) {
_os = fmt::format_to(_os, "}}, ");
}
_os = fmt::format_to(_os, "{{row {} tombstone {} marker {}", pipv, rt, rm);
_in_row = true;
_first = false;
return stop_iteration::no;
}
virtual void accept_row_cell(column_id id, atomic_cell ac) override {
print_separator();
auto&& entry = _cm.regular_column_at(id);
_os = fmt::format_to(_os, "column {} {}", bytes_to_text(entry.name()), atomic_cell::printer(*entry.type(), ac));
}
virtual void accept_row_cell(column_id id, collection_mutation_view cmv) override {
print_separator();
auto&& entry = _cm.regular_column_at(id);
_os = fmt::format_to(_os, "column {} {}", bytes_to_text(entry.name()), collection_mutation_view::printer(*entry.type(), cmv));
}
out_t finalize() {
if (_in_row) {
_os = fmt::format_to(_os, "}}");
}
return _os;
}
};
printing_visitor pv(out, mapping);
partition_view.accept(mapping, pv);
out = pv.finalize();
return fmt::format_to(out, "}}");
}
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