1381 lines
52 KiB
C++
1381 lines
52 KiB
C++
/*
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* SystemData.cpp
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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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#include "fdbclient/SystemData.h"
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#include "fdbclient/FDBTypes.h"
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#include "fdbclient/NativeAPI.actor.h"
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#include "fdbclient/StorageServerInterface.h"
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#include "flow/Arena.h"
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#include "flow/TDMetric.actor.h"
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#include "flow/serialize.h"
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#include "flow/UnitTest.h"
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const KeyRef systemKeysPrefix = LiteralStringRef("\xff");
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const KeyRangeRef normalKeys(KeyRef(), systemKeysPrefix);
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const KeyRangeRef systemKeys(systemKeysPrefix, LiteralStringRef("\xff\xff"));
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const KeyRangeRef nonMetadataSystemKeys(LiteralStringRef("\xff\x02"), LiteralStringRef("\xff\x03"));
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const KeyRangeRef allKeys = KeyRangeRef(normalKeys.begin, systemKeys.end);
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const KeyRef afterAllKeys = LiteralStringRef("\xff\xff\x00");
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const KeyRangeRef specialKeys = KeyRangeRef(LiteralStringRef("\xff\xff"), LiteralStringRef("\xff\xff\xff"));
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// keyServersKeys.contains(k) iff k.startsWith(keyServersPrefix)
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const KeyRangeRef keyServersKeys(LiteralStringRef("\xff/keyServers/"), LiteralStringRef("\xff/keyServers0"));
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const KeyRef keyServersPrefix = keyServersKeys.begin;
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const KeyRef keyServersEnd = keyServersKeys.end;
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const KeyRangeRef keyServersKeyServersKeys(LiteralStringRef("\xff/keyServers/\xff/keyServers/"),
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LiteralStringRef("\xff/keyServers/\xff/keyServers0"));
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const KeyRef keyServersKeyServersKey = keyServersKeyServersKeys.begin;
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const Key keyServersKey(const KeyRef& k) {
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return k.withPrefix(keyServersPrefix);
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}
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const KeyRef keyServersKey(const KeyRef& k, Arena& arena) {
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return k.withPrefix(keyServersPrefix, arena);
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}
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const Value keyServersValue(RangeResult result, const std::vector<UID>& src, const std::vector<UID>& dest) {
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if (!CLIENT_KNOBS->TAG_ENCODE_KEY_SERVERS) {
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BinaryWriter wr(IncludeVersion(ProtocolVersion::withKeyServerValue()));
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wr << src << dest;
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return wr.toValue();
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}
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std::vector<Tag> srcTag;
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std::vector<Tag> destTag;
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bool foundOldLocality = false;
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for (const KeyValueRef& kv : result) {
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UID uid = decodeServerTagKey(kv.key);
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if (std::find(src.begin(), src.end(), uid) != src.end()) {
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srcTag.push_back(decodeServerTagValue(kv.value));
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if (srcTag.back().locality == tagLocalityUpgraded) {
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foundOldLocality = true;
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break;
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}
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}
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if (std::find(dest.begin(), dest.end(), uid) != dest.end()) {
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destTag.push_back(decodeServerTagValue(kv.value));
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if (destTag.back().locality == tagLocalityUpgraded) {
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foundOldLocality = true;
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break;
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}
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}
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}
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if (foundOldLocality || src.size() != srcTag.size() || dest.size() != destTag.size()) {
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ASSERT_WE_THINK(foundOldLocality);
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BinaryWriter wr(IncludeVersion(ProtocolVersion::withKeyServerValue()));
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wr << src << dest;
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return wr.toValue();
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}
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return keyServersValue(srcTag, destTag);
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}
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const Value keyServersValue(const std::vector<Tag>& srcTag, const std::vector<Tag>& destTag) {
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// src and dest are expected to be sorted
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BinaryWriter wr(IncludeVersion(ProtocolVersion::withKeyServerValueV2()));
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wr << srcTag << destTag;
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return wr.toValue();
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}
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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) {
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if (value.size() == 0) {
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src.clear();
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dest.clear();
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return;
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}
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BinaryReader rd(value, IncludeVersion());
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if (!rd.protocolVersion().hasKeyServerValueV2()) {
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rd >> src >> dest;
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return;
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}
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std::vector<Tag> srcTag, destTag;
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rd >> srcTag >> destTag;
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src.clear();
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dest.clear();
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for (const KeyValueRef& kv : result) {
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Tag tag = decodeServerTagValue(kv.value);
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if (std::find(srcTag.begin(), srcTag.end(), tag) != srcTag.end()) {
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src.push_back(decodeServerTagKey(kv.key));
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}
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if (std::find(destTag.begin(), destTag.end(), tag) != destTag.end()) {
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dest.push_back(decodeServerTagKey(kv.key));
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}
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}
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std::sort(src.begin(), src.end());
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std::sort(dest.begin(), dest.end());
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if (missingIsError && (src.size() != srcTag.size() || dest.size() != destTag.size())) {
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TraceEvent(SevError, "AttemptedToDecodeMissingTag").log();
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for (const KeyValueRef& kv : result) {
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Tag tag = decodeServerTagValue(kv.value);
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UID serverID = decodeServerTagKey(kv.key);
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TraceEvent("TagUIDMap").detail("Tag", tag.toString()).detail("UID", serverID.toString());
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}
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for (auto& it : srcTag) {
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TraceEvent("SrcTag").detail("Tag", it.toString());
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}
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for (auto& it : destTag) {
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TraceEvent("DestTag").detail("Tag", it.toString());
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}
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ASSERT(false);
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}
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}
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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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static std::vector<Tag> srcTag, destTag;
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src.clear();
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dest.clear();
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if (value.size() == 0) {
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return;
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}
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BinaryReader rd(value, IncludeVersion());
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rd.checkpoint();
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int srcLen, destLen;
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rd >> srcLen;
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rd.readBytes(srcLen * sizeof(Tag));
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rd >> destLen;
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rd.rewind();
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if (value.size() !=
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sizeof(ProtocolVersion) + sizeof(int) + srcLen * sizeof(Tag) + sizeof(int) + destLen * sizeof(Tag)) {
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rd >> src >> dest;
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rd.assertEnd();
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return;
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}
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srcTag.clear();
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destTag.clear();
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rd >> srcTag >> destTag;
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for (auto t : srcTag) {
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auto itr = tag_uid.find(t);
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if (itr != tag_uid.end()) {
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src.push_back(itr->second);
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} else {
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TraceEvent(SevError, "AttemptedToDecodeMissingSrcTag").detail("Tag", t.toString());
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ASSERT(false);
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}
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}
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for (auto t : destTag) {
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auto itr = tag_uid.find(t);
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if (itr != tag_uid.end()) {
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dest.push_back(itr->second);
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} else {
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TraceEvent(SevError, "AttemptedToDecodeMissingDestTag").detail("Tag", t.toString());
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ASSERT(false);
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}
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}
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std::sort(src.begin(), src.end());
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std::sort(dest.begin(), dest.end());
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}
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const KeyRangeRef conflictingKeysRange =
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KeyRangeRef(LiteralStringRef("\xff\xff/transaction/conflicting_keys/"),
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LiteralStringRef("\xff\xff/transaction/conflicting_keys/\xff\xff"));
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const ValueRef conflictingKeysTrue = LiteralStringRef("1");
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const ValueRef conflictingKeysFalse = LiteralStringRef("0");
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const KeyRangeRef readConflictRangeKeysRange =
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KeyRangeRef(LiteralStringRef("\xff\xff/transaction/read_conflict_range/"),
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LiteralStringRef("\xff\xff/transaction/read_conflict_range/\xff\xff"));
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const KeyRangeRef writeConflictRangeKeysRange =
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KeyRangeRef(LiteralStringRef("\xff\xff/transaction/write_conflict_range/"),
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LiteralStringRef("\xff\xff/transaction/write_conflict_range/\xff\xff"));
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const KeyRef clusterIdKey = LiteralStringRef("\xff/clusterId");
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// "\xff/cacheServer/[[UID]] := StorageServerInterface"
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const KeyRangeRef storageCacheServerKeys(LiteralStringRef("\xff/cacheServer/"), LiteralStringRef("\xff/cacheServer0"));
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const KeyRef storageCacheServersPrefix = storageCacheServerKeys.begin;
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const KeyRef storageCacheServersEnd = storageCacheServerKeys.end;
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const Key storageCacheServerKey(UID id) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(storageCacheServersPrefix);
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wr << id;
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return wr.toValue();
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}
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const Value storageCacheServerValue(const StorageServerInterface& ssi) {
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auto protocolVersion = currentProtocolVersion;
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protocolVersion.addObjectSerializerFlag();
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return ObjectWriter::toValue(ssi, IncludeVersion(protocolVersion));
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}
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const KeyRangeRef ddStatsRange = KeyRangeRef(LiteralStringRef("\xff\xff/metrics/data_distribution_stats/"),
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LiteralStringRef("\xff\xff/metrics/data_distribution_stats/\xff\xff"));
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// "\xff/storageCache/[[begin]]" := "[[vector<uint16_t>]]"
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const KeyRangeRef storageCacheKeys(LiteralStringRef("\xff/storageCache/"), LiteralStringRef("\xff/storageCache0"));
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const KeyRef storageCachePrefix = storageCacheKeys.begin;
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const Key storageCacheKey(const KeyRef& k) {
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return k.withPrefix(storageCachePrefix);
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}
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const Value storageCacheValue(const std::vector<uint16_t>& serverIndices) {
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BinaryWriter wr((IncludeVersion(ProtocolVersion::withStorageCacheValue())));
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wr << serverIndices;
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return wr.toValue();
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}
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void decodeStorageCacheValue(const ValueRef& value, std::vector<uint16_t>& serverIndices) {
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serverIndices.clear();
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if (value.size()) {
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BinaryReader rd(value, IncludeVersion());
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rd >> serverIndices;
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}
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}
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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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BinaryWriter wr(IncludeVersion(ProtocolVersion::withLogsValue()));
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wr << logs;
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wr << oldLogs;
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return wr.toValue();
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}
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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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std::vector<std::pair<UID, NetworkAddress>> logs;
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std::vector<std::pair<UID, NetworkAddress>> oldLogs;
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BinaryReader reader(value, IncludeVersion());
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reader >> logs;
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reader >> oldLogs;
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return std::make_pair(logs, oldLogs);
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}
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const KeyRef serverKeysPrefix = "\xff/serverKeys/"_sr;
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const ValueRef serverKeysTrue = "1"_sr, // compatible with what was serverKeysTrue
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serverKeysTrueEmptyRange = "3"_sr, // the server treats the range as empty.
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serverKeysFalse;
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const Key serverKeysKey(UID serverID, const KeyRef& key) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverKeysPrefix);
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wr << serverID;
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wr.serializeBytes(LiteralStringRef("/"));
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wr.serializeBytes(key);
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return wr.toValue();
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}
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const Key serverKeysPrefixFor(UID serverID) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverKeysPrefix);
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wr << serverID;
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wr.serializeBytes(LiteralStringRef("/"));
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return wr.toValue();
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}
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UID serverKeysDecodeServer(const KeyRef& key) {
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UID server_id;
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BinaryReader rd(key.removePrefix(serverKeysPrefix), Unversioned());
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rd >> server_id;
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return server_id;
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}
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bool serverHasKey(ValueRef storedValue) {
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return storedValue == serverKeysTrue || storedValue == serverKeysTrueEmptyRange;
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}
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const KeyRef cacheKeysPrefix = LiteralStringRef("\xff\x02/cacheKeys/");
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const Key cacheKeysKey(uint16_t idx, const KeyRef& key) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(cacheKeysPrefix);
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wr << idx;
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wr.serializeBytes(LiteralStringRef("/"));
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wr.serializeBytes(key);
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return wr.toValue();
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}
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const Key cacheKeysPrefixFor(uint16_t idx) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(cacheKeysPrefix);
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wr << idx;
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wr.serializeBytes(LiteralStringRef("/"));
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return wr.toValue();
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}
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uint16_t cacheKeysDecodeIndex(const KeyRef& key) {
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uint16_t idx;
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BinaryReader rd(key.removePrefix(cacheKeysPrefix), Unversioned());
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rd >> idx;
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return idx;
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}
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KeyRef cacheKeysDecodeKey(const KeyRef& key) {
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return key.substr(cacheKeysPrefix.size() + sizeof(uint16_t) + 1);
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}
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const KeyRef cacheChangeKey = LiteralStringRef("\xff\x02/cacheChangeKey");
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const KeyRangeRef cacheChangeKeys(LiteralStringRef("\xff\x02/cacheChangeKeys/"),
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LiteralStringRef("\xff\x02/cacheChangeKeys0"));
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const KeyRef cacheChangePrefix = cacheChangeKeys.begin;
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const Key cacheChangeKeyFor(uint16_t idx) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(cacheChangePrefix);
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wr << idx;
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return wr.toValue();
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}
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uint16_t cacheChangeKeyDecodeIndex(const KeyRef& key) {
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uint16_t idx;
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BinaryReader rd(key.removePrefix(cacheChangePrefix), Unversioned());
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rd >> idx;
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return idx;
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}
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const KeyRangeRef tssMappingKeys(LiteralStringRef("\xff/tss/"), LiteralStringRef("\xff/tss0"));
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const KeyRangeRef tssQuarantineKeys(LiteralStringRef("\xff/tssQ/"), LiteralStringRef("\xff/tssQ0"));
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const Key tssQuarantineKeyFor(UID serverID) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(tssQuarantineKeys.begin);
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wr << serverID;
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return wr.toValue();
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}
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UID decodeTssQuarantineKey(KeyRef const& key) {
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UID serverID;
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BinaryReader rd(key.removePrefix(tssQuarantineKeys.begin), Unversioned());
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rd >> serverID;
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return serverID;
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}
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const KeyRangeRef tssMismatchKeys(LiteralStringRef("\xff/tssMismatch/"), LiteralStringRef("\xff/tssMismatch0"));
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const KeyRangeRef serverMetadataKeys(LiteralStringRef("\xff/serverMetadata/"),
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LiteralStringRef("\xff/serverMetadata0"));
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const KeyRangeRef serverTagKeys(LiteralStringRef("\xff/serverTag/"), LiteralStringRef("\xff/serverTag0"));
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const KeyRef serverTagPrefix = serverTagKeys.begin;
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const KeyRangeRef serverTagConflictKeys(LiteralStringRef("\xff/serverTagConflict/"),
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LiteralStringRef("\xff/serverTagConflict0"));
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const KeyRef serverTagConflictPrefix = serverTagConflictKeys.begin;
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// serverTagHistoryKeys is the old tag a storage server uses before it is migrated to a different location.
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// For example, we can copy a SS file to a remote DC and start the SS there;
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// The new SS will need to consume the last bits of data from the old tag it is responsible for.
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const KeyRangeRef serverTagHistoryKeys(LiteralStringRef("\xff/serverTagHistory/"),
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LiteralStringRef("\xff/serverTagHistory0"));
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const KeyRef serverTagHistoryPrefix = serverTagHistoryKeys.begin;
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const Key serverTagKeyFor(UID serverID) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverTagKeys.begin);
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wr << serverID;
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return wr.toValue();
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}
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const Key serverTagHistoryKeyFor(UID serverID) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverTagHistoryKeys.begin);
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wr << serverID;
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return addVersionStampAtEnd(wr.toValue());
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}
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const KeyRange serverTagHistoryRangeFor(UID serverID) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverTagHistoryKeys.begin);
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wr << serverID;
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return prefixRange(wr.toValue());
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}
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const KeyRange serverTagHistoryRangeBefore(UID serverID, Version version) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverTagHistoryKeys.begin);
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wr << serverID;
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version = bigEndian64(version);
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Key versionStr = makeString(8);
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uint8_t* data = mutateString(versionStr);
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memcpy(data, &version, 8);
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return KeyRangeRef(wr.toValue(), versionStr.withPrefix(wr.toValue()));
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}
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const Value serverTagValue(Tag tag) {
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BinaryWriter wr(IncludeVersion(ProtocolVersion::withServerTagValue()));
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wr << tag;
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return wr.toValue();
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}
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UID decodeServerTagKey(KeyRef const& key) {
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UID serverID;
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BinaryReader rd(key.removePrefix(serverTagKeys.begin), Unversioned());
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rd >> serverID;
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return serverID;
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}
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Version decodeServerTagHistoryKey(KeyRef const& key) {
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Version parsedVersion;
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memcpy(&parsedVersion, key.substr(key.size() - 10).begin(), sizeof(Version));
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parsedVersion = bigEndian64(parsedVersion);
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return parsedVersion;
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}
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Tag decodeServerTagValue(ValueRef const& value) {
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Tag s;
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BinaryReader reader(value, IncludeVersion());
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if (!reader.protocolVersion().hasTagLocality()) {
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int16_t id;
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reader >> id;
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if (id == invalidTagOld) {
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s = invalidTag;
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} else if (id == txsTagOld) {
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s = txsTag;
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} else {
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ASSERT(id >= 0);
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s.id = id;
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s.locality = tagLocalityUpgraded;
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}
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} else {
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reader >> s;
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}
|
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return s;
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}
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const Key serverTagConflictKeyFor(Tag tag) {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(serverTagConflictKeys.begin);
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wr << tag;
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return wr.toValue();
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}
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|
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const KeyRangeRef tagLocalityListKeys(LiteralStringRef("\xff/tagLocalityList/"),
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LiteralStringRef("\xff/tagLocalityList0"));
|
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const KeyRef tagLocalityListPrefix = tagLocalityListKeys.begin;
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const Key tagLocalityListKeyFor(Optional<Value> dcID) {
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BinaryWriter wr(AssumeVersion(currentProtocolVersion));
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wr.serializeBytes(tagLocalityListKeys.begin);
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wr << dcID;
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return wr.toValue();
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}
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const Value tagLocalityListValue(int8_t const& tagLocality) {
|
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BinaryWriter wr(IncludeVersion(ProtocolVersion::withTagLocalityListValue()));
|
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wr << tagLocality;
|
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return wr.toValue();
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}
|
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Optional<Value> decodeTagLocalityListKey(KeyRef const& key) {
|
|
Optional<Value> dcID;
|
|
BinaryReader rd(key.removePrefix(tagLocalityListKeys.begin), AssumeVersion(currentProtocolVersion));
|
|
rd >> dcID;
|
|
return dcID;
|
|
}
|
|
int8_t decodeTagLocalityListValue(ValueRef const& value) {
|
|
int8_t s;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> s;
|
|
return s;
|
|
}
|
|
|
|
const KeyRangeRef datacenterReplicasKeys(LiteralStringRef("\xff\x02/datacenterReplicas/"),
|
|
LiteralStringRef("\xff\x02/datacenterReplicas0"));
|
|
const KeyRef datacenterReplicasPrefix = datacenterReplicasKeys.begin;
|
|
|
|
const Key datacenterReplicasKeyFor(Optional<Value> dcID) {
|
|
BinaryWriter wr(AssumeVersion(currentProtocolVersion));
|
|
wr.serializeBytes(datacenterReplicasKeys.begin);
|
|
wr << dcID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
const Value datacenterReplicasValue(int const& replicas) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withDatacenterReplicasValue()));
|
|
wr << replicas;
|
|
return wr.toValue();
|
|
}
|
|
Optional<Value> decodeDatacenterReplicasKey(KeyRef const& key) {
|
|
Optional<Value> dcID;
|
|
BinaryReader rd(key.removePrefix(datacenterReplicasKeys.begin), AssumeVersion(currentProtocolVersion));
|
|
rd >> dcID;
|
|
return dcID;
|
|
}
|
|
int decodeDatacenterReplicasValue(ValueRef const& value) {
|
|
int s;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> s;
|
|
return s;
|
|
}
|
|
|
|
// "\xff\x02/tLogDatacenters/[[datacenterID]]"
|
|
extern const KeyRangeRef tLogDatacentersKeys;
|
|
extern const KeyRef tLogDatacentersPrefix;
|
|
const Key tLogDatacentersKeyFor(Optional<Value> dcID);
|
|
|
|
const KeyRangeRef tLogDatacentersKeys(LiteralStringRef("\xff\x02/tLogDatacenters/"),
|
|
LiteralStringRef("\xff\x02/tLogDatacenters0"));
|
|
const KeyRef tLogDatacentersPrefix = tLogDatacentersKeys.begin;
|
|
|
|
const Key tLogDatacentersKeyFor(Optional<Value> dcID) {
|
|
BinaryWriter wr(AssumeVersion(currentProtocolVersion));
|
|
wr.serializeBytes(tLogDatacentersKeys.begin);
|
|
wr << dcID;
|
|
return wr.toValue();
|
|
}
|
|
Optional<Value> decodeTLogDatacentersKey(KeyRef const& key) {
|
|
Optional<Value> dcID;
|
|
BinaryReader rd(key.removePrefix(tLogDatacentersKeys.begin), AssumeVersion(currentProtocolVersion));
|
|
rd >> dcID;
|
|
return dcID;
|
|
}
|
|
|
|
const KeyRef primaryDatacenterKey = LiteralStringRef("\xff/primaryDatacenter");
|
|
|
|
// serverListKeys.contains(k) iff k.startsWith( serverListKeys.begin ) because '/'+1 == '0'
|
|
const KeyRangeRef serverListKeys(LiteralStringRef("\xff/serverList/"), LiteralStringRef("\xff/serverList0"));
|
|
const KeyRef serverListPrefix = serverListKeys.begin;
|
|
|
|
const Key serverListKeyFor(UID serverID) {
|
|
BinaryWriter wr(Unversioned());
|
|
wr.serializeBytes(serverListKeys.begin);
|
|
wr << serverID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
// TODO use flatbuffers depending on version
|
|
const Value serverListValue(StorageServerInterface const& server) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withServerListValue()));
|
|
wr << server;
|
|
return wr.toValue();
|
|
}
|
|
UID decodeServerListKey(KeyRef const& key) {
|
|
UID serverID;
|
|
BinaryReader rd(key.removePrefix(serverListKeys.begin), Unversioned());
|
|
rd >> serverID;
|
|
return serverID;
|
|
}
|
|
StorageServerInterface decodeServerListValue(ValueRef const& value) {
|
|
StorageServerInterface s;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> s;
|
|
return s;
|
|
}
|
|
|
|
const Value serverListValueFB(StorageServerInterface const& server) {
|
|
return ObjectWriter::toValue(server, IncludeVersion());
|
|
}
|
|
|
|
StorageServerInterface decodeServerListValueFB(ValueRef const& value) {
|
|
StorageServerInterface s;
|
|
ObjectReader reader(value.begin(), IncludeVersion());
|
|
reader.deserialize(s);
|
|
return s;
|
|
}
|
|
|
|
// processClassKeys.contains(k) iff k.startsWith( processClassKeys.begin ) because '/'+1 == '0'
|
|
const KeyRangeRef processClassKeys(LiteralStringRef("\xff/processClass/"), LiteralStringRef("\xff/processClass0"));
|
|
const KeyRef processClassPrefix = processClassKeys.begin;
|
|
const KeyRef processClassChangeKey = LiteralStringRef("\xff/processClassChanges");
|
|
const KeyRef processClassVersionKey = LiteralStringRef("\xff/processClassChangesVersion");
|
|
const ValueRef processClassVersionValue = LiteralStringRef("1");
|
|
|
|
const Key processClassKeyFor(StringRef processID) {
|
|
BinaryWriter wr(Unversioned());
|
|
wr.serializeBytes(processClassKeys.begin);
|
|
wr << processID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
const Value processClassValue(ProcessClass const& processClass) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withProcessClassValue()));
|
|
wr << processClass;
|
|
return wr.toValue();
|
|
}
|
|
|
|
Key decodeProcessClassKey(KeyRef const& key) {
|
|
StringRef processID;
|
|
BinaryReader rd(key.removePrefix(processClassKeys.begin), Unversioned());
|
|
rd >> processID;
|
|
return processID;
|
|
}
|
|
|
|
UID decodeProcessClassKeyOld(KeyRef const& key) {
|
|
UID processID;
|
|
BinaryReader rd(key.removePrefix(processClassKeys.begin), Unversioned());
|
|
rd >> processID;
|
|
return processID;
|
|
}
|
|
|
|
ProcessClass decodeProcessClassValue(ValueRef const& value) {
|
|
ProcessClass s;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> s;
|
|
return s;
|
|
}
|
|
|
|
const KeyRangeRef configKeys(LiteralStringRef("\xff/conf/"), LiteralStringRef("\xff/conf0"));
|
|
const KeyRef configKeysPrefix = configKeys.begin;
|
|
|
|
const KeyRef perpetualStorageWiggleKey(LiteralStringRef("\xff/conf/perpetual_storage_wiggle"));
|
|
const KeyRef perpetualStorageWiggleLocalityKey(LiteralStringRef("\xff/conf/perpetual_storage_wiggle_locality"));
|
|
const KeyRef perpetualStorageWiggleIDPrefix(
|
|
LiteralStringRef("\xff/storageWiggleID/")); // withSuffix /primary or /remote
|
|
const KeyRef perpetualStorageWiggleStatsPrefix(
|
|
LiteralStringRef("\xff/storageWiggleStats/")); // withSuffix /primary or /remote
|
|
|
|
const KeyRef triggerDDTeamInfoPrintKey(LiteralStringRef("\xff/triggerDDTeamInfoPrint"));
|
|
|
|
const KeyRangeRef excludedServersKeys(LiteralStringRef("\xff/conf/excluded/"), LiteralStringRef("\xff/conf/excluded0"));
|
|
const KeyRef excludedServersPrefix = excludedServersKeys.begin;
|
|
const KeyRef excludedServersVersionKey = LiteralStringRef("\xff/conf/excluded");
|
|
AddressExclusion decodeExcludedServersKey(KeyRef const& key) {
|
|
ASSERT(key.startsWith(excludedServersPrefix));
|
|
// Returns an invalid NetworkAddress if given an invalid key (within the prefix)
|
|
// Excluded servers have IP in x.x.x.x format, port optional, and no SSL suffix
|
|
// Returns a valid, public NetworkAddress with a port of 0 if the key represents an IP address alone (meaning all
|
|
// ports) Returns a valid, public NetworkAddress with nonzero port if the key represents an IP:PORT combination
|
|
|
|
return AddressExclusion::parse(key.removePrefix(excludedServersPrefix));
|
|
}
|
|
std::string encodeExcludedServersKey(AddressExclusion const& addr) {
|
|
// FIXME: make sure what's persisted here is not affected by innocent changes elsewhere
|
|
return excludedServersPrefix.toString() + addr.toString();
|
|
}
|
|
|
|
const KeyRangeRef excludedLocalityKeys(LiteralStringRef("\xff/conf/excluded_locality/"),
|
|
LiteralStringRef("\xff/conf/excluded_locality0"));
|
|
const KeyRef excludedLocalityPrefix = excludedLocalityKeys.begin;
|
|
const KeyRef excludedLocalityVersionKey = LiteralStringRef("\xff/conf/excluded_locality");
|
|
std::string decodeExcludedLocalityKey(KeyRef const& key) {
|
|
ASSERT(key.startsWith(excludedLocalityPrefix));
|
|
return key.removePrefix(excludedLocalityPrefix).toString();
|
|
}
|
|
std::string encodeExcludedLocalityKey(std::string const& locality) {
|
|
return excludedLocalityPrefix.toString() + locality;
|
|
}
|
|
|
|
const KeyRangeRef failedServersKeys(LiteralStringRef("\xff/conf/failed/"), LiteralStringRef("\xff/conf/failed0"));
|
|
const KeyRef failedServersPrefix = failedServersKeys.begin;
|
|
const KeyRef failedServersVersionKey = LiteralStringRef("\xff/conf/failed");
|
|
AddressExclusion decodeFailedServersKey(KeyRef const& key) {
|
|
ASSERT(key.startsWith(failedServersPrefix));
|
|
// Returns an invalid NetworkAddress if given an invalid key (within the prefix)
|
|
// Excluded servers have IP in x.x.x.x format, port optional, and no SSL suffix
|
|
// Returns a valid, public NetworkAddress with a port of 0 if the key represents an IP address alone (meaning all
|
|
// ports) Returns a valid, public NetworkAddress with nonzero port if the key represents an IP:PORT combination
|
|
|
|
return AddressExclusion::parse(key.removePrefix(failedServersPrefix));
|
|
}
|
|
std::string encodeFailedServersKey(AddressExclusion const& addr) {
|
|
// FIXME: make sure what's persisted here is not affected by innocent changes elsewhere
|
|
return failedServersPrefix.toString() + addr.toString();
|
|
}
|
|
|
|
const KeyRangeRef failedLocalityKeys(LiteralStringRef("\xff/conf/failed_locality/"),
|
|
LiteralStringRef("\xff/conf/failed_locality0"));
|
|
const KeyRef failedLocalityPrefix = failedLocalityKeys.begin;
|
|
const KeyRef failedLocalityVersionKey = LiteralStringRef("\xff/conf/failed_locality");
|
|
std::string decodeFailedLocalityKey(KeyRef const& key) {
|
|
ASSERT(key.startsWith(failedLocalityPrefix));
|
|
return key.removePrefix(failedLocalityPrefix).toString();
|
|
}
|
|
std::string encodeFailedLocalityKey(std::string const& locality) {
|
|
return failedLocalityPrefix.toString() + locality;
|
|
}
|
|
|
|
// const KeyRangeRef globalConfigKeys( LiteralStringRef("\xff/globalConfig/"), LiteralStringRef("\xff/globalConfig0") );
|
|
// const KeyRef globalConfigPrefix = globalConfigKeys.begin;
|
|
|
|
const KeyRangeRef globalConfigDataKeys(LiteralStringRef("\xff/globalConfig/k/"),
|
|
LiteralStringRef("\xff/globalConfig/k0"));
|
|
const KeyRef globalConfigKeysPrefix = globalConfigDataKeys.begin;
|
|
|
|
const KeyRangeRef globalConfigHistoryKeys(LiteralStringRef("\xff/globalConfig/h/"),
|
|
LiteralStringRef("\xff/globalConfig/h0"));
|
|
const KeyRef globalConfigHistoryPrefix = globalConfigHistoryKeys.begin;
|
|
|
|
const KeyRef globalConfigVersionKey = LiteralStringRef("\xff/globalConfig/v");
|
|
|
|
const KeyRangeRef workerListKeys(LiteralStringRef("\xff/worker/"), LiteralStringRef("\xff/worker0"));
|
|
const KeyRef workerListPrefix = workerListKeys.begin;
|
|
|
|
const Key workerListKeyFor(StringRef processID) {
|
|
BinaryWriter wr(Unversioned());
|
|
wr.serializeBytes(workerListKeys.begin);
|
|
wr << processID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
const Value workerListValue(ProcessData const& processData) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withWorkerListValue()));
|
|
wr << processData;
|
|
return wr.toValue();
|
|
}
|
|
|
|
Key decodeWorkerListKey(KeyRef const& key) {
|
|
StringRef processID;
|
|
BinaryReader rd(key.removePrefix(workerListKeys.begin), Unversioned());
|
|
rd >> processID;
|
|
return processID;
|
|
}
|
|
|
|
ProcessData decodeWorkerListValue(ValueRef const& value) {
|
|
ProcessData s;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> s;
|
|
return s;
|
|
}
|
|
|
|
const KeyRangeRef backupProgressKeys(LiteralStringRef("\xff\x02/backupProgress/"),
|
|
LiteralStringRef("\xff\x02/backupProgress0"));
|
|
const KeyRef backupProgressPrefix = backupProgressKeys.begin;
|
|
const KeyRef backupStartedKey = LiteralStringRef("\xff\x02/backupStarted");
|
|
extern const KeyRef backupPausedKey = LiteralStringRef("\xff\x02/backupPaused");
|
|
|
|
const Key backupProgressKeyFor(UID workerID) {
|
|
BinaryWriter wr(Unversioned());
|
|
wr.serializeBytes(backupProgressPrefix);
|
|
wr << workerID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
const Value backupProgressValue(const WorkerBackupStatus& status) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBackupProgressValue()));
|
|
wr << status;
|
|
return wr.toValue();
|
|
}
|
|
|
|
UID decodeBackupProgressKey(const KeyRef& key) {
|
|
UID serverID;
|
|
BinaryReader rd(key.removePrefix(backupProgressPrefix), Unversioned());
|
|
rd >> serverID;
|
|
return serverID;
|
|
}
|
|
|
|
WorkerBackupStatus decodeBackupProgressValue(const ValueRef& value) {
|
|
WorkerBackupStatus status;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> status;
|
|
return status;
|
|
}
|
|
|
|
Value encodeBackupStartedValue(const std::vector<std::pair<UID, Version>>& ids) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBackupStartValue()));
|
|
wr << ids;
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::vector<std::pair<UID, Version>> decodeBackupStartedValue(const ValueRef& value) {
|
|
std::vector<std::pair<UID, Version>> ids;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
if (value.size() > 0)
|
|
reader >> ids;
|
|
return ids;
|
|
}
|
|
|
|
const KeyRef coordinatorsKey = LiteralStringRef("\xff/coordinators");
|
|
const KeyRef logsKey = LiteralStringRef("\xff/logs");
|
|
const KeyRef minRequiredCommitVersionKey = LiteralStringRef("\xff/minRequiredCommitVersion");
|
|
|
|
const KeyRef globalKeysPrefix = LiteralStringRef("\xff/globals");
|
|
const KeyRef lastEpochEndKey = LiteralStringRef("\xff/globals/lastEpochEnd");
|
|
const KeyRef lastEpochEndPrivateKey = LiteralStringRef("\xff\xff/globals/lastEpochEnd");
|
|
const KeyRef killStorageKey = LiteralStringRef("\xff/globals/killStorage");
|
|
const KeyRef killStoragePrivateKey = LiteralStringRef("\xff\xff/globals/killStorage");
|
|
const KeyRef rebootWhenDurableKey = LiteralStringRef("\xff/globals/rebootWhenDurable");
|
|
const KeyRef rebootWhenDurablePrivateKey = LiteralStringRef("\xff\xff/globals/rebootWhenDurable");
|
|
const KeyRef primaryLocalityKey = LiteralStringRef("\xff/globals/primaryLocality");
|
|
const KeyRef primaryLocalityPrivateKey = LiteralStringRef("\xff\xff/globals/primaryLocality");
|
|
const KeyRef fastLoggingEnabled = LiteralStringRef("\xff/globals/fastLoggingEnabled");
|
|
const KeyRef fastLoggingEnabledPrivateKey = LiteralStringRef("\xff\xff/globals/fastLoggingEnabled");
|
|
|
|
// Whenever configuration changes or DD related system keyspace is changed(e.g.., serverList),
|
|
// actor must grab the moveKeysLockOwnerKey and update moveKeysLockWriteKey.
|
|
// This prevents concurrent write to the same system keyspace.
|
|
// When the owner of the DD related system keyspace changes, DD will reboot
|
|
const KeyRef moveKeysLockOwnerKey = LiteralStringRef("\xff/moveKeysLock/Owner");
|
|
const KeyRef moveKeysLockWriteKey = LiteralStringRef("\xff/moveKeysLock/Write");
|
|
|
|
const KeyRef dataDistributionModeKey = LiteralStringRef("\xff/dataDistributionMode");
|
|
const UID dataDistributionModeLock = UID(6345, 3425);
|
|
|
|
// Keys to view and control tag throttling
|
|
const KeyRangeRef tagThrottleKeys =
|
|
KeyRangeRef(LiteralStringRef("\xff\x02/throttledTags/tag/"), LiteralStringRef("\xff\x02/throttledTags/tag0"));
|
|
const KeyRef tagThrottleKeysPrefix = tagThrottleKeys.begin;
|
|
const KeyRef tagThrottleAutoKeysPrefix = LiteralStringRef("\xff\x02/throttledTags/tag/\x01");
|
|
const KeyRef tagThrottleSignalKey = LiteralStringRef("\xff\x02/throttledTags/signal");
|
|
const KeyRef tagThrottleAutoEnabledKey = LiteralStringRef("\xff\x02/throttledTags/autoThrottlingEnabled");
|
|
const KeyRef tagThrottleLimitKey = LiteralStringRef("\xff\x02/throttledTags/manualThrottleLimit");
|
|
const KeyRef tagThrottleCountKey = LiteralStringRef("\xff\x02/throttledTags/manualThrottleCount");
|
|
|
|
// Client status info prefix
|
|
const KeyRangeRef fdbClientInfoPrefixRange(LiteralStringRef("\xff\x02/fdbClientInfo/"),
|
|
LiteralStringRef("\xff\x02/fdbClientInfo0"));
|
|
// See remaining fields in GlobalConfig.actor.h
|
|
|
|
// ConsistencyCheck settings
|
|
const KeyRef fdbShouldConsistencyCheckBeSuspended = LiteralStringRef("\xff\x02/ConsistencyCheck/Suspend");
|
|
|
|
// Request latency measurement key
|
|
const KeyRef latencyBandConfigKey = LiteralStringRef("\xff\x02/latencyBandConfig");
|
|
|
|
// Keyspace to maintain wall clock to version map
|
|
const KeyRangeRef timeKeeperPrefixRange(LiteralStringRef("\xff\x02/timeKeeper/map/"),
|
|
LiteralStringRef("\xff\x02/timeKeeper/map0"));
|
|
const KeyRef timeKeeperVersionKey = LiteralStringRef("\xff\x02/timeKeeper/version");
|
|
const KeyRef timeKeeperDisableKey = LiteralStringRef("\xff\x02/timeKeeper/disable");
|
|
|
|
// Backup Log Mutation constant variables
|
|
const KeyRef backupEnabledKey = LiteralStringRef("\xff/backupEnabled");
|
|
const KeyRangeRef backupLogKeys(LiteralStringRef("\xff\x02/blog/"), LiteralStringRef("\xff\x02/blog0"));
|
|
const KeyRangeRef applyLogKeys(LiteralStringRef("\xff\x02/alog/"), LiteralStringRef("\xff\x02/alog0"));
|
|
// static_assert( backupLogKeys.begin.size() == backupLogPrefixBytes, "backupLogPrefixBytes incorrect" );
|
|
const KeyRef backupVersionKey = LiteralStringRef("\xff/backupDataFormat");
|
|
const ValueRef backupVersionValue = LiteralStringRef("4");
|
|
const int backupVersion = 4;
|
|
|
|
// Log Range constant variables
|
|
// \xff/logRanges/[16-byte UID][begin key] := serialize( make_pair([end key], [destination key prefix]),
|
|
// IncludeVersion() )
|
|
const KeyRangeRef logRangesRange(LiteralStringRef("\xff/logRanges/"), LiteralStringRef("\xff/logRanges0"));
|
|
|
|
// Layer status metadata prefix
|
|
const KeyRangeRef layerStatusMetaPrefixRange(LiteralStringRef("\xff\x02/status/"),
|
|
LiteralStringRef("\xff\x02/status0"));
|
|
|
|
// Backup agent status root
|
|
const KeyRangeRef backupStatusPrefixRange(LiteralStringRef("\xff\x02/backupstatus/"),
|
|
LiteralStringRef("\xff\x02/backupstatus0"));
|
|
|
|
// Restore configuration constant variables
|
|
const KeyRangeRef fileRestorePrefixRange(LiteralStringRef("\xff\x02/restore-agent/"),
|
|
LiteralStringRef("\xff\x02/restore-agent0"));
|
|
|
|
// Backup Agent configuration constant variables
|
|
const KeyRangeRef fileBackupPrefixRange(LiteralStringRef("\xff\x02/backup-agent/"),
|
|
LiteralStringRef("\xff\x02/backup-agent0"));
|
|
|
|
// DR Agent configuration constant variables
|
|
const KeyRangeRef databaseBackupPrefixRange(LiteralStringRef("\xff\x02/db-backup-agent/"),
|
|
LiteralStringRef("\xff\x02/db-backup-agent0"));
|
|
|
|
// \xff\x02/sharedLogRangesConfig/destUidLookup/[keyRange]
|
|
const KeyRef destUidLookupPrefix = LiteralStringRef("\xff\x02/sharedLogRangesConfig/destUidLookup/");
|
|
// \xff\x02/sharedLogRangesConfig/backuplatestVersions/[destUid]/[logUid]
|
|
const KeyRef backupLatestVersionsPrefix = LiteralStringRef("\xff\x02/sharedLogRangesConfig/backupLatestVersions/");
|
|
|
|
// Returns the encoded key comprised of begin key and log uid
|
|
Key logRangesEncodeKey(KeyRef keyBegin, UID logUid) {
|
|
return keyBegin.withPrefix(uidPrefixKey(logRangesRange.begin, logUid));
|
|
}
|
|
|
|
// Returns the start key and optionally the logRange Uid
|
|
KeyRef logRangesDecodeKey(KeyRef key, UID* logUid) {
|
|
if (key.size() < logRangesRange.begin.size() + sizeof(UID)) {
|
|
TraceEvent(SevError, "InvalidDecodeKey").detail("Key", key);
|
|
ASSERT(false);
|
|
}
|
|
|
|
if (logUid) {
|
|
*logUid = BinaryReader::fromStringRef<UID>(key.removePrefix(logRangesRange.begin), Unversioned());
|
|
}
|
|
|
|
return key.substr(logRangesRange.begin.size() + sizeof(UID));
|
|
}
|
|
|
|
// Returns the encoded key value comprised of the end key and destination path
|
|
Key logRangesEncodeValue(KeyRef keyEnd, KeyRef destPath) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withLogRangeEncodeValue()));
|
|
wr << std::make_pair(keyEnd, destPath);
|
|
return wr.toValue();
|
|
}
|
|
|
|
// \xff/logRanges/[16-byte UID][begin key] := serialize( make_pair([end key], [destination key prefix]),
|
|
// IncludeVersion() )
|
|
Key logRangesDecodeValue(KeyRef keyValue, Key* destKeyPrefix) {
|
|
std::pair<KeyRef, KeyRef> endPrefixCombo;
|
|
|
|
BinaryReader rd(keyValue, IncludeVersion());
|
|
rd >> endPrefixCombo;
|
|
|
|
if (destKeyPrefix) {
|
|
*destKeyPrefix = endPrefixCombo.second;
|
|
}
|
|
|
|
return endPrefixCombo.first;
|
|
}
|
|
|
|
// Returns a key prefixed with the specified key with
|
|
// the uid encoded at the end
|
|
Key uidPrefixKey(KeyRef keyPrefix, UID logUid) {
|
|
BinaryWriter bw(Unversioned());
|
|
bw.serializeBytes(keyPrefix);
|
|
bw << logUid;
|
|
return bw.toValue();
|
|
}
|
|
|
|
// Apply mutations constant variables
|
|
// \xff/applyMutationsEnd/[16-byte UID] := serialize( endVersion, Unversioned() )
|
|
// This indicates what is the highest version the mutation log can be applied
|
|
const KeyRangeRef applyMutationsEndRange(LiteralStringRef("\xff/applyMutationsEnd/"),
|
|
LiteralStringRef("\xff/applyMutationsEnd0"));
|
|
|
|
// \xff/applyMutationsBegin/[16-byte UID] := serialize( beginVersion, Unversioned() )
|
|
const KeyRangeRef applyMutationsBeginRange(LiteralStringRef("\xff/applyMutationsBegin/"),
|
|
LiteralStringRef("\xff/applyMutationsBegin0"));
|
|
|
|
// \xff/applyMutationsAddPrefix/[16-byte UID] := addPrefix
|
|
const KeyRangeRef applyMutationsAddPrefixRange(LiteralStringRef("\xff/applyMutationsAddPrefix/"),
|
|
LiteralStringRef("\xff/applyMutationsAddPrefix0"));
|
|
|
|
// \xff/applyMutationsRemovePrefix/[16-byte UID] := removePrefix
|
|
const KeyRangeRef applyMutationsRemovePrefixRange(LiteralStringRef("\xff/applyMutationsRemovePrefix/"),
|
|
LiteralStringRef("\xff/applyMutationsRemovePrefix0"));
|
|
|
|
const KeyRangeRef applyMutationsKeyVersionMapRange(LiteralStringRef("\xff/applyMutationsKeyVersionMap/"),
|
|
LiteralStringRef("\xff/applyMutationsKeyVersionMap0"));
|
|
const KeyRangeRef applyMutationsKeyVersionCountRange(LiteralStringRef("\xff\x02/applyMutationsKeyVersionCount/"),
|
|
LiteralStringRef("\xff\x02/applyMutationsKeyVersionCount0"));
|
|
|
|
const KeyRef systemTuplesPrefix = LiteralStringRef("\xff/a/");
|
|
const KeyRef metricConfChangeKey = LiteralStringRef("\x01TDMetricConfChanges\x00");
|
|
|
|
const KeyRangeRef metricConfKeys(LiteralStringRef("\x01TDMetricConf\x00\x01"),
|
|
LiteralStringRef("\x01TDMetricConf\x00\x02"));
|
|
const KeyRef metricConfPrefix = metricConfKeys.begin;
|
|
|
|
/*
|
|
const Key metricConfKey( KeyRef const& prefix, MetricNameRef const& name, KeyRef const& key ) {
|
|
BinaryWriter wr(Unversioned());
|
|
wr.serializeBytes( prefix );
|
|
wr.serializeBytes( metricConfPrefix );
|
|
wr.serializeBytes( name.type );
|
|
wr.serializeBytes( LiteralStringRef("\x00\x01") );
|
|
wr.serializeBytes( name.name );
|
|
wr.serializeBytes( LiteralStringRef("\x00\x01") );
|
|
wr.serializeBytes( name.address );
|
|
wr.serializeBytes( LiteralStringRef("\x00\x01") );
|
|
wr.serializeBytes( name.id );
|
|
wr.serializeBytes( LiteralStringRef("\x00\x01") );
|
|
wr.serializeBytes( key );
|
|
wr.serializeBytes( LiteralStringRef("\x00") );
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::pair<MetricNameRef, KeyRef> decodeMetricConfKey( KeyRef const& prefix, KeyRef const& key ) {
|
|
MetricNameRef result;
|
|
KeyRef withoutPrefix = key.removePrefix( prefix );
|
|
withoutPrefix = withoutPrefix.removePrefix( metricConfPrefix );
|
|
int pos = std::find(withoutPrefix.begin(), withoutPrefix.end(), '\x00') - withoutPrefix.begin();
|
|
result.type = withoutPrefix.substr(0,pos);
|
|
withoutPrefix = withoutPrefix.substr(pos+2);
|
|
pos = std::find(withoutPrefix.begin(), withoutPrefix.end(), '\x00') - withoutPrefix.begin();
|
|
result.name = withoutPrefix.substr(0,pos);
|
|
withoutPrefix = withoutPrefix.substr(pos+2);
|
|
pos = std::find(withoutPrefix.begin(), withoutPrefix.end(), '\x00') - withoutPrefix.begin();
|
|
result.address = withoutPrefix.substr(0,pos);
|
|
withoutPrefix = withoutPrefix.substr(pos+2);
|
|
pos = std::find(withoutPrefix.begin(), withoutPrefix.end(), '\x00') - withoutPrefix.begin();
|
|
result.id = withoutPrefix.substr(0,pos);
|
|
return std::make_pair( result, withoutPrefix.substr(pos+2,withoutPrefix.size()-pos-3) );
|
|
}
|
|
*/
|
|
|
|
const KeyRef maxUIDKey = LiteralStringRef("\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff");
|
|
|
|
const KeyRef databaseLockedKey = LiteralStringRef("\xff/dbLocked");
|
|
const KeyRef databaseLockedKeyEnd = LiteralStringRef("\xff/dbLocked\x00");
|
|
const KeyRef metadataVersionKey = LiteralStringRef("\xff/metadataVersion");
|
|
const KeyRef metadataVersionKeyEnd = LiteralStringRef("\xff/metadataVersion\x00");
|
|
const KeyRef metadataVersionRequiredValue =
|
|
LiteralStringRef("\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00");
|
|
const KeyRef mustContainSystemMutationsKey = LiteralStringRef("\xff/mustContainSystemMutations");
|
|
|
|
const KeyRangeRef monitorConfKeys(LiteralStringRef("\xff\x02/monitorConf/"), LiteralStringRef("\xff\x02/monitorConf0"));
|
|
|
|
const KeyRef restoreRequestDoneKey = LiteralStringRef("\xff\x02/restoreRequestDone");
|
|
|
|
const KeyRef healthyZoneKey = LiteralStringRef("\xff\x02/healthyZone");
|
|
const StringRef ignoreSSFailuresZoneString = LiteralStringRef("IgnoreSSFailures");
|
|
const KeyRef rebalanceDDIgnoreKey = LiteralStringRef("\xff\x02/rebalanceDDIgnored");
|
|
|
|
const Value healthyZoneValue(StringRef const& zoneId, Version version) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withHealthyZoneValue()));
|
|
wr << zoneId;
|
|
wr << version;
|
|
return wr.toValue();
|
|
}
|
|
std::pair<Key, Version> decodeHealthyZoneValue(ValueRef const& value) {
|
|
Key zoneId;
|
|
Version version;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> zoneId;
|
|
reader >> version;
|
|
return std::make_pair(zoneId, version);
|
|
}
|
|
|
|
const KeyRangeRef testOnlyTxnStateStorePrefixRange(LiteralStringRef("\xff/TESTONLYtxnStateStore/"),
|
|
LiteralStringRef("\xff/TESTONLYtxnStateStore0"));
|
|
|
|
const KeyRef writeRecoveryKey = LiteralStringRef("\xff/writeRecovery");
|
|
const ValueRef writeRecoveryKeyTrue = LiteralStringRef("1");
|
|
const KeyRef snapshotEndVersionKey = LiteralStringRef("\xff/snapshotEndVersion");
|
|
|
|
const KeyRangeRef changeFeedKeys(LiteralStringRef("\xff\x02/feed/"), LiteralStringRef("\xff\x02/feed0"));
|
|
const KeyRef changeFeedPrefix = changeFeedKeys.begin;
|
|
const KeyRef changeFeedPrivatePrefix = LiteralStringRef("\xff\xff\x02/feed/");
|
|
|
|
const Value changeFeedValue(KeyRangeRef const& range, Version popVersion, ChangeFeedStatus status) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withChangeFeed()));
|
|
wr << range;
|
|
wr << popVersion;
|
|
wr << status;
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::tuple<KeyRange, Version, ChangeFeedStatus> decodeChangeFeedValue(ValueRef const& value) {
|
|
KeyRange range;
|
|
Version version;
|
|
ChangeFeedStatus status;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> range;
|
|
reader >> version;
|
|
reader >> status;
|
|
return std::make_tuple(range, version, status);
|
|
}
|
|
|
|
const KeyRangeRef changeFeedDurableKeys(LiteralStringRef("\xff\xff/cf/"), LiteralStringRef("\xff\xff/cf0"));
|
|
const KeyRef changeFeedDurablePrefix = changeFeedDurableKeys.begin;
|
|
|
|
const Value changeFeedDurableKey(Key const& feed, Version version) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withChangeFeed()));
|
|
wr.serializeBytes(changeFeedDurablePrefix);
|
|
wr << feed;
|
|
wr << bigEndian64(version);
|
|
return wr.toValue();
|
|
}
|
|
std::pair<Key, Version> decodeChangeFeedDurableKey(ValueRef const& key) {
|
|
Key feed;
|
|
Version version;
|
|
BinaryReader reader(key.removePrefix(changeFeedDurablePrefix), AssumeVersion(ProtocolVersion::withChangeFeed()));
|
|
reader >> feed;
|
|
reader >> version;
|
|
return std::make_pair(feed, bigEndian64(version));
|
|
}
|
|
const Value changeFeedDurableValue(Standalone<VectorRef<MutationRef>> const& mutations, Version knownCommittedVersion) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withChangeFeed()));
|
|
wr << mutations;
|
|
wr << knownCommittedVersion;
|
|
return wr.toValue();
|
|
}
|
|
std::pair<Standalone<VectorRef<MutationRef>>, Version> decodeChangeFeedDurableValue(ValueRef const& value) {
|
|
Standalone<VectorRef<MutationRef>> mutations;
|
|
Version knownCommittedVersion;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> mutations;
|
|
reader >> knownCommittedVersion;
|
|
return std::make_pair(mutations, knownCommittedVersion);
|
|
}
|
|
|
|
const KeyRef configTransactionDescriptionKey = "\xff\xff/description"_sr;
|
|
const KeyRange globalConfigKnobKeys = singleKeyRange("\xff\xff/globalKnobs"_sr);
|
|
const KeyRangeRef configKnobKeys("\xff\xff/knobs/"_sr, "\xff\xff/knobs0"_sr);
|
|
const KeyRangeRef configClassKeys("\xff\xff/configClasses/"_sr, "\xff\xff/configClasses0"_sr);
|
|
|
|
// key to watch for changes in active blob ranges + KeyRangeMap of active blob ranges
|
|
// Blob Manager + Worker stuff is all \xff\x02 to avoid Transaction State Store
|
|
const KeyRef blobRangeChangeKey = LiteralStringRef("\xff\x02/blobRangeChange");
|
|
const KeyRangeRef blobRangeKeys(LiteralStringRef("\xff\x02/blobRange/"), LiteralStringRef("\xff\x02/blobRange0"));
|
|
const KeyRef blobManagerEpochKey = LiteralStringRef("\xff\x02/blobManagerEpoch");
|
|
|
|
const Value blobManagerEpochValueFor(int64_t epoch) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << epoch;
|
|
return wr.toValue();
|
|
}
|
|
|
|
int64_t decodeBlobManagerEpochValue(ValueRef const& value) {
|
|
int64_t epoch;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> epoch;
|
|
return epoch;
|
|
}
|
|
|
|
// blob granule data
|
|
const KeyRangeRef blobGranuleFileKeys(LiteralStringRef("\xff\x02/bgf/"), LiteralStringRef("\xff\x02/bgf0"));
|
|
const KeyRangeRef blobGranuleMappingKeys(LiteralStringRef("\xff\x02/bgm/"), LiteralStringRef("\xff\x02/bgm0"));
|
|
const KeyRangeRef blobGranuleLockKeys(LiteralStringRef("\xff\x02/bgl/"), LiteralStringRef("\xff\x02/bgl0"));
|
|
const KeyRangeRef blobGranuleSplitKeys(LiteralStringRef("\xff\x02/bgs/"), LiteralStringRef("\xff\x02/bgs0"));
|
|
const KeyRangeRef blobGranuleHistoryKeys(LiteralStringRef("\xff\x02/bgh/"), LiteralStringRef("\xff\x02/bgh0"));
|
|
|
|
const uint8_t BG_FILE_TYPE_DELTA = 'D';
|
|
const uint8_t BG_FILE_TYPE_SNAPSHOT = 'S';
|
|
|
|
const Key blobGranuleFileKeyFor(UID granuleID, uint8_t fileType, Version fileVersion) {
|
|
ASSERT(fileType == 'D' || fileType == 'S');
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleFileKeys.begin);
|
|
wr << granuleID;
|
|
wr << fileType;
|
|
wr << bigEndian64(fileVersion);
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::tuple<UID, uint8_t, Version> decodeBlobGranuleFileKey(KeyRef const& key) {
|
|
UID granuleID;
|
|
uint8_t fileType;
|
|
Version fileVersion;
|
|
BinaryReader reader(key.removePrefix(blobGranuleFileKeys.begin), AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
reader >> granuleID;
|
|
reader >> fileType;
|
|
reader >> fileVersion;
|
|
ASSERT(fileType == 'D' || fileType == 'S');
|
|
return std::tuple(granuleID, fileType, bigEndian64(fileVersion));
|
|
}
|
|
|
|
const KeyRange blobGranuleFileKeyRangeFor(UID granuleID) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleFileKeys.begin);
|
|
wr << granuleID;
|
|
Key startKey = wr.toValue();
|
|
return KeyRangeRef(startKey, strinc(startKey));
|
|
}
|
|
|
|
const Value blobGranuleFileValueFor(StringRef const& filename, int64_t offset, int64_t length) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << filename;
|
|
wr << offset;
|
|
wr << length;
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::tuple<Standalone<StringRef>, int64_t, int64_t> decodeBlobGranuleFileValue(ValueRef const& value) {
|
|
StringRef filename;
|
|
int64_t offset;
|
|
int64_t length;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> filename;
|
|
reader >> offset;
|
|
reader >> length;
|
|
return std::tuple(filename, offset, length);
|
|
}
|
|
|
|
const Value blobGranuleMappingValueFor(UID const& workerID) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << workerID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
UID decodeBlobGranuleMappingValue(ValueRef const& value) {
|
|
UID workerID;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> workerID;
|
|
return workerID;
|
|
}
|
|
|
|
const Key blobGranuleLockKeyFor(KeyRangeRef const& keyRange) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleLockKeys.begin);
|
|
wr << keyRange;
|
|
return wr.toValue();
|
|
}
|
|
|
|
const Value blobGranuleLockValueFor(int64_t epoch, int64_t seqno, UID changeFeedId) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << epoch;
|
|
wr << seqno;
|
|
wr << changeFeedId;
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::tuple<int64_t, int64_t, UID> decodeBlobGranuleLockValue(const ValueRef& value) {
|
|
int64_t epoch, seqno;
|
|
UID changeFeedId;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> epoch;
|
|
reader >> seqno;
|
|
reader >> changeFeedId;
|
|
return std::make_tuple(epoch, seqno, changeFeedId);
|
|
}
|
|
|
|
const Key blobGranuleSplitKeyFor(UID const& parentGranuleID, UID const& granuleID) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleSplitKeys.begin);
|
|
wr << parentGranuleID;
|
|
wr << granuleID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::pair<UID, UID> decodeBlobGranuleSplitKey(KeyRef const& key) {
|
|
UID parentGranuleID;
|
|
UID granuleID;
|
|
BinaryReader reader(key.removePrefix(blobGranuleSplitKeys.begin),
|
|
AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
|
|
reader >> parentGranuleID;
|
|
reader >> granuleID;
|
|
return std::pair(parentGranuleID, granuleID);
|
|
}
|
|
|
|
const KeyRange blobGranuleSplitKeyRangeFor(UID const& parentGranuleID) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleSplitKeys.begin);
|
|
wr << parentGranuleID;
|
|
|
|
Key startKey = wr.toValue();
|
|
return KeyRangeRef(startKey, strinc(startKey));
|
|
}
|
|
|
|
const Value blobGranuleSplitValueFor(BlobGranuleSplitState st) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << st;
|
|
return addVersionStampAtEnd(wr.toValue());
|
|
}
|
|
|
|
std::pair<BlobGranuleSplitState, Version> decodeBlobGranuleSplitValue(const ValueRef& value) {
|
|
BlobGranuleSplitState st;
|
|
Version v;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> st;
|
|
reader >> v;
|
|
return std::pair(st, v);
|
|
}
|
|
|
|
const Key blobGranuleHistoryKeyFor(KeyRangeRef const& range, Version version) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobGranuleHistoryKeys.begin);
|
|
wr << range;
|
|
wr << bigEndian64(version);
|
|
return wr.toValue();
|
|
}
|
|
|
|
std::pair<KeyRange, Version> decodeBlobGranuleHistoryKey(const KeyRef& key) {
|
|
KeyRangeRef keyRange;
|
|
Version version;
|
|
BinaryReader reader(key.removePrefix(blobGranuleHistoryKeys.begin),
|
|
AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
reader >> keyRange;
|
|
reader >> version;
|
|
return std::make_pair(keyRange, bigEndian64(version));
|
|
}
|
|
|
|
const KeyRange blobGranuleHistoryKeyRangeFor(KeyRangeRef const& range) {
|
|
return KeyRangeRef(blobGranuleHistoryKeyFor(range, 0), blobGranuleHistoryKeyFor(range, MAX_VERSION));
|
|
}
|
|
|
|
const Value blobGranuleHistoryValueFor(Standalone<BlobGranuleHistoryValue> const& historyValue) {
|
|
BinaryWriter wr(IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr << historyValue;
|
|
return wr.toValue();
|
|
}
|
|
|
|
Standalone<BlobGranuleHistoryValue> decodeBlobGranuleHistoryValue(const ValueRef& value) {
|
|
Standalone<BlobGranuleHistoryValue> historyValue;
|
|
BinaryReader reader(value, IncludeVersion());
|
|
reader >> historyValue;
|
|
return historyValue;
|
|
}
|
|
|
|
const KeyRangeRef blobWorkerListKeys(LiteralStringRef("\xff\x02/bwList/"), LiteralStringRef("\xff\x02/bwList0"));
|
|
|
|
const Key blobWorkerListKeyFor(UID workerID) {
|
|
BinaryWriter wr(AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
wr.serializeBytes(blobWorkerListKeys.begin);
|
|
wr << workerID;
|
|
return wr.toValue();
|
|
}
|
|
|
|
UID decodeBlobWorkerListKey(KeyRef const& key) {
|
|
UID workerID;
|
|
BinaryReader reader(key.removePrefix(blobWorkerListKeys.begin), AssumeVersion(ProtocolVersion::withBlobGranule()));
|
|
reader >> workerID;
|
|
return workerID;
|
|
}
|
|
|
|
const Value blobWorkerListValue(BlobWorkerInterface const& worker) {
|
|
return ObjectWriter::toValue(worker, IncludeVersion(ProtocolVersion::withBlobGranule()));
|
|
}
|
|
|
|
BlobWorkerInterface decodeBlobWorkerListValue(ValueRef const& value) {
|
|
BlobWorkerInterface interf;
|
|
ObjectReader reader(value.begin(), IncludeVersion());
|
|
reader.deserialize(interf);
|
|
return interf;
|
|
}
|
|
|
|
// for tests
|
|
void testSSISerdes(StorageServerInterface const& ssi, bool useFB) {
|
|
printf("ssi=\nid=%s\nlocality=%s\nisTss=%s\ntssId=%s\naddress=%s\ngetValue=%s\n\n\n",
|
|
ssi.id().toString().c_str(),
|
|
ssi.locality.toString().c_str(),
|
|
ssi.isTss() ? "true" : "false",
|
|
ssi.isTss() ? ssi.tssPairID.get().toString().c_str() : "",
|
|
ssi.address().toString().c_str(),
|
|
ssi.getValue.getEndpoint().token.toString().c_str());
|
|
|
|
StorageServerInterface ssi2 =
|
|
(useFB) ? decodeServerListValueFB(serverListValueFB(ssi)) : decodeServerListValue(serverListValue(ssi));
|
|
|
|
printf("ssi2=\nid=%s\nlocality=%s\nisTss=%s\ntssId=%s\naddress=%s\ngetValue=%s\n\n\n",
|
|
ssi2.id().toString().c_str(),
|
|
ssi2.locality.toString().c_str(),
|
|
ssi2.isTss() ? "true" : "false",
|
|
ssi2.isTss() ? ssi2.tssPairID.get().toString().c_str() : "",
|
|
ssi2.address().toString().c_str(),
|
|
ssi2.getValue.getEndpoint().token.toString().c_str());
|
|
|
|
ASSERT(ssi.id() == ssi2.id());
|
|
ASSERT(ssi.locality == ssi2.locality);
|
|
ASSERT(ssi.isTss() == ssi2.isTss());
|
|
if (ssi.isTss()) {
|
|
ASSERT(ssi2.tssPairID.get() == ssi2.tssPairID.get());
|
|
}
|
|
ASSERT(ssi.address() == ssi2.address());
|
|
ASSERT(ssi.getValue.getEndpoint().token == ssi2.getValue.getEndpoint().token);
|
|
}
|
|
|
|
// unit test for serialization since tss stuff had bugs
|
|
TEST_CASE("/SystemData/SerDes/SSI") {
|
|
printf("testing ssi serdes\n");
|
|
LocalityData localityData(Optional<Standalone<StringRef>>(),
|
|
Standalone<StringRef>(deterministicRandom()->randomUniqueID().toString()),
|
|
Standalone<StringRef>(deterministicRandom()->randomUniqueID().toString()),
|
|
Optional<Standalone<StringRef>>());
|
|
|
|
// non-tss
|
|
StorageServerInterface ssi;
|
|
ssi.uniqueID = UID(0x1234123412341234, 0x5678567856785678);
|
|
ssi.locality = localityData;
|
|
ssi.initEndpoints();
|
|
|
|
testSSISerdes(ssi, false);
|
|
testSSISerdes(ssi, true);
|
|
|
|
ssi.tssPairID = UID(0x2345234523452345, 0x1238123812381238);
|
|
|
|
testSSISerdes(ssi, false);
|
|
testSSISerdes(ssi, true);
|
|
printf("ssi serdes test complete\n");
|
|
|
|
return Void();
|
|
}
|