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|
/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* This program 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
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#pragma once
#include <memory>
#include "mongo/config.h"
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/auth/user_acquisition_stats.h"
#include "mongo/db/catalog/collection_catalog.h"
#include "mongo/db/commands.h"
#include "mongo/db/cursor_id.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/profile_filter.h"
#include "mongo/db/server_options.h"
#include "mongo/db/stats/resource_consumption_metrics.h"
#include "mongo/db/write_concern_options.h"
#include "mongo/logv2/attribute_storage.h"
#include "mongo/logv2/log_component.h"
#include "mongo/platform/atomic_word.h"
#include "mongo/util/duration.h"
#include "mongo/util/progress_meter.h"
#include "mongo/util/system_tick_source.h"
#include "mongo/util/tick_source.h"
#include "mongo/util/time_support.h"
#ifndef MONGO_CONFIG_USE_RAW_LATCHES
#include "mongo/util/diagnostic_info.h"
#endif
namespace mongo {
class Client;
class CurOp;
class OperationContext;
struct PlanSummaryStats;
/* lifespan is different than CurOp because of recursives with DBDirectClient */
class OpDebug {
public:
/**
* Holds counters for execution statistics that are meaningful both for multi-statement
* transactions and for individual operations outside of a transaction.
*/
class AdditiveMetrics {
public:
AdditiveMetrics() = default;
AdditiveMetrics(const AdditiveMetrics& other) {
this->add(other);
}
AdditiveMetrics& operator=(const AdditiveMetrics& other) {
reset();
add(other);
return *this;
}
/**
* Adds all the fields of another AdditiveMetrics object together with the fields of this
* AdditiveMetrics instance.
*/
void add(const AdditiveMetrics& otherMetrics);
/**
* Resets all members to the default state.
*/
void reset();
/**
* Returns true if the AdditiveMetrics object we are comparing has the same field values as
* this AdditiveMetrics instance.
*/
bool equals(const AdditiveMetrics& otherMetrics) const;
/**
* Increments writeConflicts by n.
*/
void incrementWriteConflicts(long long n);
/**
* Increments temporarilyUnavailableErrors by n.
*/
void incrementTemporarilyUnavailableErrors(long long n);
/**
* Increments keysInserted by n.
*/
void incrementKeysInserted(long long n);
/**
* Increments keysDeleted by n.
*/
void incrementKeysDeleted(long long n);
/**
* Increments ninserted by n.
*/
void incrementNinserted(long long n);
/**
* Increments nUpserted by n.
*/
void incrementNUpserted(long long n);
/**
* Increments prepareReadConflicts by n.
*/
void incrementPrepareReadConflicts(long long n);
/**
* Generates a string showing all non-empty fields. For every non-empty field field1,
* field2, ..., with corresponding values value1, value2, ..., we will output a string in
* the format: "<field1>:<value1> <field2>:<value2> ...".
*/
std::string report() const;
BSONObj reportBSON() const;
void report(logv2::DynamicAttributes* pAttrs) const;
boost::optional<long long> keysExamined;
boost::optional<long long> docsExamined;
// Number of records that match the query.
boost::optional<long long> nMatched;
// Number of records written (no no-ops).
boost::optional<long long> nModified;
boost::optional<long long> ninserted;
boost::optional<long long> ndeleted;
boost::optional<long long> nUpserted;
// Number of index keys inserted.
boost::optional<long long> keysInserted;
// Number of index keys removed.
boost::optional<long long> keysDeleted;
// The following fields are atomic because they are reported by CurrentOp. This is an
// exception to the prescription that OpDebug only be used by the owning thread because
// these metrics are tracked over the course of a transaction by SingleTransactionStats,
// which is built on OpDebug.
// Number of read conflicts caused by a prepared transaction.
AtomicWord<long long> prepareReadConflicts{0};
AtomicWord<long long> writeConflicts{0};
AtomicWord<long long> temporarilyUnavailableErrors{0};
};
OpDebug() = default;
void report(OperationContext* opCtx,
const SingleThreadedLockStats* lockStats,
const ResourceConsumption::OperationMetrics* operationMetrics,
logv2::DynamicAttributes* pAttrs) const;
/**
* Appends information about the current operation to "builder"
*
* @param curop reference to the CurOp that owns this OpDebug
* @param lockStats lockStats object containing locking information about the operation
*/
void append(OperationContext* opCtx,
const SingleThreadedLockStats& lockStats,
FlowControlTicketholder::CurOp flowControlStats,
BSONObjBuilder& builder) const;
static std::function<BSONObj(ProfileFilter::Args args)> appendStaged(StringSet requestedFields,
bool needWholeDocument);
static void appendUserInfo(const CurOp&, BSONObjBuilder&, AuthorizationSession*);
/**
* Copies relevant plan summary metrics to this OpDebug instance.
*/
void setPlanSummaryMetrics(const PlanSummaryStats& planSummaryStats);
/**
* The resulting object has zeros omitted. As is typical in this file.
*/
static BSONObj makeFlowControlObject(FlowControlTicketholder::CurOp flowControlStats);
/**
* Make object from $search stats with non-populated values omitted.
*/
BSONObj makeMongotDebugStatsObject() const;
/**
* Accumulate resolved views.
*/
void addResolvedViews(const std::vector<NamespaceString>& namespaces,
const std::vector<BSONObj>& pipeline);
/**
* Get or append the array with resolved views' info.
*/
BSONArray getResolvedViewsInfo() const;
void appendResolvedViewsInfo(BSONObjBuilder& builder) const;
// -------------------
// basic options
// _networkOp represents the network-level op code: OP_QUERY, OP_GET_MORE, OP_MSG, etc.
NetworkOp networkOp{opInvalid}; // only set this through setNetworkOp_inlock() to keep synced
// _logicalOp is the logical operation type, ie 'dbQuery' regardless of whether this is an
// OP_QUERY find, a find command using OP_QUERY, or a find command using OP_MSG.
// Similarly, the return value will be dbGetMore for both OP_GET_MORE and getMore command.
LogicalOp logicalOp{LogicalOp::opInvalid}; // only set this through setNetworkOp_inlock()
bool iscommand{false};
// detailed options
long long cursorid{-1};
bool exhaust{false};
// For search using mongot.
boost::optional<long long> mongotCursorId{boost::none};
boost::optional<long long> msWaitingForMongot{boost::none};
long long mongotBatchNum = 0;
bool hasSortStage{false}; // true if the query plan involves an in-memory sort
bool usedDisk{false}; // true if the given query used disk
long long sortSpills{0}; // The total number of spills to disk from sort stages
size_t sortTotalDataSizeBytes{0}; // The amount of data we've sorted in bytes
long long keysSorted{0}; // The number of keys that we've sorted.
// True if the plan came from the multi-planner (not from the plan cache and not a query with a
// single solution).
bool fromMultiPlanner{false};
bool fromPlanCache{false};
// True if a replan was triggered during the execution of this operation.
boost::optional<std::string> replanReason;
bool cursorExhausted{
false}; // true if the cursor has been closed at end a find/getMore operation
BSONObj execStats; // Owned here.
// The hash of the PlanCache key for the query being run. This may change depending on what
// indexes are present.
boost::optional<uint32_t> planCacheKey;
// The hash of the query's "stable" key. This represents the query's shape.
boost::optional<uint32_t> queryHash;
// The shape of the original query serialized with readConcern, application name, and namespace.
// If boost::none, telemetry should not be collected for this operation.
boost::optional<BSONObj> telemetryStoreKey;
// The query framework that this operation used. Will be unknown for non query operations.
PlanExecutor::QueryFramework queryFramework{PlanExecutor::QueryFramework::kUnknown};
// Tracks the amount of indexed loop joins in a pushed down lookup stage.
int indexedLoopJoin{0};
// Tracks the amount of nested loop joins in a pushed down lookup stage.
int nestedLoopJoin{0};
// Tracks the amount of hash lookups in a pushed down lookup stage.
int hashLookup{0};
// Tracks the amount of spills by hash lookup in a pushed down lookup stage.
int hashLookupSpillToDisk{0};
// Details of any error (whether from an exception or a command returning failure).
Status errInfo = Status::OK();
// Amount of time spent planning the query. Begins after parsing and ends
// after optimizations.
Microseconds planningTime{0};
// response info
Microseconds executionTime{0};
// Amount of CPU time used by this thread. Will remain zero if this platform does not support
// this feature.
Nanoseconds cpuTime{0};
long long nreturned{-1};
int responseLength{-1};
// Shard targeting info.
int nShards{-1};
// Stores the duration of time spent blocked on prepare conflicts.
Milliseconds prepareConflictDurationMillis{0};
// Total time spent looking up database entry in the local catalog cache, including eventual
// refreshes.
Milliseconds catalogCacheDatabaseLookupMillis{0};
// Total time spent looking up collection entry in the local catalog cache, including eventual
// refreshes.
Milliseconds catalogCacheCollectionLookupMillis{0};
// Total time spent looking up index entries in the local cache, including eventual refreshes.
Milliseconds catalogCacheIndexLookupMillis{0};
// Stores the duration of time spent waiting for the shard to refresh the database and wait for
// the database critical section.
Milliseconds databaseVersionRefreshMillis{0};
// Stores the duration of time spent waiting for the shard to refresh the collection and wait
// for the collection critical section.
Milliseconds placementVersionRefreshMillis{0};
// Stores the duration of time spent waiting for the specified user write concern to
// be fulfilled.
Milliseconds waitForWriteConcernDurationMillis{0};
// Stores the amount of the data processed by the throttle cursors in MB/sec.
boost::optional<float> dataThroughputLastSecond;
boost::optional<float> dataThroughputAverage;
// Used to track the amount of time spent waiting for a response from remote operations.
boost::optional<Microseconds> remoteOpWaitTime;
// Stores additive metrics.
AdditiveMetrics additiveMetrics;
// Stores storage statistics.
std::unique_ptr<StorageStats> storageStats;
bool waitingForFlowControl{false};
// Records the WC that was waited on during the operation. (The WC in opCtx can't be used
// because it's only set while the Command itself executes.)
boost::optional<WriteConcernOptions> writeConcern;
// Whether this is an oplog getMore operation for replication oplog fetching.
bool isReplOplogGetMore{false};
// Maps namespace of a resolved view to its dependency chain and the fully unrolled pipeline. To
// make log line deterministic and easier to test, use ordered map. As we don't expect many
// resolved views per query, a hash map would unlikely provide any benefits.
std::map<NamespaceString, std::pair<std::vector<NamespaceString>, std::vector<BSONObj>>>
resolvedViews;
};
/**
* Container for data used to report information about an OperationContext.
*
* Every OperationContext in a server with CurOp support has a stack of CurOp
* objects. The entry at the top of the stack is used to record timing and
* resource statistics for the executing operation or suboperation.
*
* All of the accessor methods on CurOp may be called by the thread executing
* the associated OperationContext at any time, or by other threads that have
* locked the context's owning Client object.
*
* The mutator methods on CurOp whose names end _inlock may only be called by the thread
* executing the associated OperationContext and Client, and only when that thread has also
* locked the Client object. All other mutators may only be called by the thread executing
* CurOp, but do not require holding the Client lock. The exception to this is the kill()
* method, which is self-synchronizing.
*
* The OpDebug member of a CurOp, accessed via the debug() accessor should *only* be accessed
* from the thread executing an operation, and as a result its fields may be accessed without
* any synchronization.
*/
class CurOp {
CurOp(const CurOp&) = delete;
CurOp& operator=(const CurOp&) = delete;
public:
static CurOp* get(const OperationContext* opCtx);
static CurOp* get(const OperationContext& opCtx);
/**
* Writes a report of the operation being executed by the given client to the supplied
* BSONObjBuilder, in a format suitable for display in currentOp. Does not include a lockInfo
* report, since this may be called in either a mongoD or mongoS context and the latter does not
* supply lock stats. The client must be locked before calling this method.
*/
static void reportCurrentOpForClient(OperationContext* opCtx,
Client* client,
bool truncateOps,
bool backtraceMode,
BSONObjBuilder* infoBuilder);
static bool currentOpBelongsToTenant(Client* client, TenantId tenantId);
/**
* Serializes the fields of a GenericCursor which do not appear elsewhere in the currentOp
* output. If 'maxQuerySize' is given, truncates the cursor's originatingCommand but preserves
* the comment.
*/
static BSONObj truncateAndSerializeGenericCursor(GenericCursor* cursor,
boost::optional<size_t> maxQuerySize);
/**
* Pushes this CurOp to the top of the given "opCtx"'s CurOp stack.
*/
void push(OperationContext* opCtx);
CurOp() = default;
/**
* This allows the caller to set the command on the CurOp without using setCommand_inlock and
* having to acquire the Client lock or having to leave a comment indicating why the
* client lock isn't necessary.
*/
explicit CurOp(const Command* command) : _command{command} {}
~CurOp();
/**
* Fills out CurOp and OpDebug with basic info common to all commands. We require the NetworkOp
* in order to distinguish which protocol delivered this request, e.g. OP_QUERY or OP_MSG. This
* is set early in the request processing backend and does not typically need to be called
* thereafter. Locks the client as needed to apply the specified settings.
*/
void setGenericOpRequestDetails(NamespaceString nss,
const Command* command,
BSONObj cmdObj,
NetworkOp op);
/**
* Marks the operation end time, records the length of the client response if a valid response
* exists, and then - subject to the current values of slowMs and sampleRate - logs this CurOp
* to file under the given LogComponent. Returns 'true' if, in addition to being logged, this
* operation should also be profiled.
*/
bool completeAndLogOperation(logv2::LogComponent logComponent,
std::shared_ptr<const ProfileFilter> filter,
boost::optional<size_t> responseLength = boost::none,
boost::optional<long long> slowMsOverride = boost::none,
bool forceLog = false);
bool haveOpDescription() const {
return !_opDescription.isEmpty();
}
/**
* The BSONObj returned may not be owned by CurOp. Callers should call getOwned() if they plan
* to reference beyond the lifetime of this CurOp instance.
*/
BSONObj opDescription() const {
return _opDescription;
}
/**
* Returns an owned BSONObj representing the original command. Used only by the getMore
* command.
*/
BSONObj originatingCommand() const {
return _originatingCommand;
}
void enter_inlock(NamespaceString nss, int dbProfileLevel);
void enter_inlock(const DatabaseName& dbName, int dbProfileLevel);
/**
* Sets the type of the current network operation.
*/
void setNetworkOp_inlock(NetworkOp op) {
_networkOp = op;
_debug.networkOp = op;
}
/**
* Sets the type of the current logical operation.
*/
void setLogicalOp_inlock(LogicalOp op) {
_logicalOp = op;
_debug.logicalOp = op;
}
/**
* Marks the current operation as being a command.
*/
void markCommand_inlock() {
_isCommand = true;
}
/**
* Returns a structure containing data used for profiling, accessed only by a thread
* currently executing the operation context associated with this CurOp.
*/
OpDebug& debug() {
return _debug;
}
/**
* Gets the name of the namespace on which the current operation operates.
*/
std::string getNS() const;
/**
* Returns a const pointer to the UserAcquisitionStats for the current operation.
* This can only be used for reading (i.e., when logging or profiling).
*/
const UserAcquisitionStats* getReadOnlyUserAcquisitionStats() const {
return &_userAcquisitionStats;
}
/**
* Returns a non-const raw pointers to UserAcquisitionStats member.
*/
UserAcquisitionStats* getMutableUserAcquisitionStats() {
return &_userAcquisitionStats;
}
/**
* Gets the name of the namespace on which the current operation operates.
*/
NamespaceString getNSS() const {
return _nss;
}
/**
* Returns true if the elapsed time of this operation is such that it should be profiled or
* profile level is set to 2. Uses total time if the operation is done, current elapsed time
* otherwise.
*
* When a custom filter is set, we conservatively assume it would match this operation.
*/
bool shouldDBProfile() {
// Profile level 2 should override any sample rate or slowms settings.
if (_dbprofile >= 2)
return true;
if (_dbprofile <= 0)
return false;
if (CollectionCatalog::get(opCtx())->getDatabaseProfileSettings(getNSS().db()).filter)
return true;
return elapsedTimeExcludingPauses() >= Milliseconds{serverGlobalParams.slowMS.load()};
}
/**
* Raises the profiling level for this operation to "dbProfileLevel" if it was previously
* less than "dbProfileLevel".
*
* This belongs on OpDebug, and so does not have the _inlock suffix.
*/
void raiseDbProfileLevel(int dbProfileLevel);
int dbProfileLevel() const {
return _dbprofile;
}
/**
* Gets the network operation type. No lock is required if called by the thread executing
* the operation, but the lock must be held if called from another thread.
*/
NetworkOp getNetworkOp() const {
return _networkOp;
}
/**
* Gets the logical operation type. No lock is required if called by the thread executing
* the operation, but the lock must be held if called from another thread.
*/
LogicalOp getLogicalOp() const {
return _logicalOp;
}
/**
* Returns true if the current operation is known to be a command.
*/
bool isCommand() const {
return _isCommand;
}
//
// Methods for getting/setting elapsed time. Note that the observed elapsed time may be
// negative, if the system time has been reset during the course of this operation.
//
void ensureStarted() {
(void)startTime();
}
bool isStarted() const {
return _start.load() != 0;
}
void done();
bool isDone() const {
return _end > 0;
}
bool isPaused() {
return _lastPauseTime != 0;
}
/**
* Stops the operation latency timer from "ticking". Time spent paused is not included in the
* latencies returned by elapsedTimeExcludingPauses().
*
* Illegal to call if either the CurOp has not been started, or the CurOp is already in a paused
* state.
*/
void pauseTimer() {
invariant(isStarted());
invariant(_lastPauseTime == 0);
_lastPauseTime = _tickSource->getTicks();
}
/**
* Starts the operation latency timer "ticking" again. Illegal to call if the CurOp has not been
* started and then subsequently paused.
*/
void resumeTimer() {
invariant(isStarted());
invariant(_lastPauseTime > 0);
_totalPausedDuration +=
_tickSource->ticksTo<Microseconds>(_tickSource->getTicks() - _lastPauseTime);
_lastPauseTime = 0;
}
/**
* Ensures that remoteOpWait will be recorded in the OpDebug.
*
* This method is separate from startRemoteOpWait because operation types that do record
* remoteOpWait, such as a getMore of a sharded aggregation, should always include the
* remoteOpWait field even if its value is zero. An operation should call
* ensureRecordRemoteOpWait() to declare that it wants to report remoteOpWait, and call
* startRemoteOpWaitTimer()/stopRemoteOpWaitTimer() to measure the time.
*
* This timer uses the same clock source as elapsedTimeTotal().
*/
void ensureRecordRemoteOpWait() {
if (!_debug.remoteOpWaitTime) {
_debug.remoteOpWaitTime.emplace(0);
}
}
/**
* Starts the remoteOpWait timer.
*
* Does nothing if ensureRecordRemoteOpWait() was not called or the current operation was not
* marked as started.
*/
void startRemoteOpWaitTimer() {
// There are some commands that send remote operations but do not mark the current operation
// as started. We do not record remote op wait time for those commands.
if (!isStarted()) {
return;
}
invariant(!isDone());
invariant(!isPaused());
invariant(!_remoteOpStartTime);
if (_debug.remoteOpWaitTime) {
_remoteOpStartTime.emplace(elapsedTimeTotal());
}
}
/**
* Stops the remoteOpWait timer.
*
* Does nothing if ensureRecordRemoteOpWait() was not called or the current operation was not
* marked as started.
*/
void stopRemoteOpWaitTimer() {
// There are some commands that send remote operations but do not mark the current operation
// as started. We do not record remote op wait time for those commands.
if (!isStarted()) {
return;
}
invariant(!isDone());
invariant(!isPaused());
if (_debug.remoteOpWaitTime) {
Microseconds end = elapsedTimeTotal();
invariant(_remoteOpStartTime);
// On most systems a monotonic clock source will be used to measure time. When a
// monotonic clock is not available we fallback to using the realtime system clock. When
// used, a backward shift of the realtime system clock could lead to a negative delta.
Microseconds delta = std::max((end - *_remoteOpStartTime), Microseconds{0});
*_debug.remoteOpWaitTime += delta;
_remoteOpStartTime = boost::none;
}
invariant(!_remoteOpStartTime);
}
/**
* If this op has been marked as done(), returns the wall clock duration between being marked as
* started with ensureStarted() and the call to done().
*
* Otherwise, returns the wall clock duration between the start time and now.
*
* If this op has not yet been started, returns 0.
*/
Microseconds elapsedTimeTotal() {
auto start = _start.load();
if (start == 0) {
return Microseconds{0};
}
return computeElapsedTimeTotal(start, _end.load());
}
/**
* Returns the total elapsed duration minus any time spent in a paused state. See
* elapsedTimeTotal() for the definition of the total duration and pause/resumeTimer() for
* details on pausing.
*
* If this op has not yet been started, returns 0.
*
* Illegal to call while the timer is paused.
*/
Microseconds elapsedTimeExcludingPauses() {
invariant(!_lastPauseTime);
auto start = _start.load();
if (start == 0) {
return Microseconds{0};
}
return computeElapsedTimeTotal(start, _end.load()) - _totalPausedDuration;
}
/**
* The planningTimeMicros metric, reported in the system profiler and in telemetry, is measured
* using the Curop instance's _tickSource. Currently, _tickSource is only paused in places where
logical work is being done. If this were to change, and _tickSource
were to be paused during query planning for reasons unrelated to the work of
planning/optimization, it would break the planning time measurement below.
*
*/
void beginQueryPlanningTimer() {
// This is an inner executor/cursor, the metrics for which don't get tracked by
// OpDebug::planningTime.
if (_queryPlanningStart.load() != 0) {
return;
}
_queryPlanningStart = _tickSource->getTicks();
}
void stopQueryPlanningTimer() {
// The planningTime metric is defined as being done once PrepareExecutionHelper::prepare()
// is hit, which calls this function to stop the timer. As certain queries like $lookup
// require inner cursors/executors that will follow this same codepath, it is important to
// make sure the metric exclusively captures the time associated with the outermost cursor.
// This is done by making sure planningTime has not already been set and that start has been
// marked (as inner executors are prepared outside of the codepath that begins the planning
// timer).
auto start = _queryPlanningStart.load();
if (debug().planningTime == Microseconds{0} && start != 0) {
_queryPlanningEnd = _tickSource->getTicks();
debug().planningTime = computeElapsedTimeTotal(start, _queryPlanningEnd.load());
}
}
/**
* Starts the waitForWriteConcern timer.
*
* The timer must be ended before it can be started again.
*/
void beginWaitForWriteConcernTimer() {
invariant(_waitForWriteConcernStart.load() == 0);
_waitForWriteConcernStart = _tickSource->getTicks();
_waitForWriteConcernEnd = 0;
}
/**
* Stops the waitForWriteConcern timer.
*
* Does nothing if the timer has not been started.
*/
void stopWaitForWriteConcernTimer() {
auto start = _waitForWriteConcernStart.load();
if (start != 0) {
_waitForWriteConcernEnd = _tickSource->getTicks();
debug().waitForWriteConcernDurationMillis += duration_cast<Milliseconds>(
computeElapsedTimeTotal(start, _waitForWriteConcernEnd.load()));
_waitForWriteConcernStart = 0;
}
}
/**
* 'opDescription' must be either an owned BSONObj or guaranteed to outlive the OperationContext
* it is associated with.
*/
void setOpDescription_inlock(const BSONObj& opDescription);
/**
* Sets the original command object.
*/
void setOriginatingCommand_inlock(const BSONObj& commandObj) {
_originatingCommand = commandObj.getOwned();
}
const Command* getCommand() const {
return _command;
}
void setCommand_inlock(const Command* command) {
_command = command;
}
/**
* Returns whether the current operation is a read, write, or command.
*/
Command::ReadWriteType getReadWriteType() const;
/**
* Appends information about this CurOp to "builder". If "truncateOps" is true, appends a string
* summary of any objects which exceed the threshold size. If truncateOps is false, append the
* entire object.
*
* If called from a thread other than the one executing the operation associated with this
* CurOp, it is necessary to lock the associated Client object before executing this method.
*/
void reportState(BSONObjBuilder* builder, bool truncateOps = false);
/**
* Sets the message for FailPoints used.
*/
void setFailPointMessage_inlock(StringData message) {
_failPointMessage = message.toString();
}
/**
* Sets the message for this CurOp.
*/
void setMessage_inlock(StringData message);
/**
* Sets the message and the progress meter for this CurOp.
*
* Accessors and modifiers of ProgressMeter associated with the CurOp must follow the same
* locking scheme as CurOp. It is necessary to hold the lock while this method executes.
*/
ProgressMeter& setProgress_inlock(StringData name,
unsigned long long progressMeterTotal = 0,
int secondsBetween = 3);
/*
* Gets the message for FailPoints used.
*/
const std::string& getFailPointMessage() const {
return _failPointMessage;
}
/**
* Gets the message for this CurOp.
*/
const std::string& getMessage() const {
return _message;
}
const ProgressMeter& getProgressMeter() {
return _progressMeter;
}
CurOp* parent() const {
return _parent;
}
boost::optional<GenericCursor> getGenericCursor_inlock() const {
return _genericCursor;
}
void yielded(int numYields = 1) {
_numYields.fetchAndAdd(numYields);
}
/**
* Returns the number of times yielded() was called. Callers on threads other
* than the one executing the operation must lock the client.
*/
int numYields() const {
return _numYields.load();
}
/**
* this should be used very sparingly
* generally the Context should set this up
* but sometimes you want to do it ahead of time
*/
void setNS_inlock(NamespaceString nss);
void setNS_inlock(const DatabaseName& dbName);
StringData getPlanSummary() const {
return _planSummary;
}
void setPlanSummary_inlock(StringData summary) {
_planSummary = summary.toString();
}
void setPlanSummary_inlock(std::string summary) {
_planSummary = std::move(summary);
}
void setGenericCursor_inlock(GenericCursor gc);
boost::optional<SingleThreadedLockStats> getLockStatsBase() const {
return _lockStatsBase;
}
void setTickSource_forTest(TickSource* tickSource) {
_tickSource = tickSource;
}
/**
* Merge match counters from the current operation into the global map and stop counting.
*/
void stopMatchExprCounter();
/**
* Increment the counter for the match expression with given name in the current operation.
*/
void incrementMatchExprCounter(StringData name);
private:
class CurOpStack;
/**
* Gets the OperationContext associated with this CurOp.
* This must only be called after the CurOp has been pushed to an OperationContext's CurOpStack.
*/
OperationContext* opCtx();
TickSource::Tick startTime();
Microseconds computeElapsedTimeTotal(TickSource::Tick startTime,
TickSource::Tick endTime) const;
/**
* Handles failpoints that check whether a command has completed or not.
* Used for testing purposes instead of the getLog command.
*/
void _checkForFailpointsAfterCommandLogged();
static const OperationContext::Decoration<CurOpStack> _curopStack;
// The stack containing this CurOp instance.
// This is set when this instance is pushed to the stack.
CurOpStack* _stack{nullptr};
// The CurOp beneath this CurOp instance in its stack, if any.
// This is set when this instance is pushed to a non-empty stack.
CurOp* _parent{nullptr};
const Command* _command{nullptr};
// The time at which this CurOp instance was marked as started.
std::atomic<TickSource::Tick> _start{0}; // NOLINT
// The time at which this CurOp instance was marked as done or 0 if the CurOp is not yet done.
std::atomic<TickSource::Tick> _end{0}; // NOLINT
// This CPU timer tracks the CPU time spent for this operation. Will be nullptr on unsupported
// platforms.
std::unique_ptr<OperationCPUTimer> _cpuTimer;
// The time at which this CurOp instance had its timer paused, or 0 if the timer is not
// currently paused.
TickSource::Tick _lastPauseTime{0};
// The cumulative duration for which the timer has been paused.
Microseconds _totalPausedDuration{0};
// The elapsedTimeTotal() value at which the remoteOpWait timer was started, or empty if the
// remoteOpWait timer is not currently running.
boost::optional<Microseconds> _remoteOpStartTime;
// _networkOp represents the network-level op code: OP_QUERY, OP_GET_MORE, OP_MSG, etc.
NetworkOp _networkOp{opInvalid}; // only set this through setNetworkOp_inlock() to keep synced
// _logicalOp is the logical operation type, ie 'dbQuery' regardless of whether this is an
// OP_QUERY find, a find command using OP_QUERY, or a find command using OP_MSG.
// Similarly, the return value will be dbGetMore for both OP_GET_MORE and getMore command.
LogicalOp _logicalOp{LogicalOp::opInvalid}; // only set this through setNetworkOp_inlock()
bool _isCommand{false};
int _dbprofile{0}; // 0=off, 1=slow, 2=all
NamespaceString _nss;
BSONObj _opDescription;
BSONObj _originatingCommand; // Used by getMore to display original command.
OpDebug _debug;
std::string _failPointMessage; // Used to store FailPoint information.
std::string _message;
ProgressMeter _progressMeter;
AtomicWord<int> _numYields{0};
// A GenericCursor containing information about the active cursor for a getMore operation.
boost::optional<GenericCursor> _genericCursor;
std::string _planSummary;
// The snapshot of lock stats taken when this CurOp instance is pushed to a
// CurOpStack.
boost::optional<SingleThreadedLockStats> _lockStatsBase;
UserAcquisitionStats _userAcquisitionStats;
TickSource* _tickSource = globalSystemTickSource();
// These values are used to calculate the amount of time spent planning a query.
std::atomic<TickSource::Tick> _queryPlanningStart{0}; // NOLINT
std::atomic<TickSource::Tick> _queryPlanningEnd{0}; // NOLINT
// These values are used to calculate the amount of time spent waiting for write concern.
std::atomic<TickSource::Tick> _waitForWriteConcernStart{0}; // NOLINT
std::atomic<TickSource::Tick> _waitForWriteConcernEnd{0}; // NOLINT
};
} // namespace mongo
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