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// @file curop.h
/*
* Copyright (C) 2010 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* 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
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "namespace-inl.h"
#include "client.h"
#include "../bson/util/atomic_int.h"
#include "../util/concurrency/spin_lock.h"
#include "../util/time_support.h"
#include "../util/net/hostandport.h"
namespace mongo {
class CurOp;
/* lifespan is different than CurOp because of recursives with DBDirectClient */
class OpDebug {
public:
OpDebug() : ns(""){ reset(); }
void reset();
string toString() const;
void append( const CurOp& curop, BSONObjBuilder& b ) const;
// -------------------
StringBuilder extra; // weird things we need to fix later
// basic options
int op;
bool iscommand;
Namespace ns;
BSONObj query;
BSONObj updateobj;
// detailed options
long long cursorid;
int ntoreturn;
int ntoskip;
bool exhaust;
// debugging/profile info
int nscanned;
bool idhack; // indicates short circuited code path on an update to make the update faster
bool scanAndOrder; // scanandorder query plan aspect was used
bool moved; // update resulted in a move (moves are expensive)
bool fastmod;
bool fastmodinsert; // upsert of an $operation. builds a default object
bool upsert; // true if the update actually did an insert
int keyUpdates;
// error handling
ExceptionInfo exceptionInfo;
// response info
int executionTime;
int nreturned;
int responseLength;
};
/**
* stores a copy of a bson obj in a fixed size buffer
* if its too big for the buffer, says "too big"
* useful for keeping a copy around indefinitely without wasting a lot of space or doing malloc
*/
class CachedBSONObj {
public:
enum { TOO_BIG_SENTINEL = 1 } ;
static BSONObj _tooBig; // { $msg : "query not recording (too large)" }
CachedBSONObj() {
_size = (int*)_buf;
reset();
}
void reset( int sz = 0 ) {
_lock.lock();
_reset( sz );
_lock.unlock();
}
void set( const BSONObj& o ) {
scoped_spinlock lk(_lock);
int sz = o.objsize();
if ( sz > (int) sizeof(_buf) ) {
_reset(TOO_BIG_SENTINEL);
}
else {
memcpy(_buf, o.objdata(), sz );
}
}
int size() const { return *_size; }
bool have() const { return size() > 0; }
BSONObj get() const {
scoped_spinlock lk(_lock);
return _get();
}
void append( BSONObjBuilder& b , const StringData& name ) const {
scoped_spinlock lk(_lock);
BSONObj temp = _get();
b.append( name , temp );
}
private:
/** you have to be locked when you call this */
BSONObj _get() const {
int sz = size();
if ( sz == 0 )
return BSONObj();
if ( sz == TOO_BIG_SENTINEL )
return _tooBig;
return BSONObj( _buf ).copy();
}
/** you have to be locked when you call this */
void _reset( int sz ) { _size[0] = sz; }
mutable SpinLock _lock;
int * _size;
char _buf[512];
};
/* Current operation (for the current Client).
an embedded member of Client class, and typically used from within the mutex there.
*/
class CurOp : boost::noncopyable {
public:
CurOp( Client * client , CurOp * wrapped = 0 );
~CurOp();
bool haveQuery() const { return _query.have(); }
BSONObj query() { return _query.get(); }
void appendQuery( BSONObjBuilder& b , const StringData& name ) const { _query.append( b , name ); }
void ensureStarted() {
if ( _start == 0 )
_start = _checkpoint = curTimeMicros64();
}
bool isStarted() const { return _start > 0; }
void enter( Client::Context * context );
void leave( Client::Context * context );
void reset();
void reset( const HostAndPort& remote, int op );
void markCommand() { _command = true; }
void waitingForLock( int type ) {
_waitingForLock = true;
if ( type > 0 )
_lockType = 1;
else
_lockType = -1;
}
void gotLock() { _waitingForLock = false; }
OpDebug& debug() { return _debug; }
int profileLevel() const { return _dbprofile; }
const char * getNS() const { return _ns; }
bool shouldDBProfile( int ms ) const {
if ( _dbprofile <= 0 )
return false;
return _dbprofile >= 2 || ms >= cmdLine.slowMS;
}
AtomicUInt opNum() const { return _opNum; }
/** if this op is running */
bool active() const { return _active; }
int getLockType() const { return _lockType; }
bool isWaitingForLock() const { return _waitingForLock; }
int getOp() const { return _op; }
unsigned long long startTime() { // micros
ensureStarted();
return _start;
}
void done() {
_active = false;
_end = curTimeMicros64();
}
unsigned long long totalTimeMicros() {
massert( 12601 , "CurOp not marked done yet" , ! _active );
return _end - startTime();
}
int totalTimeMillis() { return (int) (totalTimeMicros() / 1000); }
int elapsedMillis() {
unsigned long long total = curTimeMicros64() - startTime();
return (int) (total / 1000);
}
int elapsedSeconds() { return elapsedMillis() / 1000; }
void setQuery(const BSONObj& query) { _query.set( query ); }
Client * getClient() const { return _client; }
BSONObj info();
BSONObj infoNoauth();
string getRemoteString( bool includePort = true ) { return _remote.toString(includePort); }
ProgressMeter& setMessage( const char * msg , unsigned long long progressMeterTotal = 0 , int secondsBetween = 3 );
string getMessage() const { return _message.toString(); }
ProgressMeter& getProgressMeter() { return _progressMeter; }
CurOp *parent() const { return _wrapped; }
void kill() { _killed = true; }
bool killed() const { return _killed; }
void yielded() { _numYields++; }
void setNS(const char *ns) {
strncpy(_ns, ns, Namespace::MaxNsLen);
_ns[Namespace::MaxNsLen] = 0;
}
private:
friend class Client;
void _reset();
static AtomicUInt _nextOpNum;
Client * _client;
CurOp * _wrapped;
unsigned long long _start;
unsigned long long _checkpoint;
unsigned long long _end;
bool _active;
int _op;
bool _command;
int _lockType; // see concurrency.h for values
bool _waitingForLock;
int _dbprofile; // 0=off, 1=slow, 2=all
AtomicUInt _opNum; // todo: simple being "unsigned" may make more sense here
char _ns[Namespace::MaxNsLen+2];
HostAndPort _remote; // CAREFUL here with thread safety
CachedBSONObj _query; // CachedBSONObj is thread safe
OpDebug _debug;
ThreadSafeString _message;
ProgressMeter _progressMeter;
volatile bool _killed;
int _numYields;
};
/* _globalKill: we are shutting down
otherwise kill attribute set on specified CurOp
this class does not handle races between interruptJs and the checkForInterrupt functions - those must be
handled by the client of this class
*/
extern class KillCurrentOp {
public:
void killAll();
void kill(AtomicUInt i);
/** @return true if global interrupt and should terminate the operation */
bool globalInterruptCheck() const { return _globalKill; }
void checkForInterrupt( bool heedMutex = true ) {
Client& c = cc();
if ( heedMutex && d.dbMutex.isWriteLocked() )
return;
if( _globalKill )
uasserted(11600,"interrupted at shutdown");
if( c.curop()->killed() )
uasserted(11601,"interrupted");
if( c.sometimes(1024) ) {
AbstractMessagingPort *p = cc().port();
if( p )
p->assertStillConnected();
}
}
/** @return "" if not interrupted. otherwise, you should stop. */
const char *checkForInterruptNoAssert( /*bool heedMutex = true*/ ) {
Client& c = cc();
// always called withi false so commented out:
/*if ( heedMutex && d.dbMutex.isWriteLocked() )
return "";*/
if( _globalKill )
return "interrupted at shutdown";
if( c.curop()->killed() )
return "interrupted";
if( c.sometimes(1024) ) {
try {
AbstractMessagingPort *p = cc().port();
if( p )
p->assertStillConnected();
}
catch(...) {
log() << "no longer connected to client";
return "no longer connected to client";
}
}
return "";
}
private:
void interruptJs( AtomicUInt *op );
volatile bool _globalKill;
} killCurrentOp;
}
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