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scylladb/cql3/lists.hh
Konstantin Osipov 90346236ac cql: propagate const property through prepared statement tree. 
cql_statement is a class representing a prepared statement in Scylla.
It is used concurrently during execution, so it is important that its
change is not changed by execution.

Add const qualifier to the execution methods family, throghout the
cql hierarchy.

Mark a few places which do mutate prepared statement state during
execution as mutable. While these are not affecting production today,
as code ages, they may become a source of latent bugs and should be
moved out of the prepared state or evaluated at prepare eventually:

cf_property_defs::_compaction_strategy_class
list_permissions_statement::_resource
permission_altering_statement::_resource
property_definitions::_properties
select_statement::_opts
2019-11-26 14:18:17 +03:00

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Copyright (C) 2015 ScyllaDB
*
* Modified by 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 "cql3/abstract_marker.hh"
#include "to_string.hh"
#include "utils/UUID_gen.hh"
#include "operation.hh"
namespace cql3 {
/**
* Static helper methods and classes for lists.
*/
class lists {
lists() = delete;
public:
static shared_ptr<column_specification> index_spec_of(shared_ptr<column_specification> column);
static shared_ptr<column_specification> value_spec_of(shared_ptr<column_specification> column);
static shared_ptr<column_specification> uuid_index_spec_of(shared_ptr<column_specification>);
class literal : public term::raw {
const std::vector<shared_ptr<term::raw>> _elements;
public:
explicit literal(std::vector<shared_ptr<term::raw>> elements)
: _elements(std::move(elements)) {
}
shared_ptr<term> prepare(database& db, const sstring& keyspace, shared_ptr<column_specification> receiver);
private:
void validate_assignable_to(database& db, const sstring keyspace, shared_ptr<column_specification> receiver);
public:
virtual assignment_testable::test_result test_assignment(database& db, const sstring& keyspace, shared_ptr<column_specification> receiver) override;
virtual sstring to_string() const override;
};
class value : public multi_item_terminal, collection_terminal {
static value from_serialized(bytes_view v, const list_type_impl& type, cql_serialization_format sf);
public:
std::vector<bytes_opt> _elements;
public:
explicit value(std::vector<bytes_opt> elements)
: _elements(std::move(elements)) {
}
static value from_serialized(const fragmented_temporary_buffer::view& v, const list_type_impl& type, cql_serialization_format sf);
virtual cql3::raw_value get(const query_options& options) override;
virtual bytes get_with_protocol_version(cql_serialization_format sf) override;
bool equals(shared_ptr<list_type_impl> lt, const value& v);
virtual const std::vector<bytes_opt>& get_elements() override;
virtual sstring to_string() const;
friend class lists;
};
/**
* Basically similar to a Value, but with some non-pure function (that need
* to be evaluated at execution time) in it.
*
* Note: this would also work for a list with bind markers, but we don't support
* that because 1) it's not excessively useful and 2) we wouldn't have a good
* column name to return in the ColumnSpecification for those markers (not a
* blocker per-se but we don't bother due to 1)).
*/
class delayed_value : public non_terminal {
std::vector<shared_ptr<term>> _elements;
public:
explicit delayed_value(std::vector<shared_ptr<term>> elements)
: _elements(std::move(elements)) {
}
virtual bool contains_bind_marker() const override;
virtual void collect_marker_specification(shared_ptr<variable_specifications> bound_names);
virtual shared_ptr<terminal> bind(const query_options& options) override;
};
/**
* A marker for List values and IN relations
*/
class marker : public abstract_marker {
public:
marker(int32_t bind_index, ::shared_ptr<column_specification> receiver)
: abstract_marker{bind_index, std::move(receiver)}
{ }
virtual ::shared_ptr<terminal> bind(const query_options& options) override;
};
/*
* For prepend, we need to be able to generate unique but decreasing time
* UUID, which is a bit challenging. To do that, given a time in milliseconds,
* we adds a number representing the 100-nanoseconds precision and make sure
* that within the same millisecond, that number is always decreasing. We
* do rely on the fact that the user will only provide decreasing
* milliseconds timestamp for that purpose.
*/
private:
class precision_time {
public:
// Our reference time (1 jan 2010, 00:00:00) in milliseconds.
static constexpr db_clock::time_point REFERENCE_TIME{std::chrono::milliseconds(1262304000000)};
private:
static thread_local precision_time _last;
public:
db_clock::time_point millis;
int32_t nanos;
static precision_time get_next(db_clock::time_point millis);
};
public:
class setter : public operation {
public:
setter(const column_definition& column, shared_ptr<term> t)
: operation(column, std::move(t)) {
}
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
static void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params, const column_definition& column, ::shared_ptr<terminal> value);
};
class setter_by_index : public operation {
protected:
shared_ptr<term> _idx;
public:
setter_by_index(const column_definition& column, shared_ptr<term> idx, shared_ptr<term> t)
: operation(column, std::move(t)), _idx(std::move(idx)) {
}
virtual bool requires_read() const override;
virtual void collect_marker_specification(shared_ptr<variable_specifications> bound_names);
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
};
class setter_by_uuid : public setter_by_index {
public:
setter_by_uuid(const column_definition& column, shared_ptr<term> idx, shared_ptr<term> t)
: setter_by_index(column, std::move(idx), std::move(t)) {
}
virtual bool requires_read() const override;
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
};
class appender : public operation {
public:
using operation::operation;
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
};
static void do_append(shared_ptr<term> value,
mutation& m,
const clustering_key_prefix& prefix,
const column_definition& column,
const update_parameters& params);
class prepender : public operation {
public:
using operation::operation;
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
};
class discarder : public operation {
public:
discarder(const column_definition& column, shared_ptr<term> t)
: operation(column, std::move(t)) {
}
virtual bool requires_read() const override;
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params) override;
};
class discarder_by_index : public operation {
public:
discarder_by_index(const column_definition& column, shared_ptr<term> idx)
: operation(column, std::move(idx)) {
}
virtual bool requires_read() const override;
virtual void execute(mutation& m, const clustering_key_prefix& prefix, const update_parameters& params);
};
};
}
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