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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.
*/
// CHECK_LOG_REDACTION
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kDefault
#include "mongo/platform/basic.h"
#include "mongo/db/curop.h"
#include <iomanip>
#include "mongo/bson/mutable/document.h"
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/client.h"
#include "mongo/db/commands.h"
#include "mongo/db/commands/server_status_metric.h"
#include "mongo/db/concurrency/d_concurrency.h"
#include "mongo/db/concurrency/locker.h"
#include "mongo/db/json.h"
#include "mongo/db/query/getmore_request.h"
#include "mongo/db/query/plan_summary_stats.h"
#include "mongo/rpc/metadata/client_metadata.h"
#include "mongo/rpc/metadata/client_metadata_ismaster.h"
#include "mongo/rpc/metadata/impersonated_user_metadata.h"
#include "mongo/util/hex.h"
#include "mongo/util/log.h"
#include "mongo/util/net/socket_utils.h"
#include "mongo/util/str.h"
namespace mongo {
using std::string;
namespace {
// Lists the $-prefixed query options that can be passed alongside a wrapped query predicate for
// OP_QUERY find. The $orderby field is omitted because "orderby" (no dollar sign) is also allowed,
// and this requires special handling.
const std::vector<const char*> kDollarQueryModifiers = {
"$hint", "$comment", "$max", "$min", "$returnKey", "$showDiskLoc", "$snapshot", "$maxTimeMS",
};
} // namespace
BSONObj upconvertQueryEntry(const BSONObj& query,
const NamespaceString& nss,
int ntoreturn,
int ntoskip) {
BSONObjBuilder bob;
bob.append("find", nss.coll());
// Whether or not the query predicate is wrapped inside a "query" or "$query" field so that
// other options can be passed alongside the predicate.
bool predicateIsWrapped = false;
// Extract the query predicate.
BSONObj filter;
if (query["query"].isABSONObj()) {
predicateIsWrapped = true;
bob.appendAs(query["query"], "filter");
} else if (query["$query"].isABSONObj()) {
predicateIsWrapped = true;
bob.appendAs(query["$query"], "filter");
} else if (!query.isEmpty()) {
bob.append("filter", query);
}
if (ntoskip) {
bob.append("skip", ntoskip);
}
if (ntoreturn) {
bob.append("ntoreturn", ntoreturn);
}
// The remainder of the query options are only available if the predicate is passed in wrapped
// form. If the predicate is not wrapped, we're done.
if (!predicateIsWrapped) {
return bob.obj();
}
// Extract the sort.
if (auto elem = query["orderby"]) {
bob.appendAs(elem, "sort");
} else if (auto elem = query["$orderby"]) {
bob.appendAs(elem, "sort");
}
// Add $-prefixed OP_QUERY modifiers, like $hint.
for (auto modifier : kDollarQueryModifiers) {
if (auto elem = query[modifier]) {
// Use "+ 1" to omit the leading dollar sign.
bob.appendAs(elem, modifier + 1);
}
}
return bob.obj();
}
BSONObj upconvertGetMoreEntry(const NamespaceString& nss, CursorId cursorId, int ntoreturn) {
return GetMoreRequest(nss,
cursorId,
ntoreturn,
boost::none, // awaitDataTimeout
boost::none, // term
boost::none // lastKnownCommittedOpTime
)
.toBSON();
}
/**
* This type decorates a Client object with a stack of active CurOp objects.
*
* It encapsulates the nesting logic for curops attached to a Client, along with
* the notion that there is always a root CurOp attached to a Client.
*
* The stack itself is represented in the _parent pointers of the CurOp class.
*/
class CurOp::CurOpStack {
CurOpStack(const CurOpStack&) = delete;
CurOpStack& operator=(const CurOpStack&) = delete;
public:
CurOpStack() : _base(nullptr, this) {}
/**
* Returns the top of the CurOp stack.
*/
CurOp* top() const {
return _top;
}
/**
* Adds "curOp" to the top of the CurOp stack for a client. Called by CurOp's constructor.
*/
void push(OperationContext* opCtx, CurOp* curOp) {
invariant(opCtx);
if (_opCtx) {
invariant(_opCtx == opCtx);
} else {
_opCtx = opCtx;
}
stdx::lock_guard<Client> lk(*_opCtx->getClient());
push_nolock(curOp);
}
void push_nolock(CurOp* curOp) {
invariant(!curOp->_parent);
curOp->_parent = _top;
_top = curOp;
}
/**
* Pops the top off the CurOp stack for a Client. Called by CurOp's destructor.
*/
CurOp* pop() {
// It is not necessary to lock when popping the final item off of the curop stack. This
// is because the item at the base of the stack is owned by the stack itself, and is not
// popped until the stack is being destroyed. By the time the stack is being destroyed,
// no other threads can be observing the Client that owns the stack, because it has been
// removed from its ServiceContext's set of owned clients. Further, because the last
// item is popped in the destructor of the stack, and that destructor runs during
// destruction of the owning client, it is not safe to access other member variables of
// the client during the final pop.
const bool shouldLock = _top->_parent;
if (shouldLock) {
invariant(_opCtx);
_opCtx->getClient()->lock();
}
invariant(_top);
CurOp* retval = _top;
_top = _top->_parent;
if (shouldLock) {
_opCtx->getClient()->unlock();
}
return retval;
}
private:
OperationContext* _opCtx = nullptr;
// Top of the stack of CurOps for a Client.
CurOp* _top = nullptr;
// The bottom-most CurOp for a client.
const CurOp _base;
};
const OperationContext::Decoration<CurOp::CurOpStack> CurOp::_curopStack =
OperationContext::declareDecoration<CurOp::CurOpStack>();
CurOp* CurOp::get(const OperationContext* opCtx) {
return get(*opCtx);
}
CurOp* CurOp::get(const OperationContext& opCtx) {
return _curopStack(opCtx).top();
}
void CurOp::reportCurrentOpForClient(OperationContext* opCtx,
Client* client,
bool truncateOps,
BSONObjBuilder* infoBuilder) {
invariant(client);
OperationContext* clientOpCtx = client->getOperationContext();
infoBuilder->append("type", "op");
const std::string hostName = getHostNameCachedAndPort();
infoBuilder->append("host", hostName);
client->reportState(*infoBuilder);
const auto& clientMetadata = ClientMetadataIsMasterState::get(client).getClientMetadata();
if (clientMetadata) {
auto appName = clientMetadata.get().getApplicationName();
if (!appName.empty()) {
infoBuilder->append("appName", appName);
}
auto clientMetadataDocument = clientMetadata.get().getDocument();
infoBuilder->append("clientMetadata", clientMetadataDocument);
}
// Fill out the rest of the BSONObj with opCtx specific details.
infoBuilder->appendBool("active", static_cast<bool>(clientOpCtx));
infoBuilder->append("currentOpTime",
opCtx->getServiceContext()->getPreciseClockSource()->now().toString());
auto authSession = AuthorizationSession::get(client);
// Depending on whether we're impersonating or not, this might be "effectiveUsers" or
// "userImpersonators".
const auto serializeAuthenticatedUsers = [&](StringData name) {
if (authSession->isAuthenticated()) {
BSONArrayBuilder users(infoBuilder->subarrayStart(name));
for (auto userIt = authSession->getAuthenticatedUserNames(); userIt.more();
userIt.next()) {
userIt->serializeToBSON(&users);
}
}
};
auto maybeImpersonationData = rpc::getImpersonatedUserMetadata(clientOpCtx);
if (maybeImpersonationData) {
BSONArrayBuilder users(infoBuilder->subarrayStart("effectiveUsers"));
for (const auto& user : maybeImpersonationData->getUsers()) {
user.serializeToBSON(&users);
}
users.doneFast();
serializeAuthenticatedUsers("userImpersonators"_sd);
} else {
serializeAuthenticatedUsers("effectiveUsers"_sd);
}
if (clientOpCtx) {
infoBuilder->append("opid", clientOpCtx->getOpID());
if (clientOpCtx->isKillPending()) {
infoBuilder->append("killPending", true);
}
if (auto lsid = clientOpCtx->getLogicalSessionId()) {
BSONObjBuilder lsidBuilder(infoBuilder->subobjStart("lsid"));
lsid->serialize(&lsidBuilder);
}
CurOp::get(clientOpCtx)->reportState(infoBuilder, truncateOps);
}
}
void CurOp::setGenericCursor_inlock(GenericCursor gc) {
_genericCursor = std::move(gc);
}
CurOp::CurOp(OperationContext* opCtx) : CurOp(opCtx, &_curopStack(opCtx)) {
// If this is a sub-operation, we store the snapshot of lock stats as the base lock stats of the
// current operation.
if (_parent != nullptr)
_lockStatsBase = opCtx->lockState()->getLockerInfo(boost::none)->stats;
}
CurOp::CurOp(OperationContext* opCtx, CurOpStack* stack) : _stack(stack) {
if (opCtx) {
_stack->push(opCtx, this);
} else {
_stack->push_nolock(this);
}
}
CurOp::~CurOp() {
if (parent() != nullptr)
parent()->yielded(_numYields);
invariant(this == _stack->pop());
}
void CurOp::setGenericOpRequestDetails(OperationContext* opCtx,
const NamespaceString& nss,
const Command* command,
BSONObj cmdObj,
NetworkOp op) {
// Set the _isCommand flags based on network op only. For legacy writes on mongoS, we resolve
// them to OpMsgRequests and then pass them into the Commands path, so having a valid Command*
// here does not guarantee that the op was issued from the client using a command protocol.
const bool isCommand = (op == dbMsg || (op == dbQuery && nss.isCommand()));
auto logicalOp = (command ? command->getLogicalOp() : networkOpToLogicalOp(op));
stdx::lock_guard<Client> clientLock(*opCtx->getClient());
_isCommand = _debug.iscommand = isCommand;
_logicalOp = _debug.logicalOp = logicalOp;
_networkOp = _debug.networkOp = op;
_opDescription = cmdObj;
_command = command;
_ns = nss.ns();
}
void CurOp::setMessage_inlock(StringData message) {
if (_progressMeter.isActive()) {
error() << "old _message: " << redact(_message) << " new message:" << redact(message);
verify(!_progressMeter.isActive());
}
_message = message.toString(); // copy
}
ProgressMeter& CurOp::setProgress_inlock(StringData message,
unsigned long long progressMeterTotal,
int secondsBetween) {
setMessage_inlock(message);
_progressMeter.reset(progressMeterTotal, secondsBetween);
_progressMeter.setName(message);
return _progressMeter;
}
void CurOp::setNS_inlock(StringData ns) {
_ns = ns.toString();
}
void CurOp::ensureStarted() {
if (_start == 0) {
_start = curTimeMicros64();
}
}
void CurOp::enter_inlock(const char* ns, boost::optional<int> dbProfileLevel) {
ensureStarted();
_ns = ns;
if (dbProfileLevel) {
raiseDbProfileLevel(*dbProfileLevel);
}
}
void CurOp::raiseDbProfileLevel(int dbProfileLevel) {
_dbprofile = std::max(dbProfileLevel, _dbprofile);
}
bool CurOp::completeAndLogOperation(OperationContext* opCtx,
logger::LogComponent component,
boost::optional<size_t> responseLength,
boost::optional<long long> slowMsOverride,
bool forceLog) {
// Log the operation if it is eligible according to the current slowMS and sampleRate settings.
const bool shouldLogOp = (forceLog || shouldLog(component, logger::LogSeverity::Debug(1)));
const long long slowMs = slowMsOverride.value_or(serverGlobalParams.slowMS);
const auto client = opCtx->getClient();
// Record the size of the response returned to the client, if applicable.
if (responseLength) {
_debug.responseLength = *responseLength;
}
// Obtain the total execution time of this operation.
_end = curTimeMicros64();
_debug.executionTimeMicros = durationCount<Microseconds>(elapsedTimeExcludingPauses());
const bool shouldSample =
client->getPrng().nextCanonicalDouble() < serverGlobalParams.sampleRate;
if (shouldLogOp || (shouldSample && _debug.executionTimeMicros > slowMs * 1000LL)) {
auto lockerInfo = opCtx->lockState()->getLockerInfo(_lockStatsBase);
if (_debug.storageStats == nullptr && opCtx->lockState()->wasGlobalLockTaken() &&
opCtx->getServiceContext()->getStorageEngine()) {
// Do not fetch operation statistics again if we have already got them (for instance,
// as a part of stashing the transaction).
// Take a lock before calling into the storage engine to prevent racing against a
// shutdown. Any operation that used a storage engine would have at-least held a
// global lock at one point, hence we limit our lock acquisition to such operations.
// We can get here and our lock acquisition be timed out or interrupted, log a
// message if that happens.
try {
Lock::GlobalLock lk(opCtx,
MODE_IS,
Date_t::now() + Milliseconds(500),
Lock::InterruptBehavior::kLeaveUnlocked);
if (lk.isLocked()) {
_debug.storageStats = opCtx->recoveryUnit()->getOperationStatistics();
} else {
log(component) << "Timed out obtaining lock while trying to gather storage "
"statistics for a slow operation";
}
} catch (const ExceptionForCat<ErrorCategory::Interruption>&) {
log(component)
<< "Interrupted while trying to gather storage statistics for a slow operation";
}
}
log(component) << _debug.report(client,
*this,
(lockerInfo ? &lockerInfo->stats : nullptr),
opCtx->lockState()->getFlowControlStats());
}
// Return 'true' if this operation should also be added to the profiler.
return shouldDBProfile(shouldSample);
}
Command::ReadWriteType CurOp::getReadWriteType() const {
if (_command) {
return _command->getReadWriteType();
}
switch (_logicalOp) {
case LogicalOp::opGetMore:
case LogicalOp::opQuery:
return Command::ReadWriteType::kRead;
case LogicalOp::opUpdate:
case LogicalOp::opInsert:
case LogicalOp::opDelete:
return Command::ReadWriteType::kWrite;
default:
return Command::ReadWriteType::kCommand;
}
}
namespace {
/**
* Appends {<name>: obj} to the provided builder. If obj is greater than maxSize, appends a string
* summary of obj as { <name>: { $truncated: "obj" } }. If a comment parameter is present, add it to
* the truncation object.
*/
void appendAsObjOrString(StringData name,
const BSONObj& obj,
const boost::optional<size_t> maxSize,
BSONObjBuilder* builder) {
if (!maxSize || static_cast<size_t>(obj.objsize()) <= *maxSize) {
builder->append(name, obj);
} else {
// Generate an abbreviated serialization for the object, by passing false as the
// "full" argument to obj.toString().
std::string objToString = obj.toString();
if (objToString.size() > *maxSize) {
// objToString is still too long, so we append to the builder a truncated form
// of objToString concatenated with "...". Instead of creating a new string
// temporary, mutate objToString to do this (we know that we can mutate
// characters in objToString up to and including objToString[maxSize]).
objToString[*maxSize - 3] = '.';
objToString[*maxSize - 2] = '.';
objToString[*maxSize - 1] = '.';
}
StringData truncation = StringData(objToString).substr(0, *maxSize);
// Append the truncated representation of the object to the builder. If a comment parameter
// is present, write it to the object alongside the truncated op. This object will appear as
// {$truncated: "{find: \"collection\", filter: {x: 1, ...", comment: "comment text" }
BSONObjBuilder truncatedBuilder(builder->subobjStart(name));
truncatedBuilder.append("$truncated", truncation);
if (auto comment = obj["comment"]) {
truncatedBuilder.append(comment);
}
truncatedBuilder.doneFast();
}
}
} // namespace
BSONObj CurOp::truncateAndSerializeGenericCursor(GenericCursor* cursor,
boost::optional<size_t> maxQuerySize) {
// This creates a new builder to truncate the object that will go into the curOp output. In
// order to make sure the object is not too large but not truncate the comment, we only
// truncate the originatingCommand and not the entire cursor.
if (maxQuerySize) {
BSONObjBuilder tempObj;
appendAsObjOrString(
"truncatedObj", cursor->getOriginatingCommand().get(), maxQuerySize, &tempObj);
auto originatingCommand = tempObj.done().getObjectField("truncatedObj");
cursor->setOriginatingCommand(originatingCommand.getOwned());
}
// lsid, ns, and planSummary exist in the top level curop object, so they need to be temporarily
// removed from the cursor object to avoid duplicating information.
auto lsid = cursor->getLsid();
auto ns = cursor->getNs();
auto originalPlanSummary(cursor->getPlanSummary() ? boost::optional<std::string>(
cursor->getPlanSummary()->toString())
: boost::none);
cursor->setLsid(boost::none);
cursor->setNs(boost::none);
cursor->setPlanSummary(boost::none);
auto serialized = cursor->toBSON();
cursor->setLsid(lsid);
cursor->setNs(ns);
if (originalPlanSummary) {
cursor->setPlanSummary(StringData(*originalPlanSummary));
}
return serialized;
}
void CurOp::reportState(BSONObjBuilder* builder, bool truncateOps) {
if (_start) {
builder->append("secs_running", durationCount<Seconds>(elapsedTimeTotal()));
builder->append("microsecs_running", durationCount<Microseconds>(elapsedTimeTotal()));
}
builder->append("op", logicalOpToString(_logicalOp));
builder->append("ns", _ns);
// When the currentOp command is run, it returns a single response object containing all current
// operations; this request will fail if the response exceeds the 16MB document limit. By
// contrast, the $currentOp aggregation stage does not have this restriction. If 'truncateOps'
// is true, limit the size of each op to 1000 bytes. Otherwise, do not truncate.
const boost::optional<size_t> maxQuerySize{truncateOps, 1000};
appendAsObjOrString("command", _opDescription, maxQuerySize, builder);
if (!_planSummary.empty()) {
builder->append("planSummary", _planSummary);
}
if (_genericCursor) {
builder->append("cursor",
truncateAndSerializeGenericCursor(&(*_genericCursor), maxQuerySize));
}
if (!_message.empty()) {
if (_progressMeter.isActive()) {
StringBuilder buf;
buf << _message << " " << _progressMeter.toString();
builder->append("msg", buf.str());
BSONObjBuilder sub(builder->subobjStart("progress"));
sub.appendNumber("done", (long long)_progressMeter.done());
sub.appendNumber("total", (long long)_progressMeter.total());
sub.done();
} else {
builder->append("msg", _message);
}
}
if (auto n = _debug.additiveMetrics.prepareReadConflicts.load(); n > 0) {
builder->append("prepareReadConflicts", n);
}
if (auto n = _debug.additiveMetrics.writeConflicts.load(); n > 0) {
builder->append("writeConflicts", n);
}
builder->append("numYields", _numYields);
}
namespace {
StringData getProtoString(int op) {
if (op == dbMsg) {
return "op_msg";
} else if (op == dbQuery) {
return "op_query";
}
MONGO_UNREACHABLE;
}
} // namespace
#define OPDEBUG_TOSTRING_HELP(x) \
if (x >= 0) \
s << " " #x ":" << (x)
#define OPDEBUG_TOSTRING_HELP_BOOL(x) \
if (x) \
s << " " #x ":" << (x)
#define OPDEBUG_TOSTRING_HELP_ATOMIC(x, y) \
if (auto __y = y.load(); __y > 0) \
s << " " x ":" << (__y)
#define OPDEBUG_TOSTRING_HELP_OPTIONAL(x, y) \
if (y) \
s << " " x ":" << (*y)
string OpDebug::report(Client* client,
const CurOp& curop,
const SingleThreadedLockStats* lockStats,
FlowControlTicketholder::CurOp flowControlStats) const {
StringBuilder s;
if (iscommand)
s << "command ";
else
s << networkOpToString(networkOp) << ' ';
s << curop.getNS();
const auto& clientMetadata = ClientMetadataIsMasterState::get(client).getClientMetadata();
if (clientMetadata) {
auto appName = clientMetadata.get().getApplicationName();
if (!appName.empty()) {
s << " appName: \"" << str::escape(appName) << '\"';
}
}
auto query = curop.opDescription();
if (!query.isEmpty()) {
s << " command: ";
if (iscommand) {
const Command* curCommand = curop.getCommand();
if (curCommand) {
mutablebson::Document cmdToLog(query, mutablebson::Document::kInPlaceDisabled);
curCommand->snipForLogging(&cmdToLog);
s << curCommand->getName() << " ";
s << redact(cmdToLog.getObject());
} else {
// Should not happen but we need to handle curCommand == NULL gracefully.
// We don't know what the request payload is intended to be, so it might be
// sensitive, and we don't know how to redact it properly without a 'Command*'.
// So we just don't log it at all.
s << "unrecognized";
}
} else {
s << redact(query);
}
}
auto originatingCommand = curop.originatingCommand();
if (!originatingCommand.isEmpty()) {
s << " originatingCommand: " << redact(originatingCommand);
}
if (!curop.getPlanSummary().empty()) {
s << " planSummary: " << curop.getPlanSummary().toString();
}
OPDEBUG_TOSTRING_HELP(nShards);
OPDEBUG_TOSTRING_HELP(cursorid);
if (mongotCursorId) {
s << " mongot: " << makeSearchBetaObject().toString();
}
OPDEBUG_TOSTRING_HELP(ntoreturn);
OPDEBUG_TOSTRING_HELP(ntoskip);
OPDEBUG_TOSTRING_HELP_BOOL(exhaust);
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysExamined", additiveMetrics.keysExamined);
OPDEBUG_TOSTRING_HELP_OPTIONAL("docsExamined", additiveMetrics.docsExamined);
OPDEBUG_TOSTRING_HELP_BOOL(hasSortStage);
OPDEBUG_TOSTRING_HELP_BOOL(usedDisk);
OPDEBUG_TOSTRING_HELP_BOOL(fromMultiPlanner);
OPDEBUG_TOSTRING_HELP_BOOL(replanned);
OPDEBUG_TOSTRING_HELP_OPTIONAL("nMatched", additiveMetrics.nMatched);
OPDEBUG_TOSTRING_HELP_OPTIONAL("nModified", additiveMetrics.nModified);
OPDEBUG_TOSTRING_HELP_OPTIONAL("ninserted", additiveMetrics.ninserted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("ndeleted", additiveMetrics.ndeleted);
OPDEBUG_TOSTRING_HELP_BOOL(upsert);
OPDEBUG_TOSTRING_HELP_BOOL(cursorExhausted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysInserted", additiveMetrics.keysInserted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysDeleted", additiveMetrics.keysDeleted);
OPDEBUG_TOSTRING_HELP_ATOMIC("prepareReadConflicts", additiveMetrics.prepareReadConflicts);
OPDEBUG_TOSTRING_HELP_ATOMIC("writeConflicts", additiveMetrics.writeConflicts);
s << " numYields:" << curop.numYields();
OPDEBUG_TOSTRING_HELP(nreturned);
if (queryHash) {
s << " queryHash:" << unsignedIntToFixedLengthHex(*queryHash);
invariant(planCacheKey);
s << " planCacheKey:" << unsignedIntToFixedLengthHex(*planCacheKey);
}
if (!errInfo.isOK()) {
s << " ok:" << 0;
if (!errInfo.reason().empty()) {
s << " errMsg:\"" << str::escape(redact(errInfo.reason())) << "\"";
}
s << " errName:" << errInfo.code();
s << " errCode:" << static_cast<int>(errInfo.code());
}
if (responseLength > 0) {
s << " reslen:" << responseLength;
}
if (lockStats) {
BSONObjBuilder locks;
lockStats->report(&locks);
s << " locks:" << locks.obj().toString();
}
BSONObj flowControlObj = makeFlowControlObject(flowControlStats);
if (flowControlObj.nFields() > 0) {
s << " flowControl:" << flowControlObj.toString();
}
if (storageStats) {
s << " storage:" << storageStats->toBSON().toString();
}
if (iscommand) {
s << " protocol:" << getProtoString(networkOp);
}
s << " " << (executionTimeMicros / 1000) << "ms";
return s.str();
}
#define OPDEBUG_APPEND_NUMBER(x) \
if (x != -1) \
b.appendNumber(#x, (x))
#define OPDEBUG_APPEND_BOOL(x) \
if (x) \
b.appendBool(#x, (x))
#define OPDEBUG_APPEND_ATOMIC(x, y) \
if (auto __y = y.load(); __y > 0) \
b.appendNumber(x, __y)
#define OPDEBUG_APPEND_OPTIONAL(x, y) \
if (y) \
b.appendNumber(x, (*y))
void OpDebug::append(const CurOp& curop,
const SingleThreadedLockStats& lockStats,
FlowControlTicketholder::CurOp flowControlStats,
BSONObjBuilder& b) const {
const size_t maxElementSize = 50 * 1024;
b.append("op", logicalOpToString(logicalOp));
NamespaceString nss = NamespaceString(curop.getNS());
b.append("ns", nss.ns());
appendAsObjOrString("command", curop.opDescription(), maxElementSize, &b);
auto originatingCommand = curop.originatingCommand();
if (!originatingCommand.isEmpty()) {
appendAsObjOrString("originatingCommand", originatingCommand, maxElementSize, &b);
}
OPDEBUG_APPEND_NUMBER(nShards);
OPDEBUG_APPEND_NUMBER(cursorid);
if (mongotCursorId) {
b.append("mongot", makeSearchBetaObject());
}
OPDEBUG_APPEND_BOOL(exhaust);
OPDEBUG_APPEND_OPTIONAL("keysExamined", additiveMetrics.keysExamined);
OPDEBUG_APPEND_OPTIONAL("docsExamined", additiveMetrics.docsExamined);
OPDEBUG_APPEND_BOOL(hasSortStage);
OPDEBUG_APPEND_BOOL(usedDisk);
OPDEBUG_APPEND_BOOL(fromMultiPlanner);
OPDEBUG_APPEND_BOOL(replanned);
OPDEBUG_APPEND_OPTIONAL("nMatched", additiveMetrics.nMatched);
OPDEBUG_APPEND_OPTIONAL("nModified", additiveMetrics.nModified);
OPDEBUG_APPEND_OPTIONAL("ninserted", additiveMetrics.ninserted);
OPDEBUG_APPEND_OPTIONAL("ndeleted", additiveMetrics.ndeleted);
OPDEBUG_APPEND_BOOL(upsert);
OPDEBUG_APPEND_BOOL(cursorExhausted);
OPDEBUG_APPEND_OPTIONAL("keysInserted", additiveMetrics.keysInserted);
OPDEBUG_APPEND_OPTIONAL("keysDeleted", additiveMetrics.keysDeleted);
OPDEBUG_APPEND_ATOMIC("prepareReadConflicts", additiveMetrics.prepareReadConflicts);
OPDEBUG_APPEND_ATOMIC("writeConflicts", additiveMetrics.writeConflicts);
b.appendNumber("numYield", curop.numYields());
OPDEBUG_APPEND_NUMBER(nreturned);
if (queryHash) {
b.append("queryHash", unsignedIntToFixedLengthHex(*queryHash));
invariant(planCacheKey);
b.append("planCacheKey", unsignedIntToFixedLengthHex(*planCacheKey));
}
{
BSONObjBuilder locks(b.subobjStart("locks"));
lockStats.report(&locks);
}
{
BSONObj flowControlMetrics = makeFlowControlObject(flowControlStats);
BSONObjBuilder flowControlBuilder(b.subobjStart("flowControl"));
flowControlBuilder.appendElements(flowControlMetrics);
}
if (storageStats) {
b.append("storage", storageStats->toBSON());
}
if (!errInfo.isOK()) {
b.appendNumber("ok", 0.0);
if (!errInfo.reason().empty()) {
b.append("errMsg", errInfo.reason());
}
b.append("errName", ErrorCodes::errorString(errInfo.code()));
b.append("errCode", errInfo.code());
}
OPDEBUG_APPEND_NUMBER(responseLength);
if (iscommand) {
b.append("protocol", getProtoString(networkOp));
}
b.appendIntOrLL("millis", executionTimeMicros / 1000);
if (!curop.getPlanSummary().empty()) {
b.append("planSummary", curop.getPlanSummary());
}
if (!execStats.isEmpty()) {
b.append("execStats", execStats);
}
}
void OpDebug::setPlanSummaryMetrics(const PlanSummaryStats& planSummaryStats) {
additiveMetrics.keysExamined = planSummaryStats.totalKeysExamined;
additiveMetrics.docsExamined = planSummaryStats.totalDocsExamined;
hasSortStage = planSummaryStats.hasSortStage;
usedDisk = planSummaryStats.usedDisk;
fromMultiPlanner = planSummaryStats.fromMultiPlanner;
replanned = planSummaryStats.replanned;
}
BSONObj OpDebug::makeFlowControlObject(FlowControlTicketholder::CurOp stats) const {
BSONObjBuilder builder;
if (stats.ticketsAcquired > 0) {
builder.append("acquireCount", stats.ticketsAcquired);
}
if (stats.acquireWaitCount > 0) {
builder.append("acquireWaitCount", stats.acquireWaitCount);
}
if (stats.timeAcquiringMicros > 0) {
builder.append("timeAcquiringMicros", stats.timeAcquiringMicros);
}
return builder.obj();
}
BSONObj OpDebug::makeSearchBetaObject() const {
BSONObjBuilder cursorBuilder;
invariant(mongotCursorId);
cursorBuilder.append("cursorid", mongotCursorId.get());
if (msWaitingForMongot) {
cursorBuilder.append("timeWaitingMillis", msWaitingForMongot.get());
}
return cursorBuilder.obj();
}
namespace {
/**
* Adds two boost::optional long longs together. Returns boost::none if both 'lhs' and 'rhs' are
* uninitialized, or the sum of 'lhs' and 'rhs' if they are both initialized. Returns 'lhs' if only
* 'rhs' is uninitialized and vice-versa.
*/
boost::optional<long long> addOptionalLongs(const boost::optional<long long>& lhs,
const boost::optional<long long>& rhs) {
if (!rhs) {
return lhs;
}
return lhs ? (*lhs + *rhs) : rhs;
}
} // namespace
void OpDebug::AdditiveMetrics::add(const AdditiveMetrics& otherMetrics) {
keysExamined = addOptionalLongs(keysExamined, otherMetrics.keysExamined);
docsExamined = addOptionalLongs(docsExamined, otherMetrics.docsExamined);
nMatched = addOptionalLongs(nMatched, otherMetrics.nMatched);
nModified = addOptionalLongs(nModified, otherMetrics.nModified);
ninserted = addOptionalLongs(ninserted, otherMetrics.ninserted);
ndeleted = addOptionalLongs(ndeleted, otherMetrics.ndeleted);
keysInserted = addOptionalLongs(keysInserted, otherMetrics.keysInserted);
keysDeleted = addOptionalLongs(keysDeleted, otherMetrics.keysDeleted);
prepareReadConflicts.fetchAndAdd(otherMetrics.prepareReadConflicts.load());
writeConflicts.fetchAndAdd(otherMetrics.writeConflicts.load());
}
void OpDebug::AdditiveMetrics::reset() {
keysExamined = boost::none;
docsExamined = boost::none;
nMatched = boost::none;
nModified = boost::none;
ninserted = boost::none;
ndeleted = boost::none;
keysInserted = boost::none;
keysDeleted = boost::none;
prepareReadConflicts.store(0);
writeConflicts.store(0);
}
bool OpDebug::AdditiveMetrics::equals(const AdditiveMetrics& otherMetrics) const {
return keysExamined == otherMetrics.keysExamined && docsExamined == otherMetrics.docsExamined &&
nMatched == otherMetrics.nMatched && nModified == otherMetrics.nModified &&
ninserted == otherMetrics.ninserted && ndeleted == otherMetrics.ndeleted &&
keysInserted == otherMetrics.keysInserted && keysDeleted == otherMetrics.keysDeleted &&
prepareReadConflicts.load() == otherMetrics.prepareReadConflicts.load() &&
writeConflicts.load() == otherMetrics.writeConflicts.load();
}
void OpDebug::AdditiveMetrics::incrementWriteConflicts(long long n) {
writeConflicts.fetchAndAdd(n);
}
void OpDebug::AdditiveMetrics::incrementKeysInserted(long long n) {
if (!keysInserted) {
keysInserted = 0;
}
*keysInserted += n;
}
void OpDebug::AdditiveMetrics::incrementKeysDeleted(long long n) {
if (!keysDeleted) {
keysDeleted = 0;
}
*keysDeleted += n;
}
void OpDebug::AdditiveMetrics::incrementNinserted(long long n) {
if (!ninserted) {
ninserted = 0;
}
*ninserted += n;
}
void OpDebug::AdditiveMetrics::incrementPrepareReadConflicts(long long n) {
prepareReadConflicts.fetchAndAdd(n);
}
string OpDebug::AdditiveMetrics::report() const {
StringBuilder s;
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysExamined", keysExamined);
OPDEBUG_TOSTRING_HELP_OPTIONAL("docsExamined", docsExamined);
OPDEBUG_TOSTRING_HELP_OPTIONAL("nMatched", nMatched);
OPDEBUG_TOSTRING_HELP_OPTIONAL("nModified", nModified);
OPDEBUG_TOSTRING_HELP_OPTIONAL("ninserted", ninserted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("ndeleted", ndeleted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysInserted", keysInserted);
OPDEBUG_TOSTRING_HELP_OPTIONAL("keysDeleted", keysDeleted);
OPDEBUG_TOSTRING_HELP_ATOMIC("prepareReadConflicts", prepareReadConflicts);
OPDEBUG_TOSTRING_HELP_ATOMIC("writeConflicts", writeConflicts);
return s.str();
}
} // namespace mongo
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