2017-05-26 04:48:44 +08:00
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/*
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* RYWPerformance.actor.cpp
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*
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* This source file is part of the FoundationDB open source project
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*
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* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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* http://www.apache.org/licenses/LICENSE-2.0
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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "flow/actorcompiler.h"
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#include "fdbrpc/ContinuousSample.h"
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#include "fdbclient/NativeAPI.h"
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#include "fdbserver/TesterInterface.h"
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#include "fdbclient/ReadYourWrites.h"
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#include "workloads.h"
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struct RYWPerformanceWorkload : TestWorkload {
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int keyBytes, nodes, ranges;
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RYWPerformanceWorkload(WorkloadContext const& wcx)
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: TestWorkload(wcx)
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{
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nodes = getOption( options, LiteralStringRef("nodes"), 10000 );
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ranges = getOption( options, LiteralStringRef("ranges"), 10 );
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keyBytes = std::max( getOption( options, LiteralStringRef("keyBytes"), 16 ), 16 );
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}
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virtual std::string description() { return "RYWPerformance"; }
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virtual Future<Void> setup( Database const& cx ) {
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if( clientId == 0 )
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return _setup( cx, this );
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return Void();
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}
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ACTOR Future<Void> _setup( Database cx, RYWPerformanceWorkload* self ) {
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state Transaction tr(cx);
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loop {
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try {
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for(int i = 0; i < self->nodes; i++) tr.set(self->keyForIndex(i), LiteralStringRef("bar"));
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Void _ = wait( tr.commit() );
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break;
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} catch (Error& e) {
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Void _ = wait( tr.onError(e) );
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}
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}
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return Void();
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}
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virtual Future<Void> start( Database const& cx ) {
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if( clientId == 0 )
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return _start( cx, this );
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return Void();
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}
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ACTOR static Future<Void> fillCache( ReadYourWritesTransaction *tr, RYWPerformanceWorkload* self, int type ) {
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state int i;
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if( type == 0 ) {
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for( i = 0; i < self->nodes; i++ ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 1 ) {
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std::vector<Future<Optional<Value>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->get( self->keyForIndex(i) ) );
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}
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Void _ = wait( waitForAll(gets) );
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} else if( type == 2 ) {
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std::vector<Future<Optional<Value>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->get( self->keyForIndex(i) ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 0; i < self->nodes; i++ ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 3 ) {
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std::vector<Future<Optional<Value>>> gets;
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for( i = 0; i < self->nodes; i+=2 ) {
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gets.push_back( tr->get( self->keyForIndex(i) ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 1; i < self->nodes; i+=2 ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 4 ) {
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Standalone<RangeResultRef> _ = wait( tr->getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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} else if( type == 5 ) {
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Standalone<RangeResultRef> _ = wait( tr->getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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for( i = 0; i < self->nodes; i++ ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 6 ) {
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Standalone<RangeResultRef> _ = wait( tr->getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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for( i = 0; i < self->nodes; i+= 2 ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 7 ) {
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Standalone<RangeResultRef> _ = wait( tr->getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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for( i = 0; i < self->nodes; i++ ) {
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tr->clear( self->keyForIndex(i) );
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}
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} else if( type == 8 ) {
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Standalone<RangeResultRef> _ = wait( tr->getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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for( i = 0; i < self->nodes; i += 2 ) {
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tr->clear( KeyRangeRef( self->keyForIndex(i), self->keyForIndex(i+1) ) );
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}
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} else if( type == 9 ) {
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std::vector<Future<Standalone<RangeResultRef>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->getRange(KeyRangeRef(self->keyForIndex(i),self->keyForIndex(i+2)),self->nodes ) );
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}
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Void _ = wait( waitForAll(gets) );
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} else if( type == 10 ) {
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std::vector<Future<Standalone<RangeResultRef>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->getRange(KeyRangeRef(self->keyForIndex(i),self->keyForIndex(i+2)),self->nodes ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 0; i < self->nodes; i++ ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 11 ) {
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std::vector<Future<Standalone<RangeResultRef>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->getRange(KeyRangeRef(self->keyForIndex(i),self->keyForIndex(i+2)),self->nodes ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 0; i < self->nodes; i+= 2 ) {
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tr->set( self->keyForIndex(i), LiteralStringRef("foo"));
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}
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} else if( type == 12 ) {
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std::vector<Future<Standalone<RangeResultRef>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->getRange(KeyRangeRef(self->keyForIndex(i),self->keyForIndex(i+2)),self->nodes ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 0; i < self->nodes; i++ ) {
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tr->clear( self->keyForIndex(i) );
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}
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} else if( type == 13 ) {
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std::vector<Future<Standalone<RangeResultRef>>> gets;
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for( i = 0; i < self->nodes; i++ ) {
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gets.push_back( tr->getRange(KeyRangeRef(self->keyForIndex(i),self->keyForIndex(i+2)),self->nodes ) );
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}
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Void _ = wait( waitForAll(gets) );
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for( i = 0; i < self->nodes; i += 2 ) {
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tr->clear( KeyRangeRef( self->keyForIndex(i), self->keyForIndex(i+1) ) );
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}
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}
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return Void();
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}
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ACTOR static Future<Void> test_get_single( Database cx, RYWPerformanceWorkload* self, int cacheType ) {
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state int i;
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state ReadYourWritesTransaction tr( cx );
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loop {
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try {
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Void _ = wait( self->fillCache(&tr, self, cacheType) );
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state double startTime = timer();
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for( i = 0; i < self->nodes; i++ ) {
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Optional<Value> _ = wait( tr.get(self->keyForIndex(self->nodes/2)));
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}
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fprintf(stderr, "%f", self->nodes / (timer() - startTime));
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return Void();
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} catch( Error &e ) {
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Void _ = wait( tr.onError(e) );
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}
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}
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}
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ACTOR static Future<Void> test_get_many_sequential( Database cx, RYWPerformanceWorkload* self, int cacheType ) {
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state int i;
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state ReadYourWritesTransaction tr( cx );
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loop {
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try {
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Void _ = wait( self->fillCache(&tr, self, cacheType) );
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state double startTime = timer();
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for( i = 0; i < self->nodes; i++ ) {
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Optional<Value> _ = wait( tr.get(self->keyForIndex(i)));
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}
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fprintf(stderr, "%f", self->nodes / (timer() - startTime));
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return Void();
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} catch( Error &e ) {
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Void _ = wait( tr.onError(e) );
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}
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}
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}
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ACTOR static Future<Void> test_get_range_basic( Database cx, RYWPerformanceWorkload* self, int cacheType ) {
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state int i;
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state ReadYourWritesTransaction tr( cx );
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loop {
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try {
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Void _ = wait( self->fillCache(&tr, self, cacheType) );
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state double startTime = timer();
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for( i = 0; i < self->ranges; i++ ) {
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Standalone<RangeResultRef> _ = wait( tr.getRange(KeyRangeRef(self->keyForIndex(0),self->keyForIndex(self->nodes)),self->nodes ));
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}
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fprintf(stderr, "%f", self->ranges / (timer() - startTime));
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return Void();
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} catch( Error &e ) {
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Void _ = wait( tr.onError(e) );
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}
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}
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}
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ACTOR static Future<Void> test_interleaved_sets_gets( Database cx, RYWPerformanceWorkload* self, int cacheType ) {
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state int i;
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state ReadYourWritesTransaction tr( cx );
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loop {
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try {
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Void _ = wait( self->fillCache(&tr, self, cacheType) );
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tr.set( self->keyForIndex(self->nodes/2), self->keyForIndex(self->nodes) );
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state double startTime = timer();
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for( i = 0; i < self->nodes; i++ ) {
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Optional<Value> _ = wait( tr.get(self->keyForIndex(self->nodes/2)) );
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tr.set( self->keyForIndex(self->nodes/2), self->keyForIndex(i) );
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}
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fprintf(stderr, "%f", self->nodes / (timer() - startTime));
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return Void();
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} catch( Error &e ) {
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Void _ = wait( tr.onError(e) );
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}
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}
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}
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ACTOR static Future<Void> _start( Database cx, RYWPerformanceWorkload* self ) {
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state int i;
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fprintf(stderr, "test_get_single, ");
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for( i = 0; i < 14; i++ ) {
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Void _ = wait( self->test_get_single( cx, self, i ) );
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if( i == 13 ) fprintf(stderr, "\n");
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else fprintf(stderr, ", ");
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}
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fprintf(stderr, "test_get_many_sequential, ");
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for( i = 0; i < 14; i++ ) {
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Void _ = wait( self->test_get_many_sequential( cx, self, i ) );
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if( i == 13 ) fprintf(stderr, "\n");
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else fprintf(stderr, ", ");
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}
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fprintf(stderr, "test_get_range_basic, ");
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for( i = 4; i < 14; i++ ) {
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Void _ = wait( self->test_get_range_basic( cx, self, i ) );
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if( i == 13 ) fprintf(stderr, "\n");
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else fprintf(stderr, ", ");
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}
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fprintf(stderr, "test_interleaved_sets_gets, ");
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for( i = 0; i < 14; i++ ) {
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Void _ = wait( self->test_interleaved_sets_gets( cx, self, i ) );
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if( i == 13 ) fprintf(stderr, "\n");
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else fprintf(stderr, ", ");
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}
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return Void();
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}
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virtual Future<bool> check( Database const& cx ) {
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return true;
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}
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virtual void getMetrics( vector<PerfMetric>& m ) {
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}
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Key keyForIndex( uint64_t index ) {
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Key result = makeString( keyBytes );
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uint8_t* data = mutateString( result );
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memset(data, '.', keyBytes);
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double d = double(index) / nodes;
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emplaceIndex( data, 0, *(int64_t*)&d );
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return result;
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}
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};
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WorkloadFactory<RYWPerformanceWorkload> RYWPerformanceWorkloadFactory("RYWPerformance");
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