606 lines
27 KiB
C++
606 lines
27 KiB
C++
/*
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* SystemData.h
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*
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* This source file is part of the FoundationDB open source project
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*
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* 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");
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* you may not use this file except in compliance with the License.
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* 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
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef FDBCLIENT_SYSTEMDATA_H
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#define FDBCLIENT_SYSTEMDATA_H
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#pragma once
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// Functions and constants documenting the organization of the reserved keyspace in the database beginning with "\xFF"
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#include "fdbclient/FDBTypes.h"
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#include "fdbclient/BlobWorkerInterface.h" // TODO move the functions that depend on this out of here and into BlobWorkerInterface.h to remove this depdendency
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#include "fdbclient/StorageServerInterface.h"
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// Don't warn on constants being defined in this file.
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#pragma clang diagnostic push
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#pragma clang diagnostic ignored "-Wunused-variable"
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struct RestoreLoaderInterface;
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struct RestoreApplierInterface;
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struct RestoreMasterInterface;
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extern const KeyRangeRef normalKeys; // '' to systemKeys.begin
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extern const KeyRangeRef systemKeys; // [FF] to [FF][FF]
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extern const KeyRangeRef nonMetadataSystemKeys; // [FF][00] to [FF][01]
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extern const KeyRangeRef allKeys; // '' to systemKeys.end
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extern const KeyRangeRef specialKeys; // [FF][FF] to [FF][FF][FF], some client functions are exposed through FDB calls
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// using these special keys, see pr#2662
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extern const KeyRef afterAllKeys;
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// "\xff/keyServers/[[begin]]" := "[[vector<serverID>, std::vector<serverID>]|[vector<Tag>, std::vector<Tag>]]"
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// An internal mapping of where shards are located in the database. [[begin]] is the start of the shard range
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// and the result is a list of serverIDs or Tags where these shards are located. These values can be changed
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// as data movement occurs.
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extern const KeyRangeRef keyServersKeys, keyServersKeyServersKeys;
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extern const KeyRef keyServersPrefix, keyServersEnd, keyServersKeyServersKey;
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const Key keyServersKey(const KeyRef& k);
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const KeyRef keyServersKey(const KeyRef& k, Arena& arena);
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const Value keyServersValue(RangeResult result,
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const std::vector<UID>& src,
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const std::vector<UID>& dest = std::vector<UID>());
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const Value keyServersValue(const std::vector<Tag>& srcTag, const std::vector<Tag>& destTag = std::vector<Tag>());
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// `result` must be the full result of getting serverTagKeys
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void decodeKeyServersValue(RangeResult result,
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const ValueRef& value,
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std::vector<UID>& src,
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std::vector<UID>& dest,
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bool missingIsError = true);
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void decodeKeyServersValue(std::map<Tag, UID> const& tag_uid,
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const ValueRef& value,
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std::vector<UID>& src,
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std::vector<UID>& dest);
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extern const KeyRef clusterIdKey;
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// "\xff/storageCacheServer/[[UID]] := StorageServerInterface"
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// This will be added by the cache server on initialization and removed by DD
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// TODO[mpilman]: We will need a way to map uint16_t ids to UIDs in a future
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// versions. For now caches simply cache everything so the ids
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// are not yet meaningful.
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extern const KeyRangeRef storageCacheServerKeys;
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extern const KeyRef storageCacheServersPrefix, storageCacheServersEnd;
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const Key storageCacheServerKey(UID id);
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const Value storageCacheServerValue(const StorageServerInterface& ssi);
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// "\xff/storageCache/[[begin]]" := "[[vector<uint16_t>]]"
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extern const KeyRangeRef storageCacheKeys;
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extern const KeyRef storageCachePrefix;
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const Key storageCacheKey(const KeyRef& k);
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const Value storageCacheValue(const std::vector<uint16_t>& serverIndices);
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void decodeStorageCacheValue(const ValueRef& value, std::vector<uint16_t>& serverIndices);
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// "\xff/serverKeys/[[serverID]]/[[begin]]" := "[[serverKeysTrue]]" |" [[serverKeysFalse]]"
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// An internal mapping of what shards any given server currently has ownership of
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// Using the serverID as a prefix, then followed by the beginning of the shard range
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// as the key, the value indicates whether the shard does or does not exist on the server.
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// These values can be changed as data movement occurs.
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extern const KeyRef serverKeysPrefix;
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extern const ValueRef serverKeysTrue, serverKeysTrueEmptyRange, serverKeysFalse;
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const Key serverKeysKey(UID serverID, const KeyRef& keys);
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const Key serverKeysPrefixFor(UID serverID);
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UID serverKeysDecodeServer(const KeyRef& key);
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bool serverHasKey(ValueRef storedValue);
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extern const KeyRangeRef conflictingKeysRange;
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extern const ValueRef conflictingKeysTrue, conflictingKeysFalse;
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extern const KeyRangeRef writeConflictRangeKeysRange;
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extern const KeyRangeRef readConflictRangeKeysRange;
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extern const KeyRangeRef ddStatsRange;
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extern const KeyRef cacheKeysPrefix;
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const Key cacheKeysKey(uint16_t idx, const KeyRef& key);
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const Key cacheKeysPrefixFor(uint16_t idx);
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uint16_t cacheKeysDecodeIndex(const KeyRef& key);
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KeyRef cacheKeysDecodeKey(const KeyRef& key);
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extern const KeyRef cacheChangeKey;
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extern const KeyRangeRef cacheChangeKeys;
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extern const KeyRef cacheChangePrefix;
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const Key cacheChangeKeyFor(uint16_t idx);
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uint16_t cacheChangeKeyDecodeIndex(const KeyRef& key);
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// "\xff/tss/[[serverId]]" := "[[tssId]]"
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extern const KeyRangeRef tssMappingKeys;
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// "\xff/tssQ/[[serverId]]" := ""
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// For quarantining a misbehaving TSS.
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extern const KeyRangeRef tssQuarantineKeys;
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const Key tssQuarantineKeyFor(UID serverID);
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UID decodeTssQuarantineKey(KeyRef const&);
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// \xff/tssMismatch/[[Tuple<TSSStorageUID, timestamp, mismatchUID>]] := [[TraceEventString]]
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// For recording tss mismatch details in the system keyspace
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extern const KeyRangeRef tssMismatchKeys;
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// \xff/serverMetadata/[[storageInterfaceUID]] = [[StorageMetadataType]]
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// Note: storageInterfaceUID is the one stated in the file name
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extern const KeyRangeRef serverMetadataKeys;
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// "\xff/serverTag/[[serverID]]" = "[[Tag]]"
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// Provides the Tag for the given serverID. Used to access a
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// storage server's corresponding TLog in order to apply mutations.
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extern const KeyRangeRef serverTagKeys;
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extern const KeyRef serverTagPrefix;
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extern const KeyRangeRef serverTagMaxKeys;
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extern const KeyRangeRef serverTagConflictKeys;
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extern const KeyRef serverTagConflictPrefix;
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extern const KeyRangeRef serverTagHistoryKeys;
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extern const KeyRef serverTagHistoryPrefix;
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const Key serverTagKeyFor(UID serverID);
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const Key serverTagHistoryKeyFor(UID serverID);
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const KeyRange serverTagHistoryRangeFor(UID serverID);
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const KeyRange serverTagHistoryRangeBefore(UID serverID, Version version);
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const Value serverTagValue(Tag);
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UID decodeServerTagKey(KeyRef const&);
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Version decodeServerTagHistoryKey(KeyRef const&);
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Tag decodeServerTagValue(ValueRef const&);
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const Key serverTagConflictKeyFor(Tag);
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// "\xff/tagLocalityList/[[datacenterID]]" := "[[tagLocality]]"
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// Provides the tagLocality for the given datacenterID
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// See "FDBTypes.h" struct Tag for more details on tagLocality
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extern const KeyRangeRef tagLocalityListKeys;
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extern const KeyRef tagLocalityListPrefix;
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const Key tagLocalityListKeyFor(Optional<Value> dcID);
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const Value tagLocalityListValue(int8_t const&);
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Optional<Value> decodeTagLocalityListKey(KeyRef const&);
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int8_t decodeTagLocalityListValue(ValueRef const&);
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// "\xff\x02/datacenterReplicas/[[datacenterID]]" := "[[replicas]]"
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// Provides the number of replicas for the given datacenterID.
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// Used in the initialization of the Data Distributor.
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extern const KeyRangeRef datacenterReplicasKeys;
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extern const KeyRef datacenterReplicasPrefix;
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const Key datacenterReplicasKeyFor(Optional<Value> dcID);
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const Value datacenterReplicasValue(int const&);
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Optional<Value> decodeDatacenterReplicasKey(KeyRef const&);
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int decodeDatacenterReplicasValue(ValueRef const&);
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// "\xff\x02/tLogDatacenters/[[datacenterID]]"
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// The existence of an empty string as a value signifies that the datacenterID is valid
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// (as opposed to having no value at all)
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extern const KeyRangeRef tLogDatacentersKeys;
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extern const KeyRef tLogDatacentersPrefix;
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const Key tLogDatacentersKeyFor(Optional<Value> dcID);
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Optional<Value> decodeTLogDatacentersKey(KeyRef const&);
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extern const KeyRef primaryDatacenterKey;
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// "\xff/serverList/[[serverID]]" := "[[StorageServerInterface]]"
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// Storage servers are listed here when they are recruited - always before assigning them keys
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// Storage servers removed from here are never replaced. The same fdbserver, if re-recruited, will always
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// have a new ID. When removed from here, a storage server may release all resources and destroy itself.
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extern const KeyRangeRef serverListKeys;
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extern const KeyRef serverListPrefix;
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const Key serverListKeyFor(UID serverID);
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const Value serverListValue(StorageServerInterface const&);
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UID decodeServerListKey(KeyRef const&);
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StorageServerInterface decodeServerListValue(ValueRef const&);
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// "\xff/processClass/[[processID]]" := "[[ProcessClass]]"
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// Contains a mapping from processID to processClass
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extern const KeyRangeRef processClassKeys;
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extern const KeyRef processClassPrefix;
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extern const KeyRef processClassChangeKey;
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extern const KeyRef processClassVersionKey;
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extern const ValueRef processClassVersionValue;
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const Key processClassKeyFor(StringRef processID);
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const Value processClassValue(ProcessClass const&);
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Key decodeProcessClassKey(KeyRef const&);
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ProcessClass decodeProcessClassValue(ValueRef const&);
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UID decodeProcessClassKeyOld(KeyRef const& key);
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// "\xff/conf/[[option]]" := "value"
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// An umbrella prefix for options mostly used by the DatabaseConfiguration class.
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// See DatabaseConfiguration.cpp ::setInternal for more examples.
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extern const KeyRangeRef configKeys;
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extern const KeyRef configKeysPrefix;
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extern const KeyRef perpetualStorageWiggleKey;
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extern const KeyRef perpetualStorageWiggleLocalityKey;
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extern const KeyRef perpetualStorageWiggleIDPrefix;
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extern const KeyRef perpetualStorageWiggleStatsPrefix;
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// Change the value of this key to anything and that will trigger detailed data distribution team info log.
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extern const KeyRef triggerDDTeamInfoPrintKey;
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// The differences between excluded and failed can be found in "command-line-interface.rst"
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// and in the help message of the fdbcli command "exclude".
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// "\xff/conf/excluded/1.2.3.4" := ""
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// "\xff/conf/excluded/1.2.3.4:4000" := ""
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// These are inside configKeysPrefix since they represent a form of configuration and they are convenient
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// to track in the same way by the tlog and recovery process, but they are ignored by the DatabaseConfiguration
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// class.
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// The existence of an empty string as a value signifies that the provided IP has been excluded.
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// (as opposed to having no value at all)
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extern const KeyRef excludedServersPrefix;
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extern const KeyRangeRef excludedServersKeys;
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extern const KeyRef excludedServersVersionKey; // The value of this key shall be changed by any transaction that
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// modifies the excluded servers list
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AddressExclusion decodeExcludedServersKey(KeyRef const& key); // where key.startsWith(excludedServersPrefix)
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std::string encodeExcludedServersKey(AddressExclusion const&);
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extern const KeyRef excludedLocalityPrefix;
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extern const KeyRangeRef excludedLocalityKeys;
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extern const KeyRef excludedLocalityVersionKey; // The value of this key shall be changed by any transaction that
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// modifies the excluded localities list
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std::string decodeExcludedLocalityKey(KeyRef const& key); // where key.startsWith(excludedLocalityPrefix)
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std::string encodeExcludedLocalityKey(std::string const&);
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// "\xff/conf/failed/1.2.3.4" := ""
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// "\xff/conf/failed/1.2.3.4:4000" := ""
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// These are inside configKeysPrefix since they represent a form of configuration and they are convenient
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// to track in the same way by the tlog and recovery process, but they are ignored by the DatabaseConfiguration
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// class.
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// The existence of an empty string as a value signifies that the provided IP has been marked as failed.
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// (as opposed to having no value at all)
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extern const KeyRef failedServersPrefix;
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extern const KeyRangeRef failedServersKeys;
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extern const KeyRef failedServersVersionKey; // The value of this key shall be changed by any transaction that modifies
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// the failed servers list
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AddressExclusion decodeFailedServersKey(KeyRef const& key); // where key.startsWith(failedServersPrefix)
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std::string encodeFailedServersKey(AddressExclusion const&);
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extern const KeyRef failedLocalityPrefix;
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extern const KeyRangeRef failedLocalityKeys;
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extern const KeyRef failedLocalityVersionKey; // The value of this key shall be changed by any transaction that modifies
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// the failed localities list
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std::string decodeFailedLocalityKey(KeyRef const& key); // where key.startsWith(failedLocalityPrefix)
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std::string encodeFailedLocalityKey(std::string const&);
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// "\xff/globalConfig/[[option]]" := "value"
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// An umbrella prefix for global configuration data synchronized to all nodes.
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// extern const KeyRangeRef globalConfigData;
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// extern const KeyRef globalConfigDataPrefix;
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// "\xff/globalConfig/k/[[key]]" := "value"
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// Key-value pairs that have been set. The range this keyspace represents
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// contains all globally configured options.
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extern const KeyRangeRef globalConfigDataKeys;
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extern const KeyRef globalConfigKeysPrefix;
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// "\xff/globalConfig/h/[[version]]" := "value"
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// Maps a commit version to a list of mutations made to the global
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// configuration at that commit. Shipped to nodes periodically. In general,
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// clients should not write to keys in this keyspace; it will be written
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// automatically when updating global configuration keys.
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extern const KeyRangeRef globalConfigHistoryKeys;
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extern const KeyRef globalConfigHistoryPrefix;
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// "\xff/globalConfig/v" := "version"
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// Read-only key which returns the commit version of the most recent mutation
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// made to the global configuration keyspace.
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extern const KeyRef globalConfigVersionKey;
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// "\xff/workers/[[processID]]" := ""
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// Asynchronously updated by the cluster controller, this is a list of fdbserver processes that have joined the cluster
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// and are currently (recently) available
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extern const KeyRangeRef workerListKeys;
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extern const KeyRef workerListPrefix;
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const Key workerListKeyFor(StringRef processID);
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const Value workerListValue(ProcessData const&);
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Key decodeWorkerListKey(KeyRef const&);
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ProcessData decodeWorkerListValue(ValueRef const&);
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// "\xff\x02/backupProgress/[[workerID]]" := "[[WorkerBackupStatus]]"
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// Provides the progress for the given backup worker.
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// See "FDBTypes.h" struct WorkerBackupStatus for more details on the return type value.
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extern const KeyRangeRef backupProgressKeys;
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extern const KeyRef backupProgressPrefix;
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const Key backupProgressKeyFor(UID workerID);
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const Value backupProgressValue(const WorkerBackupStatus& status);
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UID decodeBackupProgressKey(const KeyRef& key);
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WorkerBackupStatus decodeBackupProgressValue(const ValueRef& value);
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// The key to signal backup workers a new backup job is submitted.
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// "\xff\x02/backupStarted" := "[[vector<UID,Version1>]]"
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extern const KeyRef backupStartedKey;
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Value encodeBackupStartedValue(const std::vector<std::pair<UID, Version>>& ids);
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std::vector<std::pair<UID, Version>> decodeBackupStartedValue(const ValueRef& value);
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// The key to signal backup workers that they should resume or pause.
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// "\xff\x02/backupPaused" := "[[0|1]]"
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// 0 = Send a signal to resume/already resumed.
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// 1 = Send a signal to pause/already paused.
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extern const KeyRef backupPausedKey;
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// "\xff/coordinators" = "[[ClusterConnectionString]]"
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// Set to the encoded structure of the cluster's current set of coordinators.
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// Changed when performing quorumChange.
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// See "CoordinationInterface.h" struct ClusterConnectionString for more details
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extern const KeyRef coordinatorsKey;
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// "\xff/logs" = "[[LogsValue]]"
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// Used during cluster recovery in order to communicate
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// and store info about the logs system.
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extern const KeyRef logsKey;
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// "\xff/minRequiredCommitVersion" = "[[Version]]"
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// Used during backup/recovery to restrict version requirements
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extern const KeyRef minRequiredCommitVersionKey;
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const Value logsValue(const std::vector<std::pair<UID, NetworkAddress>>& logs,
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const std::vector<std::pair<UID, NetworkAddress>>& oldLogs);
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std::pair<std::vector<std::pair<UID, NetworkAddress>>, std::vector<std::pair<UID, NetworkAddress>>> decodeLogsValue(
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const ValueRef& value);
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// The "global keys" are sent to each storage server any time they are changed
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extern const KeyRef globalKeysPrefix;
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extern const KeyRef lastEpochEndKey;
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extern const KeyRef lastEpochEndPrivateKey;
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extern const KeyRef killStorageKey;
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extern const KeyRef killStoragePrivateKey;
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extern const KeyRef rebootWhenDurableKey;
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extern const KeyRef rebootWhenDurablePrivateKey;
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extern const KeyRef primaryLocalityKey;
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extern const KeyRef primaryLocalityPrivateKey;
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extern const KeyRef fastLoggingEnabled;
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extern const KeyRef fastLoggingEnabledPrivateKey;
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extern const KeyRef moveKeysLockOwnerKey, moveKeysLockWriteKey;
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extern const KeyRef dataDistributionModeKey;
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extern const UID dataDistributionModeLock;
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// Keys to view and control tag throttling
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extern const KeyRangeRef tagThrottleKeys;
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extern const KeyRef tagThrottleKeysPrefix;
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extern const KeyRef tagThrottleAutoKeysPrefix;
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extern const KeyRef tagThrottleSignalKey;
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extern const KeyRef tagThrottleAutoEnabledKey;
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extern const KeyRef tagThrottleLimitKey;
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extern const KeyRef tagThrottleCountKey;
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// Log Range constant variables
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// Used in the backup pipeline to track mutations
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// \xff/logRanges/[16-byte UID][begin key] := serialize( make_pair([end key], [destination key prefix]),
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// IncludeVersion() )
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extern const KeyRangeRef logRangesRange;
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// Returns the encoded key comprised of begin key and log uid
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Key logRangesEncodeKey(KeyRef keyBegin, UID logUid);
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// Returns the start key and optionally the logRange Uid
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KeyRef logRangesDecodeKey(KeyRef key, UID* logUid = nullptr);
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// Returns the end key and optionally the key prefix
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Key logRangesDecodeValue(KeyRef keyValue, Key* destKeyPrefix = nullptr);
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// Returns the encoded key value comprised of the end key and destination prefix
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Key logRangesEncodeValue(KeyRef keyEnd, KeyRef destPath);
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// Returns a key prefixed with the specified key with
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// the given uid encoded at the end
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Key uidPrefixKey(KeyRef keyPrefix, UID logUid);
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/// Apply mutations constant variables
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// applyMutationsEndRange.end defines the highest version for which we have mutations that we can
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// apply to our database as part of a DR/restore operation.
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// \xff/applyMutationsEnd/[16-byte UID] := serialize( endVersion, Unversioned() )
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extern const KeyRangeRef applyMutationsEndRange;
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// applyMutationsBeginRange.begin defines the highest version of what has already been applied by a
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// DR/restore to the database, and thus also what version is of the next mutation that needs to be
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// applied to the database.
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// \xff/applyMutationsBegin/[16-byte UID] := serialize( beginVersion, Unversioned() )
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extern const KeyRangeRef applyMutationsBeginRange;
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// \xff/applyMutationsAddPrefix/[16-byte UID] := addPrefix
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extern const KeyRangeRef applyMutationsAddPrefixRange;
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// \xff/applyMutationsRemovePrefix/[16-byte UID] := removePrefix
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extern const KeyRangeRef applyMutationsRemovePrefixRange;
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extern const KeyRangeRef applyMutationsKeyVersionMapRange;
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extern const KeyRangeRef applyMutationsKeyVersionCountRange;
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// FdbClient Info prefix
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extern const KeyRangeRef fdbClientInfoPrefixRange;
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// Consistency Check settings
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extern const KeyRef fdbShouldConsistencyCheckBeSuspended;
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// Request latency measurement key
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extern const KeyRef latencyBandConfigKey;
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// Keyspace to maintain wall clock to version map
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extern const KeyRangeRef timeKeeperPrefixRange;
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extern const KeyRef timeKeeperVersionKey;
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extern const KeyRef timeKeeperDisableKey;
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// Layer status metadata prefix
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extern const KeyRangeRef layerStatusMetaPrefixRange;
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// Backup agent status root
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extern const KeyRangeRef backupStatusPrefixRange;
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// Key range reserved by file backup agent to storing configuration and state information
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extern const KeyRangeRef fileBackupPrefixRange;
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// Key range reserved by file restore agent (currently part of backup agent functionally separate) for storing
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// configuration and state information
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extern const KeyRangeRef fileRestorePrefixRange;
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// Key range reserved by database backup agent to storing configuration and state information
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extern const KeyRangeRef databaseBackupPrefixRange;
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extern const KeyRef destUidLookupPrefix;
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extern const KeyRef backupLatestVersionsPrefix;
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// Key range reserved by backup agent to storing mutations
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extern const KeyRangeRef backupLogKeys;
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extern const KeyRangeRef applyLogKeys;
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extern const KeyRef backupVersionKey;
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extern const ValueRef backupVersionValue;
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extern const int backupVersion;
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static const int backupLogPrefixBytes = 8;
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// Use for legacy system support (pre 300)
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extern const KeyRef backupEnabledKey;
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extern const KeyRef systemTuplesPrefix;
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extern const KeyRef metricConfChangeKey;
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extern const KeyRangeRef metricConfKeys;
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extern const KeyRef metricConfPrefix;
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// const Key metricConfKey( KeyRef const& prefix, struct MetricNameRef const& name, KeyRef const& key );
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// std::pair<struct MetricNameRef, KeyRef> decodeMetricConfKey( KeyRef const& prefix, KeyRef const& key );
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extern const KeyRef maxUIDKey;
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extern const KeyRef databaseLockedKey;
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extern const KeyRef databaseLockedKeyEnd;
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extern const KeyRef metadataVersionKey;
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extern const KeyRef metadataVersionKeyEnd;
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extern const KeyRef metadataVersionRequiredValue;
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extern const KeyRef mustContainSystemMutationsKey;
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// Key range reserved for storing changes to monitor conf files
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extern const KeyRangeRef monitorConfKeys;
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extern const KeyRef healthyZoneKey;
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extern const StringRef ignoreSSFailuresZoneString;
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extern const KeyRef rebalanceDDIgnoreKey;
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const Value healthyZoneValue(StringRef const& zoneId, Version version);
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std::pair<Key, Version> decodeHealthyZoneValue(ValueRef const&);
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// All mutations done to this range are blindly copied into txnStateStore.
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// Used to create artifically large txnStateStore instances in testing.
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extern const KeyRangeRef testOnlyTxnStateStorePrefixRange;
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// Snapshot + Incremental Restore
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// "\xff/writeRecovery" = "[[writeRecoveryKeyTrue]]"
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// Flag used for the snapshot-restore pipeline in order to avoid
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// anomalous behaviour with multiple recoveries.
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extern const KeyRef writeRecoveryKey;
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extern const ValueRef writeRecoveryKeyTrue;
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// "\xff/snapshotEndVersion" = "[[Version]]"
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// Written by master server during recovery if recovering from a snapshot.
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// Allows incremental restore to read and set starting version for consistency.
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extern const KeyRef snapshotEndVersionKey;
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extern const KeyRangeRef changeFeedKeys;
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enum class ChangeFeedStatus { CHANGE_FEED_CREATE = 0, CHANGE_FEED_STOP = 1, CHANGE_FEED_DESTROY = 2 };
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const Value changeFeedValue(KeyRangeRef const& range, Version popVersion, ChangeFeedStatus status);
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std::tuple<KeyRange, Version, ChangeFeedStatus> decodeChangeFeedValue(ValueRef const& value);
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extern const KeyRef changeFeedPrefix;
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extern const KeyRef changeFeedPrivatePrefix;
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extern const KeyRangeRef changeFeedDurableKeys;
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extern const KeyRef changeFeedDurablePrefix;
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const Value changeFeedDurableKey(Key const& feed, Version version);
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std::pair<Key, Version> decodeChangeFeedDurableKey(ValueRef const& key);
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const Value changeFeedDurableValue(Standalone<VectorRef<MutationRef>> const& mutations, Version knownCommittedVersion);
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std::pair<Standalone<VectorRef<MutationRef>>, Version> decodeChangeFeedDurableValue(ValueRef const& value);
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// Configuration database special keys
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extern const KeyRef configTransactionDescriptionKey;
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extern const KeyRange globalConfigKnobKeys;
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extern const KeyRangeRef configKnobKeys;
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extern const KeyRangeRef configClassKeys;
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// blob range special keys
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extern const KeyRef blobRangeChangeKey;
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extern const KeyRangeRef blobRangeKeys;
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extern const KeyRef blobManagerEpochKey;
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const Value blobManagerEpochValueFor(int64_t epoch);
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int64_t decodeBlobManagerEpochValue(ValueRef const& value);
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// blob granule keys
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extern const uint8_t BG_FILE_TYPE_DELTA;
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extern const uint8_t BG_FILE_TYPE_SNAPSHOT;
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// FIXME: flip order of {filetype, version}
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// \xff\x02/bgf/(granuleUID, {snapshot|delta}, fileVersion) = [[filename]]
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extern const KeyRangeRef blobGranuleFileKeys;
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// \xff\x02/bgm/[[beginKey]] = [[BlobWorkerUID]]
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extern const KeyRangeRef blobGranuleMappingKeys;
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// \xff\x02/bgl/(beginKey,endKey) = (epoch, seqno, granuleUID)
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extern const KeyRangeRef blobGranuleLockKeys;
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// \xff\x02/bgs/(parentGranuleUID, granuleUID) = [[BlobGranuleSplitState]]
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|
extern const KeyRangeRef blobGranuleSplitKeys;
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|
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// \xff\x02/bgh/(beginKey,endKey,startVersion) = { granuleUID, [parentGranuleHistoryKeys] }
|
|
extern const KeyRangeRef blobGranuleHistoryKeys;
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// \xff\x02/bgp/(start,end) = (version, force)
|
|
extern const KeyRangeRef blobGranulePruneKeys;
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|
extern const KeyRef blobGranulePruneChangeKey;
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|
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const Key blobGranuleFileKeyFor(UID granuleID, uint8_t fileType, Version fileVersion);
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|
std::tuple<UID, uint8_t, Version> decodeBlobGranuleFileKey(KeyRef const& key);
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const KeyRange blobGranuleFileKeyRangeFor(UID granuleID);
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const Value blobGranuleFileValueFor(StringRef const& filename, int64_t offset, int64_t length);
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|
std::tuple<Standalone<StringRef>, int64_t, int64_t> decodeBlobGranuleFileValue(ValueRef const& value);
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const Value blobGranulePruneValueFor(Version version, bool force);
|
|
std::pair<Version, bool> decodeBlobGranulePruneValue(ValueRef const& value);
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|
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const Value blobGranuleMappingValueFor(UID const& workerID);
|
|
UID decodeBlobGranuleMappingValue(ValueRef const& value);
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|
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const Key blobGranuleLockKeyFor(KeyRangeRef const& granuleRange);
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|
|
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const Value blobGranuleLockValueFor(int64_t epochNum, int64_t sequenceNum, UID changeFeedId);
|
|
std::tuple<int64_t, int64_t, UID> decodeBlobGranuleLockValue(ValueRef const& value);
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|
|
|
const Key blobGranuleSplitKeyFor(UID const& parentGranuleID, UID const& granuleID);
|
|
std::pair<UID, UID> decodeBlobGranuleSplitKey(KeyRef const& key);
|
|
const KeyRange blobGranuleSplitKeyRangeFor(UID const& parentGranuleID);
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|
|
|
// these are versionstamped
|
|
const Value blobGranuleSplitValueFor(BlobGranuleSplitState st);
|
|
std::pair<BlobGranuleSplitState, Version> decodeBlobGranuleSplitValue(ValueRef const& value);
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|
|
|
const Key blobGranuleHistoryKeyFor(KeyRangeRef const& range, Version version);
|
|
std::pair<KeyRange, Version> decodeBlobGranuleHistoryKey(KeyRef const& key);
|
|
const KeyRange blobGranuleHistoryKeyRangeFor(KeyRangeRef const& range);
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|
|
|
const Value blobGranuleHistoryValueFor(Standalone<BlobGranuleHistoryValue> const& historyValue);
|
|
Standalone<BlobGranuleHistoryValue> decodeBlobGranuleHistoryValue(ValueRef const& value);
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|
|
|
// \xff/bwl/[[BlobWorkerID]] = [[BlobWorkerInterface]]
|
|
extern const KeyRangeRef blobWorkerListKeys;
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|
|
|
const Key blobWorkerListKeyFor(UID workerID);
|
|
UID decodeBlobWorkerListKey(KeyRef const& key);
|
|
const Value blobWorkerListValue(BlobWorkerInterface const& interface);
|
|
BlobWorkerInterface decodeBlobWorkerListValue(ValueRef const& value);
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|
|
|
#pragma clang diagnostic pop
|
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|
#endif
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