foundationdb/fdbserver/Resolver.actor.cpp

319 lines
14 KiB
C++

/*
* Resolver.actor.cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "flow/ActorCollection.h"
#include "fdbclient/NativeAPI.actor.h"
#include "fdbserver/ResolverInterface.h"
#include "fdbserver/MasterInterface.h"
#include "fdbserver/WorkerInterface.actor.h"
#include "fdbserver/WaitFailure.h"
#include "fdbserver/Knobs.h"
#include "fdbserver/ServerDBInfo.h"
#include "fdbserver/Orderer.actor.h"
#include "fdbserver/ConflictSet.h"
#include "fdbserver/StorageMetrics.h"
#include "fdbclient/SystemData.h"
#include "flow/actorcompiler.h" // This must be the last #include.
namespace {
struct ProxyRequestsInfo {
std::map<Version, ResolveTransactionBatchReply> outstandingBatches;
Version lastVersion;
ProxyRequestsInfo() : lastVersion(-1) {}
};
}
namespace{
struct Resolver : ReferenceCounted<Resolver> {
Resolver( UID dbgid, int proxyCount, int resolverCount )
: dbgid(dbgid), proxyCount(proxyCount), resolverCount(resolverCount), version(-1), conflictSet( newConflictSet() ), iopsSample( SERVER_KNOBS->KEY_BYTES_PER_SAMPLE ), debugMinRecentStateVersion(0)
{
}
~Resolver() {
destroyConflictSet( conflictSet );
}
UID dbgid;
int proxyCount, resolverCount;
NotifiedVersion version;
AsyncVar<Version> neededVersion;
Map<Version, Standalone<VectorRef<StateTransactionRef>>> recentStateTransactions;
Deque<std::pair<Version, int64_t>> recentStateTransactionSizes;
AsyncVar<int64_t> totalStateBytes;
AsyncTrigger checkNeededVersion;
std::map<NetworkAddress, ProxyRequestsInfo> proxyInfoMap;
ConflictSet *conflictSet;
TransientStorageMetricSample iopsSample;
Version debugMinRecentStateVersion;
};
} // namespace
ACTOR Future<Void> resolveBatch(
Reference<Resolver> self,
ResolveTransactionBatchRequest req)
{
state Optional<UID> debugID;
// The first request (prevVersion < 0) comes from the master
state NetworkAddress proxyAddress = req.prevVersion >= 0 ? req.reply.getEndpoint().getPrimaryAddress() : NetworkAddress();
state ProxyRequestsInfo &proxyInfo = self->proxyInfoMap[proxyAddress];
if(req.debugID.present()) {
debugID = nondeterministicRandom()->randomUniqueID();
g_traceBatch.addAttach("CommitAttachID", req.debugID.get().first(), debugID.get().first());
g_traceBatch.addEvent("CommitDebug",debugID.get().first(),"Resolver.resolveBatch.Before");
}
/*TraceEvent("ResolveBatchStart", self->dbgid).detail("From", proxyAddress).detail("Version", req.version).detail("PrevVersion", req.prevVersion).detail("StateTransactions", req.txnStateTransactions.size())
.detail("RecentStateTransactions", self->recentStateTransactionSizes.size()).detail("LastVersion", proxyInfo.lastVersion).detail("FirstVersion", self->recentStateTransactionSizes.empty() ? -1 : self->recentStateTransactionSizes.front().first)
.detail("ResolverVersion", self->version.get());*/
while( self->totalStateBytes.get() > SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT && self->recentStateTransactionSizes.size() &&
proxyInfo.lastVersion > self->recentStateTransactionSizes.front().first && req.version > self->neededVersion.get() ) {
/*TraceEvent("ResolveBatchDelay").detail("From", proxyAddress).detail("StateBytes", self->totalStateBytes.get()).detail("RecentStateTransactionSize", self->recentStateTransactionSizes.size())
.detail("LastVersion", proxyInfo.lastVersion).detail("RequestVersion", req.version).detail("NeededVersion", self->neededVersion.get())
.detail("RecentStateVer", self->recentStateTransactions.begin()->key);*/
wait( self->totalStateBytes.onChange() || self->neededVersion.onChange() );
}
if(debugID.present()) {
g_traceBatch.addEvent("CommitDebug",debugID.get().first(),"Resolver.resolveBatch.AfterQueueSizeCheck");
}
loop {
if( self->recentStateTransactionSizes.size() && proxyInfo.lastVersion <= self->recentStateTransactionSizes.front().first ) {
self->neededVersion.set( std::max(self->neededVersion.get(), req.prevVersion) );
}
choose {
when(wait(self->version.whenAtLeast(req.prevVersion))) {
break;
}
when(wait(self->checkNeededVersion.onTrigger())) { }
}
}
if (check_yield(TaskPriority::DefaultEndpoint)) {
wait( delay( 0, TaskPriority::Low ) || delay( SERVER_KNOBS->COMMIT_SLEEP_TIME ) ); // FIXME: Is this still right?
g_network->setCurrentTask(TaskPriority::DefaultEndpoint);
}
if (self->version.get() == req.prevVersion) { // Not a duplicate (check relies on no waiting between here and self->version.set() below!)
if(proxyInfo.lastVersion > 0) {
proxyInfo.outstandingBatches.erase(proxyInfo.outstandingBatches.begin(), proxyInfo.outstandingBatches.upper_bound(req.lastReceivedVersion));
}
Version firstUnseenVersion = proxyInfo.lastVersion + 1;
proxyInfo.lastVersion = req.version;
if(req.debugID.present())
g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.AfterOrderer");
vector<int> commitList;
vector<int> tooOldList;
// Detect conflicts
double expire = now() + SERVER_KNOBS->SAMPLE_EXPIRATION_TIME;
double tstart = timer();
ConflictBatch conflictBatch( self->conflictSet );
int keys = 0;
for(int t=0; t<req.transactions.size(); t++) {
conflictBatch.addTransaction( req.transactions[t] );
keys += req.transactions[t].write_conflict_ranges.size()*2 + req.transactions[t].read_conflict_ranges.size()*2;
if(self->resolverCount > 1) {
for(auto it : req.transactions[t].write_conflict_ranges)
self->iopsSample.addAndExpire( it.begin, SERVER_KNOBS->SAMPLE_OFFSET_PER_KEY + it.begin.size(), expire );
for(auto it : req.transactions[t].read_conflict_ranges)
self->iopsSample.addAndExpire( it.begin, SERVER_KNOBS->SAMPLE_OFFSET_PER_KEY + it.begin.size(), expire );
}
}
conflictBatch.detectConflicts( req.version, req.version - SERVER_KNOBS->MAX_WRITE_TRANSACTION_LIFE_VERSIONS, commitList, &tooOldList);
g_counters.conflictTime += timer() - tstart;
++g_counters.conflictBatches;
g_counters.conflictTransactions += req.transactions.size();
g_counters.conflictKeys += keys;
ResolveTransactionBatchReply &reply = proxyInfo.outstandingBatches[req.version];
reply.debugID = req.debugID;
reply.committed.resize( reply.arena, req.transactions.size() );
for(int c=0; c<commitList.size(); c++)
reply.committed[commitList[c]] = ConflictBatch::TransactionCommitted;
for (int c = 0; c<tooOldList.size(); c++)
reply.committed[tooOldList[c]] = ConflictBatch::TransactionTooOld;
ASSERT(req.prevVersion >= 0 || req.txnStateTransactions.size() == 0); // The master's request should not have any state transactions
auto& stateTransactions = self->recentStateTransactions[ req.version ];
int64_t stateBytes = 0;
for(int t : req.txnStateTransactions) {
stateBytes += req.transactions[t].mutations.expectedSize();
stateTransactions.push_back_deep(stateTransactions.arena(), StateTransactionRef(reply.committed[t] == ConflictBatch::TransactionCommitted, req.transactions[t].mutations));
}
if(stateBytes > 0)
self->recentStateTransactionSizes.push_back(std::make_pair(req.version, stateBytes));
ASSERT(req.version >= firstUnseenVersion);
ASSERT(firstUnseenVersion >= self->debugMinRecentStateVersion);
TEST(firstUnseenVersion == req.version); // Resolver first unseen version is current version
auto stateTransactionItr = self->recentStateTransactions.lower_bound(firstUnseenVersion);
auto endItr = self->recentStateTransactions.lower_bound(req.version);
for(; stateTransactionItr != endItr; ++stateTransactionItr) {
reply.stateMutations.push_back( reply.arena, stateTransactionItr->value);
reply.arena.dependsOn( stateTransactionItr->value.arena() );
}
//TraceEvent("ResolveBatch", self->dbgid).detail("PrevVersion", req.prevVersion).detail("Version", req.version).detail("StateTransactionVersions", self->recentStateTransactionSizes.size()).detail("StateBytes", stateBytes).detail("FirstVersion", self->recentStateTransactionSizes.empty() ? -1 : self->recentStateTransactionSizes.front().first).detail("StateMutationsIn", req.txnStateTransactions.size()).detail("StateMutationsOut", reply.stateMutations.size()).detail("From", proxyAddress);
ASSERT(!proxyInfo.outstandingBatches.empty());
ASSERT(self->proxyInfoMap.size() <= self->proxyCount+1);
// SOMEDAY: This is O(n) in number of proxies. O(log n) solution using appropriate data structure?
Version oldestProxyVersion = req.version;
for(auto itr = self->proxyInfoMap.begin(); itr != self->proxyInfoMap.end(); ++itr) {
//TraceEvent("ResolveBatchProxyVersion", self->dbgid).detail("Proxy", itr->first).detail("Version", itr->second.lastVersion);
if(itr->first.isValid()) { // Don't consider the first master request
oldestProxyVersion = std::min(itr->second.lastVersion, oldestProxyVersion);
}
else {
// The master's request version should never prevent us from clearing recentStateTransactions
ASSERT(self->debugMinRecentStateVersion == 0 || self->debugMinRecentStateVersion > itr->second.lastVersion);
}
}
TEST(oldestProxyVersion == req.version); // The proxy that sent this request has the oldest current version
TEST(oldestProxyVersion != req.version); // The proxy that sent this request does not have the oldest current version
bool anyPopped = false;
if(firstUnseenVersion <= oldestProxyVersion && self->proxyInfoMap.size() == self->proxyCount+1) {
TEST(true); // Deleting old state transactions
self->recentStateTransactions.erase( self->recentStateTransactions.begin(), self->recentStateTransactions.upper_bound( oldestProxyVersion ) );
self->debugMinRecentStateVersion = oldestProxyVersion + 1;
while(self->recentStateTransactionSizes.size() && self->recentStateTransactionSizes.front().first <= oldestProxyVersion) {
anyPopped = true;
stateBytes -= self->recentStateTransactionSizes.front().second;
self->recentStateTransactionSizes.pop_front();
}
}
self->version.set( req.version );
bool breachedLimit = self->totalStateBytes.get() <= SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT && self->totalStateBytes.get() + stateBytes > SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT;
self->totalStateBytes.setUnconditional(self->totalStateBytes.get() + stateBytes);
if(anyPopped || breachedLimit) {
self->checkNeededVersion.trigger();
}
if(req.debugID.present())
g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.After");
}
else {
TEST(true); // Duplicate resolve batch request
//TraceEvent("DupResolveBatchReq", self->dbgid).detail("From", proxyAddress);
}
auto proxyInfoItr = self->proxyInfoMap.find(proxyAddress);
if(proxyInfoItr != self->proxyInfoMap.end()) {
auto batchItr = proxyInfoItr->second.outstandingBatches.find(req.version);
if(batchItr != proxyInfoItr->second.outstandingBatches.end()) {
req.reply.send(batchItr->second);
}
else {
TEST(true); // No outstanding batches for version on proxy
req.reply.send(Never());
}
}
else {
ASSERT_WE_THINK(false); // The first non-duplicate request with this proxyAddress, including this one, should have inserted this item in the map!
//TEST(true); // No prior proxy requests
req.reply.send(Never());
}
return Void();
}
ACTOR Future<Void> resolverCore(
ResolverInterface resolver,
InitializeResolverRequest initReq)
{
state Reference<Resolver> self( new Resolver(resolver.id(), initReq.proxyCount, initReq.resolverCount) );
state ActorCollection actors(false);
state Future<Void> doPollMetrics = self->resolverCount > 1 ? Void() : Future<Void>(Never());
actors.add( waitFailureServer(resolver.waitFailure.getFuture()) );
TraceEvent("ResolverInit", resolver.id()).detail("RecoveryCount", initReq.recoveryCount);
loop choose {
when ( ResolveTransactionBatchRequest batch = waitNext( resolver.resolve.getFuture() ) ) {
actors.add( resolveBatch(self, batch) );
}
when ( ResolutionMetricsRequest req = waitNext( resolver.metrics.getFuture() ) ) {
req.reply.send(self->iopsSample.getEstimate(allKeys));
}
when ( ResolutionSplitRequest req = waitNext( resolver.split.getFuture() ) ) {
ResolutionSplitReply rep;
rep.key = self->iopsSample.splitEstimate(req.range, req.offset, req.front);
rep.used = self->iopsSample.getEstimate(req.front ? KeyRangeRef(req.range.begin, rep.key) : KeyRangeRef(rep.key, req.range.end));
req.reply.send(rep);
}
when ( wait( actors.getResult() ) ) {}
when (wait(doPollMetrics) ) {
self->iopsSample.poll();
doPollMetrics = delay(SERVER_KNOBS->SAMPLE_POLL_TIME);
}
}
}
ACTOR Future<Void> checkRemoved( Reference<AsyncVar<ServerDBInfo>> db, uint64_t recoveryCount, ResolverInterface myInterface ) {
loop {
if ( db->get().recoveryCount >= recoveryCount && !std::count(db->get().resolvers.begin(), db->get().resolvers.end(), myInterface) )
throw worker_removed();
wait( db->onChange() );
}
}
ACTOR Future<Void> resolver(
ResolverInterface resolver,
InitializeResolverRequest initReq,
Reference<AsyncVar<ServerDBInfo>> db )
{
try {
state Future<Void> core = resolverCore( resolver, initReq );
loop choose {
when( wait( core ) ) { return Void(); }
when( wait( checkRemoved( db, initReq.recoveryCount, resolver ) ) ) {}
}
} catch (Error& e) {
if (e.code() == error_code_actor_cancelled || e.code() == error_code_worker_removed) {
TraceEvent("ResolverTerminated", resolver.id()).error(e,true);
return Void();
}
throw;
}
}