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scylladb/query-request.hh
Tomasz Grabiec 4e5a52d6fa db: Make read interface schema version aware 
The intent is to make data returned by queries always conform to a
single schema version, which is requested by the client. For CQL
queries, for example, we want to use the same schema which was used to
compile the query. The other node expects to receive data conforming
to the requested schema.

Interface on shard level accepts schema_ptr, across nodes we use
table_schema_version UUID. To transfer schema_ptr across shards, we
use global_schema_ptr.

Because schema is identified with UUID across nodes, requestors must
be prepared for being queried for the definition of the schema. They
must hold a live schema_ptr around the request. This guarantees that
schema_registry will always know about the requested version. This is
not an issue because for queries the requestor needs to hold on to the
schema anyway to be able to interpret the results. But care must be
taken to always use the same schema version for making the request and
parsing the results.

Schema requesting across nodes is currently stubbed (throws runtime
exception).
2016-01-11 10:34:52 +01:00

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/*
* Copyright 2015 Cloudius Systems
*/
/*
* 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 <experimental/optional>
#include "keys.hh"
#include "dht/i_partitioner.hh"
#include "enum_set.hh"
#include "range.hh"
namespace query {
template <typename T>
using range = ::range<T>;
using ring_position = dht::ring_position;
using partition_range = range<ring_position>;
using clustering_range = range<clustering_key_prefix>;
extern const partition_range full_partition_range;
// FIXME: Move this to i_partitioner.hh after query::range<> is moved to utils/range.hh
query::partition_range to_partition_range(query::range<dht::token>);
inline
bool is_wrap_around(const query::partition_range& range, const schema& s) {
return range.is_wrap_around(dht::ring_position_comparator(s));
}
inline
bool is_single_partition(const query::partition_range& range) {
return range.is_singular() && range.start()->value().has_key();
}
typedef std::vector<clustering_range> clustering_row_ranges;
// Specifies subset of rows, columns and cell attributes to be returned in a query.
// Can be accessed across cores.
// Schema-dependent.
class partition_slice {
public:
enum class option { send_clustering_key, send_partition_key, send_timestamp_and_expiry, reversed, distinct };
using option_set = enum_set<super_enum<option,
option::send_clustering_key,
option::send_partition_key,
option::send_timestamp_and_expiry,
option::reversed,
option::distinct>>;
clustering_row_ranges _row_ranges;
public:
std::vector<column_id> static_columns; // TODO: consider using bitmap
std::vector<column_id> regular_columns; // TODO: consider using bitmap
option_set options;
private:
class specific_ranges;
std::unique_ptr<specific_ranges> _specific_ranges;
public:
partition_slice(clustering_row_ranges row_ranges, std::vector<column_id> static_columns,
std::vector<column_id> regular_columns, option_set options);
partition_slice(const partition_slice&);
partition_slice(partition_slice&&);
~partition_slice();
const clustering_row_ranges& row_ranges(const schema&, const partition_key&) const;
void set_range(const partition_key&, clustering_row_ranges);
const clustering_row_ranges& default_row_ranges() const {
return _row_ranges;
}
size_t serialized_size() const;
void serialize(bytes::iterator& out) const;
static partition_slice deserialize(bytes_view& v);
friend std::ostream& operator<<(std::ostream& out, const partition_slice& ps);
friend std::ostream& operator<<(std::ostream& out, const partition_slice::specific_ranges& ps);
};
constexpr auto max_rows = std::numeric_limits<uint32_t>::max();
// Full specification of a query to the database.
// Intended for passing across replicas.
// Can be accessed across cores.
class read_command {
public:
utils::UUID cf_id;
table_schema_version schema_version; // TODO: This should be enough, drop cf_id
partition_slice slice;
uint32_t row_limit;
gc_clock::time_point timestamp;
public:
read_command(const utils::UUID& cf_id,
const table_schema_version& schema_version,
partition_slice slice,
uint32_t row_limit = max_rows,
gc_clock::time_point now = gc_clock::now())
: cf_id(cf_id)
, schema_version(schema_version)
, slice(std::move(slice))
, row_limit(row_limit)
, timestamp(now)
{ }
size_t serialized_size() const;
void serialize(bytes::iterator& out) const;
static read_command deserialize(bytes_view& v);
friend std::ostream& operator<<(std::ostream& out, const read_command& r);
};
}
// Allow using query::range<T> in a hash table. The hash function 31 * left +
// right is the same one used by Cassandra's AbstractBounds.hashCode().
namespace std {
template<typename T>
struct hash<query::range<T>> {
using argument_type = query::range<T>;
using result_type = decltype(std::hash<T>()(std::declval<T>()));
result_type operator()(argument_type const& s) const {
auto hash = std::hash<T>();
auto left = s.start() ? hash(s.start()->value()) : 0;
auto right = s.end() ? hash(s.end()->value()) : 0;
return 31 * left + right;
}
};
}
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