/*
* Copyright (C) 2015 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 .
*/
#include "sets.hh"
#include "constants.hh"
#include "cql3_type.hh"
namespace cql3 {
shared_ptr
sets::value_spec_of(shared_ptr column) {
return make_shared(column->ks_name, column->cf_name,
::make_shared(sprint("value(%s)", *column->name), true),
dynamic_pointer_cast(column->type)->get_elements_type());
}
shared_ptr
sets::literal::prepare(database& db, const sstring& keyspace, shared_ptr receiver) {
validate_assignable_to(db, keyspace, receiver);
// We've parsed empty maps as a set literal to break the ambiguity so
// handle that case now
if (_elements.empty() && dynamic_pointer_cast(receiver->type)) {
// use empty_type for comparator, set is empty anyway.
std::map m(empty_type->as_less_comparator());
return ::make_shared(std::move(m));
}
auto value_spec = value_spec_of(receiver);
std::vector> values;
values.reserve(_elements.size());
bool all_terminal = true;
for (shared_ptr rt : _elements)
{
auto t = rt->prepare(db, keyspace, value_spec);
if (t->contains_bind_marker()) {
throw exceptions::invalid_request_exception(sprint("Invalid set literal for %s: bind variables are not supported inside collection literals", *receiver->name));
}
if (dynamic_pointer_cast(t)) {
all_terminal = false;
}
values.push_back(std::move(t));
}
auto compare = dynamic_pointer_cast(receiver->type)->get_elements_type()->as_less_comparator();
auto value = ::make_shared(compare, std::move(values));
if (all_terminal) {
return value->bind(query_options::DEFAULT);
} else {
return value;
}
}
void
sets::literal::validate_assignable_to(database& db, const sstring& keyspace, shared_ptr receiver) {
if (!dynamic_pointer_cast(receiver->type)) {
// We've parsed empty maps as a set literal to break the ambiguity so
// handle that case now
if (dynamic_pointer_cast(receiver->type) && _elements.empty()) {
return;
}
throw exceptions::invalid_request_exception(sprint("Invalid set literal for %s of type %s", *receiver->name, *receiver->type->as_cql3_type()));
}
auto&& value_spec = value_spec_of(receiver);
for (shared_ptr rt : _elements) {
if (!is_assignable(rt->test_assignment(db, keyspace, value_spec))) {
throw exceptions::invalid_request_exception(sprint("Invalid set literal for %s: value %s is not of type %s", *receiver->name, *rt, *value_spec->type->as_cql3_type()));
}
}
}
assignment_testable::test_result
sets::literal::test_assignment(database& db, const sstring& keyspace, shared_ptr receiver) {
if (!dynamic_pointer_cast(receiver->type)) {
// We've parsed empty maps as a set literal to break the ambiguity so handle that case now
if (dynamic_pointer_cast(receiver->type) && _elements.empty()) {
return assignment_testable::test_result::WEAKLY_ASSIGNABLE;
}
return assignment_testable::test_result::NOT_ASSIGNABLE;
}
// If there is no elements, we can't say it's an exact match (an empty set if fundamentally polymorphic).
if (_elements.empty()) {
return assignment_testable::test_result::WEAKLY_ASSIGNABLE;
}
auto&& value_spec = value_spec_of(receiver);
// FIXME: make assignment_testable::test_all() accept ranges
std::vector> to_test(_elements.begin(), _elements.end());
return assignment_testable::test_all(db, keyspace, value_spec, to_test);
}
sstring
sets::literal::to_string() const {
return "{" + join(", ", _elements) + "}";
}
sets::value
sets::value::from_serialized(bytes_view v, set_type type, cql_serialization_format sf) {
try {
// Collections have this small hack that validate cannot be called on a serialized object,
// but compose does the validation (so we're fine).
// FIXME: deserializeForNativeProtocol?!
auto s = value_cast(type->deserialize(v, sf));
std::set elements(type->get_elements_type()->as_less_comparator());
for (auto&& element : s) {
elements.insert(elements.end(), type->get_elements_type()->decompose(element));
}
return value(std::move(elements));
} catch (marshal_exception& e) {
throw exceptions::invalid_request_exception(e.what());
}
}
bytes_opt
sets::value::get(const query_options& options) {
return get_with_protocol_version(options.get_cql_serialization_format());
}
bytes
sets::value::get_with_protocol_version(cql_serialization_format sf) {
return collection_type_impl::pack(_elements.begin(), _elements.end(),
_elements.size(), sf);
}
bool
sets::value::equals(set_type st, const value& v) {
if (_elements.size() != v._elements.size()) {
return false;
}
auto&& elements_type = st->get_elements_type();
return std::equal(_elements.begin(), _elements.end(),
v._elements.begin(),
[elements_type] (bytes_view v1, bytes_view v2) {
return elements_type->equal(v1, v2);
});
}
sstring
sets::value::to_string() const {
sstring result = "{";
bool first = true;
for (auto&& e : _elements) {
if (!first) {
result += ", ";
}
first = true;
result += to_hex(e);
}
result += "}";
return result;
}
bool
sets::delayed_value::contains_bind_marker() const {
// False since we don't support them in collection
return false;
}
void
sets::delayed_value::collect_marker_specification(shared_ptr bound_names) {
}
shared_ptr
sets::delayed_value::bind(const query_options& options) {
std::set buffers(_comparator);
for (auto&& t : _elements) {
auto b = t->bind_and_get(options);
if (!b) {
throw exceptions::invalid_request_exception("null is not supported inside collections");
}
// We don't support value > 64K because the serialization format encode the length as an unsigned short.
if (b->size() > std::numeric_limits::max()) {
throw exceptions::invalid_request_exception(sprint("Set value is too long. Set values are limited to %d bytes but %d bytes value provided",
std::numeric_limits::max(),
b->size()));
}
buffers.insert(buffers.end(), std::move(to_bytes(*b)));
}
return ::make_shared(std::move(buffers));
}
::shared_ptr
sets::marker::bind(const query_options& options) {
const auto& value = options.get_value_at(_bind_index);
if (!value) {
return nullptr;
} else {
auto as_set_type = static_pointer_cast(_receiver->type);
return make_shared(value::from_serialized(*value, as_set_type, options.get_cql_serialization_format()));
}
}
void
sets::setter::execute(mutation& m, const exploded_clustering_prefix& row_key, const update_parameters& params) {
if (column.type->is_multi_cell()) {
// delete + add
collection_type_impl::mutation mut;
mut.tomb = params.make_tombstone_just_before();
auto ctype = static_pointer_cast(column.type);
auto col_mut = ctype->serialize_mutation_form(std::move(mut));
m.set_cell(row_key, column, std::move(col_mut));
}
adder::do_add(m, row_key, params, _t, column);
}
void
sets::adder::execute(mutation& m, const exploded_clustering_prefix& row_key, const update_parameters& params) {
assert(column.type->is_multi_cell()); // "Attempted to add items to a frozen set";
do_add(m, row_key, params, _t, column);
}
void
sets::adder::do_add(mutation& m, const exploded_clustering_prefix& row_key, const update_parameters& params,
shared_ptr t, const column_definition& column) {
auto&& value = t->bind(params._options);
auto set_value = dynamic_pointer_cast(std::move(value));
auto set_type = dynamic_pointer_cast(column.type);
if (column.type->is_multi_cell()) {
// FIXME: mutation_view? not compatible with params.make_cell().
collection_type_impl::mutation mut;
if (!set_value || set_value->_elements.empty()) {
return;
}
for (auto&& e : set_value->_elements) {
mut.cells.emplace_back(e, params.make_cell({}));
}
auto smut = set_type->serialize_mutation_form(mut);
m.set_cell(row_key, column, std::move(smut));
} else if (set_value != nullptr) {
// for frozen sets, we're overwriting the whole cell
auto v = set_type->serialize_partially_deserialized_form(
{set_value->_elements.begin(), set_value->_elements.end()},
cql_serialization_format::internal());
m.set_cell(row_key, column, params.make_cell(std::move(v)));
} else {
m.set_cell(row_key, column, params.make_dead_cell());
}
}
void
sets::discarder::execute(mutation& m, const exploded_clustering_prefix& row_key, const update_parameters& params) {
assert(column.type->is_multi_cell()); // "Attempted to remove items from a frozen set";
auto&& value = _t->bind(params._options);
if (!value) {
return;
}
collection_type_impl::mutation mut;
auto kill = [&] (bytes idx) {
mut.cells.push_back({std::move(idx), params.make_dead_cell()});
};
auto svalue = dynamic_pointer_cast(value);
assert(svalue);
mut.cells.reserve(svalue->_elements.size());
for (auto&& e : svalue->_elements) {
kill(e);
}
auto ctype = static_pointer_cast(column.type);
m.set_cell(row_key, column,
atomic_cell_or_collection::from_collection_mutation(
ctype->serialize_mutation_form(mut)));
}
void sets::element_discarder::execute(mutation& m, const exploded_clustering_prefix& row_key, const update_parameters& params)
{
assert(column.type->is_multi_cell() && "Attempted to remove items from a frozen set");
auto elt = _t->bind(params._options);
if (!elt) {
throw exceptions::invalid_request_exception("Invalid null set element");
}
collection_type_impl::mutation mut;
mut.cells.emplace_back(*elt->get(params._options), params.make_dead_cell());
auto ctype = static_pointer_cast(column.type);
m.set_cell(row_key, column, ctype->serialize_mutation_form(mut));
}
}