scylladb/query.cc

/*
 * 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 <http://www.gnu.org/licenses/>.
 */

#include <limits>
#include "query-request.hh"
#include "query-result.hh"
#include "query-result-writer.hh"
#include "query-result-set.hh"
#include "to_string.hh"
#include "bytes.hh"
#include "mutation_partition_serializer.hh"
#include "query-result-reader.hh"
#include "query_result_merger.hh"

namespace query {

const partition_range full_partition_range = partition_range::make_open_ended_both_sides();

const query::partition_slice full_slice = query::partition_slice({ query::clustering_range::make_open_ended_both_sides() }, { }, { }, { });

std::ostream& operator<<(std::ostream& out, const specific_ranges& s);

std::ostream& operator<<(std::ostream& out, const partition_slice& ps) {
    out << "{"
        << "regular_cols=[" << join(", ", ps.regular_columns) << "]"
        << ", static_cols=[" << join(", ", ps.static_columns) << "]"
        << ", rows=[" << join(", ", ps._row_ranges) << "]"
        ;
    if (ps._specific_ranges) {
        out << ", specific=[" << *ps._specific_ranges << "]";
    }
    out << ", options=" << sprint("%x", ps.options.mask()); // FIXME: pretty print options
    out << ", cql_format=" << ps.cql_format();
    out << ", partition_row_limit=" << ps._partition_row_limit;
    return out << "}";
}

std::ostream& operator<<(std::ostream& out, const read_command& r) {
    return out << "read_command{"
        << "cf_id=" << r.cf_id
        << ", version=" << r.schema_version
        << ", slice=" << r.slice << ""
        << ", limit=" << r.row_limit
        << ", timestamp=" << r.timestamp.time_since_epoch().count() << "}"
        << ", partition_limit=" << r.partition_limit << "}";
}

std::ostream& operator<<(std::ostream& out, const specific_ranges& s) {
    return out << "{" << s._pk << " : " << join(", ", s._ranges) << "}";
}

partition_slice::partition_slice(clustering_row_ranges row_ranges,
    std::vector<column_id> static_columns,
    std::vector<column_id> regular_columns,
    option_set options,
    std::unique_ptr<specific_ranges> specific_ranges,
    cql_serialization_format cql_format,
    uint32_t partition_row_limit)
    : _row_ranges(std::move(row_ranges))
    , static_columns(std::move(static_columns))
    , regular_columns(std::move(regular_columns))
    , options(options)
    , _specific_ranges(std::move(specific_ranges))
    , _cql_format(std::move(cql_format))
    , _partition_row_limit(partition_row_limit)
{}

partition_slice::partition_slice(partition_slice&&) = default;

// Only needed because selection_statement::execute does copies of its read_command
// in the map-reduce op.
partition_slice::partition_slice(const partition_slice& s)
    : _row_ranges(s._row_ranges)
    , static_columns(s.static_columns)
    , regular_columns(s.regular_columns)
    , options(s.options)
    , _specific_ranges(s._specific_ranges ? std::make_unique<specific_ranges>(*s._specific_ranges) : nullptr)
    , _cql_format(s._cql_format)
    , _partition_row_limit(s._partition_row_limit)
{}

partition_slice::~partition_slice()
{}

const clustering_row_ranges& partition_slice::row_ranges(const schema& s, const partition_key& k) const {
    auto* r = _specific_ranges ? _specific_ranges->range_for(s, k) : nullptr;
    return r ? *r : _row_ranges;
}

void partition_slice::set_range(const schema& s, const partition_key& k, clustering_row_ranges range) {
    if (!_specific_ranges) {
        _specific_ranges = std::make_unique<specific_ranges>(k, std::move(range));
    } else {
        _specific_ranges->add(s, k, std::move(range));
    }
}

void partition_slice::clear_range(const schema& s, const partition_key& k) {
    if (_specific_ranges && _specific_ranges->contains(s, k)) {
        // just in case someone changes the impl above,
        // we should do actual remove if specific_ranges suddenly
        // becomes an actual map
        assert(_specific_ranges->size() == 1);
        _specific_ranges = nullptr;
    }
}

clustering_row_ranges partition_slice::get_all_ranges() const {
    auto all_ranges = default_row_ranges();
    const auto& specific_ranges = get_specific_ranges();
    if (specific_ranges) {
        all_ranges.insert(all_ranges.end(), specific_ranges->ranges().begin(), specific_ranges->ranges().end());
    }
    return all_ranges;
}

sstring
result::pretty_print(schema_ptr s, const query::partition_slice& slice) const {
    std::ostringstream out;
    out << "{ result: " << result_set::from_raw_result(s, slice, *this);
    out << " digest: ";
    if (_digest) {
        out << std::hex << std::setw(2);
        for (auto&& c : _digest->get()) {
            out << unsigned(c) << " ";
        }
    } else {
        out << "{}";
    }
    out << ", short_read=" << is_short_read() << " }";
    return out.str();
}

query::result::printer
result::pretty_printer(schema_ptr s, const query::partition_slice& slice) const {
    return query::result::printer{s, slice, *this};
}

std::ostream& operator<<(std::ostream& os, const query::result::printer& p) {
    os << p.res.pretty_print(p.s, p.slice);
    return os;
}

uint32_t result::calculate_row_count(const query::partition_slice& slice) {
    struct {
        uint32_t total_count = 0;
        uint32_t current_partition_count = 0;
        void accept_new_partition(const partition_key& key, uint32_t row_count) {
            accept_new_partition(row_count);
        }
        void accept_new_partition(uint32_t row_count) {
            total_count += row_count;
            current_partition_count = row_count;
        }
        void accept_new_row(const clustering_key& key, const result_row_view& static_row, const result_row_view& row) {}
        void accept_new_row(const result_row_view& static_row, const result_row_view& row) {}
        void accept_partition_end(const query::result_row_view& static_row) {
            if (current_partition_count == 0) {
                total_count++;
            }
        }
    } counter;

    result_view::consume(*this, slice, counter);
    return counter.total_count;
}

result::result()
    : result([] {
        bytes_ostream out;
        ser::writer_of_query_result(out).skip_partitions().end_query_result();
        return out;
    }(), short_read::no)
{ }

foreign_ptr<lw_shared_ptr<query::result>> result_merger::get() {
    if (_partial.size() == 1) {
        return std::move(_partial[0]);
    }

    bytes_ostream w;
    auto partitions = ser::writer_of_query_result(w).start_partitions();
    std::experimental::optional<uint32_t> row_count = 0;
    short_read is_short_read;

    for (auto&& r : _partial) {
        if (row_count) {
            if (r->row_count()) {
                row_count = row_count.value() + r->row_count().value();
            } else {
                row_count = std::experimental::nullopt;
            }
        }
        result_view::do_with(*r, [&] (result_view rv) {
            for (auto&& pv : rv._v.partitions()) {
                partitions.add(pv);
            }
        });
        if (r->is_short_read()) {
            is_short_read = short_read::yes;
            break;
        }
    }

    std::move(partitions).end_partitions().end_query_result();

    return make_foreign(make_lw_shared<query::result>(std::move(w), is_short_read, row_count));
}

}