foundationdb/fdbserver/LogSystemDiskQueueAdapter.a...

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/*
* LogSystemDiskQueueAdapter.actor.cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
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* 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
*
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* http://www.apache.org/licenses/LICENSE-2.0
*
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* 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 "IDiskQueue.h"
#include "LogSystem.h"
#include "LogSystemDiskQueueAdapter.h"
#include "Knobs.h"
class LogSystemDiskQueueAdapterImpl {
public:
ACTOR static Future<Standalone<StringRef>> readNext( LogSystemDiskQueueAdapter* self, int bytes ) {
while (self->recoveryQueueDataSize < bytes) {
if (self->recoveryLoc == self->logSystem->getEnd()) {
// Recovery will be complete once the current recoveryQueue is consumed, so we no longer need self->logSystem
TraceEvent("PeekNextEnd").detail("Queue", self->recoveryQueue.size()).detail("Bytes", bytes).detail("Loc", self->recoveryLoc).detail("End", self->logSystem->getEnd());
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self->logSystem.clear();
break;
}
if(!self->cursor->hasMessage()) {
loop {
choose {
when(Void _ = wait( self->cursor->getMore() )) {
break;
}
when(Void _ = wait( self->localityChanged )) {
self->cursor = self->logSystem->peekSpecial( UID(), self->recoveryLoc, self->tag, self->peekLocality ? self->peekLocality->get().first : tagLocalityInvalid, self->peekLocality ? self->peekLocality->get().second : invalidVersion );
self->localityChanged = self->peekLocality->onChange();
}
}
}
TraceEvent("PeekNextGetMore").detail("Queue", self->recoveryQueue.size()).detail("Bytes", bytes).detail("Loc", self->recoveryLoc).detail("End", self->logSystem->getEnd());
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if(self->recoveryQueueDataSize == 0) {
self->recoveryQueueLoc = self->recoveryLoc;
}
if(!self->cursor->hasMessage()) {
self->recoveryLoc = self->cursor->version().version;
continue;
}
}
self->recoveryQueue.push_back( Standalone<StringRef>(self->cursor->getMessage(), self->cursor->arena()) );
self->recoveryQueueDataSize += self->recoveryQueue.back().size();
self->cursor->nextMessage();
if(!self->cursor->hasMessage()) self->recoveryLoc = self->cursor->version().version;
//TraceEvent("PeekNextResults").detail("From", self->recoveryLoc).detail("Queue", self->recoveryQueue.size()).detail("Bytes", bytes).detail("Has", self->cursor->hasMessage()).detail("End", self->logSystem->getEnd());
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}
if(self->recoveryQueue.size() > 1) {
self->recoveryQueue[0] = concatenate(self->recoveryQueue.begin(), self->recoveryQueue.end());
self->recoveryQueue.resize(1);
}
if(self->recoveryQueueDataSize == 0)
return Standalone<StringRef>();
ASSERT(self->recoveryQueue[0].size() == self->recoveryQueueDataSize);
//TraceEvent("PeekNextReturn").detail("Bytes", bytes).detail("QueueSize", self->recoveryQueue.size());
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bytes = std::min(bytes, self->recoveryQueue[0].size());
Standalone<StringRef> result( self->recoveryQueue[0].substr(0,bytes), self->recoveryQueue[0].arena() );
self->recoveryQueue[0].contents() = self->recoveryQueue[0].substr(bytes);
self->recoveryQueueDataSize = self->recoveryQueue[0].size();
if(self->recoveryQueue[0].size() == 0) {
self->recoveryQueue.clear();
}
return result;
}
};
Future<Standalone<StringRef>> LogSystemDiskQueueAdapter::readNext( int bytes ) {
if (!enableRecovery) return Standalone<StringRef>();
return LogSystemDiskQueueAdapterImpl::readNext(this, bytes);
}
IDiskQueue::location LogSystemDiskQueueAdapter::getNextReadLocation() {
return IDiskQueue::location( 0, recoveryQueueLoc );
}
IDiskQueue::location LogSystemDiskQueueAdapter::push( StringRef contents ) {
while(contents.size()) {
int remainder = pushedData.size() == 0 ? 0 : pushedData.back().capacity() - pushedData.back().size();
if(remainder == 0) {
VectorRef<uint8_t> block;
block.reserve(pushedData.arena(), SERVER_KNOBS->LOG_SYSTEM_PUSHED_DATA_BLOCK_SIZE);
pushedData.push_back(pushedData.arena(), block);
remainder = block.capacity();
}
pushedData.back().append(pushedData.arena(), contents.begin(), std::min(remainder, contents.size()));
contents = contents.substr(std::min(remainder, contents.size()));
}
return IDiskQueue::location( 0, nextCommit );
}
void LogSystemDiskQueueAdapter::pop( location upTo ) {
ASSERT( upTo.hi == 0 );
poppedUpTo = std::max( upTo.lo, poppedUpTo );
}
Future<Void> LogSystemDiskQueueAdapter::commit() {
ASSERT( !commitMessages.empty() );
auto promise = commitMessages.front();
commitMessages.pop_front();
CommitMessage cm;
cm.messages = this->pushedData;
this->pushedData = Standalone<VectorRef<VectorRef<uint8_t>>>();
cm.popTo = poppedUpTo;
promise.send(cm);
return cm.acknowledge.getFuture();
}
Future<Void> LogSystemDiskQueueAdapter::getError() {
return Void();
}
Future<Void> LogSystemDiskQueueAdapter::onClosed() {
return Void();
}
void LogSystemDiskQueueAdapter::dispose() {
delete this;
}
void LogSystemDiskQueueAdapter::close() {
delete this;
}
Future<LogSystemDiskQueueAdapter::CommitMessage> LogSystemDiskQueueAdapter::getCommitMessage() {
Promise<CommitMessage> pcm;
commitMessages.push_back( pcm );
return pcm.getFuture();
}
LogSystemDiskQueueAdapter* openDiskQueueAdapter( Reference<ILogSystem> logSystem, Tag tag, Reference<AsyncVar<std::pair<int8_t,Version>>> peekLocality ) {
return new LogSystemDiskQueueAdapter( logSystem, tag, peekLocality );
}