/* clientcursor.h */ /** * Copyright (C) 2008 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 . */ /* Cursor -- and its derived classes -- are our internal cursors. ClientCursor is a wrapper that represents a cursorid from our database application's perspective. */ #pragma once #include "../pch.h" #include "cursor.h" #include "jsobj.h" #include "../util/net/message.h" #include "../util/net/listen.h" #include "../util/background.h" #include "diskloc.h" #include "dbhelpers.h" #include "matcher.h" #include "../client/dbclient.h" #include "projection.h" #include "s/d_chunk_manager.h" namespace mongo { typedef long long CursorId; /* passed to the client so it can send back on getMore */ class Cursor; /* internal server cursor base class */ class ClientCursor; class ParsedQuery; struct ByLocKey { ByLocKey( const DiskLoc & l , const CursorId& i ) : loc(l), id(i) {} static ByLocKey min( const DiskLoc& l ) { return ByLocKey( l , numeric_limits::min() ); } static ByLocKey max( const DiskLoc& l ) { return ByLocKey( l , numeric_limits::max() ); } bool operator<( const ByLocKey &other ) const { int x = loc.compare( other.loc ); if ( x ) return x < 0; return id < other.id; } DiskLoc loc; CursorId id; }; /* todo: make this map be per connection. this will prevent cursor hijacking security attacks perhaps. * ERH: 9/2010 this may not work since some drivers send getMore over a different connection */ typedef map CCById; typedef map CCByLoc; extern BSONObj id_obj; class ClientCursor { friend class CmdCursorInfo; public: static void assertNoCursors(); /* use this to assure we don't in the background time out cursor while it is under use. if you are using noTimeout() already, there is no risk anyway. Further, this mechanism guards against two getMore requests on the same cursor executing at the same time - which might be bad. That should never happen, but if a client driver had a bug, it could (or perhaps some sort of attack situation). */ class Pointer : boost::noncopyable { ClientCursor *_c; public: ClientCursor * c() { return _c; } void release() { if( _c ) { assert( _c->_pinValue >= 100 ); _c->_pinValue -= 100; _c = 0; } } /** * call this if during a yield, the cursor got deleted * if so, we don't want to use the point address */ void deleted() { _c = 0; } ~Pointer() { release(); } Pointer(long long cursorid) { recursive_scoped_lock lock(ccmutex); _c = ClientCursor::find_inlock(cursorid, true); if( _c ) { if( _c->_pinValue >= 100 ) { _c = 0; uasserted(12051, "clientcursor already in use? driver problem?"); } _c->_pinValue += 100; } } }; // This object assures safe and reliable cleanup of the ClientCursor. // The implementation assumes that there will be no duplicate ids among cursors // (which is assured if cursors must last longer than 1 second). class CleanupPointer : boost::noncopyable { public: CleanupPointer() : _c( 0 ), _id( -1 ) {} void reset( ClientCursor *c = 0 ) { if ( c == _c ) return; if ( _c ) { // be careful in case cursor was deleted by someone else ClientCursor::erase( _id ); } if ( c ) { _c = c; _id = c->_cursorid; } else { _c = 0; _id = -1; } } ~CleanupPointer() { DESTRUCTOR_GUARD ( reset(); ); } operator bool() { return _c; } ClientCursor * operator-> () { return _c; } private: ClientCursor *_c; CursorId _id; }; ClientCursor(int queryOptions, const shared_ptr& c, const string& ns, BSONObj query = BSONObj() ); ~ClientCursor(); // *************** basic accessors ******************* CursorId cursorid() const { return _cursorid; } string ns() const { return _ns; } Database * db() const { return _db; } const BSONObj& query() const { return _query; } int queryOptions() const { return _queryOptions; } DiskLoc lastLoc() const { return _lastLoc; } /* Get rid of cursors for namespaces 'ns'. When dropping a db, ns is "dbname." Used by drop, dropIndexes, dropDatabase. */ static void invalidate(const char *ns); /** * @param microsToSleep -1 : ask client * >=0 : sleep for that amount * @param recordToLoad after yielding lock, load this record with only mmutex * do a dbtemprelease * note: caller should check matcher.docMatcher().atomic() first and not yield if atomic - * we don't do herein as this->matcher (above) is only initialized for true queries/getmore. * (ie not set for remote/update) * @return if the cursor is still valid. * if false is returned, then this ClientCursor should be considered deleted - * in fact, the whole database could be gone. */ bool yield( int microsToSleep = -1 , Record * recordToLoad = 0 ); enum RecordNeeds { DontNeed = -1 , MaybeCovered = 0 , WillNeed = 100 }; /** * @param needRecord whether or not the next record has to be read from disk for sure * if this is true, will yield of next record isn't in memory * @param yielded true if a yield occurred, and potentially if a yield did not occur * @return same as yield() */ bool yieldSometimes( RecordNeeds need, bool *yielded = 0 ); static int yieldSuggest(); static void staticYield( int micros , const StringData& ns , Record * rec ); struct YieldData { CursorId _id; bool _doingDeletes; }; bool prepareToYield( YieldData &data ); static bool recoverFromYield( const YieldData &data ); struct YieldLock : boost::noncopyable { explicit YieldLock( ptr cc ) : _canYield(cc->_c->supportYields()) { if ( _canYield ) { cc->prepareToYield( _data ); _unlock.reset(new dbtempreleasecond()); } } ~YieldLock() { if ( _unlock ) { log( LL_WARNING ) << "ClientCursor::YieldLock not closed properly" << endl; relock(); } } bool stillOk() { if ( ! _canYield ) return true; relock(); return ClientCursor::recoverFromYield( _data ); } void relock() { _unlock.reset(); } private: const bool _canYield; YieldData _data; scoped_ptr _unlock; }; // --- some pass through helpers for Cursor --- Cursor* c() const { return _c.get(); } int pos() const { return _pos; } void incPos( int n ) { _pos += n; } // TODO: this is bad void setPos( int n ) { _pos = n; } // TODO : this is bad too BSONObj indexKeyPattern() { return _c->indexKeyPattern(); } bool modifiedKeys() const { return _c->modifiedKeys(); } bool isMultiKey() const { return _c->isMultiKey(); } bool ok() { return _c->ok(); } bool advance() { return _c->advance(); } BSONObj current() { return _c->current(); } DiskLoc currLoc() { return _c->currLoc(); } BSONObj currKey() const { return _c->currKey(); } /** * same as BSONObj::getFieldsDotted * if it can be retrieved from key, it is * @param holder keeps the currKey in scope by keeping a reference to it here. generally you'll want * holder and ret to destruct about the same time. * @return if this was retrieved from key */ bool getFieldsDotted( const string& name, BSONElementSet &ret, BSONObj& holder ); /** * same as BSONObj::getFieldDotted * if it can be retrieved from key, it is * @return if this was retrieved from key */ BSONElement getFieldDotted( const string& name , BSONObj& holder , bool * fromKey = 0 ) ; /** extract items from object which match a pattern object. * e.g., if pattern is { x : 1, y : 1 }, builds an object with * x and y elements of this object, if they are present. * returns elements with original field names * NOTE: copied from BSONObj::extractFields */ BSONObj extractFields(const BSONObj &pattern , bool fillWithNull = false) ; bool currentIsDup() { return _c->getsetdup( _c->currLoc() ); } bool currentMatches() { if ( ! _c->matcher() ) return true; return _c->matcher()->matchesCurrent( _c.get() ); } void setChunkManager( ShardChunkManagerPtr manager ){ _chunkManager = manager; } ShardChunkManagerPtr getChunkManager(){ return _chunkManager; } private: void setLastLoc_inlock(DiskLoc); static ClientCursor* find_inlock(CursorId id, bool warn = true) { CCById::iterator it = clientCursorsById.find(id); if ( it == clientCursorsById.end() ) { if ( warn ) OCCASIONALLY out() << "ClientCursor::find(): cursor not found in map " << id << " (ok after a drop)\n"; return 0; } return it->second; } public: static ClientCursor* find(CursorId id, bool warn = true) { recursive_scoped_lock lock(ccmutex); ClientCursor *c = find_inlock(id, warn); // if this asserts, your code was not thread safe - you either need to set no timeout // for the cursor or keep a ClientCursor::Pointer in scope for it. massert( 12521, "internal error: use of an unlocked ClientCursor", c == 0 || c->_pinValue ); return c; } static bool erase(CursorId id) { recursive_scoped_lock lock(ccmutex); ClientCursor *cc = find_inlock(id); if ( cc ) { assert( cc->_pinValue < 100 ); // you can't still have an active ClientCursor::Pointer delete cc; return true; } return false; } /** * @return number of cursors found */ static int erase( int n , long long * ids ); /* call when cursor's location changes so that we can update the cursorsbylocation map. if you are locked and internally iterating, only need to call when you are ready to "unlock". */ void updateLocation(); void mayUpgradeStorage() { /* if ( !ids_.get() ) return; stringstream ss; ss << ns << "." << cursorid; ids_->mayUpgradeStorage( ss.str() );*/ } /** * @param millis amount of idle passed time since last call */ bool shouldTimeout( unsigned millis ); void storeOpForSlave( DiskLoc last ); void updateSlaveLocation( CurOp& curop ); unsigned idleTime() const { return _idleAgeMillis; } void setDoingDeletes( bool doingDeletes ) {_doingDeletes = doingDeletes; } void slaveReadTill( const OpTime& t ) { _slaveReadTill = t; } public: // static methods static void idleTimeReport(unsigned millis); static void appendStats( BSONObjBuilder& result ); static unsigned numCursors() { return clientCursorsById.size(); } static void informAboutToDeleteBucket(const DiskLoc& b); static void aboutToDelete(const DiskLoc& dl); static void find( const string& ns , set& all ); private: // methods // cursors normally timeout after an inactivy period to prevent excess memory use // setting this prevents timeout of the cursor in question. void noTimeout() { _pinValue++; } CCByLoc& byLoc() { return _db->ccByLoc; } Record* _recordForYield( RecordNeeds need ); private: CursorId _cursorid; const string _ns; Database * _db; const shared_ptr _c; map _indexedFields; // map from indexed field to offset in key object int _pos; // # objects into the cursor so far const BSONObj _query; // used for logging diags only; optional in constructor int _queryOptions; // see enum QueryOptions dbclient.h OpTime _slaveReadTill; DiskLoc _lastLoc; // use getter and setter not this (important) unsigned _idleAgeMillis; // how long has the cursor been around, relative to server idle time /* 0 = normal 1 = no timeout allowed 100 = in use (pinned) -- see Pointer class */ unsigned _pinValue; bool _doingDeletes; ElapsedTracker _yieldSometimesTracker; ShardChunkManagerPtr _chunkManager; public: shared_ptr pq; shared_ptr fields; // which fields query wants returned Message originalMessage; // this is effectively an auto ptr for data the matcher points to private: // static members static CCById clientCursorsById; static long long numberTimedOut; static boost::recursive_mutex& ccmutex; // must use this for all statics above! static CursorId allocCursorId_inlock(); }; class ClientCursorMonitor : public BackgroundJob { public: string name() const { return "ClientCursorMonitor"; } void run(); }; extern ClientCursorMonitor clientCursorMonitor; } // namespace mongo // ClientCursor should only be used with auto_ptr because it needs to be // release()ed after a yield if stillOk() returns false and these pointer types // do not support releasing. This will prevent them from being used accidentally namespace boost{ template<> class scoped_ptr {}; template<> class shared_ptr {}; }