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/*
* ClusterController . 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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*
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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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*
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* http : //www.apache.org/licenses/LICENSE-2.0
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*
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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 "flow/actorcompiler.h"
# include "fdbrpc/FailureMonitor.h"
# include "flow/ActorCollection.h"
# include "fdbclient/NativeAPI.h"
# include "fdbserver/CoordinationInterface.h"
# include "Knobs.h"
# include "MoveKeys.h"
# include "WorkerInterface.h"
# include "LeaderElection.h"
# include "WaitFailure.h"
# include "ClusterRecruitmentInterface.h"
# include "ServerDBInfo.h"
# include "Status.h"
# include <algorithm>
# include "fdbclient/DatabaseContext.h"
# include "RecoveryState.h"
# include "fdbclient/ReadYourWrites.h"
# include "fdbrpc/Replication.h"
# include "fdbrpc/ReplicationUtils.h"
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# include "fdbclient/KeyBackedTypes.h"
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void failAfter ( Future < Void > trigger , Endpoint e ) ;
struct WorkerInfo : NonCopyable {
Future < Void > watcher ;
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ReplyPromise < RegisterWorkerReply > reply ;
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Generation gen ;
int reboots ;
WorkerInterface interf ;
ProcessClass initialClass ;
ProcessClass processClass ;
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ClusterControllerPriorityInfo priorityInfo ;
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WorkerInfo ( ) : gen ( - 1 ) , reboots ( 0 ) , priorityInfo ( ProcessClass : : UnsetFit , false , ClusterControllerPriorityInfo : : FitnessUnknown ) { }
WorkerInfo ( Future < Void > watcher , ReplyPromise < RegisterWorkerReply > reply , Generation gen , WorkerInterface interf , ProcessClass initialClass , ProcessClass processClass , ClusterControllerPriorityInfo priorityInfo ) :
watcher ( watcher ) , reply ( reply ) , gen ( gen ) , reboots ( 0 ) , interf ( interf ) , initialClass ( initialClass ) , processClass ( processClass ) , priorityInfo ( priorityInfo ) { }
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WorkerInfo ( WorkerInfo & & r ) noexcept ( true ) : watcher ( std : : move ( r . watcher ) ) , reply ( std : : move ( r . reply ) ) , gen ( r . gen ) ,
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reboots ( r . reboots ) , interf ( std : : move ( r . interf ) ) , initialClass ( r . initialClass ) , processClass ( r . processClass ) , priorityInfo ( r . priorityInfo ) { }
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void operator = ( WorkerInfo & & r ) noexcept ( true ) {
watcher = std : : move ( r . watcher ) ;
reply = std : : move ( r . reply ) ;
gen = r . gen ;
reboots = r . reboots ;
interf = std : : move ( r . interf ) ;
initialClass = r . initialClass ;
processClass = r . processClass ;
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priorityInfo = r . priorityInfo ;
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}
} ;
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struct WorkerFitnessInfo {
std : : pair < WorkerInterface , ProcessClass > worker ;
ProcessClass : : Fitness fitness ;
int used ;
WorkerFitnessInfo ( ) : fitness ( ProcessClass : : NeverAssign ) , used ( 0 ) { }
WorkerFitnessInfo ( std : : pair < WorkerInterface , ProcessClass > worker , ProcessClass : : Fitness fitness , int used ) : worker ( worker ) , fitness ( fitness ) , used ( used ) { }
} ;
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class ClusterControllerData {
public :
struct DBInfo {
Reference < AsyncVar < ClientDBInfo > > clientInfo ;
Reference < AsyncVar < ServerDBInfo > > serverInfo ;
ProcessIssuesMap clientsWithIssues , workersWithIssues ;
std : : map < NetworkAddress , double > incompatibleConnections ;
ClientVersionMap clientVersionMap ;
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std : : map < NetworkAddress , std : : string > traceLogGroupMap ;
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Promise < Void > forceMasterFailure ;
int64_t masterRegistrationCount ;
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bool recoveryStalled ;
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bool forceRecovery ;
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DatabaseConfiguration config ; // Asynchronously updated via master registration
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DatabaseConfiguration fullyRecoveredConfig ;
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Database db ;
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int unfinishedRecoveries ;
int logGenerations ;
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DBInfo ( ) : masterRegistrationCount ( 0 ) , recoveryStalled ( false ) , forceRecovery ( false ) , unfinishedRecoveries ( 0 ) , logGenerations ( 0 ) ,
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clientInfo ( new AsyncVar < ClientDBInfo > ( ClientDBInfo ( ) ) ) ,
serverInfo ( new AsyncVar < ServerDBInfo > ( ServerDBInfo ( LiteralStringRef ( " DB " ) ) ) ) ,
db ( DatabaseContext : : create ( clientInfo , Future < Void > ( ) , LocalityData ( ) , true , TaskDefaultEndpoint , true ) ) // SOMEDAY: Locality!
{
}
} ;
struct UpdateWorkerList {
Future < Void > init ( Database const & db ) {
return update ( this , db ) ;
}
void set ( Optional < Standalone < StringRef > > processID , Optional < ProcessData > data ) {
delta [ processID ] = data ;
anyDelta . set ( true ) ;
}
private :
std : : map < Optional < Standalone < StringRef > > , Optional < ProcessData > > delta ;
AsyncVar < bool > anyDelta ;
ACTOR static Future < Void > update ( UpdateWorkerList * self , Database db ) {
// The Database we are using is based on worker registrations to this cluster controller, which come only
// from master servers that we started, so it shouldn't be possible for multiple cluster controllers to fight.
state Transaction tr ( db ) ;
loop {
try {
tr . clear ( workerListKeys ) ;
Void _ = wait ( tr . commit ( ) ) ;
break ;
} catch ( Error & e ) {
Void _ = wait ( tr . onError ( e ) ) ;
}
}
loop {
// Wait for some changes
while ( ! self - > anyDelta . get ( ) )
Void _ = wait ( self - > anyDelta . onChange ( ) ) ;
self - > anyDelta . set ( false ) ;
state std : : map < Optional < Standalone < StringRef > > , Optional < ProcessData > > delta ;
delta . swap ( self - > delta ) ;
TraceEvent ( " UpdateWorkerList " ) . detail ( " DeltaCount " , delta . size ( ) ) ;
// Do a transaction to write the changes
loop {
try {
for ( auto w = delta . begin ( ) ; w ! = delta . end ( ) ; + + w ) {
if ( w - > second . present ( ) ) {
tr . set ( workerListKeyFor ( w - > first . get ( ) ) , workerListValue ( w - > second . get ( ) ) ) ;
} else
tr . clear ( workerListKeyFor ( w - > first . get ( ) ) ) ;
}
Void _ = wait ( tr . commit ( ) ) ;
break ;
} catch ( Error & e ) {
Void _ = wait ( tr . onError ( e ) ) ;
}
}
}
}
} ;
bool workerAvailable ( WorkerInfo const & worker , bool checkStable ) {
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return ( now ( ) - startTime < 2 * FLOW_KNOBS - > SERVER_REQUEST_INTERVAL ) | | ( IFailureMonitor : : failureMonitor ( ) . getState ( worker . interf . storage . getEndpoint ( ) ) . isAvailable ( ) & & ( ! checkStable | | worker . reboots < 2 ) ) ;
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}
std : : pair < WorkerInterface , ProcessClass > getStorageWorker ( RecruitStorageRequest const & req ) {
std : : set < Optional < Standalone < StringRef > > > excludedMachines ( req . excludeMachines . begin ( ) , req . excludeMachines . end ( ) ) ;
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std : : set < Optional < Standalone < StringRef > > > includeDCs ( req . includeDCs . begin ( ) , req . includeDCs . end ( ) ) ;
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std : : set < AddressExclusion > excludedAddresses ( req . excludeAddresses . begin ( ) , req . excludeAddresses . end ( ) ) ;
for ( auto & it : id_worker )
if ( workerAvailable ( it . second , false ) & &
! excludedMachines . count ( it . second . interf . locality . zoneId ( ) ) & &
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( includeDCs . size ( ) = = 0 | | includeDCs . count ( it . second . interf . locality . dcId ( ) ) ) & &
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! addressExcluded ( excludedAddresses , it . second . interf . address ( ) ) & &
it . second . processClass . machineClassFitness ( ProcessClass : : Storage ) < = ProcessClass : : UnsetFit ) {
return std : : make_pair ( it . second . interf , it . second . processClass ) ;
}
if ( req . criticalRecruitment ) {
ProcessClass : : Fitness bestFit = ProcessClass : : NeverAssign ;
Optional < std : : pair < WorkerInterface , ProcessClass > > bestInfo ;
for ( auto & it : id_worker ) {
ProcessClass : : Fitness fit = it . second . processClass . machineClassFitness ( ProcessClass : : Storage ) ;
if ( workerAvailable ( it . second , false ) & &
! excludedMachines . count ( it . second . interf . locality . zoneId ( ) ) & &
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( includeDCs . size ( ) = = 0 | | includeDCs . count ( it . second . interf . locality . dcId ( ) ) ) & &
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! addressExcluded ( excludedAddresses , it . second . interf . address ( ) ) & &
fit < bestFit ) {
bestFit = fit ;
bestInfo = std : : make_pair ( it . second . interf , it . second . processClass ) ;
}
}
if ( bestInfo . present ( ) ) {
return bestInfo . get ( ) ;
}
}
throw no_more_servers ( ) ;
}
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std : : vector < std : : pair < WorkerInterface , ProcessClass > > getWorkersForSeedServers ( DatabaseConfiguration const & conf , IRepPolicyRef const & policy , Optional < Optional < Standalone < StringRef > > > const & dcId = Optional < Optional < Standalone < StringRef > > > ( ) ) {
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std : : map < ProcessClass : : Fitness , vector < std : : pair < WorkerInterface , ProcessClass > > > fitness_workers ;
std : : vector < std : : pair < WorkerInterface , ProcessClass > > results ;
LocalitySetRef logServerSet = Reference < LocalitySet > ( new LocalityMap < std : : pair < WorkerInterface , ProcessClass > > ( ) ) ;
LocalityMap < std : : pair < WorkerInterface , ProcessClass > > * logServerMap = ( LocalityMap < std : : pair < WorkerInterface , ProcessClass > > * ) logServerSet . getPtr ( ) ;
bool bCompleted = false ;
for ( auto & it : id_worker ) {
auto fitness = it . second . processClass . machineClassFitness ( ProcessClass : : Storage ) ;
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if ( workerAvailable ( it . second , false ) & & ! conf . isExcludedServer ( it . second . interf . address ( ) ) & & fitness ! = ProcessClass : : NeverAssign & & ( ! dcId . present ( ) | | it . second . interf . locality . dcId ( ) = = dcId . get ( ) ) ) {
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fitness_workers [ fitness ] . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
}
}
for ( auto & it : fitness_workers ) {
for ( auto & worker : it . second ) {
logServerMap - > add ( worker . first . locality , & worker ) ;
}
std : : vector < LocalityEntry > bestSet ;
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if ( logServerSet - > selectReplicas ( policy , bestSet ) ) {
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results . reserve ( bestSet . size ( ) ) ;
for ( auto & entry : bestSet ) {
auto object = logServerMap - > getObject ( entry ) ;
results . push_back ( * object ) ;
}
bCompleted = true ;
break ;
}
}
logServerSet - > clear ( ) ;
logServerSet . clear ( ) ;
if ( ! bCompleted ) {
throw no_more_servers ( ) ;
}
return results ;
}
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std : : vector < std : : pair < WorkerInterface , ProcessClass > > getWorkersForTlogs ( DatabaseConfiguration const & conf , int32_t required , int32_t desired , IRepPolicyRef const & policy , std : : map < Optional < Standalone < StringRef > > , int > & id_used , bool checkStable = false , std : : set < Optional < Key > > dcIds = std : : set < Optional < Key > > ( ) ) {
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std : : map < ProcessClass : : Fitness , vector < std : : pair < WorkerInterface , ProcessClass > > > fitness_workers ;
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std : : vector < std : : pair < WorkerInterface , ProcessClass > > results ;
std : : vector < LocalityData > unavailableLocals ;
LocalitySetRef logServerSet ;
LocalityMap < std : : pair < WorkerInterface , ProcessClass > > * logServerMap ;
bool bCompleted = false ;
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logServerSet = Reference < LocalitySet > ( new LocalityMap < std : : pair < WorkerInterface , ProcessClass > > ( ) ) ;
logServerMap = ( LocalityMap < std : : pair < WorkerInterface , ProcessClass > > * ) logServerSet . getPtr ( ) ;
for ( auto & it : id_worker ) {
auto fitness = it . second . processClass . machineClassFitness ( ProcessClass : : TLog ) ;
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if ( workerAvailable ( it . second , checkStable ) & & ! conf . isExcludedServer ( it . second . interf . address ( ) ) & & fitness ! = ProcessClass : : NeverAssign & & ( ! dcIds . size ( ) | | dcIds . count ( it . second . interf . locality . dcId ( ) ) ) ) {
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fitness_workers [ fitness ] . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
}
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else {
unavailableLocals . push_back ( it . second . interf . locality ) ;
}
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}
results . reserve ( results . size ( ) + id_worker . size ( ) ) ;
for ( int fitness = ProcessClass : : BestFit ; fitness ! = ProcessClass : : NeverAssign ; fitness + + )
{
auto fitnessEnum = ( ProcessClass : : Fitness ) fitness ;
if ( fitness_workers . find ( fitnessEnum ) = = fitness_workers . end ( ) )
continue ;
for ( auto & worker : fitness_workers [ ( ProcessClass : : Fitness ) fitness ] ) {
logServerMap - > add ( worker . first . locality , & worker ) ;
}
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if ( logServerSet - > size ( ) < required ) {
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TraceEvent ( SevWarn , " GWFTADTooFew " , id ) . detail ( " Fitness " , fitness ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " Required " , required ) . detail ( " TLogPolicy " , policy - > info ( ) ) . detail ( " DesiredLogs " , desired ) ;
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}
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else if ( logServerSet - > size ( ) = = required | | logServerSet - > size ( ) < = desired ) {
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if ( logServerSet - > validate ( policy ) ) {
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for ( auto & object : logServerMap - > getObjects ( ) ) {
results . push_back ( * object ) ;
}
bCompleted = true ;
break ;
}
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TraceEvent ( SevWarn , " GWFTADNotAcceptable " , id ) . detail ( " Fitness " , fitness ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " Required " , required ) . detail ( " TLogPolicy " , policy - > info ( ) ) . detail ( " DesiredLogs " , desired ) ;
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}
// Try to select the desired size, if larger
else {
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std : : vector < LocalityEntry > bestSet ;
std : : vector < LocalityData > tLocalities ;
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// Try to find the best team of servers to fulfill the policy
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if ( findBestPolicySet ( bestSet , logServerSet , policy , desired , SERVER_KNOBS - > POLICY_RATING_TESTS , SERVER_KNOBS - > POLICY_GENERATIONS ) ) {
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results . reserve ( results . size ( ) + bestSet . size ( ) ) ;
for ( auto & entry : bestSet ) {
auto object = logServerMap - > getObject ( entry ) ;
ASSERT ( object ) ;
results . push_back ( * object ) ;
tLocalities . push_back ( object - > first . locality ) ;
}
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TraceEvent ( " GWFTADBestResults " , id ) . detail ( " Fitness " , fitness ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " BestCount " , bestSet . size ( ) ) . detail ( " BestZones " , : : describeZones ( tLocalities ) )
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. detail ( " BestDataHalls " , : : describeDataHalls ( tLocalities ) ) . detail ( " TLogPolicy " , policy - > info ( ) ) . detail ( " TotalResults " , results . size ( ) ) . detail ( " DesiredLogs " , desired ) ;
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bCompleted = true ;
break ;
}
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TraceEvent ( SevWarn , " GWFTADNoBest " , id ) . detail ( " Fitness " , fitness ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " Required " , required ) . detail ( " TLogPolicy " , policy - > info ( ) ) . detail ( " DesiredLogs " , desired ) ;
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}
}
// If policy cannot be satisfied
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if ( ! bCompleted ) {
std : : vector < LocalityData > tLocalities ;
for ( auto & object : logServerMap - > getObjects ( ) ) {
tLocalities . push_back ( object - > first . locality ) ;
}
TraceEvent ( SevWarn , " GetTLogTeamFailed " ) . detail ( " Policy " , policy - > info ( ) ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " Workers " , id_worker . size ( ) ) . detail ( " FitnessGroups " , fitness_workers . size ( ) )
. detail ( " TLogZones " , : : describeZones ( tLocalities ) ) . detail ( " TLogDataHalls " , : : describeDataHalls ( tLocalities ) ) . detail ( " MissingZones " , : : describeZones ( unavailableLocals ) )
. detail ( " MissingDataHalls " , : : describeDataHalls ( unavailableLocals ) ) . detail ( " Required " , required ) . detail ( " DesiredLogs " , desired ) . detail ( " RatingTests " , SERVER_KNOBS - > POLICY_RATING_TESTS )
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. detail ( " CheckStable " , checkStable ) . detail ( " PolicyGenerations " , SERVER_KNOBS - > POLICY_GENERATIONS ) . backtrace ( ) ;
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logServerSet - > clear ( ) ;
logServerSet . clear ( ) ;
throw no_more_servers ( ) ;
}
for ( auto & result : results ) {
id_used [ result . first . locality . processId ( ) ] + + ;
}
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TraceEvent ( " GetTLogTeamDone " ) . detail ( " Completed " , bCompleted ) . detail ( " Policy " , policy - > info ( ) ) . detail ( " Results " , results . size ( ) ) . detail ( " Processes " , logServerSet - > size ( ) ) . detail ( " Workers " , id_worker . size ( ) )
. detail ( " Required " , required ) . detail ( " Desired " , desired ) . detail ( " RatingTests " , SERVER_KNOBS - > POLICY_RATING_TESTS ) . detail ( " PolicyGenerations " , SERVER_KNOBS - > POLICY_GENERATIONS ) ;
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logServerSet - > clear ( ) ;
logServerSet . clear ( ) ;
return results ;
}
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//FIXME: This logic will fallback unnecessarily when usable dcs > 1 because it does not check all combinations of potential satellite locations
std : : vector < std : : pair < WorkerInterface , ProcessClass > > getWorkersForSatelliteLogs ( const DatabaseConfiguration & conf , const RegionInfo & region , std : : map < Optional < Standalone < StringRef > > , int > & id_used , bool & satelliteFallback , bool checkStable = false ) {
int startDC = 0 ;
loop {
if ( startDC > 0 & & startDC > = region . satellites . size ( ) + 1 - ( satelliteFallback ? region . satelliteTLogUsableDcsFallback : region . satelliteTLogUsableDcs ) ) {
if ( satelliteFallback | | region . satelliteTLogUsableDcsFallback = = 0 ) {
throw no_more_servers ( ) ;
} else {
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if ( now ( ) - startTime < SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY ) {
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throw operation_failed ( ) ;
}
satelliteFallback = true ;
startDC = 0 ;
}
}
try {
std : : set < Optional < Key > > satelliteDCs ;
for ( int s = startDC ; s < std : : min < int > ( startDC + ( satelliteFallback ? region . satelliteTLogUsableDcsFallback : region . satelliteTLogUsableDcs ) , region . satellites . size ( ) ) ; s + + ) {
satelliteDCs . insert ( region . satellites [ s ] . dcId ) ;
}
if ( satelliteFallback ) {
return getWorkersForTlogs ( conf , region . satelliteTLogReplicationFactorFallback , conf . getDesiredSatelliteLogs ( region . dcId ) * region . satelliteTLogUsableDcsFallback / region . satelliteTLogUsableDcs , region . satelliteTLogPolicyFallback , id_used , checkStable , satelliteDCs ) ;
} else {
return getWorkersForTlogs ( conf , region . satelliteTLogReplicationFactor , conf . getDesiredSatelliteLogs ( region . dcId ) , region . satelliteTLogPolicy , id_used , checkStable , satelliteDCs ) ;
}
} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_no_more_servers ) {
throw ;
}
}
startDC + + ;
}
}
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WorkerFitnessInfo getWorkerForRoleInDatacenter ( Optional < Standalone < StringRef > > const & dcId , ProcessClass : : ClusterRole role , ProcessClass : : Fitness unacceptableFitness , DatabaseConfiguration const & conf , std : : map < Optional < Standalone < StringRef > > , int > & id_used , bool checkStable = false ) {
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std : : map < std : : pair < ProcessClass : : Fitness , int > , vector < std : : pair < WorkerInterface , ProcessClass > > > fitness_workers ;
for ( auto & it : id_worker ) {
auto fitness = it . second . processClass . machineClassFitness ( role ) ;
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if ( conf . isExcludedServer ( it . second . interf . address ( ) ) ) {
fitness = std : : max ( fitness , ProcessClass : : ExcludeFit ) ;
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}
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if ( workerAvailable ( it . second , checkStable ) & & fitness < unacceptableFitness & & it . second . interf . locality . dcId ( ) = = dcId ) {
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fitness_workers [ std : : make_pair ( fitness , id_used [ it . first ] ) ] . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
}
}
for ( auto & it : fitness_workers ) {
auto & w = it . second ;
g_random - > randomShuffle ( w ) ;
for ( int i = 0 ; i < w . size ( ) ; i + + ) {
id_used [ w [ i ] . first . locality . processId ( ) ] + + ;
return WorkerFitnessInfo ( w [ i ] , it . first . first , it . first . second ) ;
}
}
throw no_more_servers ( ) ;
}
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vector < std : : pair < WorkerInterface , ProcessClass > > getWorkersForRoleInDatacenter ( Optional < Standalone < StringRef > > const & dcId , ProcessClass : : ClusterRole role , int amount , DatabaseConfiguration const & conf , std : : map < Optional < Standalone < StringRef > > , int > & id_used , Optional < WorkerFitnessInfo > minWorker = Optional < WorkerFitnessInfo > ( ) , bool checkStable = false ) {
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std : : map < std : : pair < ProcessClass : : Fitness , int > , vector < std : : pair < WorkerInterface , ProcessClass > > > fitness_workers ;
vector < std : : pair < WorkerInterface , ProcessClass > > results ;
if ( amount < = 0 )
return results ;
for ( auto & it : id_worker ) {
auto fitness = it . second . processClass . machineClassFitness ( role ) ;
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if ( workerAvailable ( it . second , checkStable ) & & ! conf . isExcludedServer ( it . second . interf . address ( ) ) & & it . second . interf . locality . dcId ( ) = = dcId & &
( ! minWorker . present ( ) | | ( it . second . interf . id ( ) ! = minWorker . get ( ) . worker . first . id ( ) & & ( fitness < minWorker . get ( ) . fitness | | ( fitness = = minWorker . get ( ) . fitness & & id_used [ it . first ] < = minWorker . get ( ) . used ) ) ) ) ) {
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fitness_workers [ std : : make_pair ( fitness , id_used [ it . first ] ) ] . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
}
}
for ( auto & it : fitness_workers ) {
auto & w = it . second ;
g_random - > randomShuffle ( w ) ;
for ( int i = 0 ; i < w . size ( ) ; i + + ) {
results . push_back ( w [ i ] ) ;
id_used [ w [ i ] . first . locality . processId ( ) ] + + ;
if ( results . size ( ) = = amount )
return results ;
}
}
return results ;
}
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struct RoleFitness {
ProcessClass : : Fitness bestFit ;
ProcessClass : : Fitness worstFit ;
int count ;
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RoleFitness ( int bestFit , int worstFit , int count ) : bestFit ( ( ProcessClass : : Fitness ) bestFit ) , worstFit ( ( ProcessClass : : Fitness ) worstFit ) , count ( count ) { }
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RoleFitness ( int fitness , int count ) : bestFit ( ( ProcessClass : : Fitness ) fitness ) , worstFit ( ( ProcessClass : : Fitness ) fitness ) , count ( count ) { }
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RoleFitness ( ) : bestFit ( ProcessClass : : NeverAssign ) , worstFit ( ProcessClass : : NeverAssign ) , count ( 0 ) { }
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RoleFitness ( RoleFitness first , RoleFitness second ) : bestFit ( std : : min ( first . worstFit , second . worstFit ) ) , worstFit ( std : : max ( first . worstFit , second . worstFit ) ) , count ( first . count + second . count ) { }
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RoleFitness ( vector < std : : pair < WorkerInterface , ProcessClass > > workers , ProcessClass : : ClusterRole role ) {
worstFit = ProcessClass : : BestFit ;
bestFit = ProcessClass : : NeverAssign ;
for ( auto it : workers ) {
auto thisFit = it . second . machineClassFitness ( role ) ;
worstFit = std : : max ( worstFit , thisFit ) ;
bestFit = std : : min ( bestFit , thisFit ) ;
}
count = workers . size ( ) ;
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}
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RoleFitness ( std : : vector < ProcessClass > classes , ProcessClass : : ClusterRole role ) {
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worstFit = ProcessClass : : BestFit ;
bestFit = ProcessClass : : NeverAssign ;
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for ( auto it : classes ) {
auto thisFit = it . machineClassFitness ( role ) ;
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worstFit = std : : max ( worstFit , thisFit ) ;
bestFit = std : : min ( bestFit , thisFit ) ;
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}
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count = classes . size ( ) ;
}
bool operator < ( RoleFitness const & r ) const {
if ( worstFit ! = r . worstFit ) return worstFit < r . worstFit ;
if ( bestFit ! = r . bestFit ) return bestFit < r . bestFit ;
return count > r . count ;
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}
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bool betterFitness ( RoleFitness const & r ) const {
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if ( worstFit ! = r . worstFit ) return worstFit < r . worstFit ;
if ( bestFit ! = r . bestFit ) return bestFit < r . bestFit ;
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return false ;
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}
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bool betterCount ( RoleFitness const & r ) const {
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if ( count > r . count ) return true ;
return worstFit < r . worstFit ;
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}
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bool operator = = ( RoleFitness const & r ) const { return worstFit = = r . worstFit & & bestFit = = r . bestFit & & count = = r . count ; }
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std : : string toString ( ) const { return format ( " %d %d &d " , bestFit , worstFit , count ) ; }
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} ;
std : : set < Optional < Standalone < StringRef > > > getDatacenters ( DatabaseConfiguration const & conf , bool checkStable = false ) {
std : : set < Optional < Standalone < StringRef > > > result ;
for ( auto & it : id_worker )
if ( workerAvailable ( it . second , checkStable ) & & ! conf . isExcludedServer ( it . second . interf . address ( ) ) )
result . insert ( it . second . interf . locality . dcId ( ) ) ;
return result ;
}
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RecruitRemoteFromConfigurationReply findRemoteWorkersForConfiguration ( RecruitRemoteFromConfigurationRequest const & req ) {
RecruitRemoteFromConfigurationReply result ;
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std : : map < Optional < Standalone < StringRef > > , int > id_used ;
id_used [ masterProcessId ] + + ;
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id_used [ clusterControllerProcessId ] + + ;
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std : : set < Optional < Key > > remoteDC ;
remoteDC . insert ( req . dcId ) ;
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auto remoteLogs = getWorkersForTlogs ( req . configuration , req . configuration . getRemoteTLogReplicationFactor ( ) , req . configuration . getDesiredRemoteLogs ( ) , req . configuration . getRemoteTLogPolicy ( ) , id_used , false , remoteDC ) ;
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for ( int i = 0 ; i < remoteLogs . size ( ) ; i + + ) {
result . remoteTLogs . push_back ( remoteLogs [ i ] . first ) ;
}
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auto logRouters = getWorkersForRoleInDatacenter ( req . dcId , ProcessClass : : LogRouter , req . logRouterCount , req . configuration , id_used ) ;
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for ( int i = 0 ; i < logRouters . size ( ) ; i + + ) {
result . logRouters . push_back ( logRouters [ i ] . first ) ;
}
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if ( ! remoteStartTime . present ( ) ) {
remoteStartTime = now ( ) ;
}
if ( now ( ) - remoteStartTime . get ( ) < SERVER_KNOBS - > WAIT_FOR_GOOD_REMOTE_RECRUITMENT_DELAY & &
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( ( RoleFitness ( SERVER_KNOBS - > EXPECTED_TLOG_FITNESS , req . configuration . getDesiredRemoteLogs ( ) ) . betterCount ( RoleFitness ( remoteLogs , ProcessClass : : TLog ) ) ) | |
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( RoleFitness ( SERVER_KNOBS - > EXPECTED_LOG_ROUTER_FITNESS , req . logRouterCount ) . betterCount ( RoleFitness ( logRouters , ProcessClass : : LogRouter ) ) ) ) ) {
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throw operation_failed ( ) ;
}
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return result ;
}
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ErrorOr < RecruitFromConfigurationReply > findWorkersForConfiguration ( RecruitFromConfigurationRequest const & req , Optional < Key > dcId ) {
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RecruitFromConfigurationReply result ;
std : : map < Optional < Standalone < StringRef > > , int > id_used ;
id_used [ masterProcessId ] + + ;
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id_used [ clusterControllerProcessId ] + + ;
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ASSERT ( dcId . present ( ) ) ;
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std : : set < Optional < Key > > primaryDC ;
primaryDC . insert ( dcId ) ;
result . dcId = dcId ;
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RegionInfo region ;
for ( auto & r : req . configuration . regions ) {
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if ( r . dcId = = dcId . get ( ) ) {
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region = r ;
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break ;
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}
}
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if ( req . recruitSeedServers ) {
auto primaryStorageServers = getWorkersForSeedServers ( req . configuration , req . configuration . storagePolicy , dcId ) ;
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for ( int i = 0 ; i < primaryStorageServers . size ( ) ; i + + ) {
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result . storageServers . push_back ( primaryStorageServers [ i ] . first ) ;
}
}
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auto tlogs = getWorkersForTlogs ( req . configuration , req . configuration . tLogReplicationFactor , req . configuration . getDesiredLogs ( ) , req . configuration . tLogPolicy , id_used , false , primaryDC ) ;
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for ( int i = 0 ; i < tlogs . size ( ) ; i + + ) {
result . tLogs . push_back ( tlogs [ i ] . first ) ;
}
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std : : vector < std : : pair < WorkerInterface , ProcessClass > > satelliteLogs ;
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if ( region . satelliteTLogReplicationFactor > 0 ) {
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satelliteLogs = getWorkersForSatelliteLogs ( req . configuration , region , id_used , result . satelliteFallback ) ;
for ( int i = 0 ; i < satelliteLogs . size ( ) ; i + + ) {
result . satelliteTLogs . push_back ( satelliteLogs [ i ] . first ) ;
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}
}
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auto first_resolver = getWorkerForRoleInDatacenter ( dcId , ProcessClass : : Resolver , ProcessClass : : ExcludeFit , req . configuration , id_used ) ;
auto first_proxy = getWorkerForRoleInDatacenter ( dcId , ProcessClass : : Proxy , ProcessClass : : ExcludeFit , req . configuration , id_used ) ;
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auto proxies = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : Proxy , req . configuration . getDesiredProxies ( ) - 1 , req . configuration , id_used , first_proxy ) ;
auto resolvers = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : Resolver , req . configuration . getDesiredResolvers ( ) - 1 , req . configuration , id_used , first_resolver ) ;
proxies . push_back ( first_proxy . worker ) ;
resolvers . push_back ( first_resolver . worker ) ;
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for ( int i = 0 ; i < resolvers . size ( ) ; i + + )
result . resolvers . push_back ( resolvers [ i ] . first ) ;
for ( int i = 0 ; i < proxies . size ( ) ; i + + )
result . proxies . push_back ( proxies [ i ] . first ) ;
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auto oldLogRouters = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : LogRouter , req . maxOldLogRouters , req . configuration , id_used ) ;
for ( int i = 0 ; i < oldLogRouters . size ( ) ; i + + ) {
result . oldLogRouters . push_back ( oldLogRouters [ i ] . first ) ;
}
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if ( now ( ) - startTime < SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY & &
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( RoleFitness ( SERVER_KNOBS - > EXPECTED_TLOG_FITNESS , req . configuration . getDesiredLogs ( ) ) . betterCount ( RoleFitness ( tlogs , ProcessClass : : TLog ) ) | |
( region . satelliteTLogReplicationFactor > 0 & & RoleFitness ( SERVER_KNOBS - > EXPECTED_TLOG_FITNESS , req . configuration . getDesiredSatelliteLogs ( dcId ) ) . betterCount ( RoleFitness ( satelliteLogs , ProcessClass : : TLog ) ) ) | |
RoleFitness ( SERVER_KNOBS - > EXPECTED_PROXY_FITNESS , req . configuration . getDesiredProxies ( ) ) . betterCount ( RoleFitness ( proxies , ProcessClass : : Proxy ) ) | |
RoleFitness ( SERVER_KNOBS - > EXPECTED_RESOLVER_FITNESS , req . configuration . getDesiredResolvers ( ) ) . betterCount ( RoleFitness ( resolvers , ProcessClass : : Resolver ) ) ) ) {
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return operation_failed ( ) ;
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}
return result ;
}
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RecruitFromConfigurationReply findWorkersForConfiguration ( RecruitFromConfigurationRequest const & req ) {
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if ( req . configuration . regions . size ( ) > 1 ) {
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std : : vector < RegionInfo > regions = req . configuration . regions ;
if ( regions [ 0 ] . priority = = regions [ 1 ] . priority & & clusterControllerDcId . present ( ) & & regions [ 1 ] . dcId = = clusterControllerDcId . get ( ) ) {
std : : swap ( regions [ 0 ] , regions [ 1 ] ) ;
}
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if ( clusterControllerDcId . present ( ) & & regions [ 1 ] . dcId = = clusterControllerDcId . get ( ) & & ( ! versionDifferenceUpdated | | datacenterVersionDifference > = SERVER_KNOBS - > MAX_VERSION_DIFFERENCE ) ) {
std : : swap ( regions [ 0 ] , regions [ 1 ] ) ;
}
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bool setPrimaryDesired = false ;
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try {
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auto reply = findWorkersForConfiguration ( req , regions [ 0 ] . dcId ) ;
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setPrimaryDesired = true ;
vector < Optional < Key > > dcPriority ;
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dcPriority . push_back ( regions [ 0 ] . dcId ) ;
dcPriority . push_back ( regions [ 1 ] . dcId ) ;
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desiredDcIds . set ( dcPriority ) ;
if ( reply . isError ( ) ) {
throw reply . getError ( ) ;
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} else if ( clusterControllerDcId . present ( ) & & regions [ 0 ] . dcId = = clusterControllerDcId . get ( ) ) {
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return reply . get ( ) ;
}
throw no_more_servers ( ) ;
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} catch ( Error & e ) {
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if ( now ( ) - startTime < SERVER_KNOBS - > WAIT_FOR_GOOD_REMOTE_RECRUITMENT_DELAY & & ( ! clusterControllerDcId . present ( ) | | regions [ 1 ] . dcId ! = clusterControllerDcId . get ( ) ) ) {
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throw operation_failed ( ) ;
}
if ( e . code ( ) ! = error_code_no_more_servers | | regions [ 1 ] . priority < 0 ) {
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throw ;
}
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TraceEvent ( SevWarn , " AttemptingRecruitmentInRemoteDC " , id ) . error ( e ) ;
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auto reply = findWorkersForConfiguration ( req , regions [ 1 ] . dcId ) ;
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if ( ! setPrimaryDesired ) {
vector < Optional < Key > > dcPriority ;
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dcPriority . push_back ( regions [ 1 ] . dcId ) ;
dcPriority . push_back ( regions [ 0 ] . dcId ) ;
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desiredDcIds . set ( dcPriority ) ;
}
if ( reply . isError ( ) ) {
throw reply . getError ( ) ;
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} else if ( clusterControllerDcId . present ( ) & & regions [ 1 ] . dcId = = clusterControllerDcId . get ( ) ) {
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return reply . get ( ) ;
}
throw ;
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}
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} else if ( req . configuration . regions . size ( ) = = 1 ) {
vector < Optional < Key > > dcPriority ;
dcPriority . push_back ( req . configuration . regions [ 0 ] . dcId ) ;
desiredDcIds . set ( dcPriority ) ;
auto reply = findWorkersForConfiguration ( req , req . configuration . regions [ 0 ] . dcId ) ;
if ( reply . isError ( ) ) {
throw reply . getError ( ) ;
} else if ( clusterControllerDcId . present ( ) & & req . configuration . regions [ 0 ] . dcId = = clusterControllerDcId . get ( ) ) {
return reply . get ( ) ;
}
throw no_more_servers ( ) ;
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} else {
RecruitFromConfigurationReply result ;
std : : map < Optional < Standalone < StringRef > > , int > id_used ;
id_used [ masterProcessId ] + + ;
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id_used [ clusterControllerProcessId ] + + ;
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auto tlogs = getWorkersForTlogs ( req . configuration , req . configuration . tLogReplicationFactor , req . configuration . getDesiredLogs ( ) , req . configuration . tLogPolicy , id_used ) ;
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for ( int i = 0 ; i < tlogs . size ( ) ; i + + ) {
result . tLogs . push_back ( tlogs [ i ] . first ) ;
}
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if ( req . recruitSeedServers ) {
auto primaryStorageServers = getWorkersForSeedServers ( req . configuration , req . configuration . storagePolicy ) ;
for ( int i = 0 ; i < primaryStorageServers . size ( ) ; i + + )
result . storageServers . push_back ( primaryStorageServers [ i ] . first ) ;
}
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auto datacenters = getDatacenters ( req . configuration ) ;
RoleFitness bestFitness ;
int numEquivalent = 1 ;
Optional < Key > bestDC ;
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for ( auto dcId : datacenters ) {
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try {
//SOMEDAY: recruitment in other DCs besides the clusterControllerDcID will not account for the processes used by the master and cluster controller properly.
auto used = id_used ;
auto first_resolver = getWorkerForRoleInDatacenter ( dcId , ProcessClass : : Resolver , ProcessClass : : ExcludeFit , req . configuration , used ) ;
auto first_proxy = getWorkerForRoleInDatacenter ( dcId , ProcessClass : : Proxy , ProcessClass : : ExcludeFit , req . configuration , used ) ;
auto proxies = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : Proxy , req . configuration . getDesiredProxies ( ) - 1 , req . configuration , used , first_proxy ) ;
auto resolvers = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : Resolver , req . configuration . getDesiredResolvers ( ) - 1 , req . configuration , used , first_resolver ) ;
proxies . push_back ( first_proxy . worker ) ;
resolvers . push_back ( first_resolver . worker ) ;
auto fitness = RoleFitness ( RoleFitness ( proxies , ProcessClass : : Proxy ) , RoleFitness ( resolvers , ProcessClass : : Resolver ) ) ;
if ( dcId = = clusterControllerDcId ) {
bestFitness = fitness ;
bestDC = dcId ;
for ( int i = 0 ; i < resolvers . size ( ) ; i + + )
result . resolvers . push_back ( resolvers [ i ] . first ) ;
for ( int i = 0 ; i < proxies . size ( ) ; i + + )
result . proxies . push_back ( proxies [ i ] . first ) ;
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auto oldLogRouters = getWorkersForRoleInDatacenter ( dcId , ProcessClass : : LogRouter , req . maxOldLogRouters , req . configuration , used ) ;
for ( int i = 0 ; i < oldLogRouters . size ( ) ; i + + ) {
result . oldLogRouters . push_back ( oldLogRouters [ i ] . first ) ;
}
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break ;
} else {
if ( fitness < bestFitness ) {
bestFitness = fitness ;
numEquivalent = 1 ;
bestDC = dcId ;
} else if ( fitness = = bestFitness & & g_random - > random01 ( ) < 1.0 / + + numEquivalent ) {
bestDC = dcId ;
}
}
} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_no_more_servers ) {
throw ;
}
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}
}
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if ( bestDC ! = clusterControllerDcId ) {
vector < Optional < Key > > dcPriority ;
dcPriority . push_back ( bestDC ) ;
desiredDcIds . set ( dcPriority ) ;
throw no_more_servers ( ) ;
}
//If this cluster controller dies, do not prioritize recruiting the next one in the same DC
desiredDcIds . set ( vector < Optional < Key > > ( ) ) ;
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TraceEvent ( " FindWorkersForConfig " ) . detail ( " Replication " , req . configuration . tLogReplicationFactor )
. detail ( " DesiredLogs " , req . configuration . getDesiredLogs ( ) ) . detail ( " ActualLogs " , result . tLogs . size ( ) )
. detail ( " DesiredProxies " , req . configuration . getDesiredProxies ( ) ) . detail ( " ActualProxies " , result . proxies . size ( ) )
. detail ( " DesiredResolvers " , req . configuration . getDesiredResolvers ( ) ) . detail ( " ActualResolvers " , result . resolvers . size ( ) ) ;
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if ( now ( ) - startTime < SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY & &
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( RoleFitness ( SERVER_KNOBS - > EXPECTED_TLOG_FITNESS , req . configuration . getDesiredLogs ( ) ) . betterCount ( RoleFitness ( tlogs , ProcessClass : : TLog ) ) | |
RoleFitness ( std : : min ( SERVER_KNOBS - > EXPECTED_PROXY_FITNESS , SERVER_KNOBS - > EXPECTED_RESOLVER_FITNESS ) , std : : max ( SERVER_KNOBS - > EXPECTED_PROXY_FITNESS , SERVER_KNOBS - > EXPECTED_RESOLVER_FITNESS ) , req . configuration . getDesiredProxies ( ) + req . configuration . getDesiredResolvers ( ) ) . betterCount ( bestFitness ) ) ) {
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throw operation_failed ( ) ;
}
return result ;
}
}
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void checkRegions ( const std : : vector < RegionInfo > & regions ) {
if ( desiredDcIds . get ( ) . present ( ) & & desiredDcIds . get ( ) . get ( ) . size ( ) = = 2 & & desiredDcIds . get ( ) . get ( ) [ 0 ] . get ( ) = = regions [ 0 ] . dcId & & desiredDcIds . get ( ) . get ( ) [ 1 ] . get ( ) = = regions [ 1 ] . dcId ) {
return ;
}
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try {
std : : map < Optional < Standalone < StringRef > > , int > id_used ;
getWorkerForRoleInDatacenter ( regions [ 0 ] . dcId , ProcessClass : : ClusterController , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
getWorkerForRoleInDatacenter ( regions [ 0 ] . dcId , ProcessClass : : Master , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
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std : : set < Optional < Key > > primaryDC ;
primaryDC . insert ( regions [ 0 ] . dcId ) ;
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getWorkersForTlogs ( db . config , db . config . tLogReplicationFactor , db . config . getDesiredLogs ( ) , db . config . tLogPolicy , id_used , true , primaryDC ) ;
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if ( regions [ 0 ] . satelliteTLogReplicationFactor > 0 ) {
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bool satelliteFallback = false ;
getWorkersForSatelliteLogs ( db . config , regions [ 0 ] , id_used , satelliteFallback , true ) ;
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}
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getWorkerForRoleInDatacenter ( regions [ 0 ] . dcId , ProcessClass : : Resolver , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
getWorkerForRoleInDatacenter ( regions [ 0 ] . dcId , ProcessClass : : Proxy , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
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vector < Optional < Key > > dcPriority ;
dcPriority . push_back ( regions [ 0 ] . dcId ) ;
dcPriority . push_back ( regions [ 1 ] . dcId ) ;
desiredDcIds . set ( dcPriority ) ;
} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_no_more_servers ) {
throw ;
}
}
}
void checkRecoveryStalled ( ) {
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if ( ( db . serverInfo - > get ( ) . recoveryState = = RecoveryState : : RECRUITING | | db . serverInfo - > get ( ) . recoveryState = = RecoveryState : : ACCEPTING_COMMITS | | db . serverInfo - > get ( ) . recoveryState = = RecoveryState : : ALL_LOGS_RECRUITED ) & & db . recoveryStalled ) {
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if ( db . config . regions . size ( ) > 1 & & clusterControllerDcId . present ( ) ) {
auto regions = db . config . regions ;
if ( clusterControllerDcId . get ( ) = = regions [ 0 ] . dcId ) {
std : : swap ( regions [ 0 ] , regions [ 1 ] ) ;
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}
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ASSERT ( clusterControllerDcId . get ( ) = = regions [ 1 ] . dcId ) ;
checkRegions ( regions ) ;
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}
}
}
//FIXME: determine when to fail the cluster controller when a primaryDC has not been set
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bool betterMasterExists ( ) {
ServerDBInfo dbi = db . serverInfo - > get ( ) ;
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if ( dbi . recoveryState < RecoveryState : : ACCEPTING_COMMITS ) {
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return false ;
}
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// Do not trigger better master exists if the cluster controller is excluded, since the master will change anyways once the cluster controller is moved
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if ( id_worker [ clusterControllerProcessId ] . priorityInfo . isExcluded ) {
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return false ;
}
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if ( db . config . regions . size ( ) > 1 & & clusterControllerDcId . present ( ) & & db . config . regions [ 0 ] . priority > db . config . regions [ 1 ] . priority & &
db . config . regions [ 0 ] . dcId ! = clusterControllerDcId . get ( ) & & versionDifferenceUpdated & & datacenterVersionDifference < SERVER_KNOBS - > MAX_VERSION_DIFFERENCE ) {
checkRegions ( db . config . regions ) ;
}
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// Get master process
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auto masterWorker = id_worker . find ( dbi . master . locality . processId ( ) ) ;
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if ( masterWorker = = id_worker . end ( ) ) {
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return false ;
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}
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// Get tlog processes
std : : vector < std : : pair < WorkerInterface , ProcessClass > > tlogs ;
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std : : vector < std : : pair < WorkerInterface , ProcessClass > > remote_tlogs ;
std : : vector < std : : pair < WorkerInterface , ProcessClass > > satellite_tlogs ;
std : : vector < std : : pair < WorkerInterface , ProcessClass > > log_routers ;
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std : : set < NetworkAddress > logRouterAddresses ;
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for ( auto & logSet : dbi . logSystemConfig . tLogs ) {
for ( auto & it : logSet . tLogs ) {
auto tlogWorker = id_worker . find ( it . interf ( ) . locality . processId ( ) ) ;
if ( tlogWorker = = id_worker . end ( ) )
return false ;
if ( tlogWorker - > second . priorityInfo . isExcluded )
return true ;
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if ( logSet . isLocal & & logSet . locality = = tagLocalitySatellite ) {
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satellite_tlogs . push_back ( std : : make_pair ( tlogWorker - > second . interf , tlogWorker - > second . processClass ) ) ;
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}
else if ( logSet . isLocal ) {
tlogs . push_back ( std : : make_pair ( tlogWorker - > second . interf , tlogWorker - > second . processClass ) ) ;
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} else {
remote_tlogs . push_back ( std : : make_pair ( tlogWorker - > second . interf , tlogWorker - > second . processClass ) ) ;
}
}
for ( auto & it : logSet . logRouters ) {
auto tlogWorker = id_worker . find ( it . interf ( ) . locality . processId ( ) ) ;
if ( tlogWorker = = id_worker . end ( ) )
return false ;
if ( tlogWorker - > second . priorityInfo . isExcluded )
return true ;
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if ( ! logRouterAddresses . count ( tlogWorker - > second . interf . address ( ) ) ) {
logRouterAddresses . insert ( tlogWorker - > second . interf . address ( ) ) ;
log_routers . push_back ( std : : make_pair ( tlogWorker - > second . interf , tlogWorker - > second . processClass ) ) ;
}
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}
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}
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// Get proxy classes
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std : : vector < ProcessClass > proxyClasses ;
for ( auto & it : dbi . client . proxies ) {
auto proxyWorker = id_worker . find ( it . locality . processId ( ) ) ;
if ( proxyWorker = = id_worker . end ( ) )
return false ;
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if ( proxyWorker - > second . priorityInfo . isExcluded )
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return true ;
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proxyClasses . push_back ( proxyWorker - > second . processClass ) ;
}
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// Get resolver classes
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std : : vector < ProcessClass > resolverClasses ;
for ( auto & it : dbi . resolvers ) {
auto resolverWorker = id_worker . find ( it . locality . processId ( ) ) ;
if ( resolverWorker = = id_worker . end ( ) )
return false ;
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if ( resolverWorker - > second . priorityInfo . isExcluded )
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return true ;
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resolverClasses . push_back ( resolverWorker - > second . processClass ) ;
}
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// Check master fitness. Don't return false if master is excluded in case all the processes are excluded, we still need master for recovery.
ProcessClass : : Fitness oldMasterFit = masterWorker - > second . processClass . machineClassFitness ( ProcessClass : : Master ) ;
if ( db . config . isExcludedServer ( dbi . master . address ( ) ) ) {
oldMasterFit = std : : max ( oldMasterFit , ProcessClass : : ExcludeFit ) ;
}
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std : : map < Optional < Standalone < StringRef > > , int > id_used ;
id_used [ clusterControllerProcessId ] + + ;
WorkerFitnessInfo mworker = getWorkerForRoleInDatacenter ( clusterControllerDcId , ProcessClass : : Master , ProcessClass : : NeverAssign , db . config , id_used , true ) ;
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if ( oldMasterFit < mworker . fitness )
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return false ;
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if ( oldMasterFit > mworker . fitness | | ( dbi . master . locality . processId ( ) = = clusterControllerProcessId & & mworker . worker . first . locality . processId ( ) ! = clusterControllerProcessId ) )
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return true ;
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std : : set < Optional < Key > > primaryDC ;
std : : set < Optional < Key > > remoteDC ;
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RegionInfo region ;
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if ( db . config . regions . size ( ) & & clusterControllerDcId . present ( ) ) {
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primaryDC . insert ( clusterControllerDcId ) ;
for ( auto & r : db . config . regions ) {
if ( r . dcId ! = clusterControllerDcId . get ( ) ) {
ASSERT ( remoteDC . empty ( ) ) ;
remoteDC . insert ( r . dcId ) ;
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} else {
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ASSERT ( region . dcId = = StringRef ( ) ) ;
region = r ;
}
}
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}
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// Check tLog fitness
RoleFitness oldTLogFit ( tlogs , ProcessClass : : TLog ) ;
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RoleFitness newTLogFit ( getWorkersForTlogs ( db . config , db . config . tLogReplicationFactor , db . config . getDesiredLogs ( ) , db . config . tLogPolicy , id_used , true , primaryDC ) , ProcessClass : : TLog ) ;
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if ( oldTLogFit < newTLogFit ) return false ;
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bool oldSatelliteFallback = false ;
for ( auto & logSet : dbi . logSystemConfig . tLogs ) {
if ( logSet . isLocal & & logSet . locality = = tagLocalitySatellite ) {
oldSatelliteFallback = logSet . tLogPolicy - > info ( ) ! = region . satelliteTLogPolicy - > info ( ) ;
ASSERT ( ! oldSatelliteFallback | | logSet . tLogPolicy - > info ( ) = = region . satelliteTLogPolicyFallback - > info ( ) ) ;
break ;
}
}
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RoleFitness oldSatelliteTLogFit ( satellite_tlogs , ProcessClass : : TLog ) ;
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bool newSatelliteFallback = false ;
RoleFitness newSatelliteTLogFit ( region . satelliteTLogReplicationFactor > 0 ? getWorkersForSatelliteLogs ( db . config , region , id_used , newSatelliteFallback , true ) : satellite_tlogs , ProcessClass : : TLog ) ;
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if ( oldSatelliteTLogFit < newSatelliteTLogFit )
return false ;
if ( ! oldSatelliteFallback & & newSatelliteFallback )
return false ;
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RoleFitness oldRemoteTLogFit ( remote_tlogs , ProcessClass : : TLog ) ;
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RoleFitness newRemoteTLogFit ( ( db . config . usableRegions > 1 & & dbi . recoveryState = = RecoveryState : : FULLY_RECOVERED ) ? getWorkersForTlogs ( db . config , db . config . getRemoteTLogReplicationFactor ( ) , db . config . getDesiredRemoteLogs ( ) , db . config . getRemoteTLogPolicy ( ) , id_used , true , remoteDC ) : remote_tlogs , ProcessClass : : TLog ) ;
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if ( oldRemoteTLogFit < newRemoteTLogFit ) return false ;
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int oldRouterCount = oldTLogFit . count * std : : max < int > ( 1 , db . config . desiredLogRouterCount / std : : max ( 1 , oldTLogFit . count ) ) ;
int newRouterCount = newTLogFit . count * std : : max < int > ( 1 , db . config . desiredLogRouterCount / std : : max ( 1 , newTLogFit . count ) ) ;
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RoleFitness oldLogRoutersFit ( log_routers , ProcessClass : : LogRouter ) ;
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RoleFitness newLogRoutersFit ( ( db . config . usableRegions > 1 & & dbi . recoveryState = = RecoveryState : : FULLY_RECOVERED ) ? getWorkersForRoleInDatacenter ( * remoteDC . begin ( ) , ProcessClass : : LogRouter , newRouterCount , db . config , id_used , Optional < WorkerFitnessInfo > ( ) , true ) : log_routers , ProcessClass : : LogRouter ) ;
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if ( oldLogRoutersFit . count < oldRouterCount ) {
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oldLogRoutersFit . worstFit = ProcessClass : : NeverAssign ;
}
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if ( newLogRoutersFit . count < newRouterCount ) {
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newLogRoutersFit . worstFit = ProcessClass : : NeverAssign ;
}
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if ( oldLogRoutersFit < newLogRoutersFit ) return false ;
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// Check proxy/resolver fitness
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RoleFitness oldInFit ( RoleFitness ( proxyClasses , ProcessClass : : Proxy ) , RoleFitness ( resolverClasses , ProcessClass : : Resolver ) ) ;
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auto first_resolver = getWorkerForRoleInDatacenter ( clusterControllerDcId , ProcessClass : : Resolver , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
auto first_proxy = getWorkerForRoleInDatacenter ( clusterControllerDcId , ProcessClass : : Proxy , ProcessClass : : ExcludeFit , db . config , id_used , true ) ;
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auto proxies = getWorkersForRoleInDatacenter ( clusterControllerDcId , ProcessClass : : Proxy , db . config . getDesiredProxies ( ) - 1 , db . config , id_used , first_proxy , true ) ;
auto resolvers = getWorkersForRoleInDatacenter ( clusterControllerDcId , ProcessClass : : Resolver , db . config . getDesiredResolvers ( ) - 1 , db . config , id_used , first_resolver , true ) ;
proxies . push_back ( first_proxy . worker ) ;
resolvers . push_back ( first_resolver . worker ) ;
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RoleFitness newInFit ( RoleFitness ( proxies , ProcessClass : : Proxy ) , RoleFitness ( resolvers , ProcessClass : : Resolver ) ) ;
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if ( oldInFit . betterFitness ( newInFit ) ) return false ;
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if ( oldTLogFit > newTLogFit | | oldInFit > newInFit | | ( oldSatelliteFallback & & ! newSatelliteFallback ) | | oldSatelliteTLogFit > newSatelliteTLogFit | | oldRemoteTLogFit > newRemoteTLogFit | | oldLogRoutersFit > newLogRoutersFit ) {
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TraceEvent ( " BetterMasterExists " , id ) . detail ( " OldMasterFit " , oldMasterFit ) . detail ( " NewMasterFit " , mworker . fitness )
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. detail ( " OldTLogFit " , oldTLogFit . toString ( ) ) . detail ( " NewTLogFit " , newTLogFit . toString ( ) )
. detail ( " OldInFit " , oldInFit . toString ( ) ) . detail ( " NewInFit " , newInFit . toString ( ) )
. detail ( " OldSatelliteFit " , oldSatelliteTLogFit . toString ( ) ) . detail ( " NewSatelliteFit " , newSatelliteTLogFit . toString ( ) )
. detail ( " OldRemoteFit " , oldRemoteTLogFit . toString ( ) ) . detail ( " NewRemoteFit " , newRemoteTLogFit . toString ( ) )
. detail ( " OldRouterFit " , oldLogRoutersFit . toString ( ) ) . detail ( " NewRouterFit " , newLogRoutersFit . toString ( ) )
. detail ( " OldSatelliteFallback " , oldSatelliteFallback ) . detail ( " NewSatelliteFallback " , newSatelliteFallback ) ;
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return true ;
}
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return false ;
}
std : : map < Optional < Standalone < StringRef > > , WorkerInfo > id_worker ;
std : : map < Optional < Standalone < StringRef > > , ProcessClass > id_class ; //contains the mapping from process id to process class from the database
Standalone < RangeResultRef > lastProcessClasses ;
bool gotProcessClasses ;
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bool gotFullyRecoveredConfig ;
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Optional < Standalone < StringRef > > masterProcessId ;
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Optional < Standalone < StringRef > > clusterControllerProcessId ;
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Optional < Standalone < StringRef > > clusterControllerDcId ;
AsyncVar < Optional < vector < Optional < Key > > > > desiredDcIds ; //desired DC priorities
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AsyncVar < std : : pair < bool , Optional < vector < Optional < Key > > > > > changingDcIds ; //current DC priorities to change first, and whether that is the cluster controller
AsyncVar < std : : pair < bool , Optional < vector < Optional < Key > > > > > changedDcIds ; //current DC priorities to change second, and whether the cluster controller has been changed
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UID id ;
std : : vector < RecruitFromConfigurationRequest > outstandingRecruitmentRequests ;
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std : : vector < RecruitRemoteFromConfigurationRequest > outstandingRemoteRecruitmentRequests ;
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std : : vector < std : : pair < RecruitStorageRequest , double > > outstandingStorageRequests ;
ActorCollection ac ;
UpdateWorkerList updateWorkerList ;
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Future < Void > outstandingRequestChecker ;
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DBInfo db ;
Database cx ;
double startTime ;
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Optional < double > remoteStartTime ;
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Version datacenterVersionDifference ;
bool versionDifferenceUpdated ;
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ClusterControllerData ( ClusterControllerFullInterface const & ccInterface , LocalityData const & locality )
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: id ( ccInterface . id ( ) ) , ac ( false ) , outstandingRequestChecker ( Void ( ) ) , gotProcessClasses ( false ) , gotFullyRecoveredConfig ( false ) , startTime ( now ( ) ) , datacenterVersionDifference ( 0 ) , versionDifferenceUpdated ( false )
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{
auto serverInfo = db . serverInfo - > get ( ) ;
serverInfo . id = g_random - > randomUniqueID ( ) ;
serverInfo . masterLifetime . ccID = id ;
serverInfo . clusterInterface = ccInterface ;
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serverInfo . myLocality = locality ;
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db . serverInfo - > set ( serverInfo ) ;
cx = openDBOnServer ( db . serverInfo , TaskDefaultEndpoint , true , true ) ;
}
~ ClusterControllerData ( ) {
ac . clear ( false ) ;
id_worker . clear ( ) ;
}
} ;
template < class K , class T >
vector < T > values ( std : : map < K , T > const & map ) {
vector < T > t ;
for ( auto i = map . begin ( ) ; i ! = map . end ( ) ; + + i )
t . push_back ( i - > second ) ;
return t ;
}
ACTOR Future < Void > clusterWatchDatabase ( ClusterControllerData * cluster , ClusterControllerData : : DBInfo * db )
{
state MasterInterface iMaster ;
// SOMEDAY: If there is already a non-failed master referenced by zkMasterInfo, use that one until it fails
// When this someday is implemented, make sure forced failures still cause the master to be recruited again
loop {
TraceEvent ( " CCWDB " , cluster - > id ) ;
try {
state double recoveryStart = now ( ) ;
TraceEvent ( " CCWDB " , cluster - > id ) . detail ( " Recruiting " , " Master " ) ;
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while ( ! cluster - > clusterControllerProcessId . present ( ) ) {
Void _ = wait ( delay ( SERVER_KNOBS - > ATTEMPT_RECRUITMENT_DELAY ) ) ;
}
//We must recruit the master in the same data center as the cluster controller.
//This should always be possible, because we can recruit the master on the same process as the cluster controller.
std : : map < Optional < Standalone < StringRef > > , int > id_used ;
id_used [ cluster - > clusterControllerProcessId ] + + ;
state WorkerFitnessInfo masterWorker = cluster - > getWorkerForRoleInDatacenter ( cluster - > clusterControllerDcId , ProcessClass : : Master , ProcessClass : : NeverAssign , db - > config , id_used ) ;
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if ( ( masterWorker . worker . second . machineClassFitness ( ProcessClass : : Master ) > SERVER_KNOBS - > EXPECTED_MASTER_FITNESS | | masterWorker . worker . first . locality . processId ( ) = = cluster - > clusterControllerProcessId )
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& & now ( ) - cluster - > startTime < SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY ) {
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TraceEvent ( " CCWDB " , cluster - > id ) . detail ( " Fitness " , masterWorker . worker . second . machineClassFitness ( ProcessClass : : Master ) ) ;
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Void _ = wait ( delay ( SERVER_KNOBS - > ATTEMPT_RECRUITMENT_DELAY ) ) ;
continue ;
}
RecruitMasterRequest rmq ;
rmq . lifetime = db - > serverInfo - > get ( ) . masterLifetime ;
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rmq . forceRecovery = db - > forceRecovery ;
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cluster - > masterProcessId = masterWorker . worker . first . locality . processId ( ) ;
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cluster - > db . unfinishedRecoveries + + ;
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ErrorOr < MasterInterface > newMaster = wait ( masterWorker . worker . first . master . tryGetReply ( rmq ) ) ;
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if ( newMaster . present ( ) ) {
TraceEvent ( " CCWDB " , cluster - > id ) . detail ( " Recruited " , newMaster . get ( ) . id ( ) ) ;
// for status tool
TraceEvent ( " RecruitedMasterWorker " , cluster - > id )
. detail ( " Address " , newMaster . get ( ) . address ( ) )
. trackLatest ( " DB/RecruitedMasterWorker " ) ;
iMaster = newMaster . get ( ) ;
db - > masterRegistrationCount = 0 ;
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db - > recoveryStalled = false ;
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db - > forceRecovery = false ;
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db - > forceMasterFailure = Promise < Void > ( ) ;
auto dbInfo = ServerDBInfo ( LiteralStringRef ( " DB " ) ) ;
dbInfo . master = iMaster ;
dbInfo . id = g_random - > randomUniqueID ( ) ;
dbInfo . masterLifetime = db - > serverInfo - > get ( ) . masterLifetime ;
+ + dbInfo . masterLifetime ;
dbInfo . clusterInterface = db - > serverInfo - > get ( ) . clusterInterface ;
TraceEvent ( " CCWDB " , cluster - > id ) . detail ( " Lifetime " , dbInfo . masterLifetime . toString ( ) ) . detail ( " ChangeID " , dbInfo . id ) ;
db - > serverInfo - > set ( dbInfo ) ;
Void _ = wait ( delay ( SERVER_KNOBS - > MASTER_SPIN_DELAY ) ) ; // Don't retry master recovery more than once per second, but don't delay the "first" recovery after more than a second of normal operation
TraceEvent ( " CCWDB " , cluster - > id ) . detail ( " Watching " , iMaster . id ( ) ) ;
// Master failure detection is pretty sensitive, but if we are in the middle of a very long recovery we really don't want to have to start over
loop choose {
when ( Void _ = wait ( waitFailureClient ( iMaster . waitFailure , db - > masterRegistrationCount ?
SERVER_KNOBS - > MASTER_FAILURE_REACTION_TIME : ( now ( ) - recoveryStart ) * SERVER_KNOBS - > MASTER_FAILURE_SLOPE_DURING_RECOVERY ,
db - > masterRegistrationCount ? - SERVER_KNOBS - > MASTER_FAILURE_REACTION_TIME / SERVER_KNOBS - > SECONDS_BEFORE_NO_FAILURE_DELAY : SERVER_KNOBS - > MASTER_FAILURE_SLOPE_DURING_RECOVERY ) | | db - > forceMasterFailure . getFuture ( ) ) ) { break ; }
when ( Void _ = wait ( db - > serverInfo - > onChange ( ) ) ) { }
}
TEST ( true ) ; // clusterWatchDatabase() master failed
TraceEvent ( SevWarn , " DetectedFailedMaster " , cluster - > id ) . detail ( " OldMaster " , iMaster . id ( ) ) ;
} else {
TEST ( true ) ; //clusterWatchDatabas() !newMaster.present()
Void _ = wait ( delay ( SERVER_KNOBS - > MASTER_SPIN_DELAY ) ) ;
}
} catch ( Error & e ) {
TraceEvent ( " CCWDB " , cluster - > id ) . error ( e , true ) . detail ( " Master " , iMaster . id ( ) ) ;
if ( e . code ( ) = = error_code_actor_cancelled ) throw ;
bool ok = e . code ( ) = = error_code_no_more_servers ;
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TraceEvent ( ok ? SevWarn : SevError , " ClusterWatchDatabaseRetrying " , cluster - > id ) . error ( e ) ;
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if ( ! ok )
throw e ;
Void _ = wait ( delay ( SERVER_KNOBS - > ATTEMPT_RECRUITMENT_DELAY ) ) ;
}
}
}
void addIssue ( ProcessIssuesMap & issueMap , NetworkAddress const & addr , std : : string const & issue , UID & issueID ) {
auto & e = issueMap [ addr ] ;
e . first = issue ;
e . second = issueID = g_random - > randomUniqueID ( ) ;
if ( ! issue . size ( ) ) issueMap . erase ( addr ) ;
}
void removeIssue ( ProcessIssuesMap & issueMap , NetworkAddress const & addr , std : : string const & issue , UID & issueID ) {
if ( ! issue . size ( ) ) return ;
if ( issueMap . count ( addr ) & & issueMap [ addr ] . second = = issueID )
issueMap . erase ( addr ) ;
}
ACTOR Future < Void > clusterGetServerInfo (
ClusterControllerData : : DBInfo * db ,
UID knownServerInfoID ,
std : : string issues ,
std : : vector < NetworkAddress > incompatiblePeers ,
ReplyPromise < ServerDBInfo > reply )
{
state UID issueID ;
addIssue ( db - > workersWithIssues , reply . getEndpoint ( ) . address , issues , issueID ) ;
for ( auto it : incompatiblePeers ) {
db - > incompatibleConnections [ it ] = now ( ) + SERVER_KNOBS - > INCOMPATIBLE_PEERS_LOGGING_INTERVAL ;
}
while ( db - > serverInfo - > get ( ) . id = = knownServerInfoID ) {
choose {
when ( Void _ = wait ( db - > serverInfo - > onChange ( ) ) ) { }
when ( Void _ = wait ( delayJittered ( 300 ) ) ) { break ; } // The server might be long gone!
}
}
removeIssue ( db - > workersWithIssues , reply . getEndpoint ( ) . address , issues , issueID ) ;
reply . send ( db - > serverInfo - > get ( ) ) ;
return Void ( ) ;
}
ACTOR Future < Void > clusterOpenDatabase (
ClusterControllerData : : DBInfo * db ,
Standalone < StringRef > dbName ,
UID knownClientInfoID ,
std : : string issues ,
Standalone < VectorRef < ClientVersionRef > > supportedVersions ,
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Standalone < StringRef > traceLogGroup ,
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ReplyPromise < ClientDBInfo > reply )
{
// NOTE: The client no longer expects this function to return errors
state UID issueID ;
addIssue ( db - > clientsWithIssues , reply . getEndpoint ( ) . address , issues , issueID ) ;
if ( supportedVersions . size ( ) > 0 ) {
db - > clientVersionMap [ reply . getEndpoint ( ) . address ] = supportedVersions ;
}
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db - > traceLogGroupMap [ reply . getEndpoint ( ) . address ] = traceLogGroup . toString ( ) ;
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while ( db - > clientInfo - > get ( ) . id = = knownClientInfoID ) {
choose {
when ( Void _ = wait ( db - > clientInfo - > onChange ( ) ) ) { }
when ( Void _ = wait ( delayJittered ( 300 ) ) ) { break ; } // The client might be long gone!
}
}
removeIssue ( db - > clientsWithIssues , reply . getEndpoint ( ) . address , issues , issueID ) ;
db - > clientVersionMap . erase ( reply . getEndpoint ( ) . address ) ;
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db - > traceLogGroupMap . erase ( reply . getEndpoint ( ) . address ) ;
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reply . send ( db - > clientInfo - > get ( ) ) ;
return Void ( ) ;
}
void checkOutstandingRecruitmentRequests ( ClusterControllerData * self ) {
for ( int i = 0 ; i < self - > outstandingRecruitmentRequests . size ( ) ; i + + ) {
RecruitFromConfigurationRequest & req = self - > outstandingRecruitmentRequests [ i ] ;
try {
req . reply . send ( self - > findWorkersForConfiguration ( req ) ) ;
std : : swap ( self - > outstandingRecruitmentRequests [ i - - ] , self - > outstandingRecruitmentRequests . back ( ) ) ;
self - > outstandingRecruitmentRequests . pop_back ( ) ;
} catch ( Error & e ) {
if ( e . code ( ) = = error_code_no_more_servers | | e . code ( ) = = error_code_operation_failed ) {
TraceEvent ( SevWarn , " RecruitTLogMatchingSetNotAvailable " , self - > id ) . error ( e ) ;
} else {
TraceEvent ( SevError , " RecruitTLogsRequestError " , self - > id ) . error ( e ) ;
throw ;
}
}
}
}
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void checkOutstandingRemoteRecruitmentRequests ( ClusterControllerData * self ) {
for ( int i = 0 ; i < self - > outstandingRemoteRecruitmentRequests . size ( ) ; i + + ) {
RecruitRemoteFromConfigurationRequest & req = self - > outstandingRemoteRecruitmentRequests [ i ] ;
try {
req . reply . send ( self - > findRemoteWorkersForConfiguration ( req ) ) ;
std : : swap ( self - > outstandingRemoteRecruitmentRequests [ i - - ] , self - > outstandingRemoteRecruitmentRequests . back ( ) ) ;
self - > outstandingRemoteRecruitmentRequests . pop_back ( ) ;
} catch ( Error & e ) {
if ( e . code ( ) = = error_code_no_more_servers | | e . code ( ) = = error_code_operation_failed ) {
TraceEvent ( SevWarn , " RecruitRemoteTLogMatchingSetNotAvailable " , self - > id ) . error ( e ) ;
} else {
TraceEvent ( SevError , " RecruitRemoteTLogsRequestError " , self - > id ) . error ( e ) ;
throw ;
}
}
}
}
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void checkOutstandingStorageRequests ( ClusterControllerData * self ) {
for ( int i = 0 ; i < self - > outstandingStorageRequests . size ( ) ; i + + ) {
auto & req = self - > outstandingStorageRequests [ i ] ;
try {
if ( req . second < now ( ) ) {
req . first . reply . sendError ( timed_out ( ) ) ;
std : : swap ( self - > outstandingStorageRequests [ i - - ] , self - > outstandingStorageRequests . back ( ) ) ;
self - > outstandingStorageRequests . pop_back ( ) ;
} else {
if ( ! self - > gotProcessClasses & & ! req . first . criticalRecruitment )
throw no_more_servers ( ) ;
auto worker = self - > getStorageWorker ( req . first ) ;
RecruitStorageReply rep ;
rep . worker = worker . first ;
rep . processClass = worker . second ;
req . first . reply . send ( rep ) ;
std : : swap ( self - > outstandingStorageRequests [ i - - ] , self - > outstandingStorageRequests . back ( ) ) ;
self - > outstandingStorageRequests . pop_back ( ) ;
}
} catch ( Error & e ) {
if ( e . code ( ) = = error_code_no_more_servers ) {
TraceEvent ( SevWarn , " RecruitStorageNotAvailable " , self - > id ) . error ( e ) ;
} else {
TraceEvent ( SevError , " RecruitStorageError " , self - > id ) . error ( e ) ;
throw ;
}
}
}
}
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ACTOR Future < Void > doCheckOutstandingRequests ( ClusterControllerData * self ) {
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try {
Void _ = wait ( delay ( SERVER_KNOBS - > CHECK_OUTSTANDING_INTERVAL ) ) ;
checkOutstandingRecruitmentRequests ( self ) ;
checkOutstandingRemoteRecruitmentRequests ( self ) ;
checkOutstandingStorageRequests ( self ) ;
self - > checkRecoveryStalled ( ) ;
if ( self - > betterMasterExists ( ) ) {
if ( ! self - > db . forceMasterFailure . isSet ( ) ) {
self - > db . forceMasterFailure . send ( Void ( ) ) ;
TraceEvent ( " MasterRegistrationKill " , self - > id ) . detail ( " MasterId " , self - > db . serverInfo - > get ( ) . master . id ( ) ) ;
}
}
} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_operation_failed & & e . code ( ) ! = error_code_no_more_servers ) {
TraceEvent ( SevError , " CheckOutstandingError " ) . error ( e ) ;
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}
}
return Void ( ) ;
}
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void checkOutstandingRequests ( ClusterControllerData * self ) {
if ( ! self - > outstandingRequestChecker . isReady ( ) )
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return ;
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self - > outstandingRequestChecker = doCheckOutstandingRequests ( self ) ;
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}
ACTOR Future < Void > rebootAndCheck ( ClusterControllerData * cluster , Optional < Standalone < StringRef > > processID ) {
auto watcher = cluster - > id_worker . find ( processID ) ;
ASSERT ( watcher ! = cluster - > id_worker . end ( ) ) ;
watcher - > second . reboots + + ;
Void _ = wait ( delay ( g_network - > isSimulated ( ) ? SERVER_KNOBS - > SIM_SHUTDOWN_TIMEOUT : SERVER_KNOBS - > SHUTDOWN_TIMEOUT ) ) ;
auto watcher = cluster - > id_worker . find ( processID ) ;
if ( watcher ! = cluster - > id_worker . end ( ) ) {
watcher - > second . reboots - - ;
if ( watcher - > second . reboots < 2 )
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checkOutstandingRequests ( cluster ) ;
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}
return Void ( ) ;
}
ACTOR Future < Void > workerAvailabilityWatch ( WorkerInterface worker , ProcessClass startingClass , ClusterControllerData * cluster ) {
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state Future < Void > failed = worker . address ( ) = = g_network - > getLocalAddress ( ) ? Never ( ) : waitFailureClient ( worker . waitFailure , SERVER_KNOBS - > WORKER_FAILURE_TIME ) ;
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cluster - > updateWorkerList . set ( worker . locality . processId ( ) , ProcessData ( worker . locality , startingClass , worker . address ( ) ) ) ;
loop {
choose {
when ( Void _ = wait ( IFailureMonitor : : failureMonitor ( ) . onStateEqual ( worker . storage . getEndpoint ( ) , FailureStatus ( IFailureMonitor : : failureMonitor ( ) . getState ( worker . storage . getEndpoint ( ) ) . isAvailable ( ) ) ) ) ) {
if ( IFailureMonitor : : failureMonitor ( ) . getState ( worker . storage . getEndpoint ( ) ) . isAvailable ( ) ) {
cluster - > ac . add ( rebootAndCheck ( cluster , worker . locality . processId ( ) ) ) ;
checkOutstandingRequests ( cluster ) ;
}
}
when ( Void _ = wait ( failed ) ) { // remove workers that have failed
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WorkerInfo & failedWorkerInfo = cluster - > id_worker [ worker . locality . processId ( ) ] ;
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if ( ! failedWorkerInfo . reply . isSet ( ) ) {
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failedWorkerInfo . reply . send ( RegisterWorkerReply ( failedWorkerInfo . processClass , failedWorkerInfo . priorityInfo ) ) ;
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}
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cluster - > id_worker . erase ( worker . locality . processId ( ) ) ;
cluster - > updateWorkerList . set ( worker . locality . processId ( ) , Optional < ProcessData > ( ) ) ;
return Void ( ) ;
}
}
}
}
struct FailureStatusInfo {
FailureStatus status ;
double lastRequestTime ;
double penultimateRequestTime ;
FailureStatusInfo ( ) : lastRequestTime ( 0 ) , penultimateRequestTime ( 0 ) { }
void insertRequest ( double now ) {
penultimateRequestTime = lastRequestTime ;
lastRequestTime = now ;
}
double latency ( double now ) const {
return std : : max ( now - lastRequestTime , lastRequestTime - penultimateRequestTime ) ;
}
} ;
//The failure monitor client relies on the fact that the failure detection server will not declare itself failed
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ACTOR Future < Void > failureDetectionServer ( UID uniqueID , ClusterControllerData : : DBInfo * db , FutureStream < FailureMonitoringRequest > requests ) {
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state Version currentVersion = 0 ;
state std : : map < NetworkAddress , FailureStatusInfo > currentStatus ; // The status at currentVersion
state std : : deque < SystemFailureStatus > statusHistory ; // The last change in statusHistory is from currentVersion-1 to currentVersion
state Future < Void > periodically = Void ( ) ;
state double lastT = 0 ;
loop choose {
when ( FailureMonitoringRequest req = waitNext ( requests ) ) {
if ( req . senderStatus . present ( ) ) {
// Update the status of requester, if necessary
auto & address = req . reply . getEndpoint ( ) . address ;
auto & stat = currentStatus [ address ] ;
auto & newStat = req . senderStatus . get ( ) ;
ASSERT ( ! newStat . failed | | address ! = g_network - > getLocalAddress ( ) ) ;
stat . insertRequest ( now ( ) ) ;
if ( req . senderStatus ! = stat . status ) {
TraceEvent ( " FailureDetectionStatus " , uniqueID ) . detail ( " System " , address ) . detail ( " Status " , newStat . failed ? " Failed " : " OK " ) . detail ( " Why " , " Request " ) ;
statusHistory . push_back ( SystemFailureStatus ( address , newStat ) ) ;
+ + currentVersion ;
if ( req . senderStatus = = FailureStatus ( ) ) {
// failureMonitorClient reports explicitly that it is failed
ASSERT ( false ) ; // This can't happen at the moment; if that changes, make this a TEST instead
currentStatus . erase ( address ) ;
} else {
TEST ( true ) ;
stat . status = newStat ;
}
while ( statusHistory . size ( ) > currentStatus . size ( ) )
statusHistory . pop_front ( ) ;
}
}
// Return delta-compressed status changes to requester
Version reqVersion = req . failureInformationVersion ;
if ( reqVersion > currentVersion ) {
req . reply . sendError ( future_version ( ) ) ;
ASSERT ( false ) ;
} else {
TEST ( true ) ; // failureDetectionServer sending failure data to requester
FailureMonitoringReply reply ;
reply . failureInformationVersion = currentVersion ;
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if ( req . senderStatus . present ( ) ) {
reply . clientRequestIntervalMS = FLOW_KNOBS - > SERVER_REQUEST_INTERVAL * 1000 ;
reply . considerServerFailedTimeoutMS = CLIENT_KNOBS - > FAILURE_TIMEOUT_DELAY * 1000 ;
} else {
reply . clientRequestIntervalMS = FLOW_KNOBS - > CLIENT_REQUEST_INTERVAL * 1000 ;
reply . considerServerFailedTimeoutMS = CLIENT_KNOBS - > CLIENT_FAILURE_TIMEOUT_DELAY * 1000 ;
}
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ASSERT ( currentVersion > = ( int64_t ) statusHistory . size ( ) ) ;
if ( reqVersion < currentVersion - ( int64_t ) statusHistory . size ( ) | | reqVersion = = 0 ) {
// Send everything
TEST ( true ) ; // failureDetectionServer sending all current data to requester
reply . allOthersFailed = true ;
for ( auto it = currentStatus . begin ( ) ; it ! = currentStatus . end ( ) ; + + it )
reply . changes . push_back ( reply . arena , SystemFailureStatus ( it - > first , it - > second . status ) ) ;
} else {
TEST ( true ) ; // failureDetectionServer sending delta-compressed data to requester
// SOMEDAY: Send only the last change for a given address?
reply . allOthersFailed = false ;
for ( int v = reqVersion - currentVersion + statusHistory . size ( ) ; v < statusHistory . size ( ) ; v + + ) {
reply . changes . push_back ( reply . arena , statusHistory [ v ] ) ;
}
}
req . reply . send ( reply ) ;
}
}
when ( Void _ = wait ( periodically ) ) {
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periodically = delay ( FLOW_KNOBS - > SERVER_REQUEST_INTERVAL ) ;
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double t = now ( ) ;
if ( lastT ! = 0 & & t - lastT > 1 )
TraceEvent ( " LongDelayOnClusterController " ) . detail ( " Duration " , t - lastT ) ;
lastT = t ;
// Adapt to global unresponsiveness
vector < double > delays ;
for ( auto it = currentStatus . begin ( ) ; it ! = currentStatus . end ( ) ; it + + )
if ( it - > second . penultimateRequestTime ) {
delays . push_back ( it - > second . latency ( t ) ) ;
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//TraceEvent("FDData", uniqueID).detail("S", it->first.toString()).detail("L", it->second.latency(t));
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}
int pivot = std : : max ( 0 , ( int ) delays . size ( ) - 2 ) ;
double pivotDelay = 0 ;
if ( delays . size ( ) ) {
std : : nth_element ( delays . begin ( ) , delays . begin ( ) + pivot , delays . end ( ) ) ;
pivotDelay = * ( delays . begin ( ) + pivot ) ;
}
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pivotDelay = std : : max ( 0.0 , pivotDelay - FLOW_KNOBS - > SERVER_REQUEST_INTERVAL ) ;
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//TraceEvent("FailureDetectionPoll", uniqueID).detail("PivotDelay", pivotDelay).detail("Clients", currentStatus.size());
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//TraceEvent("FailureDetectionAcceptableDelay").detail("Delay", acceptableDelay1000);
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bool tooManyLogGenerations = std : : max ( db - > unfinishedRecoveries , db - > logGenerations ) > CLIENT_KNOBS - > FAILURE_MAX_GENERATIONS ;
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for ( auto it = currentStatus . begin ( ) ; it ! = currentStatus . end ( ) ; ) {
double delay = t - it - > second . lastRequestTime ;
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if ( it - > first ! = g_network - > getLocalAddress ( ) & & ( tooManyLogGenerations ?
( delay > CLIENT_KNOBS - > FAILURE_EMERGENCY_DELAY ) :
( delay > pivotDelay * 2 + FLOW_KNOBS - > SERVER_REQUEST_INTERVAL + CLIENT_KNOBS - > FAILURE_MIN_DELAY | | delay > CLIENT_KNOBS - > FAILURE_MAX_DELAY ) ) ) {
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//printf("Failure Detection Server: Status of '%s' is now '%s' after %f sec\n", it->first.toString().c_str(), "Failed", now() - it->second.lastRequestTime);
TraceEvent ( " FailureDetectionStatus " , uniqueID ) . detail ( " System " , it - > first ) . detail ( " Status " , " Failed " ) . detail ( " Why " , " Timeout " ) . detail ( " LastRequestAge " , delay )
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. detail ( " PivotDelay " , pivotDelay ) . detail ( " UnfinishedRecoveries " , db - > unfinishedRecoveries ) . detail ( " LogGenerations " , db - > logGenerations ) ;
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statusHistory . push_back ( SystemFailureStatus ( it - > first , FailureStatus ( true ) ) ) ;
+ + currentVersion ;
it = currentStatus . erase ( it ) ;
while ( statusHistory . size ( ) > currentStatus . size ( ) )
statusHistory . pop_front ( ) ;
} else {
+ + it ;
}
}
}
}
}
ACTOR Future < vector < TLogInterface > > requireAll ( vector < Future < Optional < vector < TLogInterface > > > > in ) {
state vector < TLogInterface > out ;
state int i ;
for ( i = 0 ; i < in . size ( ) ; i + + ) {
Optional < vector < TLogInterface > > x = wait ( in [ i ] ) ;
if ( ! x . present ( ) ) throw recruitment_failed ( ) ;
out . insert ( out . end ( ) , x . get ( ) . begin ( ) , x . get ( ) . end ( ) ) ;
}
return out ;
}
void clusterRecruitStorage ( ClusterControllerData * self , RecruitStorageRequest req ) {
try {
if ( ! self - > gotProcessClasses & & ! req . criticalRecruitment )
throw no_more_servers ( ) ;
auto worker = self - > getStorageWorker ( req ) ;
RecruitStorageReply rep ;
rep . worker = worker . first ;
rep . processClass = worker . second ;
req . reply . send ( rep ) ;
} catch ( Error & e ) {
if ( e . code ( ) = = error_code_no_more_servers ) {
self - > outstandingStorageRequests . push_back ( std : : make_pair ( req , now ( ) + SERVER_KNOBS - > RECRUITMENT_TIMEOUT ) ) ;
TraceEvent ( SevWarn , " RecruitStorageNotAvailable " , self - > id ) . error ( e ) ;
} else {
TraceEvent ( SevError , " RecruitStorageError " , self - > id ) . error ( e ) ;
throw ; // Any other error will bring down the cluster controller
}
}
}
ACTOR Future < Void > clusterRecruitFromConfiguration ( ClusterControllerData * self , RecruitFromConfigurationRequest req ) {
// At the moment this doesn't really need to be an actor (it always completes immediately)
TEST ( true ) ; //ClusterController RecruitTLogsRequest
loop {
try {
req . reply . send ( self - > findWorkersForConfiguration ( req ) ) ;
return Void ( ) ;
} catch ( Error & e ) {
if ( e . code ( ) = = error_code_no_more_servers & & now ( ) - self - > startTime > = SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY ) {
self - > outstandingRecruitmentRequests . push_back ( req ) ;
TraceEvent ( SevWarn , " RecruitFromConfigurationNotAvailable " , self - > id ) . error ( e ) ;
return Void ( ) ;
} else if ( e . code ( ) = = error_code_operation_failed | | e . code ( ) = = error_code_no_more_servers ) {
//recruitment not good enough, try again
}
else {
TraceEvent ( SevError , " RecruitFromConfigurationError " , self - > id ) . error ( e ) ;
throw ; // goodbye, cluster controller
}
}
Void _ = wait ( delay ( SERVER_KNOBS - > ATTEMPT_RECRUITMENT_DELAY ) ) ;
}
}
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ACTOR Future < Void > clusterRecruitRemoteFromConfiguration ( ClusterControllerData * self , RecruitRemoteFromConfigurationRequest req ) {
// At the moment this doesn't really need to be an actor (it always completes immediately)
TEST ( true ) ; //ClusterController RecruitTLogsRequest
loop {
try {
req . reply . send ( self - > findRemoteWorkersForConfiguration ( req ) ) ;
return Void ( ) ;
} catch ( Error & e ) {
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if ( e . code ( ) = = error_code_no_more_servers & & self - > remoteStartTime . present ( ) & & now ( ) - self - > remoteStartTime . get ( ) > = SERVER_KNOBS - > WAIT_FOR_GOOD_REMOTE_RECRUITMENT_DELAY ) {
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self - > outstandingRemoteRecruitmentRequests . push_back ( req ) ;
TraceEvent ( SevWarn , " RecruitRemoteFromConfigurationNotAvailable " , self - > id ) . error ( e ) ;
return Void ( ) ;
} else if ( e . code ( ) = = error_code_operation_failed | | e . code ( ) = = error_code_no_more_servers ) {
//recruitment not good enough, try again
}
else {
TraceEvent ( SevError , " RecruitRemoteFromConfigurationError " , self - > id ) . error ( e ) ;
throw ; // goodbye, cluster controller
}
}
Void _ = wait ( delay ( SERVER_KNOBS - > ATTEMPT_RECRUITMENT_DELAY ) ) ;
}
}
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void clusterRegisterMaster ( ClusterControllerData * self , RegisterMasterRequest const & req ) {
req . reply . send ( Void ( ) ) ;
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TraceEvent ( " MasterRegistrationReceived " , self - > id ) . detail ( " DbName " , printable ( req . dbName ) ) . detail ( " MasterId " , req . id ) . detail ( " Master " , req . mi . toString ( ) ) . detail ( " Tlogs " , describe ( req . logSystemConfig . tLogs ) ) . detail ( " Resolvers " , req . resolvers . size ( ) )
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. detail ( " RecoveryState " , ( int ) req . recoveryState ) . detail ( " RegistrationCount " , req . registrationCount ) . detail ( " Proxies " , req . proxies . size ( ) ) . detail ( " RecoveryCount " , req . recoveryCount ) . detail ( " Stalled " , req . recoveryStalled ) ;
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//make sure the request comes from an active database
auto db = & self - > db ;
if ( db - > serverInfo - > get ( ) . master . id ( ) ! = req . id | | req . registrationCount < = db - > masterRegistrationCount ) {
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TraceEvent ( " MasterRegistrationNotFound " , self - > id ) . detail ( " DbName " , printable ( req . dbName ) ) . detail ( " MasterId " , req . id ) . detail ( " ExistingId " , db - > serverInfo - > get ( ) . master . id ( ) ) . detail ( " RegCount " , req . registrationCount ) . detail ( " ExistingRegCount " , db - > masterRegistrationCount ) ;
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return ;
}
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if ( req . recoveryState = = RecoveryState : : FULLY_RECOVERED ) {
self - > db . unfinishedRecoveries = 0 ;
self - > db . logGenerations = 0 ;
ASSERT ( ! req . logSystemConfig . oldTLogs . size ( ) ) ;
} else {
self - > db . logGenerations = std : : max < int > ( self - > db . logGenerations , req . logSystemConfig . oldTLogs . size ( ) ) ;
}
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db - > masterRegistrationCount = req . registrationCount ;
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db - > recoveryStalled = req . recoveryStalled ;
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if ( req . configuration . present ( ) ) {
db - > config = req . configuration . get ( ) ;
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if ( req . recoveryState > = RecoveryState : : ACCEPTING_COMMITS ) {
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self - > gotFullyRecoveredConfig = true ;
db - > fullyRecoveredConfig = req . configuration . get ( ) ;
for ( auto & it : self - > id_worker ) {
bool isExcludedFromConfig = db - > fullyRecoveredConfig . isExcludedServer ( it . second . interf . address ( ) ) ;
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if ( it . second . priorityInfo . isExcluded ! = isExcludedFromConfig ) {
it . second . priorityInfo . isExcluded = isExcludedFromConfig ;
if ( ! it . second . reply . isSet ( ) ) {
it . second . reply . send ( RegisterWorkerReply ( it . second . processClass , it . second . priorityInfo ) ) ;
}
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}
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}
}
}
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bool isChanged = false ;
auto dbInfo = self - > db . serverInfo - > get ( ) ;
if ( dbInfo . recoveryState ! = req . recoveryState ) {
dbInfo . recoveryState = req . recoveryState ;
isChanged = true ;
}
if ( dbInfo . priorCommittedLogServers ! = req . priorCommittedLogServers ) {
dbInfo . priorCommittedLogServers = req . priorCommittedLogServers ;
isChanged = true ;
}
// Construct the client information
if ( db - > clientInfo - > get ( ) . proxies ! = req . proxies ) {
isChanged = true ;
ClientDBInfo clientInfo ;
clientInfo . id = g_random - > randomUniqueID ( ) ;
clientInfo . proxies = req . proxies ;
clientInfo . clientTxnInfoSampleRate = db - > clientInfo - > get ( ) . clientTxnInfoSampleRate ;
clientInfo . clientTxnInfoSizeLimit = db - > clientInfo - > get ( ) . clientTxnInfoSizeLimit ;
db - > clientInfo - > set ( clientInfo ) ;
dbInfo . client = db - > clientInfo - > get ( ) ;
}
if ( ! dbInfo . logSystemConfig . isEqual ( req . logSystemConfig ) ) {
isChanged = true ;
dbInfo . logSystemConfig = req . logSystemConfig ;
}
if ( dbInfo . resolvers ! = req . resolvers ) {
isChanged = true ;
dbInfo . resolvers = req . resolvers ;
}
if ( dbInfo . recoveryCount ! = req . recoveryCount ) {
isChanged = true ;
dbInfo . recoveryCount = req . recoveryCount ;
}
if ( isChanged ) {
dbInfo . id = g_random - > randomUniqueID ( ) ;
self - > db . serverInfo - > set ( dbInfo ) ;
}
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checkOutstandingRequests ( self ) ;
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}
void registerWorker ( RegisterWorkerRequest req , ClusterControllerData * self ) {
WorkerInterface w = req . wi ;
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ProcessClass newProcessClass = req . processClass ;
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auto info = self - > id_worker . find ( w . locality . processId ( ) ) ;
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ClusterControllerPriorityInfo newPriorityInfo = req . priorityInfo ;
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TraceEvent ( " ClusterControllerActualWorkers " , self - > id ) . detail ( " WorkerId " , w . id ( ) ) . detailext ( " ProcessId " , w . locality . processId ( ) ) . detailext ( " ZoneId " , w . locality . zoneId ( ) ) . detailext ( " DataHall " , w . locality . dataHallId ( ) ) . detail ( " PClass " , req . processClass . toString ( ) ) . detail ( " Workers " , self - > id_worker . size ( ) ) . detail ( " Registered " , ( info = = self - > id_worker . end ( ) ? " False " : " True " ) ) . backtrace ( ) ;
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if ( w . address ( ) = = g_network - > getLocalAddress ( ) ) {
self - > clusterControllerProcessId = w . locality . processId ( ) ;
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self - > clusterControllerDcId = w . locality . dcId ( ) ;
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if ( self - > changingDcIds . get ( ) . first ) {
if ( self - > changingDcIds . get ( ) . second . present ( ) ) {
newPriorityInfo . dcFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( w . locality . dcId ( ) , self - > changingDcIds . get ( ) . second . get ( ) ) ;
}
} else if ( self - > changedDcIds . get ( ) . second . present ( ) ) {
newPriorityInfo . dcFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( w . locality . dcId ( ) , self - > changedDcIds . get ( ) . second . get ( ) ) ;
}
} else {
if ( ! self - > changingDcIds . get ( ) . first ) {
if ( self - > changingDcIds . get ( ) . second . present ( ) ) {
newPriorityInfo . dcFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( w . locality . dcId ( ) , self - > changingDcIds . get ( ) . second . get ( ) ) ;
}
} else if ( self - > changedDcIds . get ( ) . second . present ( ) ) {
newPriorityInfo . dcFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( w . locality . dcId ( ) , self - > changedDcIds . get ( ) . second . get ( ) ) ;
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}
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}
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// Check process class and exclusive property
if ( info = = self - > id_worker . end ( ) | | info - > second . interf . id ( ) ! = w . id ( ) | | req . generation > = info - > second . gen ) {
if ( self - > gotProcessClasses ) {
auto classIter = self - > id_class . find ( w . locality . processId ( ) ) ;
if ( classIter ! = self - > id_class . end ( ) & & ( classIter - > second . classSource ( ) = = ProcessClass : : DBSource | | req . initialClass . classType ( ) = = ProcessClass : : UnsetClass ) ) {
newProcessClass = classIter - > second ;
} else {
newProcessClass = req . initialClass ;
}
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newPriorityInfo . processClassFitness = newProcessClass . machineClassFitness ( ProcessClass : : ClusterController ) ;
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}
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if ( self - > gotFullyRecoveredConfig ) {
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newPriorityInfo . isExcluded = self - > db . fullyRecoveredConfig . isExcludedServer ( w . address ( ) ) ;
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}
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// Notify the worker to register again with new process class/exclusive property
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if ( ! req . reply . isSet ( ) & & newPriorityInfo ! = req . priorityInfo ) {
req . reply . send ( RegisterWorkerReply ( newProcessClass , newPriorityInfo ) ) ;
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}
}
if ( info = = self - > id_worker . end ( ) ) {
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self - > id_worker [ w . locality . processId ( ) ] = WorkerInfo ( workerAvailabilityWatch ( w , newProcessClass , self ) , req . reply , req . generation , w , req . initialClass , newProcessClass , newPriorityInfo ) ;
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checkOutstandingRequests ( self ) ;
return ;
}
if ( info - > second . interf . id ( ) ! = w . id ( ) | | req . generation > = info - > second . gen ) {
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if ( ! info - > second . reply . isSet ( ) ) {
info - > second . reply . send ( Never ( ) ) ;
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}
info - > second . reply = req . reply ;
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info - > second . processClass = newProcessClass ;
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info - > second . priorityInfo = newPriorityInfo ;
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info - > second . initialClass = req . initialClass ;
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info - > second . gen = req . generation ;
if ( info - > second . interf . id ( ) ! = w . id ( ) ) {
info - > second . interf = w ;
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info - > second . watcher = workerAvailabilityWatch ( w , newProcessClass , self ) ;
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}
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checkOutstandingRequests ( self ) ;
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return ;
}
TEST ( true ) ; // Received an old worker registration request.
}
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# define TIME_KEEPER_VERSION LiteralStringRef("1")
ACTOR Future < Void > timeKeeperSetVersion ( ClusterControllerData * self ) {
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state Reference < ReadYourWritesTransaction > tr = Reference < ReadYourWritesTransaction > ( new ReadYourWritesTransaction ( self - > cx ) ) ;
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loop {
try {
tr - > setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
tr - > setOption ( FDBTransactionOptions : : LOCK_AWARE ) ;
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tr - > setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
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tr - > set ( timeKeeperVersionKey , TIME_KEEPER_VERSION ) ;
Void _ = wait ( tr - > commit ( ) ) ;
break ;
} catch ( Error & e ) {
Void _ = wait ( tr - > onError ( e ) ) ;
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}
}
return Void ( ) ;
}
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// This actor periodically gets read version and writes it to cluster with current timestamp as key. To avoid running
// out of space, it limits the max number of entries and clears old entries on each update. This mapping is used from
// backup and restore to get the version information for a timestamp.
ACTOR Future < Void > timeKeeper ( ClusterControllerData * self ) {
state KeyBackedMap < int64_t , Version > versionMap ( timeKeeperPrefixRange . begin ) ;
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TraceEvent ( SevInfo , " TimeKeeperStarted " ) ;
Void _ = wait ( timeKeeperSetVersion ( self ) ) ;
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loop {
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state Reference < ReadYourWritesTransaction > tr = Reference < ReadYourWritesTransaction > ( new ReadYourWritesTransaction ( self - > cx ) ) ;
loop {
try {
tr - > setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
tr - > setOption ( FDBTransactionOptions : : LOCK_AWARE ) ;
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tr - > setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
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Optional < Value > disableValue = wait ( tr - > get ( timeKeeperDisableKey ) ) ;
if ( disableValue . present ( ) ) {
break ;
}
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Version v = tr - > getReadVersion ( ) . get ( ) ;
int64_t currentTime = ( int64_t ) now ( ) ;
versionMap . set ( tr , currentTime , v ) ;
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int64_t ttl = currentTime - SERVER_KNOBS - > TIME_KEEPER_DELAY * SERVER_KNOBS - > TIME_KEEPER_MAX_ENTRIES ;
if ( ttl > 0 ) {
versionMap . erase ( tr , 0 , ttl ) ;
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}
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Void _ = wait ( tr - > commit ( ) ) ;
break ;
} catch ( Error & e ) {
Void _ = wait ( tr - > onError ( e ) ) ;
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}
}
Void _ = wait ( delay ( SERVER_KNOBS - > TIME_KEEPER_DELAY ) ) ;
}
}
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ACTOR Future < Void > statusServer ( FutureStream < StatusRequest > requests ,
ClusterControllerData * self ,
ServerCoordinators coordinators )
{
// Seconds since the END of the last GetStatus executed
state double last_request_time = 0.0 ;
// Place to accumulate a batch of requests to respond to
state std : : vector < StatusRequest > requests_batch ;
loop {
try {
// Wait til first request is ready
StatusRequest req = waitNext ( requests ) ;
requests_batch . push_back ( req ) ;
// Earliest time at which we may begin a new request
double next_allowed_request_time = last_request_time + SERVER_KNOBS - > STATUS_MIN_TIME_BETWEEN_REQUESTS ;
// Wait if needed to satisfy min_time knob, also allows more requets to queue up.
double minwait = std : : max ( next_allowed_request_time - now ( ) , 0.0 ) ;
Void _ = wait ( delay ( minwait ) ) ;
// Get all requests that are ready right *now*, before GetStatus() begins.
// All of these requests will be responded to with the next GetStatus() result.
while ( requests . isReady ( ) )
requests_batch . push_back ( requests . pop ( ) ) ;
// Get status but trap errors to send back to client.
vector < std : : pair < WorkerInterface , ProcessClass > > workers ;
for ( auto & it : self - > id_worker )
workers . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
std : : vector < NetworkAddress > incompatibleConnections ;
for ( auto it = self - > db . incompatibleConnections . begin ( ) ; it ! = self - > db . incompatibleConnections . end ( ) ; ) {
if ( it - > second < now ( ) ) {
it = self - > db . incompatibleConnections . erase ( it ) ;
} else {
incompatibleConnections . push_back ( it - > first ) ;
it + + ;
}
}
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state ErrorOr < StatusReply > result = wait ( errorOr ( clusterGetStatus ( self - > db . serverInfo , self - > cx , workers , self - > db . workersWithIssues , self - > db . clientsWithIssues , self - > db . clientVersionMap , self - > db . traceLogGroupMap , coordinators , incompatibleConnections , self - > datacenterVersionDifference ) ) ) ;
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if ( result . isError ( ) & & result . getError ( ) . code ( ) = = error_code_actor_cancelled )
throw result . getError ( ) ;
// Update last_request_time now because GetStatus is finished and the delay is to be measured between requests
last_request_time = now ( ) ;
while ( ! requests_batch . empty ( ) )
{
if ( result . isError ( ) )
requests_batch . back ( ) . reply . sendError ( result . getError ( ) ) ;
else
requests_batch . back ( ) . reply . send ( result . get ( ) ) ;
requests_batch . pop_back ( ) ;
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Void _ = wait ( yield ( ) ) ;
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}
}
catch ( Error & e ) {
TraceEvent ( SevError , " StatusServerError " ) . error ( e ) ;
throw e ;
}
}
}
ACTOR Future < Void > monitorProcessClasses ( ClusterControllerData * self ) {
state ReadYourWritesTransaction trVer ( self - > db . db ) ;
loop {
try {
trVer . setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
trVer . setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
Optional < Value > val = wait ( trVer . get ( processClassVersionKey ) ) ;
if ( val . present ( ) )
break ;
Standalone < RangeResultRef > processClasses = wait ( trVer . getRange ( processClassKeys , CLIENT_KNOBS - > TOO_MANY ) ) ;
ASSERT ( ! processClasses . more & & processClasses . size ( ) < CLIENT_KNOBS - > TOO_MANY ) ;
trVer . clear ( processClassKeys ) ;
trVer . set ( processClassVersionKey , processClassVersionValue ) ;
for ( auto it : processClasses ) {
UID processUid = decodeProcessClassKeyOld ( it . key ) ;
trVer . set ( processClassKeyFor ( processUid . toString ( ) ) , it . value ) ;
}
Void _ = wait ( trVer . commit ( ) ) ;
TraceEvent ( " ProcessClassUpgrade " ) ;
break ;
}
catch ( Error & e ) {
Void _ = wait ( trVer . onError ( e ) ) ;
}
}
loop {
state ReadYourWritesTransaction tr ( self - > db . db ) ;
loop {
try {
tr . setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
tr . setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
Standalone < RangeResultRef > processClasses = wait ( tr . getRange ( processClassKeys , CLIENT_KNOBS - > TOO_MANY ) ) ;
ASSERT ( ! processClasses . more & & processClasses . size ( ) < CLIENT_KNOBS - > TOO_MANY ) ;
if ( processClasses ! = self - > lastProcessClasses | | ! self - > gotProcessClasses ) {
self - > id_class . clear ( ) ;
for ( int i = 0 ; i < processClasses . size ( ) ; i + + ) {
auto c = decodeProcessClassValue ( processClasses [ i ] . value ) ;
ASSERT ( c . classSource ( ) ! = ProcessClass : : CommandLineSource ) ;
self - > id_class [ decodeProcessClassKey ( processClasses [ i ] . key ) ] = c ;
}
for ( auto & w : self - > id_worker ) {
auto classIter = self - > id_class . find ( w . first ) ;
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ProcessClass newProcessClass ;
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if ( classIter ! = self - > id_class . end ( ) & & ( classIter - > second . classSource ( ) = = ProcessClass : : DBSource | | w . second . initialClass . classType ( ) = = ProcessClass : : UnsetClass ) ) {
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newProcessClass = classIter - > second ;
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} else {
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newProcessClass = w . second . initialClass ;
}
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if ( newProcessClass ! = w . second . processClass ) {
w . second . processClass = newProcessClass ;
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w . second . priorityInfo . processClassFitness = newProcessClass . machineClassFitness ( ProcessClass : : ClusterController ) ;
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if ( ! w . second . reply . isSet ( ) ) {
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w . second . reply . send ( RegisterWorkerReply ( w . second . processClass , w . second . priorityInfo ) ) ;
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}
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}
}
self - > lastProcessClasses = processClasses ;
self - > gotProcessClasses = true ;
checkOutstandingRequests ( self ) ;
}
state Future < Void > watchFuture = tr . watch ( processClassChangeKey ) ;
Void _ = wait ( tr . commit ( ) ) ;
Void _ = wait ( watchFuture ) ;
break ;
}
catch ( Error & e ) {
Void _ = wait ( tr . onError ( e ) ) ;
}
}
}
}
ACTOR Future < Void > monitorClientTxnInfoConfigs ( ClusterControllerData : : DBInfo * db ) {
loop {
state ReadYourWritesTransaction tr ( db - > db ) ;
loop {
try {
tr . setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
tr . setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
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state Optional < Value > rateVal = wait ( tr . get ( fdbClientInfoTxnSampleRate ) ) ;
state Optional < Value > limitVal = wait ( tr . get ( fdbClientInfoTxnSizeLimit ) ) ;
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ClientDBInfo clientInfo = db - > clientInfo - > get ( ) ;
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double sampleRate = rateVal . present ( ) ? BinaryReader : : fromStringRef < double > ( rateVal . get ( ) , Unversioned ( ) ) : std : : numeric_limits < double > : : infinity ( ) ;
int64_t sizeLimit = limitVal . present ( ) ? BinaryReader : : fromStringRef < int64_t > ( limitVal . get ( ) , Unversioned ( ) ) : - 1 ;
if ( sampleRate ! = clientInfo . clientTxnInfoSampleRate | | sizeLimit ! = clientInfo . clientTxnInfoSampleRate ) {
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clientInfo . id = g_random - > randomUniqueID ( ) ;
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clientInfo . clientTxnInfoSampleRate = sampleRate ;
clientInfo . clientTxnInfoSizeLimit = sizeLimit ;
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db - > clientInfo - > set ( clientInfo ) ;
}
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state Future < Void > watchRateFuture = tr . watch ( fdbClientInfoTxnSampleRate ) ;
state Future < Void > watchLimitFuture = tr . watch ( fdbClientInfoTxnSizeLimit ) ;
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Void _ = wait ( tr . commit ( ) ) ;
choose {
when ( Void _ = wait ( watchRateFuture ) ) { break ; }
when ( Void _ = wait ( watchLimitFuture ) ) { break ; }
}
}
catch ( Error & e ) {
Void _ = wait ( tr . onError ( e ) ) ;
}
}
}
}
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ACTOR Future < Void > updatedChangingDatacenters ( ClusterControllerData * self ) {
//do not change the cluster controller until all the processes have had a chance to register
Void _ = wait ( delay ( SERVER_KNOBS - > WAIT_FOR_GOOD_RECRUITMENT_DELAY ) ) ;
loop {
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state Future < Void > onChange = self - > desiredDcIds . onChange ( ) ;
if ( ! self - > desiredDcIds . get ( ) . present ( ) ) {
self - > changingDcIds . set ( std : : make_pair ( false , self - > desiredDcIds . get ( ) ) ) ;
} else {
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auto & worker = self - > id_worker [ self - > clusterControllerProcessId ] ;
uint8_t newFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( worker . interf . locality . dcId ( ) , self - > desiredDcIds . get ( ) . get ( ) ) ;
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self - > changingDcIds . set ( std : : make_pair ( worker . priorityInfo . dcFitness > newFitness , self - > desiredDcIds . get ( ) ) ) ;
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TraceEvent ( " UpdateChangingDatacenter " , self - > id ) . detail ( " OldFitness " , worker . priorityInfo . dcFitness ) . detail ( " NewFitness " , newFitness ) ;
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if ( worker . priorityInfo . dcFitness > newFitness ) {
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worker . priorityInfo . dcFitness = newFitness ;
if ( ! worker . reply . isSet ( ) ) {
worker . reply . send ( RegisterWorkerReply ( worker . processClass , worker . priorityInfo ) ) ;
}
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} else {
state int currentFit = ProcessClass : : BestFit ;
while ( currentFit < = ProcessClass : : NeverAssign ) {
bool updated = false ;
for ( auto & it : self - > id_worker ) {
if ( ( ! it . second . priorityInfo . isExcluded & & it . second . priorityInfo . processClassFitness = = currentFit ) | | currentFit = = ProcessClass : : NeverAssign ) {
uint8_t fitness = ClusterControllerPriorityInfo : : calculateDCFitness ( it . second . interf . locality . dcId ( ) , self - > changingDcIds . get ( ) . second . get ( ) ) ;
if ( it . first ! = self - > clusterControllerProcessId & & it . second . priorityInfo . dcFitness ! = fitness ) {
updated = true ;
it . second . priorityInfo . dcFitness = fitness ;
if ( ! it . second . reply . isSet ( ) ) {
it . second . reply . send ( RegisterWorkerReply ( it . second . processClass , it . second . priorityInfo ) ) ;
}
}
}
}
if ( updated & & currentFit < ProcessClass : : NeverAssign ) {
Void _ = wait ( delay ( SERVER_KNOBS - > CC_CLASS_DELAY ) ) ;
}
currentFit + + ;
}
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}
}
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Void _ = wait ( onChange ) ;
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}
}
ACTOR Future < Void > updatedChangedDatacenters ( ClusterControllerData * self ) {
state Future < Void > changeDelay = delay ( SERVER_KNOBS - > CC_CHANGE_DELAY ) ;
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state Future < Void > onChange = self - > changingDcIds . onChange ( ) ;
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loop {
choose {
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when ( Void _ = wait ( onChange ) ) {
changeDelay = delay ( SERVER_KNOBS - > CC_CHANGE_DELAY ) ;
onChange = self - > changingDcIds . onChange ( ) ;
}
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when ( Void _ = wait ( changeDelay ) ) {
changeDelay = Never ( ) ;
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onChange = self - > changingDcIds . onChange ( ) ;
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self - > changedDcIds . set ( self - > changingDcIds . get ( ) ) ;
if ( self - > changedDcIds . get ( ) . second . present ( ) ) {
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TraceEvent ( " UpdateChangedDatacenter " , self - > id ) . detail ( " CCFirst " , self - > changedDcIds . get ( ) . first ) ;
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if ( ! self - > changedDcIds . get ( ) . first ) {
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auto & worker = self - > id_worker [ self - > clusterControllerProcessId ] ;
uint8_t newFitness = ClusterControllerPriorityInfo : : calculateDCFitness ( worker . interf . locality . dcId ( ) , self - > changedDcIds . get ( ) . second . get ( ) ) ;
if ( worker . priorityInfo . dcFitness ! = newFitness ) {
worker . priorityInfo . dcFitness = newFitness ;
if ( ! worker . reply . isSet ( ) ) {
worker . reply . send ( RegisterWorkerReply ( worker . processClass , worker . priorityInfo ) ) ;
}
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}
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} else {
state int currentFit = ProcessClass : : BestFit ;
while ( currentFit < = ProcessClass : : NeverAssign ) {
bool updated = false ;
for ( auto & it : self - > id_worker ) {
if ( ( ! it . second . priorityInfo . isExcluded & & it . second . priorityInfo . processClassFitness = = currentFit ) | | currentFit = = ProcessClass : : NeverAssign ) {
uint8_t fitness = ClusterControllerPriorityInfo : : calculateDCFitness ( it . second . interf . locality . dcId ( ) , self - > changedDcIds . get ( ) . second . get ( ) ) ;
if ( it . first ! = self - > clusterControllerProcessId & & it . second . priorityInfo . dcFitness ! = fitness ) {
updated = true ;
it . second . priorityInfo . dcFitness = fitness ;
if ( ! it . second . reply . isSet ( ) ) {
it . second . reply . send ( RegisterWorkerReply ( it . second . processClass , it . second . priorityInfo ) ) ;
}
}
}
}
if ( updated & & currentFit < ProcessClass : : NeverAssign ) {
Void _ = wait ( delay ( SERVER_KNOBS - > CC_CLASS_DELAY ) ) ;
}
currentFit + + ;
}
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}
}
}
}
}
}
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ACTOR Future < Void > updateDatacenterVersionDifference ( ClusterControllerData * self ) {
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state double lastLogTime = 0 ;
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loop {
self - > versionDifferenceUpdated = false ;
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if ( self - > db . serverInfo - > get ( ) . recoveryState > = RecoveryState : : ACCEPTING_COMMITS & & self - > db . config . usableRegions = = 1 ) {
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bool oldDifferenceTooLarge = ! self - > versionDifferenceUpdated | | self - > datacenterVersionDifference > = SERVER_KNOBS - > MAX_VERSION_DIFFERENCE ;
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self - > versionDifferenceUpdated = true ;
self - > datacenterVersionDifference = 0 ;
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if ( oldDifferenceTooLarge ) {
checkOutstandingRequests ( self ) ;
}
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Void _ = wait ( self - > db . serverInfo - > onChange ( ) ) ;
continue ;
}
state Optional < TLogInterface > primaryLog ;
state Optional < TLogInterface > remoteLog ;
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if ( self - > db . serverInfo - > get ( ) . recoveryState > = RecoveryState : : ALL_LOGS_RECRUITED ) {
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for ( auto & logSet : self - > db . serverInfo - > get ( ) . logSystemConfig . tLogs ) {
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if ( logSet . isLocal & & logSet . locality ! = tagLocalitySatellite ) {
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for ( auto & tLog : logSet . tLogs ) {
if ( tLog . present ( ) ) {
primaryLog = tLog . interf ( ) ;
break ;
}
}
}
if ( ! logSet . isLocal ) {
for ( auto & tLog : logSet . tLogs ) {
if ( tLog . present ( ) ) {
remoteLog = tLog . interf ( ) ;
break ;
}
}
}
}
}
if ( ! primaryLog . present ( ) | | ! remoteLog . present ( ) ) {
Void _ = wait ( self - > db . serverInfo - > onChange ( ) ) ;
continue ;
}
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state Future < Void > onChange = self - > db . serverInfo - > onChange ( ) ;
loop {
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state Future < TLogQueuingMetricsReply > primaryMetrics = brokenPromiseToNever ( primaryLog . get ( ) . getQueuingMetrics . getReply ( TLogQueuingMetricsRequest ( ) ) ) ;
state Future < TLogQueuingMetricsReply > remoteMetrics = brokenPromiseToNever ( remoteLog . get ( ) . getQueuingMetrics . getReply ( TLogQueuingMetricsRequest ( ) ) ) ;
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Void _ = wait ( ( success ( primaryMetrics ) & & success ( remoteMetrics ) ) | | onChange ) ;
if ( onChange . isReady ( ) ) {
break ;
}
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bool oldDifferenceTooLarge = ! self - > versionDifferenceUpdated | | self - > datacenterVersionDifference > = SERVER_KNOBS - > MAX_VERSION_DIFFERENCE ;
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self - > versionDifferenceUpdated = true ;
self - > datacenterVersionDifference = primaryMetrics . get ( ) . v - remoteMetrics . get ( ) . v ;
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if ( oldDifferenceTooLarge & & self - > datacenterVersionDifference < SERVER_KNOBS - > MAX_VERSION_DIFFERENCE ) {
checkOutstandingRequests ( self ) ;
}
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if ( now ( ) - lastLogTime > SERVER_KNOBS - > CLUSTER_CONTROLLER_LOGGING_DELAY ) {
lastLogTime = now ( ) ;
TraceEvent ( " DatacenterVersionDifference " , self - > id ) . detail ( " Difference " , self - > datacenterVersionDifference ) ;
}
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Void _ = wait ( delay ( SERVER_KNOBS - > VERSION_LAG_METRIC_INTERVAL ) | | onChange ) ;
if ( onChange . isReady ( ) ) {
break ;
}
}
}
}
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ACTOR Future < Void > clusterControllerCore ( ClusterControllerFullInterface interf , Future < Void > leaderFail , ServerCoordinators coordinators , LocalityData locality ) {
state ClusterControllerData self ( interf , locality ) ;
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state Future < Void > coordinationPingDelay = delay ( SERVER_KNOBS - > WORKER_COORDINATION_PING_DELAY ) ;
state uint64_t step = 0 ;
state PromiseStream < Future < Void > > addActor ;
state Future < ErrorOr < Void > > error = errorOr ( actorCollection ( addActor . getFuture ( ) ) ) ;
auto pSelf = & self ;
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addActor . send ( failureDetectionServer ( self . id , & self . db , interf . clientInterface . failureMonitoring . getFuture ( ) ) ) ;
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addActor . send ( clusterWatchDatabase ( & self , & self . db ) ) ; // Start the master database
addActor . send ( self . updateWorkerList . init ( self . db . db ) ) ;
addActor . send ( statusServer ( interf . clientInterface . databaseStatus . getFuture ( ) , & self , coordinators ) ) ;
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addActor . send ( timeKeeper ( & self ) ) ;
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addActor . send ( monitorProcessClasses ( & self ) ) ;
addActor . send ( monitorClientTxnInfoConfigs ( & self . db ) ) ;
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addActor . send ( updatedChangingDatacenters ( & self ) ) ;
addActor . send ( updatedChangedDatacenters ( & self ) ) ;
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addActor . send ( updateDatacenterVersionDifference ( & self ) ) ;
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//printf("%s: I am the cluster controller\n", g_network->getLocalAddress().toString().c_str());
loop choose {
when ( ErrorOr < Void > err = wait ( error ) ) {
if ( err . isError ( ) ) {
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endRole ( Role : : CLUSTER_CONTROLLER , interf . id ( ) , " Stop Received Error " , false , err . getError ( ) ) ;
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}
else {
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endRole ( Role : : CLUSTER_CONTROLLER , interf . id ( ) , " Stop Received Signal " , true ) ;
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}
// We shut down normally even if there was a serious error (so this fdbserver may be re-elected cluster controller)
return Void ( ) ;
}
when ( OpenDatabaseRequest req = waitNext ( interf . clientInterface . openDatabase . getFuture ( ) ) ) {
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addActor . send ( clusterOpenDatabase ( & self . db , req . dbName , req . knownClientInfoID , req . issues . toString ( ) , req . supportedVersions , req . traceLogGroup , req . reply ) ) ;
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}
when ( RecruitFromConfigurationRequest req = waitNext ( interf . recruitFromConfiguration . getFuture ( ) ) ) {
addActor . send ( clusterRecruitFromConfiguration ( & self , req ) ) ;
}
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when ( RecruitRemoteFromConfigurationRequest req = waitNext ( interf . recruitRemoteFromConfiguration . getFuture ( ) ) ) {
addActor . send ( clusterRecruitRemoteFromConfiguration ( & self , req ) ) ;
}
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when ( RecruitStorageRequest req = waitNext ( interf . recruitStorage . getFuture ( ) ) ) {
clusterRecruitStorage ( & self , req ) ;
}
when ( RegisterWorkerRequest req = waitNext ( interf . registerWorker . getFuture ( ) ) ) {
registerWorker ( req , & self ) ;
}
when ( GetWorkersRequest req = waitNext ( interf . getWorkers . getFuture ( ) ) ) {
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vector < std : : pair < WorkerInterface , ProcessClass > > workers ;
auto masterAddr = self . db . serverInfo - > get ( ) . master . address ( ) ;
for ( auto & it : self . id_worker ) {
if ( ( req . flags & GetWorkersRequest : : NON_EXCLUDED_PROCESSES_ONLY ) & & self . db . config . isExcludedServer ( it . second . interf . address ( ) ) ) {
continue ;
}
if ( ( req . flags & GetWorkersRequest : : TESTER_CLASS_ONLY ) & & it . second . processClass . classType ( ) ! = ProcessClass : : TesterClass ) {
continue ;
}
workers . push_back ( std : : make_pair ( it . second . interf , it . second . processClass ) ) ;
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}
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req . reply . send ( workers ) ;
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}
when ( GetClientWorkersRequest req = waitNext ( interf . clientInterface . getClientWorkers . getFuture ( ) ) ) {
vector < ClientWorkerInterface > workers ;
for ( auto & it : self . id_worker ) {
if ( it . second . processClass . classType ( ) ! = ProcessClass : : TesterClass ) {
workers . push_back ( it . second . interf . clientInterface ) ;
}
}
req . reply . send ( workers ) ;
}
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when ( ForceRecoveryRequest req = waitNext ( interf . clientInterface . forceRecovery . getFuture ( ) ) ) {
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if ( self . db . masterRegistrationCount = = 0 | | self . db . serverInfo - > get ( ) . recoveryState < = RecoveryState : : RECRUITING ) {
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if ( ! self . db . forceMasterFailure . isSet ( ) ) {
self . db . forceRecovery = true ;
self . db . forceMasterFailure . send ( Void ( ) ) ;
}
}
req . reply . send ( Void ( ) ) ;
}
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when ( Void _ = wait ( coordinationPingDelay ) ) {
CoordinationPingMessage message ( self . id , step + + ) ;
for ( auto & it : self . id_worker )
it . second . interf . coordinationPing . send ( message ) ;
coordinationPingDelay = delay ( SERVER_KNOBS - > WORKER_COORDINATION_PING_DELAY ) ;
TraceEvent ( " CoordinationPingSent " , self . id ) . detail ( " TimeStep " , message . timeStep ) ;
}
when ( RegisterMasterRequest req = waitNext ( interf . registerMaster . getFuture ( ) ) ) {
clusterRegisterMaster ( & self , req ) ;
}
when ( GetServerDBInfoRequest req = waitNext ( interf . getServerDBInfo . getFuture ( ) ) ) {
addActor . send ( clusterGetServerInfo ( & self . db , req . knownServerInfoID , req . issues . toString ( ) , req . incompatiblePeers , req . reply ) ) ;
}
when ( Void _ = wait ( leaderFail ) ) {
// We are no longer the leader if this has changed.
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endRole ( Role : : CLUSTER_CONTROLLER , interf . id ( ) , " Leader Replaced " , true ) ;
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TEST ( true ) ; // Lost Cluster Controller Role
return Void ( ) ;
}
when ( ReplyPromise < Void > ping = waitNext ( interf . clientInterface . ping . getFuture ( ) ) ) {
ping . send ( Void ( ) ) ;
}
}
}
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ACTOR Future < Void > clusterController ( ServerCoordinators coordinators , Reference < AsyncVar < Optional < ClusterControllerFullInterface > > > currentCC , bool hasConnected , Reference < AsyncVar < ClusterControllerPriorityInfo > > asyncPriorityInfo , LocalityData locality ) {
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loop {
state ClusterControllerFullInterface cci ;
state bool inRole = false ;
cci . initEndpoints ( ) ;
try {
//Register as a possible leader; wait to be elected
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state Future < Void > leaderFail = tryBecomeLeader ( coordinators , cci , currentCC , hasConnected , asyncPriorityInfo ) ;
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while ( ! currentCC - > get ( ) . present ( ) | | currentCC - > get ( ) . get ( ) ! = cci ) {
choose {
when ( Void _ = wait ( currentCC - > onChange ( ) ) ) { }
when ( Void _ = wait ( leaderFail ) ) { ASSERT ( false ) ; throw internal_error ( ) ; }
}
}
hasConnected = true ;
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startRole ( Role : : CLUSTER_CONTROLLER , cci . id ( ) , UID ( ) ) ;
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inRole = true ;
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Void _ = wait ( clusterControllerCore ( cci , leaderFail , coordinators , locality ) ) ;
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} catch ( Error & e ) {
if ( inRole )
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endRole ( Role : : CLUSTER_CONTROLLER , cci . id ( ) , " Error " , e . code ( ) = = error_code_actor_cancelled | | e . code ( ) = = error_code_coordinators_changed , e ) ;
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else
TraceEvent ( e . code ( ) = = error_code_coordinators_changed ? SevInfo : SevError , " ClusterControllerCandidateError " , cci . id ( ) ) . error ( e ) ;
throw ;
}
}
}
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ACTOR Future < Void > clusterController ( Reference < ClusterConnectionFile > connFile , Reference < AsyncVar < Optional < ClusterControllerFullInterface > > > currentCC , Reference < AsyncVar < ClusterControllerPriorityInfo > > asyncPriorityInfo , Future < Void > recoveredDiskFiles , LocalityData locality ) {
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Void _ = wait ( recoveredDiskFiles ) ;
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state bool hasConnected = false ;
loop {
try {
ServerCoordinators coordinators ( connFile ) ;
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Void _ = wait ( clusterController ( coordinators , currentCC , hasConnected , asyncPriorityInfo , locality ) ) ;
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} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_coordinators_changed )
throw ; // Expected to terminate fdbserver
}
hasConnected = true ;
}
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}