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/*
* Ratekeeper . actor . cpp
*
* This source file is part of the FoundationDB open source project
*
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* Copyright 2013 - 2019 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/IndexedSet.h"
# include "fdbrpc/FailureMonitor.h"
# include "fdbrpc/Smoother.h"
# include "fdbrpc/simulator.h"
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# include "fdbclient/ReadYourWrites.h"
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# include "fdbserver/Knobs.h"
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# include "fdbserver/DataDistribution.actor.h"
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# include "fdbserver/RatekeeperInterface.h"
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# include "fdbserver/ServerDBInfo.h"
# include "fdbserver/WaitFailure.h"
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# include "flow/actorcompiler.h" // This must be the last #include.
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enum limitReason_t {
unlimited , // TODO: rename to workload?
storage_server_write_queue_size ,
storage_server_write_bandwidth_mvcc ,
storage_server_readable_behind ,
log_server_mvcc_write_bandwidth ,
log_server_write_queue ,
storage_server_min_free_space , // a storage server's normal limits are being reduced by low free space
storage_server_min_free_space_ratio , // a storage server's normal limits are being reduced by a low free space ratio
log_server_min_free_space ,
log_server_min_free_space_ratio ,
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storage_server_durability_lag ,
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storage_server_list_fetch_failed ,
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limitReason_t_end
} ;
int limitReasonEnd = limitReason_t_end ;
const char * limitReasonName [ ] = {
" workload " ,
" storage_server_write_queue_size " ,
" storage_server_write_bandwidth_mvcc " ,
" storage_server_readable_behind " ,
" log_server_mvcc_write_bandwidth " ,
" log_server_write_queue " ,
" storage_server_min_free_space " ,
" storage_server_min_free_space_ratio " ,
" log_server_min_free_space " ,
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" log_server_min_free_space_ratio " ,
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" storage_server_durability_lag " ,
" storage_server_list_fetch_failed "
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} ;
static_assert ( sizeof ( limitReasonName ) / sizeof ( limitReasonName [ 0 ] ) = = limitReason_t_end , " limitReasonDesc table size " ) ;
// NOTE: This has a corresponding table in Script.cs (see RatekeeperReason graph)
// IF UPDATING THIS ARRAY, UPDATE SCRIPT.CS!
const char * limitReasonDesc [ ] = {
" Workload or read performance. " ,
" Storage server performance (storage queue). " ,
" Storage server MVCC memory. " ,
" Storage server version falling behind. " ,
" Log server MVCC memory. " ,
" Storage server performance (log queue). " ,
" Storage server running out of space (approaching 100MB limit). " ,
" Storage server running out of space (approaching 5% limit). " ,
" Log server running out of space (approaching 100MB limit). " ,
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" Log server running out of space (approaching 5% limit). " ,
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" Storage server durable version falling behind. " ,
" Unable to fetch storage server list. "
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} ;
static_assert ( sizeof ( limitReasonDesc ) / sizeof ( limitReasonDesc [ 0 ] ) = = limitReason_t_end , " limitReasonDesc table size " ) ;
struct StorageQueueInfo {
bool valid ;
UID id ;
LocalityData locality ;
StorageQueuingMetricsReply lastReply ;
StorageQueuingMetricsReply prevReply ;
Smoother smoothDurableBytes , smoothInputBytes , verySmoothDurableBytes ;
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Smoother verySmoothDurableVersion , smoothLatestVersion ;
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Smoother smoothFreeSpace ;
Smoother smoothTotalSpace ;
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double localRateLimit ;
limitReason_t limitReason ;
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StorageQueueInfo ( UID id , LocalityData locality ) : valid ( false ) , id ( id ) , locality ( locality ) , smoothDurableBytes ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) ,
smoothInputBytes ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) , verySmoothDurableBytes ( SERVER_KNOBS - > SLOW_SMOOTHING_AMOUNT ) ,
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verySmoothDurableVersion ( SERVER_KNOBS - > SLOW_SMOOTHING_AMOUNT ) , smoothLatestVersion ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) , smoothFreeSpace ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) ,
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smoothTotalSpace ( SERVER_KNOBS - > SMOOTHING_AMOUNT )
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{
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// FIXME: this is a tacky workaround for a potential uninitialized use in trackStorageServerQueueInfo
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lastReply . instanceID = - 1 ;
}
} ;
struct TLogQueueInfo {
bool valid ;
UID id ;
TLogQueuingMetricsReply lastReply ;
TLogQueuingMetricsReply prevReply ;
Smoother smoothDurableBytes , smoothInputBytes , verySmoothDurableBytes ;
Smoother smoothFreeSpace ;
Smoother smoothTotalSpace ;
TLogQueueInfo ( UID id ) : valid ( false ) , id ( id ) , smoothDurableBytes ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) , smoothInputBytes ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) ,
verySmoothDurableBytes ( SERVER_KNOBS - > SLOW_SMOOTHING_AMOUNT ) , smoothFreeSpace ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) ,
smoothTotalSpace ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) {
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// FIXME: this is a tacky workaround for a potential uninitialized use in trackTLogQueueInfo (copied from storageQueueInfO)
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lastReply . instanceID = - 1 ;
}
} ;
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struct RatekeeperLimits {
double tpsLimit ;
Int64MetricHandle tpsLimitMetric ;
Int64MetricHandle reasonMetric ;
int64_t storageTargetBytes ;
int64_t storageSpringBytes ;
int64_t logTargetBytes ;
int64_t logSpringBytes ;
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double maxVersionDifference ;
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int64_t durabilityLagTargetVersions ;
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int64_t lastDurabilityLag ;
double durabilityLagLimit ;
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std : : string context ;
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RatekeeperLimits ( std : : string context , int64_t storageTargetBytes , int64_t storageSpringBytes , int64_t logTargetBytes , int64_t logSpringBytes , double maxVersionDifference , int64_t durabilityLagTargetVersions ) :
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tpsLimit ( std : : numeric_limits < double > : : infinity ( ) ) ,
tpsLimitMetric ( StringRef ( " Ratekeeper.TPSLimit " + context ) ) ,
reasonMetric ( StringRef ( " Ratekeeper.Reason " + context ) ) ,
storageTargetBytes ( storageTargetBytes ) ,
storageSpringBytes ( storageSpringBytes ) ,
logTargetBytes ( logTargetBytes ) ,
logSpringBytes ( logSpringBytes ) ,
maxVersionDifference ( maxVersionDifference ) ,
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durabilityLagTargetVersions ( durabilityLagTargetVersions ) ,
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durabilityLagLimit ( std : : numeric_limits < double > : : infinity ( ) ) ,
lastDurabilityLag ( 0 ) ,
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context ( context )
{ }
} ;
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struct TransactionCounts {
int64_t total ;
int64_t batch ;
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double time ;
TransactionCounts ( ) : total ( 0 ) , batch ( 0 ) , time ( 0 ) { }
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} ;
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struct RatekeeperData {
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Map < UID , StorageQueueInfo > storageQueueInfo ;
Map < UID , TLogQueueInfo > tlogQueueInfo ;
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std : : map < UID , TransactionCounts > proxy_transactionCounts ;
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Smoother smoothReleasedTransactions , smoothBatchReleasedTransactions , smoothTotalDurableBytes ;
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HealthMetrics healthMetrics ;
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DatabaseConfiguration configuration ;
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PromiseStream < Future < Void > > addActor ;
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Int64MetricHandle actualTpsMetric ;
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double lastWarning ;
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double lastSSListFetchedTimestamp ;
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RatekeeperLimits normalLimits ;
RatekeeperLimits batchLimits ;
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Deque < double > actualTpsHistory ;
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RatekeeperData ( ) : smoothReleasedTransactions ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) , smoothBatchReleasedTransactions ( SERVER_KNOBS - > SMOOTHING_AMOUNT ) , smoothTotalDurableBytes ( SERVER_KNOBS - > SLOW_SMOOTHING_AMOUNT ) ,
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actualTpsMetric ( LiteralStringRef ( " Ratekeeper.ActualTPS " ) ) ,
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lastWarning ( 0 ) , lastSSListFetchedTimestamp ( now ( ) ) ,
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normalLimits ( " " , SERVER_KNOBS - > TARGET_BYTES_PER_STORAGE_SERVER , SERVER_KNOBS - > SPRING_BYTES_STORAGE_SERVER , SERVER_KNOBS - > TARGET_BYTES_PER_TLOG , SERVER_KNOBS - > SPRING_BYTES_TLOG , SERVER_KNOBS - > MAX_TL_SS_VERSION_DIFFERENCE , SERVER_KNOBS - > TARGET_DURABILITY_LAG_VERSIONS ) ,
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batchLimits ( " Batch " , SERVER_KNOBS - > TARGET_BYTES_PER_STORAGE_SERVER_BATCH , SERVER_KNOBS - > SPRING_BYTES_STORAGE_SERVER_BATCH , SERVER_KNOBS - > TARGET_BYTES_PER_TLOG_BATCH , SERVER_KNOBS - > SPRING_BYTES_TLOG_BATCH , SERVER_KNOBS - > MAX_TL_SS_VERSION_DIFFERENCE_BATCH , SERVER_KNOBS - > TARGET_DURABILITY_LAG_VERSIONS_BATCH )
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{ }
} ;
//SOMEDAY: template trackStorageServerQueueInfo and trackTLogQueueInfo into one function
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ACTOR Future < Void > trackStorageServerQueueInfo ( RatekeeperData * self , StorageServerInterface ssi ) {
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self - > storageQueueInfo . insert ( mapPair ( ssi . id ( ) , StorageQueueInfo ( ssi . id ( ) , ssi . locality ) ) ) ;
state Map < UID , StorageQueueInfo > : : iterator myQueueInfo = self - > storageQueueInfo . find ( ssi . id ( ) ) ;
TraceEvent ( " RkTracking " , ssi . id ( ) ) ;
try {
loop {
ErrorOr < StorageQueuingMetricsReply > reply = wait ( ssi . getQueuingMetrics . getReplyUnlessFailedFor ( StorageQueuingMetricsRequest ( ) , 0 , 0 ) ) ; // SOMEDAY: or tryGetReply?
if ( reply . present ( ) ) {
myQueueInfo - > value . valid = true ;
myQueueInfo - > value . prevReply = myQueueInfo - > value . lastReply ;
myQueueInfo - > value . lastReply = reply . get ( ) ;
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myQueueInfo - > value . localRateLimit = reply . get ( ) . localRateLimit ;
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if ( myQueueInfo - > value . prevReply . instanceID ! = reply . get ( ) . instanceID ) {
myQueueInfo - > value . smoothDurableBytes . reset ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . verySmoothDurableBytes . reset ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . smoothInputBytes . reset ( reply . get ( ) . bytesInput ) ;
myQueueInfo - > value . smoothFreeSpace . reset ( reply . get ( ) . storageBytes . available ) ;
myQueueInfo - > value . smoothTotalSpace . reset ( reply . get ( ) . storageBytes . total ) ;
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myQueueInfo - > value . verySmoothDurableVersion . reset ( reply . get ( ) . durableVersion ) ;
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myQueueInfo - > value . smoothLatestVersion . reset ( reply . get ( ) . version ) ;
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} else {
self - > smoothTotalDurableBytes . addDelta ( reply . get ( ) . bytesDurable - myQueueInfo - > value . prevReply . bytesDurable ) ;
myQueueInfo - > value . smoothDurableBytes . setTotal ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . verySmoothDurableBytes . setTotal ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . smoothInputBytes . setTotal ( reply . get ( ) . bytesInput ) ;
myQueueInfo - > value . smoothFreeSpace . setTotal ( reply . get ( ) . storageBytes . available ) ;
myQueueInfo - > value . smoothTotalSpace . setTotal ( reply . get ( ) . storageBytes . total ) ;
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myQueueInfo - > value . verySmoothDurableVersion . setTotal ( reply . get ( ) . durableVersion ) ;
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myQueueInfo - > value . smoothLatestVersion . setTotal ( reply . get ( ) . version ) ;
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}
} else {
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if ( myQueueInfo - > value . valid ) {
TraceEvent ( " RkStorageServerDidNotRespond " , ssi . id ( ) ) ;
}
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myQueueInfo - > value . valid = false ;
}
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wait ( delayJittered ( SERVER_KNOBS - > METRIC_UPDATE_RATE ) & & IFailureMonitor : : failureMonitor ( ) . onStateEqual ( ssi . getQueuingMetrics . getEndpoint ( ) , FailureStatus ( false ) ) ) ;
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}
} catch ( . . . ) {
// including cancellation
self - > storageQueueInfo . erase ( myQueueInfo ) ;
throw ;
}
}
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ACTOR Future < Void > trackTLogQueueInfo ( RatekeeperData * self , TLogInterface tli ) {
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self - > tlogQueueInfo . insert ( mapPair ( tli . id ( ) , TLogQueueInfo ( tli . id ( ) ) ) ) ;
state Map < UID , TLogQueueInfo > : : iterator myQueueInfo = self - > tlogQueueInfo . find ( tli . id ( ) ) ;
TraceEvent ( " RkTracking " , tli . id ( ) ) ;
try {
loop {
ErrorOr < TLogQueuingMetricsReply > reply = wait ( tli . getQueuingMetrics . getReplyUnlessFailedFor ( TLogQueuingMetricsRequest ( ) , 0 , 0 ) ) ; // SOMEDAY: or tryGetReply?
if ( reply . present ( ) ) {
myQueueInfo - > value . valid = true ;
myQueueInfo - > value . prevReply = myQueueInfo - > value . lastReply ;
myQueueInfo - > value . lastReply = reply . get ( ) ;
if ( myQueueInfo - > value . prevReply . instanceID ! = reply . get ( ) . instanceID ) {
myQueueInfo - > value . smoothDurableBytes . reset ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . verySmoothDurableBytes . reset ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . smoothInputBytes . reset ( reply . get ( ) . bytesInput ) ;
myQueueInfo - > value . smoothFreeSpace . reset ( reply . get ( ) . storageBytes . available ) ;
myQueueInfo - > value . smoothTotalSpace . reset ( reply . get ( ) . storageBytes . total ) ;
} else {
self - > smoothTotalDurableBytes . addDelta ( reply . get ( ) . bytesDurable - myQueueInfo - > value . prevReply . bytesDurable ) ;
myQueueInfo - > value . smoothDurableBytes . setTotal ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . verySmoothDurableBytes . setTotal ( reply . get ( ) . bytesDurable ) ;
myQueueInfo - > value . smoothInputBytes . setTotal ( reply . get ( ) . bytesInput ) ;
myQueueInfo - > value . smoothFreeSpace . setTotal ( reply . get ( ) . storageBytes . available ) ;
myQueueInfo - > value . smoothTotalSpace . setTotal ( reply . get ( ) . storageBytes . total ) ;
}
} else {
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if ( myQueueInfo - > value . valid ) {
TraceEvent ( " RkTLogDidNotRespond " , tli . id ( ) ) ;
}
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myQueueInfo - > value . valid = false ;
}
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wait ( delayJittered ( SERVER_KNOBS - > METRIC_UPDATE_RATE ) & & IFailureMonitor : : failureMonitor ( ) . onStateEqual ( tli . getQueuingMetrics . getEndpoint ( ) , FailureStatus ( false ) ) ) ;
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}
} catch ( . . . ) {
// including cancellation
self - > tlogQueueInfo . erase ( myQueueInfo ) ;
throw ;
}
}
ACTOR Future < Void > splitError ( Future < Void > in , Promise < Void > errOut ) {
try {
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wait ( in ) ;
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return Void ( ) ;
} catch ( Error & e ) {
if ( e . code ( ) ! = error_code_actor_cancelled & & ! errOut . isSet ( ) )
errOut . sendError ( e ) ;
throw ;
}
}
ACTOR Future < Void > trackEachStorageServer (
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RatekeeperData * self ,
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FutureStream < std : : pair < UID , Optional < StorageServerInterface > > > serverChanges )
{
state Map < UID , Future < Void > > actors ;
state Promise < Void > err ;
loop choose {
when ( state std : : pair < UID , Optional < StorageServerInterface > > change = waitNext ( serverChanges ) ) {
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wait ( delay ( 0 ) ) ; // prevent storageServerTracker from getting cancelled while on the call stack
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if ( change . second . present ( ) ) {
auto & a = actors [ change . first ] ;
a = Future < Void > ( ) ;
a = splitError ( trackStorageServerQueueInfo ( self , change . second . get ( ) ) , err ) ;
} else
actors . erase ( change . first ) ;
}
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when ( wait ( err . getFuture ( ) ) ) { }
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}
}
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ACTOR Future < Void > monitorServerListChange (
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RatekeeperData * self ,
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Reference < AsyncVar < ServerDBInfo > > dbInfo ,
PromiseStream < std : : pair < UID , Optional < StorageServerInterface > > > serverChanges ) {
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state Database db = openDBOnServer ( dbInfo , TaskPriority : : Ratekeeper , true , true ) ;
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state std : : map < UID , StorageServerInterface > oldServers ;
state Transaction tr ( db ) ;
loop {
try {
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tr . setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
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vector < std : : pair < StorageServerInterface , ProcessClass > > results = wait ( getServerListAndProcessClasses ( & tr ) ) ;
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self - > lastSSListFetchedTimestamp = now ( ) ;
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std : : map < UID , StorageServerInterface > newServers ;
for ( int i = 0 ; i < results . size ( ) ; i + + ) {
const StorageServerInterface & ssi = results [ i ] . first ;
const UID serverId = ssi . id ( ) ;
newServers [ serverId ] = ssi ;
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if ( oldServers . count ( serverId ) ) {
if ( ssi . getValue . getEndpoint ( ) ! = oldServers [ serverId ] . getValue . getEndpoint ( ) ) {
serverChanges . send ( std : : make_pair ( serverId , Optional < StorageServerInterface > ( ssi ) ) ) ;
}
oldServers . erase ( serverId ) ;
} else {
serverChanges . send ( std : : make_pair ( serverId , Optional < StorageServerInterface > ( ssi ) ) ) ;
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}
}
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for ( const auto & it : oldServers ) {
serverChanges . send ( std : : make_pair ( it . first , Optional < StorageServerInterface > ( ) ) ) ;
}
oldServers . swap ( newServers ) ;
tr = Transaction ( db ) ;
wait ( delay ( SERVER_KNOBS - > SERVER_LIST_DELAY ) ) ;
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} catch ( Error & e ) {
wait ( tr . onError ( e ) ) ;
}
}
}
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void updateRate ( RatekeeperData * self , RatekeeperLimits * limits ) {
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//double controlFactor = ; // dt / eFoldingTime
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double actualTps = self - > smoothReleasedTransactions . smoothRate ( ) ;
self - > actualTpsMetric = ( int64_t ) actualTps ;
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// SOMEDAY: Remove the max( 1.0, ... ) since the below calculations _should_ be able to recover back up from this value
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actualTps = std : : max ( std : : max ( 1.0 , actualTps ) , self - > smoothTotalDurableBytes . smoothRate ( ) / CLIENT_KNOBS - > TRANSACTION_SIZE_LIMIT ) ;
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if ( self - > actualTpsHistory . size ( ) > SERVER_KNOBS - > MAX_TPS_HISTORY_SAMPLES ) {
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self - > actualTpsHistory . pop_front ( ) ;
}
self - > actualTpsHistory . push_back ( actualTps ) ;
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limits - > tpsLimit = std : : numeric_limits < double > : : infinity ( ) ;
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UID reasonID = UID ( ) ;
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limitReason_t limitReason = limitReason_t : : unlimited ;
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int sscount = 0 ;
int64_t worstFreeSpaceStorageServer = std : : numeric_limits < int64_t > : : max ( ) ;
int64_t worstStorageQueueStorageServer = 0 ;
int64_t limitingStorageQueueStorageServer = 0 ;
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int64_t worstDurabilityLag = 0 ;
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double worstStorageLocalLimit = 0 ;
double limitingStorageLocalLimit = 0 ;
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std : : multimap < double , StorageQueueInfo * > storageTpsLimitReverseIndex ;
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std : : multimap < int64_t , StorageQueueInfo * > storageDurabilityLagReverseIndex ;
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std : : map < UID , limitReason_t > ssReasons ;
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// Look at each storage server's write queue and local rate, compute and store the desired rate ratio
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for ( auto i = self - > storageQueueInfo . begin ( ) ; i ! = self - > storageQueueInfo . end ( ) ; + + i ) {
auto & ss = i - > value ;
if ( ! ss . valid ) continue ;
+ + sscount ;
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limitReason_t ssLimitReason = limitReason_t : : unlimited ;
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int64_t minFreeSpace = std : : max ( SERVER_KNOBS - > MIN_FREE_SPACE , ( int64_t ) ( SERVER_KNOBS - > MIN_FREE_SPACE_RATIO * ss . smoothTotalSpace . smoothTotal ( ) ) ) ;
worstFreeSpaceStorageServer = std : : min ( worstFreeSpaceStorageServer , ( int64_t ) ss . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) ;
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int64_t springBytes = std : : max < int64_t > ( 1 , std : : min < int64_t > ( limits - > storageSpringBytes , ( ss . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) * 0.2 ) ) ;
int64_t targetBytes = std : : max < int64_t > ( 1 , std : : min ( limits - > storageTargetBytes , ( int64_t ) ss . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) ) ;
if ( targetBytes ! = limits - > storageTargetBytes ) {
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if ( minFreeSpace = = SERVER_KNOBS - > MIN_FREE_SPACE ) {
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ssLimitReason = limitReason_t : : storage_server_min_free_space ;
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} else {
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ssLimitReason = limitReason_t : : storage_server_min_free_space_ratio ;
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}
}
int64_t storageQueue = ss . lastReply . bytesInput - ss . smoothDurableBytes . smoothTotal ( ) ;
worstStorageQueueStorageServer = std : : max ( worstStorageQueueStorageServer , storageQueue ) ;
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worstStorageLocalLimit = std : : min ( worstStorageLocalLimit , ss . localRateLimit ) ;
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int64_t storageDurabilityLag = ss . smoothLatestVersion . smoothTotal ( ) - ss . verySmoothDurableVersion . smoothTotal ( ) ;
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worstDurabilityLag = std : : max ( worstDurabilityLag , storageDurabilityLag ) ;
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storageDurabilityLagReverseIndex . insert ( std : : make_pair ( - 1 * storageDurabilityLag , & ss ) ) ;
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auto & ssMetrics = self - > healthMetrics . storageStats [ ss . id ] ;
ssMetrics . storageQueue = storageQueue ;
ssMetrics . storageDurabilityLag = storageDurabilityLag ;
ssMetrics . cpuUsage = ss . lastReply . cpuUsage ;
ssMetrics . diskUsage = ss . lastReply . diskUsage ;
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double targetRateRatio = std : : min ( ( storageQueue - targetBytes + springBytes ) / ( double ) springBytes , 2.0 ) ;
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double inputRate = ss . smoothInputBytes . smoothRate ( ) ;
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//inputRate = std::max( inputRate, actualTps / SERVER_KNOBS->MAX_TRANSACTIONS_PER_BYTE );
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/*if( deterministicRandom()->random01() < 0.1 ) {
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std : : string name = " RatekeeperUpdateRate " + limits . context ;
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TraceEvent ( name , ss . id )
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. detail ( " MinFreeSpace " , minFreeSpace )
. detail ( " SpringBytes " , springBytes )
. detail ( " TargetBytes " , targetBytes )
. detail ( " SmoothTotalSpaceTotal " , ss . smoothTotalSpace . smoothTotal ( ) )
. detail ( " SmoothFreeSpaceTotal " , ss . smoothFreeSpace . smoothTotal ( ) )
. detail ( " LastReplyBytesInput " , ss . lastReply . bytesInput )
. detail ( " SmoothDurableBytesTotal " , ss . smoothDurableBytes . smoothTotal ( ) )
. detail ( " TargetRateRatio " , targetRateRatio )
. detail ( " SmoothInputBytesRate " , ss . smoothInputBytes . smoothRate ( ) )
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. detail ( " ActualTPS " , actualTps )
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. detail ( " InputRate " , inputRate )
. detail ( " VerySmoothDurableBytesRate " , ss . verySmoothDurableBytes . smoothRate ( ) )
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. detail ( " B " , b ) ;
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} */
// Don't let any storage server use up its target bytes faster than its MVCC window!
double maxBytesPerSecond = ( targetBytes - springBytes ) / ( ( ( ( double ) SERVER_KNOBS - > MAX_READ_TRANSACTION_LIFE_VERSIONS ) / SERVER_KNOBS - > VERSIONS_PER_SECOND ) + 2.0 ) ;
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double limitTps = std : : min ( actualTps * maxBytesPerSecond / std : : max ( 1.0e-8 , inputRate ) , maxBytesPerSecond * SERVER_KNOBS - > MAX_TRANSACTIONS_PER_BYTE ) ;
if ( ssLimitReason = = limitReason_t : : unlimited )
ssLimitReason = limitReason_t : : storage_server_write_bandwidth_mvcc ;
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if ( targetRateRatio > 0 & & inputRate > 0 ) {
ASSERT ( inputRate ! = 0 ) ;
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double smoothedRate = std : : max ( ss . verySmoothDurableBytes . smoothRate ( ) , actualTps / SERVER_KNOBS - > MAX_TRANSACTIONS_PER_BYTE ) ;
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double x = smoothedRate / ( inputRate * targetRateRatio ) ;
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double lim = actualTps * x ;
if ( lim < limitTps ) {
limitTps = lim ;
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if ( ssLimitReason = = limitReason_t : : unlimited | | ssLimitReason = = limitReason_t : : storage_server_write_bandwidth_mvcc ) {
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ssLimitReason = limitReason_t : : storage_server_write_queue_size ;
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}
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}
}
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storageTpsLimitReverseIndex . insert ( std : : make_pair ( limitTps , & ss ) ) ;
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if ( limitTps < limits - > tpsLimit & & ( ssLimitReason = = limitReason_t : : storage_server_min_free_space | | ssLimitReason = = limitReason_t : : storage_server_min_free_space_ratio ) ) {
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reasonID = ss . id ;
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limits - > tpsLimit = limitTps ;
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limitReason = ssLimitReason ;
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}
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ssReasons [ ss . id ] = ssLimitReason ;
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}
std : : set < Optional < Standalone < StringRef > > > ignoredMachines ;
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for ( auto ss = storageTpsLimitReverseIndex . begin ( ) ; ss ! = storageTpsLimitReverseIndex . end ( ) & & ss - > first < limits - > tpsLimit ; + + ss ) {
if ( ignoredMachines . size ( ) < std : : min ( self - > configuration . storageTeamSize - 1 , SERVER_KNOBS - > MAX_MACHINES_FALLING_BEHIND ) ) {
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ignoredMachines . insert ( ss - > second - > locality . zoneId ( ) ) ;
continue ;
}
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if ( ignoredMachines . count ( ss - > second - > locality . zoneId ( ) ) > 0 ) {
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continue ;
}
limitingStorageQueueStorageServer = ss - > second - > lastReply . bytesInput - ss - > second - > smoothDurableBytes . smoothTotal ( ) ;
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limitingStorageLocalLimit = ss - > second - > lastReply . localRateLimit ;
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limits - > tpsLimit = ss - > first ;
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reasonID = storageTpsLimitReverseIndex . begin ( ) - > second - > id ; // Although we aren't controlling based on the worst SS, we still report it as the limiting process
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limitReason = ssReasons [ reasonID ] ;
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break ;
}
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int64_t limitingDurabilityLag = 0 ;
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std : : set < Optional < Standalone < StringRef > > > ignoredDurabilityLagMachines ;
for ( auto ss = storageDurabilityLagReverseIndex . begin ( ) ; ss ! = storageDurabilityLagReverseIndex . end ( ) ; + + ss ) {
if ( ignoredDurabilityLagMachines . size ( ) < std : : min ( self - > configuration . storageTeamSize - 1 , SERVER_KNOBS - > MAX_MACHINES_FALLING_BEHIND ) ) {
ignoredDurabilityLagMachines . insert ( ss - > second - > locality . zoneId ( ) ) ;
continue ;
}
if ( ignoredDurabilityLagMachines . count ( ss - > second - > locality . zoneId ( ) ) > 0 ) {
continue ;
}
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limitingDurabilityLag = - 1 * ss - > first ;
if ( limitingDurabilityLag > limits - > durabilityLagTargetVersions & & self - > actualTpsHistory . size ( ) > SERVER_KNOBS - > NEEDED_TPS_HISTORY_SAMPLES ) {
if ( limits - > durabilityLagLimit = = std : : numeric_limits < double > : : infinity ( ) ) {
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double maxTps = 0 ;
for ( int i = 0 ; i < self - > actualTpsHistory . size ( ) ; i + + ) {
maxTps = std : : max ( maxTps , self - > actualTpsHistory [ i ] ) ;
}
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limits - > durabilityLagLimit = SERVER_KNOBS - > INITIAL_DURABILITY_LAG_MULTIPLIER * maxTps ;
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}
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if ( limitingDurabilityLag > limits - > lastDurabilityLag ) {
limits - > durabilityLagLimit = SERVER_KNOBS - > DURABILITY_LAG_REDUCTION_RATE * limits - > durabilityLagLimit ;
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}
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if ( limits - > durabilityLagLimit < limits - > tpsLimit ) {
limits - > tpsLimit = limits - > durabilityLagLimit ;
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limitReason = limitReason_t : : storage_server_durability_lag ;
}
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} else if ( limits - > durabilityLagLimit ! = std : : numeric_limits < double > : : infinity ( ) & & limitingDurabilityLag > limits - > durabilityLagTargetVersions - SERVER_KNOBS - > DURABILITY_LAG_UNLIMITED_THRESHOLD ) {
limits - > durabilityLagLimit = SERVER_KNOBS - > DURABILITY_LAG_INCREASE_RATE * limits - > durabilityLagLimit ;
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} else {
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limits - > durabilityLagLimit = std : : numeric_limits < double > : : infinity ( ) ;
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}
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limits - > lastDurabilityLag = limitingDurabilityLag ;
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break ;
}
self - > healthMetrics . worstStorageQueue = worstStorageQueueStorageServer ;
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self - > healthMetrics . worstStorageDurabilityLag = worstDurabilityLag ;
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double writeToReadLatencyLimit = 0 ;
Version worstVersionLag = 0 ;
Version limitingVersionLag = 0 ;
{
Version minSSVer = std : : numeric_limits < Version > : : max ( ) ;
Version minLimitingSSVer = std : : numeric_limits < Version > : : max ( ) ;
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for ( const auto & it : self - > storageQueueInfo ) {
auto & ss = it . value ;
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if ( ! ss . valid ) continue ;
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minSSVer = std : : min ( minSSVer , ss . lastReply . version ) ;
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// Machines that ratekeeper isn't controlling can fall arbitrarily far behind
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if ( ignoredMachines . count ( it . value . locality . zoneId ( ) ) = = 0 ) {
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minLimitingSSVer = std : : min ( minLimitingSSVer , ss . lastReply . version ) ;
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}
}
Version maxTLVer = std : : numeric_limits < Version > : : min ( ) ;
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for ( const auto & it : self - > tlogQueueInfo ) {
auto & tl = it . value ;
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if ( ! tl . valid ) continue ;
maxTLVer = std : : max ( maxTLVer , tl . lastReply . v ) ;
}
// writeToReadLatencyLimit: 0 = infinte speed; 1 = TL durable speed ; 2 = half TL durable speed
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writeToReadLatencyLimit = ( ( maxTLVer - minLimitingSSVer ) - limits - > maxVersionDifference / 2 ) / ( limits - > maxVersionDifference / 4 ) ;
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worstVersionLag = std : : max ( ( Version ) 0 , maxTLVer - minSSVer ) ;
limitingVersionLag = std : : max ( ( Version ) 0 , maxTLVer - minLimitingSSVer ) ;
}
int64_t worstFreeSpaceTLog = std : : numeric_limits < int64_t > : : max ( ) ;
int64_t worstStorageQueueTLog = 0 ;
int tlcount = 0 ;
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for ( auto & it : self - > tlogQueueInfo ) {
auto & tl = it . value ;
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if ( ! tl . valid ) continue ;
+ + tlcount ;
limitReason_t tlogLimitReason = limitReason_t : : log_server_write_queue ;
int64_t minFreeSpace = std : : max ( SERVER_KNOBS - > MIN_FREE_SPACE , ( int64_t ) ( SERVER_KNOBS - > MIN_FREE_SPACE_RATIO * tl . smoothTotalSpace . smoothTotal ( ) ) ) ;
worstFreeSpaceTLog = std : : min ( worstFreeSpaceTLog , ( int64_t ) tl . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) ;
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int64_t springBytes = std : : max < int64_t > ( 1 , std : : min < int64_t > ( limits - > logSpringBytes , ( tl . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) * 0.2 ) ) ;
int64_t targetBytes = std : : max < int64_t > ( 1 , std : : min ( limits - > logTargetBytes , ( int64_t ) tl . smoothFreeSpace . smoothTotal ( ) - minFreeSpace ) ) ;
if ( targetBytes ! = limits - > logTargetBytes ) {
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if ( minFreeSpace = = SERVER_KNOBS - > MIN_FREE_SPACE ) {
tlogLimitReason = limitReason_t : : log_server_min_free_space ;
} else {
tlogLimitReason = limitReason_t : : log_server_min_free_space_ratio ;
}
}
int64_t queue = tl . lastReply . bytesInput - tl . smoothDurableBytes . smoothTotal ( ) ;
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self - > healthMetrics . tLogQueue [ tl . id ] = queue ;
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int64_t b = queue - targetBytes ;
worstStorageQueueTLog = std : : max ( worstStorageQueueTLog , queue ) ;
if ( tl . lastReply . bytesInput - tl . lastReply . bytesDurable > tl . lastReply . storageBytes . free - minFreeSpace / 2 ) {
if ( now ( ) - self - > lastWarning > 5.0 ) {
self - > lastWarning = now ( ) ;
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TraceEvent ( SevWarnAlways , " RkTlogMinFreeSpaceZero " ) . detail ( " ReasonId " , tl . id ) ;
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}
reasonID = tl . id ;
limitReason = limitReason_t : : log_server_min_free_space ;
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limits - > tpsLimit = 0.0 ;
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}
double targetRateRatio = std : : min ( ( b + springBytes ) / ( double ) springBytes , 2.0 ) ;
if ( writeToReadLatencyLimit > targetRateRatio ) {
targetRateRatio = writeToReadLatencyLimit ;
tlogLimitReason = limitReason_t : : storage_server_readable_behind ;
}
double inputRate = tl . smoothInputBytes . smoothRate ( ) ;
if ( targetRateRatio > 0 ) {
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double smoothedRate = std : : max ( tl . verySmoothDurableBytes . smoothRate ( ) , actualTps / SERVER_KNOBS - > MAX_TRANSACTIONS_PER_BYTE ) ;
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double x = smoothedRate / ( inputRate * targetRateRatio ) ;
if ( targetRateRatio < .75 ) //< FIXME: KNOB for 2.0
x = std : : max ( x , 0.95 ) ;
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double lim = actualTps * x ;
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if ( lim < limits - > tpsLimit ) {
limits - > tpsLimit = lim ;
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reasonID = tl . id ;
limitReason = tlogLimitReason ;
}
}
if ( inputRate > 0 ) {
// Don't let any tlogs use up its target bytes faster than its MVCC window!
double x = ( ( targetBytes - springBytes ) / ( ( ( ( double ) SERVER_KNOBS - > MAX_READ_TRANSACTION_LIFE_VERSIONS ) / SERVER_KNOBS - > VERSIONS_PER_SECOND ) + 2.0 ) ) / inputRate ;
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double lim = actualTps * x ;
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if ( lim < limits - > tpsLimit ) {
limits - > tpsLimit = lim ;
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reasonID = tl . id ;
limitReason = limitReason_t : : log_server_mvcc_write_bandwidth ;
}
}
}
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self - > healthMetrics . worstTLogQueue = worstStorageQueueTLog ;
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limits - > tpsLimit = std : : max ( limits - > tpsLimit , 0.0 ) ;
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if ( g_network - > isSimulated ( ) & & g_simulator . speedUpSimulation ) {
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limits - > tpsLimit = std : : max ( limits - > tpsLimit , 100.0 ) ;
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}
int64_t totalDiskUsageBytes = 0 ;
for ( auto & t : self - > tlogQueueInfo )
if ( t . value . valid )
totalDiskUsageBytes + = t . value . lastReply . storageBytes . used ;
for ( auto & s : self - > storageQueueInfo )
if ( s . value . valid )
totalDiskUsageBytes + = s . value . lastReply . storageBytes . used ;
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if ( now ( ) - self - > lastSSListFetchedTimestamp > SERVER_KNOBS - > STORAGE_SERVER_LIST_FETCH_TIMEOUT ) {
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limits - > tpsLimit = 0.0 ;
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limitReason = limitReason_t : : storage_server_list_fetch_failed ;
reasonID = UID ( ) ;
TraceEvent ( SevWarnAlways , " RkSSListFetchTimeout " ) . suppressFor ( 1.0 ) ;
}
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limits - > tpsLimitMetric = std : : min ( limits - > tpsLimit , 1e6 ) ;
limits - > reasonMetric = limitReason ;
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if ( deterministicRandom ( ) - > random01 ( ) < 0.1 ) {
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std : : string name = " RkUpdate " + limits - > context ;
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TraceEvent ( name . c_str ( ) )
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. detail ( " TPSLimit " , limits - > tpsLimit )
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. detail ( " Reason " , limitReason )
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. detail ( " ReasonServerID " , reasonID = = UID ( ) ? std : : string ( ) : Traceable < UID > : : toString ( reasonID ) )
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. detail ( " ReleasedTPS " , self - > smoothReleasedTransactions . smoothRate ( ) )
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. detail ( " ReleasedBatchTPS " , self - > smoothBatchReleasedTransactions . smoothRate ( ) )
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. detail ( " TPSBasis " , actualTps )
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. detail ( " StorageServers " , sscount )
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. detail ( " Proxies " , self - > proxy_transactionCounts . size ( ) )
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. detail ( " TLogs " , tlcount )
. detail ( " WorstFreeSpaceStorageServer " , worstFreeSpaceStorageServer )
. detail ( " WorstFreeSpaceTLog " , worstFreeSpaceTLog )
. detail ( " WorstStorageServerQueue " , worstStorageQueueStorageServer )
. detail ( " LimitingStorageServerQueue " , limitingStorageQueueStorageServer )
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. detail ( " WorstStorageLocalLimit " , worstStorageLocalLimit )
. detail ( " LimitingStorageLocalLimit " , limitingStorageLocalLimit )
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. detail ( " WorstTLogQueue " , worstStorageQueueTLog )
. detail ( " TotalDiskUsageBytes " , totalDiskUsageBytes )
. detail ( " WorstStorageServerVersionLag " , worstVersionLag )
. detail ( " LimitingStorageServerVersionLag " , limitingVersionLag )
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. detail ( " WorstDurabilityLag " , worstDurabilityLag )
. detail ( " LimitingDurabilityLag " , limitingDurabilityLag )
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. trackLatest ( name . c_str ( ) ) ;
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}
}
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ACTOR Future < Void > configurationMonitor ( Reference < AsyncVar < ServerDBInfo > > dbInfo , DatabaseConfiguration * conf ) {
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state Database cx = openDBOnServer ( dbInfo , TaskPriority : : DefaultEndpoint , true , true ) ;
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loop {
state ReadYourWritesTransaction tr ( cx ) ;
loop {
try {
tr . setOption ( FDBTransactionOptions : : ACCESS_SYSTEM_KEYS ) ;
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tr . setOption ( FDBTransactionOptions : : PRIORITY_SYSTEM_IMMEDIATE ) ;
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Standalone < RangeResultRef > results = wait ( tr . getRange ( configKeys , CLIENT_KNOBS - > TOO_MANY ) ) ;
ASSERT ( ! results . more & & results . size ( ) < CLIENT_KNOBS - > TOO_MANY ) ;
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conf - > fromKeyValues ( ( VectorRef < KeyValueRef > ) results ) ;
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state Future < Void > watchFuture = tr . watch ( moveKeysLockOwnerKey ) ;
wait ( tr . commit ( ) ) ;
wait ( watchFuture ) ;
break ;
} catch ( Error & e ) {
wait ( tr . onError ( e ) ) ;
}
}
}
}
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ACTOR Future < Void > ratekeeper ( RatekeeperInterface rkInterf , Reference < AsyncVar < ServerDBInfo > > dbInfo ) {
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state RatekeeperData self ;
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state Future < Void > timeout = Void ( ) ;
state std : : vector < Future < Void > > tlogTrackers ;
state std : : vector < TLogInterface > tlogInterfs ;
state Promise < Void > err ;
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state Future < Void > collection = actorCollection ( self . addActor . getFuture ( ) ) ;
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TraceEvent ( " RatekeeperStarting " , rkInterf . id ( ) ) ;
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self . addActor . send ( waitFailureServer ( rkInterf . waitFailure . getFuture ( ) ) ) ;
self . addActor . send ( configurationMonitor ( dbInfo , & self . configuration ) ) ;
PromiseStream < std : : pair < UID , Optional < StorageServerInterface > > > serverChanges ;
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self . addActor . send ( monitorServerListChange ( & self , dbInfo , serverChanges ) ) ;
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self . addActor . send ( trackEachStorageServer ( & self , serverChanges . getFuture ( ) ) ) ;
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TraceEvent ( " RkTLogQueueSizeParameters " ) . detail ( " Target " , SERVER_KNOBS - > TARGET_BYTES_PER_TLOG ) . detail ( " Spring " , SERVER_KNOBS - > SPRING_BYTES_TLOG )
. detail ( " Rate " , ( SERVER_KNOBS - > TARGET_BYTES_PER_TLOG - SERVER_KNOBS - > SPRING_BYTES_TLOG ) / ( ( ( ( double ) SERVER_KNOBS - > MAX_READ_TRANSACTION_LIFE_VERSIONS ) / SERVER_KNOBS - > VERSIONS_PER_SECOND ) + 2.0 ) ) ;
TraceEvent ( " RkStorageServerQueueSizeParameters " ) . detail ( " Target " , SERVER_KNOBS - > TARGET_BYTES_PER_STORAGE_SERVER ) . detail ( " Spring " , SERVER_KNOBS - > SPRING_BYTES_STORAGE_SERVER ) . detail ( " EBrake " , SERVER_KNOBS - > STORAGE_HARD_LIMIT_BYTES )
. detail ( " Rate " , ( SERVER_KNOBS - > TARGET_BYTES_PER_STORAGE_SERVER - SERVER_KNOBS - > SPRING_BYTES_STORAGE_SERVER ) / ( ( ( ( double ) SERVER_KNOBS - > MAX_READ_TRANSACTION_LIFE_VERSIONS ) / SERVER_KNOBS - > VERSIONS_PER_SECOND ) + 2.0 ) ) ;
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tlogInterfs = dbInfo - > get ( ) . logSystemConfig . allLocalLogs ( ) ;
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for ( int i = 0 ; i < tlogInterfs . size ( ) ; i + + )
tlogTrackers . push_back ( splitError ( trackTLogQueueInfo ( & self , tlogInterfs [ i ] ) , err ) ) ;
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try {
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state bool lastLimited = false ;
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loop choose {
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when ( wait ( timeout ) ) {
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updateRate ( & self , & self . normalLimits ) ;
updateRate ( & self , & self . batchLimits ) ;
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lastLimited = self . smoothReleasedTransactions . smoothRate ( ) > SERVER_KNOBS - > LAST_LIMITED_RATIO * self . batchLimits . tpsLimit ;
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double tooOld = now ( ) - 1.0 ;
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for ( auto p = self . proxy_transactionCounts . begin ( ) ; p ! = self . proxy_transactionCounts . end ( ) ; ) {
if ( p - > second . time < tooOld )
p = self . proxy_transactionCounts . erase ( p ) ;
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else
+ + p ;
}
timeout = delayJittered ( SERVER_KNOBS - > METRIC_UPDATE_RATE ) ;
}
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when ( GetRateInfoRequest req = waitNext ( rkInterf . getRateInfo . getFuture ( ) ) ) {
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GetRateInfoReply reply ;
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auto & p = self . proxy_transactionCounts [ req . requesterID ] ;
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//TraceEvent("RKMPU", req.requesterID).detail("TRT", req.totalReleasedTransactions).detail("Last", p.first).detail("Delta", req.totalReleasedTransactions - p.first);
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if ( p . total > 0 ) {
self . smoothReleasedTransactions . addDelta ( req . totalReleasedTransactions - p . total ) ;
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}
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if ( p . batch > 0 ) {
self . smoothBatchReleasedTransactions . addDelta ( req . batchReleasedTransactions - p . batch ) ;
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}
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p . total = req . totalReleasedTransactions ;
p . batch = req . batchReleasedTransactions ;
p . time = now ( ) ;
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reply . transactionRate = self . normalLimits . tpsLimit / self . proxy_transactionCounts . size ( ) ;
reply . batchTransactionRate = self . batchLimits . tpsLimit / self . proxy_transactionCounts . size ( ) ;
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reply . leaseDuration = SERVER_KNOBS - > METRIC_UPDATE_RATE ;
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reply . healthMetrics . update ( self . healthMetrics , true , req . detailed ) ;
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reply . healthMetrics . tpsLimit = self . normalLimits . tpsLimit ;
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reply . healthMetrics . batchLimited = lastLimited ;
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req . reply . send ( reply ) ;
}
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when ( HaltRatekeeperRequest req = waitNext ( rkInterf . haltRatekeeper . getFuture ( ) ) ) {
req . reply . send ( Void ( ) ) ;
TraceEvent ( " RatekeeperHalted " , rkInterf . id ( ) ) . detail ( " ReqID " , req . requesterID ) ;
break ;
}
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when ( wait ( err . getFuture ( ) ) ) { }
when ( wait ( dbInfo - > onChange ( ) ) ) {
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if ( tlogInterfs ! = dbInfo - > get ( ) . logSystemConfig . allLocalLogs ( ) ) {
tlogInterfs = dbInfo - > get ( ) . logSystemConfig . allLocalLogs ( ) ;
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tlogTrackers = std : : vector < Future < Void > > ( ) ;
for ( int i = 0 ; i < tlogInterfs . size ( ) ; i + + )
tlogTrackers . push_back ( splitError ( trackTLogQueueInfo ( & self , tlogInterfs [ i ] ) , err ) ) ;
}
}
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when ( wait ( collection ) ) {
ASSERT ( false ) ;
throw internal_error ( ) ;
}
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}
}
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catch ( Error & err ) {
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TraceEvent ( " RatekeeperDied " , rkInterf . id ( ) ) . error ( err , true ) ;
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}
return Void ( ) ;
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}