foundationdb/flow/Knobs.h

321 lines
9.7 KiB
C++

/*
* Knobs.h
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed 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.
*/
#ifndef __FLOW_KNOBS_H__
#define __FLOW_KNOBS_H__
#pragma once
#include "flow/Platform.h"
#include <map>
#include <set>
#include <string>
#include <stdint.h>
#include <variant>
#include <optional>
// Helper macros to allow the init macro to be called with an optional third
// paramater, used to explicit set atomicity of knobs.
#define KNOB_FN(_1, _2, _3, FN, ...) FN
#define INIT_KNOB(knob, value) initKnob(knob, value, #knob)
#define INIT_ATOMIC_KNOB(knob, value, atomic) initKnob(knob, value, #knob, atomic)
// NOTE: Directly using KnobValueRef as the return type for Knobs::parseKnobValue would result
// in a cyclic dependency, so we use this intermediate ParsedKnobValue type
struct NoKnobFound {};
using ParsedKnobValue = std::variant<NoKnobFound, int, double, int64_t, bool, std::string>;
enum class ConfigDBType {
DISABLED,
SIMPLE,
PAXOS,
};
enum class Atomic { YES, NO };
class Knobs {
protected:
template <class T>
struct KnobValue {
T* value;
Atomic atomic;
};
Knobs() = default;
Knobs(Knobs const&) = delete;
Knobs& operator=(Knobs const&) = delete;
void initKnob(double& knob, double value, std::string const& name, Atomic atomic = Atomic::YES);
void initKnob(int64_t& knob, int64_t value, std::string const& name, Atomic atomic = Atomic::YES);
void initKnob(int& knob, int value, std::string const& name, Atomic atomic = Atomic::YES);
void initKnob(std::string& knob, const std::string& value, const std::string& name, Atomic atomic = Atomic::YES);
void initKnob(bool& knob, bool value, std::string const& name, Atomic atomic = Atomic::YES);
std::map<std::string, KnobValue<double>> double_knobs;
std::map<std::string, KnobValue<int64_t>> int64_knobs;
std::map<std::string, KnobValue<int>> int_knobs;
std::map<std::string, KnobValue<std::string>> string_knobs;
std::map<std::string, KnobValue<bool>> bool_knobs;
std::set<std::string> explicitlySetKnobs;
public:
bool setKnob(std::string const& name, int value);
bool setKnob(std::string const& name, bool value);
bool setKnob(std::string const& name, int64_t value);
bool setKnob(std::string const& name, double value);
bool setKnob(std::string const& name, std::string const& value);
ParsedKnobValue parseKnobValue(std::string const& name, std::string const& value) const;
bool isAtomic(std::string const& knob) const;
void trace() const;
};
template <class T>
class KnobsImpl : public Knobs {
public:
template <class... Args>
void reset(Args&&... args) {
explicitlySetKnobs.clear();
static_cast<T*>(this)->initialize(std::forward<Args>(args)...);
}
};
class FlowKnobs : public KnobsImpl<FlowKnobs> {
public:
int AUTOMATIC_TRACE_DUMP;
double PREVENT_FAST_SPIN_DELAY;
double CACHE_REFRESH_INTERVAL_WHEN_ALL_ALTERNATIVES_FAILED;
double DELAY_JITTER_OFFSET;
double DELAY_JITTER_RANGE;
double BUSY_WAIT_THRESHOLD;
double CLIENT_REQUEST_INTERVAL;
double SERVER_REQUEST_INTERVAL;
int DISABLE_ASSERTS;
double QUEUE_MODEL_SMOOTHING_AMOUNT;
int RANDOMSEED_RETRY_LIMIT;
double FAST_ALLOC_LOGGING_BYTES;
double HUGE_ARENA_LOGGING_BYTES;
double HUGE_ARENA_LOGGING_INTERVAL;
bool WRITE_TRACING_ENABLED;
int TRACING_UDP_LISTENER_PORT;
// run loop profiling
double RUN_LOOP_PROFILING_INTERVAL;
double SLOWTASK_PROFILING_LOG_INTERVAL;
double SLOWTASK_PROFILING_MAX_LOG_INTERVAL;
double SLOWTASK_PROFILING_LOG_BACKOFF;
double SATURATION_PROFILING_LOG_INTERVAL;
double SATURATION_PROFILING_MAX_LOG_INTERVAL;
double SATURATION_PROFILING_LOG_BACKOFF;
// connectionMonitor
double CONNECTION_MONITOR_LOOP_TIME;
double CONNECTION_MONITOR_TIMEOUT;
double CONNECTION_MONITOR_IDLE_TIMEOUT;
double CONNECTION_MONITOR_INCOMING_IDLE_MULTIPLIER;
double CONNECTION_MONITOR_UNREFERENCED_CLOSE_DELAY;
// FlowTransport
double CONNECTION_REJECTED_MESSAGE_DELAY;
double CONNECTION_ID_TIMEOUT;
double CONNECTION_CLEANUP_DELAY;
double INITIAL_RECONNECTION_TIME;
double MAX_RECONNECTION_TIME;
double RECONNECTION_TIME_GROWTH_RATE;
double RECONNECTION_RESET_TIME;
double ALWAYS_ACCEPT_DELAY;
int ACCEPT_BATCH_SIZE;
double INCOMPATIBLE_PEER_DELAY_BEFORE_LOGGING;
double PING_LOGGING_INTERVAL;
int PING_SAMPLE_AMOUNT;
int NETWORK_CONNECT_SAMPLE_AMOUNT;
int TLS_CERT_REFRESH_DELAY_SECONDS;
double TLS_SERVER_CONNECTION_THROTTLE_TIMEOUT;
double TLS_CLIENT_CONNECTION_THROTTLE_TIMEOUT;
int TLS_SERVER_CONNECTION_THROTTLE_ATTEMPTS;
int TLS_CLIENT_CONNECTION_THROTTLE_ATTEMPTS;
int TLS_CLIENT_HANDSHAKE_THREADS;
int TLS_SERVER_HANDSHAKE_THREADS;
int TLS_HANDSHAKE_THREAD_STACKSIZE;
int TLS_MALLOC_ARENA_MAX;
int TLS_HANDSHAKE_LIMIT;
int NETWORK_TEST_CLIENT_COUNT;
int NETWORK_TEST_REPLY_SIZE;
int NETWORK_TEST_REQUEST_COUNT;
int NETWORK_TEST_REQUEST_SIZE;
bool NETWORK_TEST_SCRIPT_MODE;
// AsyncFileCached
int64_t PAGE_CACHE_4K;
int64_t PAGE_CACHE_64K;
int64_t SIM_PAGE_CACHE_4K;
int64_t SIM_PAGE_CACHE_64K;
int64_t BUGGIFY_SIM_PAGE_CACHE_4K;
int64_t BUGGIFY_SIM_PAGE_CACHE_64K;
std::string CACHE_EVICTION_POLICY; // for now, "random", "lru", are supported
int MAX_EVICT_ATTEMPTS;
double PAGE_CACHE_TRUNCATE_LOOKUP_FRACTION;
double TOO_MANY_CONNECTIONS_CLOSED_RESET_DELAY;
int TOO_MANY_CONNECTIONS_CLOSED_TIMEOUT;
int PEER_UNAVAILABLE_FOR_LONG_TIME_TIMEOUT;
int FLOW_CACHEDFILE_WRITE_IO_SIZE;
// AsyncFileEIO
int EIO_MAX_PARALLELISM;
int EIO_USE_ODIRECT;
// AsyncFileEncrypted
int ENCRYPTION_BLOCK_SIZE;
int MAX_DECRYPTED_BLOCKS;
// AsyncFileKAIO
int MAX_OUTSTANDING;
int MIN_SUBMIT;
int PAGE_WRITE_CHECKSUM_HISTORY;
int DISABLE_POSIX_KERNEL_AIO;
// AsyncFileNonDurable
double NON_DURABLE_MAX_WRITE_DELAY;
double MAX_PRIOR_MODIFICATION_DELAY;
// GenericActors
double BUGGIFY_FLOW_LOCK_RELEASE_DELAY;
int LOW_PRIORITY_DELAY_COUNT;
double LOW_PRIORITY_MAX_DELAY;
// IAsyncFile
int64_t INCREMENTAL_DELETE_TRUNCATE_AMOUNT;
double INCREMENTAL_DELETE_INTERVAL;
// Net2
double MIN_COALESCE_DELAY;
double MAX_COALESCE_DELAY;
double SLOW_LOOP_CUTOFF;
double SLOW_LOOP_SAMPLING_RATE;
int64_t TSC_YIELD_TIME;
int64_t REACTOR_FLAGS;
double MIN_LOGGED_PRIORITY_BUSY_FRACTION;
int CERT_FILE_MAX_SIZE;
int READY_QUEUE_RESERVED_SIZE;
// Network
int64_t PACKET_LIMIT;
int64_t PACKET_WARNING; // 2MB packet warning quietly allows for 1MB system messages
double TIME_OFFSET_LOGGING_INTERVAL;
int MAX_PACKET_SEND_BYTES;
int MIN_PACKET_BUFFER_BYTES;
int MIN_PACKET_BUFFER_FREE_BYTES;
int FLOW_TCP_NODELAY;
int FLOW_TCP_QUICKACK;
// Sim2
// FIMXE: more parameters could be factored out
double MIN_OPEN_TIME;
double MAX_OPEN_TIME;
int64_t SIM_DISK_IOPS;
int64_t SIM_DISK_BANDWIDTH;
double MIN_NETWORK_LATENCY;
double FAST_NETWORK_LATENCY;
double SLOW_NETWORK_LATENCY;
double MAX_CLOGGING_LATENCY;
double MAX_BUGGIFIED_DELAY;
int SIM_CONNECT_ERROR_MODE;
// Tracefiles
int ZERO_LENGTH_FILE_PAD;
double TRACE_FLUSH_INTERVAL;
double TRACE_RETRY_OPEN_INTERVAL;
int MIN_TRACE_SEVERITY;
int MAX_TRACE_SUPPRESSIONS;
bool TRACE_DATETIME_ENABLED;
int TRACE_SYNC_ENABLED;
int TRACE_EVENT_METRIC_UNITS_PER_SAMPLE;
int TRACE_EVENT_THROTTLER_SAMPLE_EXPIRY;
int TRACE_EVENT_THROTTLER_MSG_LIMIT;
int MAX_TRACE_FIELD_LENGTH;
int MAX_TRACE_EVENT_LENGTH;
bool ALLOCATION_TRACING_ENABLED;
// TDMetrics
int64_t MAX_METRIC_SIZE;
int64_t MAX_METRIC_LEVEL;
double METRIC_LEVEL_DIVISOR;
int METRIC_LIMIT_START_QUEUE_SIZE;
int METRIC_LIMIT_RESPONSE_FACTOR;
int MAX_METRICS;
// Load Balancing
int LOAD_BALANCE_ZONE_ID_LOCALITY_ENABLED;
int LOAD_BALANCE_DC_ID_LOCALITY_ENABLED;
double LOAD_BALANCE_MAX_BACKOFF;
double LOAD_BALANCE_START_BACKOFF;
double LOAD_BALANCE_BACKOFF_RATE;
int64_t MAX_LAGGING_REQUESTS_OUTSTANDING;
double INSTANT_SECOND_REQUEST_MULTIPLIER;
double BASE_SECOND_REQUEST_TIME;
double SECOND_REQUEST_MULTIPLIER_GROWTH;
double SECOND_REQUEST_MULTIPLIER_DECAY;
double SECOND_REQUEST_BUDGET_GROWTH;
double SECOND_REQUEST_MAX_BUDGET;
double ALTERNATIVES_FAILURE_RESET_TIME;
double ALTERNATIVES_FAILURE_MIN_DELAY;
double ALTERNATIVES_FAILURE_DELAY_RATIO;
double ALTERNATIVES_FAILURE_MAX_DELAY;
double ALTERNATIVES_FAILURE_SLOW_DELAY_RATIO;
double ALTERNATIVES_FAILURE_SLOW_MAX_DELAY;
double ALTERNATIVES_FAILURE_SKIP_DELAY;
double FUTURE_VERSION_INITIAL_BACKOFF;
double FUTURE_VERSION_MAX_BACKOFF;
double FUTURE_VERSION_BACKOFF_GROWTH;
int LOAD_BALANCE_MAX_BAD_OPTIONS;
bool LOAD_BALANCE_PENALTY_IS_BAD;
double BASIC_LOAD_BALANCE_UPDATE_RATE;
double BASIC_LOAD_BALANCE_MAX_CHANGE;
double BASIC_LOAD_BALANCE_MAX_PROB;
int BASIC_LOAD_BALANCE_BUCKETS;
int BASIC_LOAD_BALANCE_COMPUTE_PRECISION;
double BASIC_LOAD_BALANCE_MIN_REQUESTS;
double BASIC_LOAD_BALANCE_MIN_CPU;
double LOAD_BALANCE_TSS_TIMEOUT;
bool LOAD_BALANCE_TSS_MISMATCH_VERIFY_SS;
bool LOAD_BALANCE_TSS_MISMATCH_TRACE_FULL;
int TSS_LARGE_TRACE_SIZE;
// Health Monitor
int FAILURE_DETECTION_DELAY;
bool HEALTH_MONITOR_MARK_FAILED_UNSTABLE_CONNECTIONS;
int HEALTH_MONITOR_CLIENT_REQUEST_INTERVAL_SECS;
int HEALTH_MONITOR_CONNECTION_MAX_CLOSED;
FlowKnobs(class Randomize, class IsSimulated);
void initialize(class Randomize, class IsSimulated);
};
// Flow knobs are needed before the knob collections are available, so a global FlowKnobs object is used to bootstrap
extern FlowKnobs bootstrapGlobalFlowKnobs;
extern FlowKnobs const* FLOW_KNOBS;
#endif