scylladb/cql3/statements/create_view_statement.cc

/*
 * Licensed to the Apache Software Foundation (ASF) under one
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 * 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) 2016 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/>.
 */

#include <unordered_set>
#include <vector>

#include <boost/range/iterator_range.hpp>
#include <boost/range/join.hpp>
#include <boost/range/adaptor/map.hpp>
#include <boost/range/adaptor/transformed.hpp>

#include "cql3/column_identifier.hh"
#include "cql3/restrictions/statement_restrictions.hh"
#include "cql3/statements/create_view_statement.hh"
#include "cql3/statements/prepared_statement.hh"
#include "cql3/statements/select_statement.hh"
#include "cql3/statements/raw/select_statement.hh"
#include "cql3/selection/selectable.hh"
#include "cql3/selection/selectable_with_field_selection.hh"
#include "cql3/selection/selection.hh"
#include "cql3/selection/writetime_or_ttl.hh"
#include "cql3/util.hh"
#include "schema_builder.hh"
#include "service/storage_proxy.hh"
#include "validation.hh"
#include "db/config.hh"
#include "service/storage_service.hh"

namespace cql3 {

namespace statements {

create_view_statement::create_view_statement(
        ::shared_ptr<cf_name> view_name,
        ::shared_ptr<cf_name> base_name,
        std::vector<::shared_ptr<selection::raw_selector>> select_clause,
        std::vector<::shared_ptr<relation>> where_clause,
        std::vector<::shared_ptr<cql3::column_identifier::raw>> partition_keys,
        std::vector<::shared_ptr<cql3::column_identifier::raw>> clustering_keys,
        bool if_not_exists)
    : schema_altering_statement{view_name}
    , _base_name{base_name}
    , _select_clause{select_clause}
    , _where_clause{where_clause}
    , _partition_keys{partition_keys}
    , _clustering_keys{clustering_keys}
    , _if_not_exists{if_not_exists}
{
    service::get_local_storage_proxy().get_db().local().get_config().check_experimental("Creating materialized views");
    if (!service::get_local_storage_service().cluster_supports_materialized_views()) {
        throw exceptions::invalid_request_exception("Can't create materialized views until the whole cluster has been upgraded");
    }
}

future<> create_view_statement::check_access(const service::client_state& state) {
    return state.has_column_family_access(keyspace(), _base_name->get_column_family(), auth::permission::ALTER);
}

void create_view_statement::validate(distributed<service::storage_proxy>&, const service::client_state& state) {
    // validated in announceMigration()
}

static const column_definition* get_column_definition(schema_ptr schema, column_identifier::raw& identifier) {
    auto prepared = identifier.prepare(schema);
    assert(dynamic_pointer_cast<column_identifier>(prepared));
    auto id = static_pointer_cast<column_identifier>(prepared);
    return schema->get_column_definition(id->name());
}

static bool validate_primary_key(
        schema_ptr schema,
        const column_definition* def,
        const std::unordered_set<const column_definition*>& base_pk,
        bool has_non_pk_column,
        const restrictions::statement_restrictions& restrictions) {

    if (def->type->is_multi_cell()) {
        throw exceptions::invalid_request_exception(sprint(
                "Cannot use MultiCell column '%s' in PRIMARY KEY of materialized view", def->name_as_text()));
    }
    if (def->is_static()) {
        throw exceptions::invalid_request_exception(sprint(
                "Cannot use Static column '%s' in PRIMARY KEY of materialized view", def->name_as_text()));
    }

    if (base_pk.find(def) == base_pk.end()) {
        if (has_non_pk_column) {
            throw exceptions::invalid_request_exception(sprint(
                    "Cannot include more than one non-primary key column '%s' in materialized view primary key", def->name_as_text()));
        }
        return true;
    }

    // We don't need to include the "IS NOT NULL" filter on a non-composite partition key
    // because we will never allow a single partition key to be NULL
    if (schema->partition_key_columns().size() > 1 && !restrictions.is_restricted(def)) {
        throw exceptions::invalid_request_exception(sprint(
                "Primary key column '%s' is required to be filtered by 'IS NOT NULL'", def->name_as_text()));
    }

    return false;
}

future<bool> create_view_statement::announce_migration(distributed<service::storage_proxy>& proxy, bool is_local_only) {
    // We need to make sure that:
    //  - primary key includes all columns in base table's primary key
    //  - make sure that the select statement does not have anything other than columns
    //    and their names match the base table's names
    //  - make sure that primary key does not include any collections
    //  - make sure there is no where clause in the select statement
    //  - make sure there is not currently a table or view
    //  - make sure base_table gc_grace_seconds > 0

    _properties.validate();

    if (_properties.use_compact_storage()) {
        throw exceptions::invalid_request_exception(sprint(
                "Cannot use 'COMPACT STORAGE' when defining a materialized view"));
    }

    // View and base tables must be in the same keyspace, to ensure that RF
    // is the same (because we assign a view replica to each base replica).
    // If a keyspace was not specified for the base table name, it is assumed
    // it is in the same keyspace as the view table being created (which
    // itself might be the current USEd keyspace, or explicitly specified).
    if (_base_name->get_keyspace().empty()) {
        _base_name->set_keyspace(keyspace(), true);
    }
    if (_base_name->get_keyspace() != keyspace()) {
        throw exceptions::invalid_request_exception(sprint(
                "Cannot create a materialized view on a table in a separate keyspace ('%s' != '%s')",
                _base_name->get_keyspace(), keyspace()));
    }

    auto&& db = proxy.local().get_db().local();
    schema_ptr schema = validation::validate_column_family(db, _base_name->get_keyspace(), _base_name->get_column_family());

    if (schema->is_counter()) {
        throw exceptions::invalid_request_exception(sprint(
                "Materialized views are not supported on counter tables"));
    }

    if (schema->is_view()) {
        throw exceptions::invalid_request_exception(sprint(
                "Materialized views cannot be created against other materialized views"));
    }

    if (schema->gc_grace_seconds().count() == 0) {
        throw exceptions::invalid_request_exception(sprint(
                "Cannot create materialized view '%s' for base table "
                "'%s' with gc_grace_seconds of 0, since this value is "
                "used to TTL undelivered updates. Setting gc_grace_seconds "
                "too low might cause undelivered updates to expire "
                "before being replayed.", column_family(), _base_name->get_column_family()));
    }

    // Gather all included columns, as specified by the select clause
    auto included = boost::copy_range<std::unordered_set<const column_definition*>>(_select_clause | boost::adaptors::transformed([&](auto&& selector) {
        if (selector->alias) {
            throw exceptions::invalid_request_exception(sprint(
                    "Cannot use alias when defining a materialized view"));
        }

        auto selectable = selector->selectable_;
        if (dynamic_pointer_cast<selection::selectable::with_field_selection::raw>(selectable)) {
            throw exceptions::invalid_request_exception(sprint(
                    "Cannot select out a part of type when defining a materialized view"));
        }
        if (dynamic_pointer_cast<selection::selectable::with_function::raw>(selectable)) {
            throw exceptions::invalid_request_exception(sprint(
                    "Cannot use function when defining a materialized view"));
        }
        if (dynamic_pointer_cast<selection::selectable::writetime_or_ttl::raw>(selectable)) {
            throw exceptions::invalid_request_exception(sprint(
                    "Cannot use function when defining a materialized view"));
        }

        assert(dynamic_pointer_cast<column_identifier::raw>(selectable));
        auto identifier = static_pointer_cast<column_identifier::raw>(selectable);
        auto* def = get_column_definition(schema, *identifier);
        if (!def) {
            throw exceptions::invalid_request_exception(sprint(
                    "Unknown column name detected in CREATE MATERIALIZED VIEW statement : ", identifier));
        }
        return def;
    }));

    if (!get_bound_variables()->empty()) {
        throw exceptions::invalid_request_exception(sprint(
                    "Cannot use query parameters in CREATE MATERIALIZED VIEW statements"));
    }

    auto parameters = ::make_shared<raw::select_statement::parameters>(raw::select_statement::parameters::orderings_type(), false, true);
    raw::select_statement raw_select(_base_name, std::move(parameters), _select_clause, _where_clause, nullptr);
    raw_select.prepare_keyspace(keyspace());
    raw_select.set_bound_variables({});

    cql_stats ignored;
    auto prepared = raw_select.prepare(db, ignored, true);
    auto restrictions = static_pointer_cast<statements::select_statement>(prepared->statement)->get_restrictions();

    auto base_primary_key_cols = boost::copy_range<std::unordered_set<const column_definition*>>(
            boost::range::join(schema->partition_key_columns(), schema->clustering_key_columns())
            | boost::adaptors::transformed([](auto&& def) { return &def; }));

    if (_partition_keys.empty()) {
        throw exceptions::invalid_request_exception(sprint("Must select at least a column for a Materialized View"));
    }
    if (_clustering_keys.empty()) {
        throw exceptions::invalid_request_exception(sprint("No columns are defined for Materialized View other than primary key"));
    }

    // Validate the primary key clause, ensuring only one non-PK base column is used in the view's PK.
    bool has_non_pk_column = false;
    std::unordered_set<const column_definition*> target_primary_keys;
    std::vector<const column_definition*> target_partition_keys;
    std::vector<const column_definition*> target_clustering_keys;
    auto validate_pk = [&] (const std::vector<::shared_ptr<cql3::column_identifier::raw>>& keys, std::vector<const column_definition*>& target_keys) mutable {
        for (auto&& identifier : keys) {
            auto* def = get_column_definition(schema, *identifier);
            if (!def) {
                throw exceptions::invalid_request_exception(sprint(
                        "Unknown column name detected in CREATE MATERIALIZED VIEW statement : ", identifier));
            }
            if (!target_primary_keys.insert(def).second) {
                throw exceptions::invalid_request_exception(sprint(
                        "Duplicate entry found in PRIMARY KEY: ", identifier));
            }
            target_keys.push_back(def);
            has_non_pk_column |= validate_primary_key(schema, def, base_primary_key_cols, has_non_pk_column, *restrictions);
        }
    };
    validate_pk(_partition_keys, target_partition_keys);
    validate_pk(_clustering_keys, target_clustering_keys);

    std::vector<const column_definition*> missing_pk_columns;
    std::vector<const column_definition*> target_non_pk_columns;

    // We need to include all of the primary key columns from the base table in order to make sure that we do not
    // overwrite values in the view. We cannot support "collapsing" the base table into a smaller number of rows in
    // the view because if we need to generate a tombstone, we have no way of knowing which value is currently being
    // used in the view and whether or not to generate a tombstone. In order to not surprise our users, we require
    // that they include all of the columns. We provide them with a list of all of the columns left to include.
    for (auto* def : schema->all_columns() | boost::adaptors::map_values) {
        bool included_def = included.empty() || included.find(def) != included.end();
        if (included_def && def->is_static()) {
            throw exceptions::invalid_request_exception(sprint(
                    "Unable to include static column '%s' which would be included by Materialized View SELECT * statement", *def));
        }

        bool def_in_target_pk = std::find(target_primary_keys.begin(), target_primary_keys.end(), def) != target_primary_keys.end();
        if (included_def && !def_in_target_pk) {
            target_non_pk_columns.push_back(def);
        } else if (def->is_primary_key() && !def_in_target_pk) {
            missing_pk_columns.push_back(def);
        }
    }

    if (!missing_pk_columns.empty()) {
        auto column_names = ::join(", ", missing_pk_columns | boost::adaptors::transformed(std::mem_fn(&column_definition::name)));
        throw exceptions::invalid_request_exception(sprint(
                        "Cannot create Materialized View %s without primary key columns from base %s (%s)",
                        column_family(), _base_name->get_column_family(), column_names));
    }

    schema_builder builder{keyspace(), column_family()};
    auto add_columns = [this, &builder] (std::vector<const column_definition*>& defs, column_kind kind) mutable {
        for (auto* def : defs) {
            auto&& type = _properties.get_reversable_type(def->column_specification->name, def->type);
            builder.with_column(def->name(), type, kind);
        }
    };
    add_columns(target_partition_keys, column_kind::partition_key);
    add_columns(target_clustering_keys, column_kind::clustering_key);
    add_columns(target_non_pk_columns, column_kind::regular_column);
    _properties.properties()->apply_to_builder(builder);

    auto where_clause_text = util::relations_to_where_clause(_where_clause);
    builder.with_view_info(schema->id(), schema->cf_name(), included.empty(), std::move(where_clause_text));

    return make_ready_future<>().then([definition = view_ptr(builder.build()), is_local_only]() mutable {
        return service::get_local_migration_manager().announce_new_view(definition, is_local_only);
    }).then_wrapped([this] (auto&& f) {
        try {
            f.get();
            return true;
        } catch (const exceptions::already_exists_exception& e) {
            if (_if_not_exists) {
                return false;
            }
            throw e;
        }
    });
}

shared_ptr<transport::event::schema_change> create_view_statement::change_event() {
    return make_shared<transport::event::schema_change>(transport::event::schema_change::change_type::CREATED, transport::event::schema_change::target_type::TABLE, keyspace(), column_family());
}

std::unique_ptr<cql3::statements::prepared_statement>
create_view_statement::prepare(database& db, cql_stats& stats) {
    return std::make_unique<prepared_statement>(make_shared<create_view_statement>(*this));
}

}

}