/*
* 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-present 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 .
*/
#pragma once
#include "cql3/stats.hh"
#include "cql3/column_identifier.hh"
#include "cql3/update_parameters.hh"
#include "cql3/column_condition.hh"
#include "cql3/cql_statement.hh"
#include "cql3/relation.hh"
#include "cql3/restrictions/statement_restrictions.hh"
#include "cql3/statements/statement_type.hh"
#include
#include
#include
namespace cql3 {
class query_processor;
class attributes;
class operation;
namespace statements {
namespace raw { class modification_statement; }
/*
* Abstract parent class of individual modifications, i.e. INSERT, UPDATE and DELETE.
*/
class modification_statement : public cql_statement_opt_metadata {
public:
const statement_type type;
private:
const uint32_t _bound_terms;
// If we have operation on list entries, such as adding or
// removing an entry, the modification statement must prefetch
// the old values of the list to create an idempotent mutation.
// If the statement has conditions, conditional columns must
// also be prefetched, to evaluate conditions. If the
// statement has IF EXISTS/IF NOT EXISTS, we prefetch all
// columns, to match Cassandra behaviour.
// This bitset contains a mask of ordinal_id identifiers
// of the required columns.
column_set _columns_to_read;
// A CAS statement returns a result set with the columns
// used in condition expression. This is a mask of ordinal_id
// identifiers of the required columns. Contains all columns
// of a schema if we have IF EXISTS/IF NOT EXISTS. Does *not*
// contain LIST columns prefetched to apply updates, unless
// these columns are also used in conditions.
column_set _columns_of_cas_result_set;
public:
const schema_ptr s;
const std::unique_ptr attrs;
protected:
std::vector<::shared_ptr> _column_operations;
cql_stats& _stats;
private:
// Separating normal and static conditions makes things somewhat easier
std::vector> _regular_conditions;
std::vector> _static_conditions;
const ks_selector _ks_sel;
// True if this statement has _if_exists or _if_not_exists or other
// conditions that apply to static/regular columns, respectively.
// Pre-computed during statement prepare.
bool _has_static_column_conditions = false;
bool _has_regular_column_conditions = false;
// True if any of update operations requires a prefetch.
// Pre-computed during statement prepare.
bool _requires_read = false;
bool _if_not_exists = false;
bool _if_exists = false;
// True if this statement has column operations that apply to static/regular
// columns, respectively.
bool _sets_static_columns = false;
bool _sets_regular_columns = false;
// True if this statement has column operations or conditions for a column
// that stores a collection.
bool _selects_a_collection = false;
std::optional _is_raw_counter_shard_write;
protected:
std::optional _restrictions;
public:
typedef std::optional> json_cache_opt;
modification_statement(
statement_type type_,
uint32_t bound_terms,
schema_ptr schema_,
std::unique_ptr attrs_,
cql_stats& stats_);
virtual bool require_full_clustering_key() const = 0;
virtual bool allow_clustering_key_slices() const = 0;
virtual void add_update_for_key(mutation& m, const query::clustering_range& range, const update_parameters& params, const json_cache_opt& json_cache) const = 0;
virtual uint32_t get_bound_terms() const override;
virtual const sstring& keyspace() const;
virtual const sstring& column_family() const;
virtual bool is_counter() const;
virtual bool is_view() const;
int64_t get_timestamp(int64_t now, const query_options& options) const;
bool is_timestamp_set() const;
gc_clock::duration get_time_to_live(const query_options& options) const;
virtual future<> check_access(service::storage_proxy& proxy, const service::client_state& state) const override;
// Validate before execute, using client state and current schema
void validate(service::storage_proxy&, const service::client_state& state) const override;
virtual bool depends_on_keyspace(const sstring& ks_name) const override;
virtual bool depends_on_column_family(const sstring& cf_name) const override;
void add_operation(::shared_ptr op);
void inc_cql_stats(bool is_internal) const;
const restrictions::statement_restrictions& restrictions() const {
return *_restrictions;
}
bool is_conditional() const override;
public:
void add_condition(lw_shared_ptr cond);
void set_if_not_exist_condition();
bool has_if_not_exist_condition() const;
void set_if_exist_condition();
bool has_if_exist_condition() const;
bool is_raw_counter_shard_write() const {
return _is_raw_counter_shard_write.value_or(false);
}
void process_where_clause(database& db, std::vector where_clause, prepare_context& ctx);
// CAS statement returns a result set. Prepare result set metadata
// so that get_result_metadata() returns a meaningful value.
void build_cas_result_set_metadata();
public:
virtual dht::partition_range_vector build_partition_keys(const query_options& options, const json_cache_opt& json_cache) const;
virtual query::clustering_row_ranges create_clustering_ranges(const query_options& options, const json_cache_opt& json_cache) const;
private:
// Return true if this statement doesn't update or read any regular rows, only static rows.
// Note, it isn't enought to just check !_sets_regular_columns && _regular_conditions.empty(),
// because a DELETE statement that deletes whole rows (DELETE FROM ...) technically doesn't
// have any column operations and hence doesn't have _sets_regular_columns set. It doesn't
// have _sets_static_columns set either so checking the latter flag too here guarantees that
// this function works as expected in all cases.
bool applies_only_to_static_columns() const {
return _sets_static_columns && !_sets_regular_columns && _regular_conditions.empty();
}
public:
// True if any of update operations of this statement requires
// a prefetch of the old cell.
bool requires_read() const { return _requires_read; }
// Columns used in this statement conditions or operations.
const column_set& columns_to_read() const { return _columns_to_read; }
// Columns of the statement result set (only CAS statement
// returns a result set).
const column_set& columns_of_cas_result_set() const { return _columns_of_cas_result_set; }
// Build a read_command instance to fetch the previous mutation from storage. The mutation is
// fetched if we need to check LWT conditions or apply updates to non-frozen list elements.
lw_shared_ptr read_command(service::storage_proxy& proxy, query::clustering_row_ranges ranges, db::consistency_level cl) const;
// Create a mutation object for the update operation represented by this modification statement.
// A single mutation object for lightweight transactions, which can only span one partition, or a vector
// of mutations, one per partition key, for statements which affect multiple partition keys,
// e.g. DELETE FROM table WHERE pk IN (1, 2, 3).
std::vector apply_updates(
const std::vector& keys,
const std::vector& ranges,
const update_parameters& params,
const json_cache_opt& json_cache) const;
/**
* Checks whether the conditions represented by this statement apply provided the current state of the row on
* which those conditions are.
*
* @param row the row with current data corresponding to these conditions. Can be null if there
* is no matching row.
* @return whether the conditions represented by this statement apply or not.
*/
bool applies_to(const update_parameters::prefetch_data::row* row, const query_options& options) const;
private:
future<::shared_ptr>
do_execute(service::storage_proxy& proxy, service::query_state& qs, const query_options& options) const;
friend class modification_statement_executor;
public:
// True if the statement has IF conditions. Pre-computed during prepare.
bool has_conditions() const { return _has_regular_column_conditions || _has_static_column_conditions; }
// True if the statement has IF conditions that apply to static columns.
bool has_static_column_conditions() const { return _has_static_column_conditions; }
// True if this statement needs to read only static column values to check if it can be applied.
bool has_only_static_column_conditions() const { return !_has_regular_column_conditions && _has_static_column_conditions; }
virtual future<::shared_ptr>
execute(query_processor& qp, service::query_state& qs, const query_options& options) const override;
private:
future<>
execute_without_condition(service::storage_proxy& proxy, service::query_state& qs, const query_options& options) const;
future<::shared_ptr>
execute_with_condition(service::storage_proxy& proxy, service::query_state& qs, const query_options& options) const;
public:
/**
* Convert statement into a list of mutations to apply on the server
*
* @param options value for prepared statement markers
* @param local if true, any requests (for collections) performed by getMutation should be done locally only.
* @param now the current timestamp in microseconds to use if no timestamp is user provided.
*
* @return vector of the mutations
* @throws invalid_request_exception on invalid requests
*/
future> get_mutations(service::storage_proxy& proxy, const query_options& options, db::timeout_clock::time_point timeout, bool local, int64_t now, service::query_state& qs) const;
virtual json_cache_opt maybe_prepare_json_cache(const query_options& options) const;
protected:
/**
* If there are conditions on the statement, this is called after the where clause and conditions have been
* processed to check that they are compatible.
* @throws InvalidRequestException
*/
virtual void validate_where_clause_for_conditions() const;
db::timeout_clock::duration get_timeout(const service::client_state& state, const query_options& options) const;
friend class raw::modification_statement;
};
}
}