foundationdb/fdbclient/KeyRangeMap.actor.cpp

219 lines
9.0 KiB
C++

/*
* KeyRangeMap.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 "fdbclient/KeyRangeMap.h"
#include "fdbclient/NativeAPI.actor.h"
#include "fdbclient/CommitTransaction.h"
#include "fdbclient/FDBTypes.h"
#include "fdbclient/ReadYourWrites.h"
#include "flow/actorcompiler.h" // has to be last include
void KeyRangeActorMap::getRangesAffectedByInsertion( const KeyRangeRef& keys, vector< KeyRange >& affectedRanges ) {
auto s = map.rangeContaining( keys.begin );
if (s.begin() != keys.begin && s.value().isValid() && !s.value().isReady())
affectedRanges.push_back( KeyRangeRef( s.begin(), keys.begin ) );
affectedRanges.push_back( keys );
auto e = map.rangeContaining( keys.end );
if (e.begin() != keys.end && e.value().isValid() && !e.value().isReady())
affectedRanges.push_back( KeyRangeRef( keys.end, e.end() ) );
}
Standalone<RangeResultRef> krmDecodeRanges(
KeyRef mapPrefix,
KeyRange keys,
Standalone<RangeResultRef> kv )
{
ASSERT(!kv.more || kv.size() > 1);
KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + keys.begin.toString(), mapPrefix.toString() + keys.end.toString() );
ValueRef beginValue, endValue;
if (kv.size() && kv[0].key.startsWith(mapPrefix))
beginValue = kv[0].value;
if (kv.size() && kv.end()[-1].key.startsWith(mapPrefix))
endValue = kv.end()[-1].value;
Standalone<RangeResultRef> result;
result.arena().dependsOn( kv.arena() );
result.arena().dependsOn( keys.arena() );
result.push_back(result.arena(), KeyValueRef(keys.begin, beginValue));
for(int i=0; i<kv.size(); i++) {
if (kv[i].key > withPrefix.begin && kv[i].key < withPrefix.end) {
KeyRef k = kv[i].key.removePrefix(mapPrefix);
result.push_back(result.arena(), KeyValueRef( k, kv[i].value ));
}
else if(kv[i].key >= withPrefix.end)
kv.more = false;
}
if(!kv.more)
result.push_back(result.arena(), KeyValueRef(keys.end, endValue));
result.more = kv.more;
return result;
}
// Returns keys.begin, all transitional points in keys, and keys.end, and their values
ACTOR Future<Standalone<RangeResultRef>> krmGetRanges( Transaction* tr, Key mapPrefix, KeyRange keys, int limit, int limitBytes )
{
KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + keys.begin.toString(), mapPrefix.toString() + keys.end.toString() );
state GetRangeLimits limits(limit, limitBytes);
limits.minRows = 2;
Standalone<RangeResultRef> kv = wait( tr->getRange( lastLessOrEqual(withPrefix.begin), firstGreaterThan(withPrefix.end), limits ) );
return krmDecodeRanges( mapPrefix, keys, kv );
}
ACTOR Future<Standalone<RangeResultRef>> krmGetRanges( Reference<ReadYourWritesTransaction> tr, Key mapPrefix, KeyRange keys, int limit, int limitBytes )
{
KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + keys.begin.toString(), mapPrefix.toString() + keys.end.toString() );
state GetRangeLimits limits(limit, limitBytes);
limits.minRows = 2;
Standalone<RangeResultRef> kv = wait( tr->getRange( lastLessOrEqual(withPrefix.begin), firstGreaterThan(withPrefix.end), limits ) );
return krmDecodeRanges( mapPrefix, keys, kv );
}
void krmSetPreviouslyEmptyRange( Transaction* tr, const KeyRef& mapPrefix, const KeyRangeRef& keys, const ValueRef& newValue, const ValueRef& oldEndValue )
{
KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + keys.begin.toString(), mapPrefix.toString() + keys.end.toString() );
tr->set( withPrefix.begin, newValue );
tr->set( withPrefix.end, oldEndValue );
}
void krmSetPreviouslyEmptyRange( CommitTransactionRef& tr, Arena& trArena, const KeyRef& mapPrefix, const KeyRangeRef& keys, const ValueRef& newValue, const ValueRef& oldEndValue )
{
KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + keys.begin.toString(), mapPrefix.toString() + keys.end.toString() );
tr.set( trArena, withPrefix.begin, newValue );
tr.set( trArena, withPrefix.end, oldEndValue );
}
ACTOR Future<Void> krmSetRange( Transaction* tr, Key mapPrefix, KeyRange range, Value value ) {
state KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + range.begin.toString(), mapPrefix.toString() + range.end.toString() );
Standalone<RangeResultRef> old = wait(tr->getRange(lastLessOrEqual(withPrefix.end), firstGreaterThan(withPrefix.end), 1, true));
Value oldValue;
bool hasResult = old.size() > 0 && old[0].key.startsWith(mapPrefix);
if(hasResult)
oldValue = old[0].value;
KeyRange conflictRange = KeyRangeRef( hasResult ? old[0].key : mapPrefix.toString(), keyAfter(withPrefix.end) );
if( !conflictRange.empty() )
tr->addReadConflictRange( conflictRange );
tr->clear(withPrefix);
tr->set( withPrefix.begin, value );
tr->set( withPrefix.end, oldValue );
return Void();
}
ACTOR Future<Void> krmSetRange( Reference<ReadYourWritesTransaction> tr, Key mapPrefix, KeyRange range, Value value ) {
state KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + range.begin.toString(), mapPrefix.toString() + range.end.toString() );
Standalone<RangeResultRef> old = wait(tr->getRange(lastLessOrEqual(withPrefix.end), firstGreaterThan(withPrefix.end), 1, true));
Value oldValue;
bool hasResult = old.size() > 0 && old[0].key.startsWith(mapPrefix);
if(hasResult)
oldValue = old[0].value;
KeyRange conflictRange = KeyRangeRef( hasResult ? old[0].key : mapPrefix.toString(), keyAfter(withPrefix.end) );
if( !conflictRange.empty() )
tr->addReadConflictRange( conflictRange );
tr->clear(withPrefix);
tr->set( withPrefix.begin, value );
tr->set( withPrefix.end, oldValue );
return Void();
}
//Sets a range of keys in a key range map, coalescing with adjacent regions if the values match
//Ranges outside of maxRange will not be coalesced
//CAUTION: use care when attempting to coalesce multiple ranges in the same prefix in a single transaction
ACTOR Future<Void> krmSetRangeCoalescing( Transaction *tr, Key mapPrefix, KeyRange range, KeyRange maxRange, Value value ) {
ASSERT(maxRange.contains(range));
state KeyRange withPrefix = KeyRangeRef( mapPrefix.toString() + range.begin.toString(), mapPrefix.toString() + range.end.toString() );
state KeyRange maxWithPrefix = KeyRangeRef( mapPrefix.toString() + maxRange.begin.toString(), mapPrefix.toString() + maxRange.end.toString() );
state vector<Future<Standalone<RangeResultRef>>> keys;
keys.push_back(tr->getRange(lastLessThan(withPrefix.begin), firstGreaterOrEqual(withPrefix.begin), 1, true));
keys.push_back(tr->getRange(lastLessOrEqual(withPrefix.end), firstGreaterThan(withPrefix.end) + 1, 2, true));
wait(waitForAll(keys));
//Determine how far to extend this range at the beginning
auto beginRange = keys[0].get();
bool hasBegin = beginRange.size() > 0 && beginRange[0].key.startsWith(mapPrefix);
Value beginValue = hasBegin ? beginRange[0].value : LiteralStringRef("");
state Key beginKey = withPrefix.begin;
if(beginValue == value) {
bool outsideRange = !hasBegin || beginRange[0].key < maxWithPrefix.begin;
beginKey = outsideRange ? maxWithPrefix.begin : beginRange[0].key;
}
//Determine how far to extend this range at the end
auto endRange = keys[1].get();
bool hasEnd = endRange.size() >= 1 && endRange[0].key.startsWith(mapPrefix) && endRange[0].key <= withPrefix.end;
bool hasNext = (endRange.size() == 2 && endRange[1].key.startsWith(mapPrefix)) || (endRange.size() == 1 && withPrefix.end < endRange[0].key && endRange[0].key.startsWith(mapPrefix));
Value existingValue = hasEnd ? endRange[0].value : LiteralStringRef("");
bool valueMatches = value == existingValue;
KeyRange conflictRange = KeyRangeRef( hasBegin ? beginRange[0].key : mapPrefix, withPrefix.begin );
if( !conflictRange.empty() )
tr->addReadConflictRange( conflictRange );
conflictRange = KeyRangeRef( hasEnd ? endRange[0].key : mapPrefix, hasNext ? keyAfter(endRange.end()[-1].key) : strinc( mapPrefix ) );
if( !conflictRange.empty() )
tr->addReadConflictRange( conflictRange );
state Key endKey;
state Value endValue;
//Case 1: Coalesce completely with the following range
if(hasNext && endRange.end()[-1].key <= maxWithPrefix.end && valueMatches) {
endKey = endRange.end()[-1].key;
endValue = endRange.end()[-1].value;
}
//Case 2: Coalesce with the following range only up to the end of maxRange
else if(valueMatches) {
endKey = maxWithPrefix.end;
endValue = existingValue;
}
//Case 3: Don't coalesce
else {
endKey = withPrefix.end;
endValue = existingValue;
}
tr->clear(KeyRangeRef(beginKey, endKey));
ASSERT(value != endValue || endKey == maxWithPrefix.end);
tr->set(beginKey, value);
tr->set(endKey, endValue);
return Void();
}