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scylladb/alternator/server.hh
Vlad Zolotarov 28cbaef110 service/client_state and alternator/server: use cached values for driver_name and driver_version fields 
Optimize memory usage changing types of driver_name and driver_version be
a reference to a cached value instead of an sstring.

These fields very often have the same value among different connections hence
it makes sense to cache these values and use references to them instead of duplicating
such strings in each connection state.

Signed-off-by: Vlad Zolotarov <vladz@scylladb.com>
2025-12-20 12:26:22 -05:00

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/*
* Copyright 2019-present ScyllaDB
*/
/*
* SPDX-License-Identifier: LicenseRef-ScyllaDB-Source-Available-1.0
*/
#pragma once
#include "alternator/executor.hh"
#include "utils/scoped_item_list.hh"
#include <seastar/core/future.hh>
#include <seastar/core/condition-variable.hh>
#include <seastar/http/httpd.hh>
#include <seastar/net/tls.hh>
#include <optional>
#include "alternator/auth.hh"
#include "service/qos/service_level_controller.hh"
#include "utils/small_vector.hh"
#include "utils/updateable_value.hh"
#include <seastar/core/units.hh>
struct client_data;
namespace alternator {
using chunked_content = rjson::chunked_content;
class server : public peering_sharded_service<server> {
// The maximum size of a request body that Alternator will accept,
// in bytes. This is a safety measure to prevent Alternator from
// running out of memory when a client sends a very large request.
// DynamoDB also has the same limit set to 16 MB.
static constexpr size_t request_content_length_limit = 16*MB;
using alternator_callback = std::function<future<executor::request_return_type>(executor&, executor::client_state&,
tracing::trace_state_ptr, service_permit, rjson::value, std::unique_ptr<http::request>)>;
using alternator_callbacks_map = std::unordered_map<std::string_view, alternator_callback>;
httpd::http_server _http_server;
httpd::http_server _https_server;
executor& _executor;
service::storage_proxy& _proxy;
gms::gossiper& _gossiper;
auth::service& _auth_service;
qos::service_level_controller& _sl_controller;
key_cache _key_cache;
utils::updateable_value<bool> _enforce_authorization;
utils::updateable_value<bool> _warn_authorization;
utils::updateable_value<uint64_t> _max_users_query_size_in_trace_output;
utils::small_vector<std::reference_wrapper<seastar::httpd::http_server>, 2> _enabled_servers;
named_gate _pending_requests;
// In some places we will need a CQL updateable_timeout_config object even
// though it isn't really relevant for Alternator which defines its own
// timeouts separately. We can create this object only once.
updateable_timeout_config _timeout_config;
client_options_cache_type _connection_options_keys_and_values;
alternator_callbacks_map _callbacks;
semaphore* _memory_limiter;
utils::updateable_value<uint32_t> _max_concurrent_requests;
::shared_ptr<seastar::tls::server_credentials> _credentials;
class json_parser {
static constexpr size_t yieldable_parsing_threshold = 16*KB;
chunked_content _raw_document;
rjson::value _parsed_document;
std::exception_ptr _current_exception;
semaphore _parsing_sem{1};
condition_variable _document_waiting;
condition_variable _document_parsed;
abort_source _as;
future<> _run_parse_json_thread;
public:
json_parser();
// Moving a chunked_content into parse() allows parse() to free each
// chunk as soon as it is parsed, so when chunks are relatively small,
// we don't need to store the sum of unparsed and parsed sizes.
future<rjson::value> parse(chunked_content&& content);
future<> stop();
};
json_parser _json_parser;
// The server maintains a list of ongoing requests, that are being handled
// by handle_api_request(). It uses this list in get_client_data(), which
// is called when reading the "system.clients" virtual table.
struct ongoing_request {
socket_address _client_address;
client_options_cache_entry_type _user_agent;
sstring _username;
scheduling_group _scheduling_group;
bool _is_https;
client_data make_client_data() const;
};
utils::scoped_item_list<ongoing_request> _ongoing_requests;
public:
server(executor& executor, service::storage_proxy& proxy, gms::gossiper& gossiper, auth::service& service, qos::service_level_controller& sl_controller);
future<> init(net::inet_address addr, std::optional<uint16_t> port, std::optional<uint16_t> https_port, std::optional<tls::credentials_builder> creds,
utils::updateable_value<bool> enforce_authorization, utils::updateable_value<bool> warn_authorization, utils::updateable_value<uint64_t> max_users_query_size_in_trace_output,
semaphore* memory_limiter, utils::updateable_value<uint32_t> max_concurrent_requests);
future<> stop();
// get_client_data() is called (on each shard separately) when the virtual
// table "system.clients" is read. It is expected to generate a list of
// clients connected to this server (on this shard). This function is
// called by alternator::controller::get_client_data().
future<utils::chunked_vector<foreign_ptr<std::unique_ptr<client_data>>>> get_client_data();
private:
void set_routes(seastar::httpd::routes& r);
// If verification succeeds, returns the authenticated user's username
future<std::string> verify_signature(const seastar::http::request&, const chunked_content&);
future<executor::request_return_type> handle_api_request(std::unique_ptr<http::request> req);
};
}
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