Exemplo n.º 1
0
    DiskLoc RecordStoreV1Base::_findFirstSpot( OperationContext* txn,
                                               const DiskLoc& extDiskLoc, Extent* e ) {
        DiskLoc emptyLoc = extDiskLoc;
        emptyLoc.inc( Extent::HeaderSize() );
        int delRecLength = e->length - Extent::HeaderSize();
        if ( delRecLength >= 32*1024 && _ns.find('$') != string::npos && !isCapped() ) {
            // probably an index. so skip forward to keep its records page aligned
            int& ofs = emptyLoc.GETOFS();
            int newOfs = (ofs + 0xfff) & ~0xfff;
            delRecLength -= (newOfs-ofs);
            dassert( delRecLength > 0 );
            ofs = newOfs;
        }

        DeletedRecord* empty = txn->recoveryUnit()->writing(drec(emptyLoc));
        empty->lengthWithHeaders() = delRecLength;
        empty->extentOfs() = e->myLoc.getOfs();
        empty->nextDeleted().Null();
        return emptyLoc;

    }
Exemplo n.º 2
0
    DiskLoc SimpleRecordStoreV1::_allocFromExistingExtents( OperationContext* txn,
                                                            int lenToAlloc ) {
        // align size up to a multiple of 4
        lenToAlloc = (lenToAlloc + (4-1)) & ~(4-1);

        freelistAllocs.increment();
        DiskLoc loc;
        {
            DiskLoc *prev = 0;
            DiskLoc *bestprev = 0;
            DiskLoc bestmatch;
            int bestmatchlen = INT_MAX; // sentinel meaning we haven't found a record big enough
            int b = bucket(lenToAlloc);
            DiskLoc cur = _details->deletedListEntry(b);
            
            int extra = 5; // look for a better fit, a little.
            int chain = 0;
            while ( 1 ) {
                { // defensive check
                    int fileNumber = cur.a();
                    int fileOffset = cur.getOfs();
                    if (fileNumber < -1 || fileNumber >= 100000 || fileOffset < 0) {
                        StringBuilder sb;
                        sb << "Deleted record list corrupted in collection " << _ns
                           << ", bucket " << b
                           << ", link number " << chain
                           << ", invalid link is " << cur.toString()
                           << ", throwing Fatal Assertion";
                        log() << sb.str() << endl;
                        fassertFailed(16469);
                    }
                }
                if ( cur.isNull() ) {
                    // move to next bucket.  if we were doing "extra", just break
                    if ( bestmatchlen < INT_MAX )
                        break;

                    if ( chain > 0 ) {
                        // if we looked at things in the right bucket, but they were not suitable
                        freelistBucketExhausted.increment();
                    }

                    b++;
                    if ( b > MaxBucket ) {
                        // out of space. alloc a new extent.
                        freelistIterations.increment( 1 + chain );
                        return DiskLoc();
                    }
                    cur = _details->deletedListEntry(b);
                    prev = 0;
                    continue;
                }
                DeletedRecord *r = drec(cur);
                if ( r->lengthWithHeaders() >= lenToAlloc &&
                     r->lengthWithHeaders() < bestmatchlen ) {
                    bestmatchlen = r->lengthWithHeaders();
                    bestmatch = cur;
                    bestprev = prev;
                    if (r->lengthWithHeaders() == lenToAlloc)
                        // exact match, stop searching
                        break;
                }
                if ( bestmatchlen < INT_MAX && --extra <= 0 )
                    break;
                if ( ++chain > 30 && b <= MaxBucket ) {
                    // too slow, force move to next bucket to grab a big chunk
                    //b++;
                    freelistIterations.increment( chain );
                    chain = 0;
                    cur.Null();
                }
                else {
                    cur = r->nextDeleted();
                    prev = &r->nextDeleted();
                }
            }

            // unlink ourself from the deleted list
            DeletedRecord *bmr = drec(bestmatch);
            if ( bestprev ) {
                *txn->recoveryUnit()->writing(bestprev) = bmr->nextDeleted();
            }
            else {
                // should be the front of a free-list
                int myBucket = bucket(bmr->lengthWithHeaders());
                invariant( _details->deletedListEntry(myBucket) == bestmatch );
                _details->setDeletedListEntry(txn, myBucket, bmr->nextDeleted());
            }
            *txn->recoveryUnit()->writing(&bmr->nextDeleted()) = DiskLoc().setInvalid(); // defensive.
            invariant(bmr->extentOfs() < bestmatch.getOfs());

            freelistIterations.increment( 1 + chain );
            loc = bestmatch;
        }

        if ( loc.isNull() )
            return loc;

        // determine if we should chop up

        DeletedRecord *r = drec(loc);

        /* note we want to grab from the front so our next pointers on disk tend
        to go in a forward direction which is important for performance. */
        int regionlen = r->lengthWithHeaders();
        invariant( r->extentOfs() < loc.getOfs() );

        int left = regionlen - lenToAlloc;
        if ( left < 24 || left < (lenToAlloc / 8) ) {
            // you get the whole thing.
            return loc;
        }

        // don't quantize:
        //   - $ collections (indexes) as we already have those aligned the way we want SERVER-8425
        if ( _normalCollection ) {
            // we quantize here so that it only impacts newly sized records
            // this prevents oddities with older records and space re-use SERVER-8435
            lenToAlloc = std::min( r->lengthWithHeaders(),
                                   quantizeAllocationSpace( lenToAlloc ) );
            left = regionlen - lenToAlloc;

            if ( left < 24 ) {
                // you get the whole thing.
                return loc;
            }
        }

        /* split off some for further use. */
        txn->recoveryUnit()->writingInt(r->lengthWithHeaders()) = lenToAlloc;
        DiskLoc newDelLoc = loc;
        newDelLoc.inc(lenToAlloc);
        DeletedRecord* newDel = drec(newDelLoc);
        DeletedRecord* newDelW = txn->recoveryUnit()->writing(newDel);
        newDelW->extentOfs() = r->extentOfs();
        newDelW->lengthWithHeaders() = left;
        newDelW->nextDeleted().Null();

        addDeletedRec( txn, newDelLoc );
        return loc;
    }