foundationdb/fdbserver/workloads/BackupToDBUpgrade.actor.cpp

533 lines
20 KiB
C++

/*
* BackupToDBUpgrade.actor.cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "fdbrpc/simulator.h"
#include "fdbclient/BackupAgent.actor.h"
#include "fdbclient/ClusterConnectionMemoryRecord.h"
#include "fdbserver/workloads/workloads.actor.h"
#include "fdbserver/workloads/BulkSetup.actor.h"
#include "fdbclient/ManagementAPI.actor.h"
#include "flow/actorcompiler.h" // This must be the last #include.
// A workload which test the correctness of upgrading DR from 5.1 to 5.2
struct BackupToDBUpgradeWorkload : TestWorkload {
double backupAfter, stopDifferentialAfter;
Key backupTag, restoreTag, backupPrefix, extraPrefix;
int backupRangesCount, backupRangeLengthMax;
Standalone<VectorRef<KeyRangeRef>> backupRanges;
Database extraDB;
BackupToDBUpgradeWorkload(WorkloadContext const& wcx) : TestWorkload(wcx) {
backupAfter = getOption(options, LiteralStringRef("backupAfter"), deterministicRandom()->random01() * 10.0);
backupPrefix = getOption(options, LiteralStringRef("backupPrefix"), StringRef());
backupRangeLengthMax = getOption(options, LiteralStringRef("backupRangeLengthMax"), 1);
stopDifferentialAfter = getOption(options, LiteralStringRef("stopDifferentialAfter"), 60.0);
backupTag = getOption(options, LiteralStringRef("backupTag"), BackupAgentBase::getDefaultTag());
restoreTag = getOption(options, LiteralStringRef("restoreTag"), LiteralStringRef("restore"));
backupRangesCount = getOption(options, LiteralStringRef("backupRangesCount"), 5);
extraPrefix = backupPrefix.withPrefix(LiteralStringRef("\xfe\xff\xfe"));
backupPrefix = backupPrefix.withPrefix(LiteralStringRef("\xfe\xff\xff"));
ASSERT(backupPrefix != StringRef());
KeyRef beginRange;
KeyRef endRange;
if (backupRangesCount <= 0) {
backupRanges.push_back_deep(backupRanges.arena(),
KeyRangeRef(normalKeys.begin, std::min(backupPrefix, extraPrefix)));
} else {
// Add backup ranges
for (int rangeLoop = 0; rangeLoop < backupRangesCount; rangeLoop++) {
// Get a random range of a random sizes
beginRange = KeyRef(backupRanges.arena(),
deterministicRandom()->randomAlphaNumeric(
deterministicRandom()->randomInt(1, backupRangeLengthMax + 1)));
endRange = KeyRef(backupRanges.arena(),
deterministicRandom()->randomAlphaNumeric(
deterministicRandom()->randomInt(1, backupRangeLengthMax + 1)));
// Add the range to the array
backupRanges.push_back_deep(backupRanges.arena(),
(beginRange < endRange) ? KeyRangeRef(beginRange, endRange)
: KeyRangeRef(endRange, beginRange));
// Track the added range
TraceEvent("DRU_BackupRange")
.detail("RangeBegin", (beginRange < endRange) ? printable(beginRange) : printable(endRange))
.detail("RangeEnd", (beginRange < endRange) ? printable(endRange) : printable(beginRange));
}
}
auto extraFile = makeReference<ClusterConnectionMemoryRecord>(*g_simulator.extraDB);
extraDB = Database::createDatabase(extraFile, -1);
TraceEvent("DRU_Start").log();
}
std::string description() const override { return "BackupToDBUpgrade"; }
Future<Void> setup(Database const& cx) override {
if (clientId != 0)
return Void();
return _setup(cx, this);
}
Future<Void> start(Database const& cx) override {
if (clientId != 0)
return Void();
return _start(cx, this);
}
Future<bool> check(Database const& cx) override { return true; }
void getMetrics(std::vector<PerfMetric>& m) override {}
ACTOR static Future<Void> doBackup(BackupToDBUpgradeWorkload* self,
DatabaseBackupAgent* backupAgent,
Database cx,
Key tag,
Standalone<VectorRef<KeyRangeRef>> backupRanges) {
try {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(self->extraDB));
loop {
try {
for (auto r : self->backupRanges) {
if (!r.empty()) {
auto targetRange = r.withPrefix(self->backupPrefix);
printf("Clearing %s in destination\n", printable(targetRange).c_str());
tr->addReadConflictRange(targetRange);
tr->clear(targetRange);
}
}
wait(backupAgent->submitBackup(
tr, tag, backupRanges, StopWhenDone::False, self->backupPrefix, StringRef()));
wait(tr->commit());
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
TraceEvent("DRU_DoBackupInDifferentialMode").detail("Tag", printable(tag));
} catch (Error& e) {
TraceEvent("DRU_DoBackupSubmitBackupError").error(e).detail("Tag", printable(tag));
if (e.code() != error_code_backup_unneeded && e.code() != error_code_backup_duplicate) {
throw e;
}
}
wait(success(backupAgent->waitBackup(self->extraDB, tag, StopWhenDone::False)));
return Void();
}
ACTOR static Future<Void> checkData(Database cx,
UID logUid,
UID destUid,
Key tag,
DatabaseBackupAgent* backupAgent) {
state Key backupAgentKey = uidPrefixKey(logRangesRange.begin, logUid);
state Key backupLogValuesKey = uidPrefixKey(backupLogKeys.begin, destUid);
state Key backupLatestVersionsPath = uidPrefixKey(backupLatestVersionsPrefix, destUid);
state Key backupLatestVersionsKey = uidPrefixKey(backupLatestVersionsPath, logUid);
state int displaySystemKeys = 0;
ASSERT(destUid.isValid());
// Ensure that there is no left over key within the backup subspace
loop {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
TraceEvent("DRU_CheckLeftoverkeys").detail("BackupTag", printable(tag));
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
// Check the left over tasks
// We have to wait for the list to empty since an abort and get status
// can leave extra tasks in the queue
TraceEvent("DRU_CheckLeftovertasks").detail("BackupTag", printable(tag));
state int64_t taskCount = wait(backupAgent->getTaskCount(tr));
state int waitCycles = 0;
if ((taskCount) && false) {
TraceEvent("DRU_EndingNonzeroTaskCount")
.detail("BackupTag", printable(tag))
.detail("TaskCount", taskCount)
.detail("WaitCycles", waitCycles);
printf("EndingNonZeroTasks: %ld\n", (long)taskCount);
wait(TaskBucket::debugPrintRange(cx, LiteralStringRef("\xff"), StringRef()));
}
loop {
waitCycles++;
TraceEvent("DRU_NonzeroTaskWait")
.detail("BackupTag", printable(tag))
.detail("TaskCount", taskCount)
.detail("WaitCycles", waitCycles);
printf("%.6f Wait #%4d for %lld tasks to end\n", now(), waitCycles, (long long)taskCount);
wait(delay(20.0));
tr = Reference<ReadYourWritesTransaction>(new ReadYourWritesTransaction(cx));
int64_t _taskCount = wait(backupAgent->getTaskCount(tr));
taskCount = _taskCount;
if (!taskCount) {
break;
}
}
if (taskCount) {
displaySystemKeys++;
TraceEvent(SevError, "DRU_NonzeroTaskCount")
.detail("BackupTag", printable(tag))
.detail("TaskCount", taskCount)
.detail("WaitCycles", waitCycles);
printf("BackupCorrectnessLeftoverLogTasks: %ld\n", (long)taskCount);
}
RangeResult agentValues =
wait(tr->getRange(KeyRange(KeyRangeRef(backupAgentKey, strinc(backupAgentKey))), 100));
// Error if the system keyspace for the backup tag is not empty
if (agentValues.size() > 0) {
displaySystemKeys++;
printf("BackupCorrectnessLeftoverMutationKeys: (%d) %s\n",
agentValues.size(),
printable(backupAgentKey).c_str());
TraceEvent(SevError, "BackupCorrectnessLeftoverMutationKeys")
.detail("BackupTag", printable(tag))
.detail("LeftoverKeys", agentValues.size())
.detail("KeySpace", printable(backupAgentKey));
for (auto& s : agentValues) {
TraceEvent("DRU_LeftoverKey")
.detail("Key", printable(StringRef(s.key.toString())))
.detail("Value", printable(StringRef(s.value.toString())));
printf(" Key: %-50s Value: %s\n",
printable(StringRef(s.key.toString())).c_str(),
printable(StringRef(s.value.toString())).c_str());
}
} else {
printf("No left over backup agent configuration keys\n");
}
Optional<Value> latestVersion = wait(tr->get(backupLatestVersionsKey));
if (latestVersion.present()) {
TraceEvent(SevError, "BackupCorrectnessLeftoverVersionKey")
.detail("BackupTag", printable(tag))
.detail("Key", backupLatestVersionsKey.printable())
.detail("Value", BinaryReader::fromStringRef<Version>(latestVersion.get(), Unversioned()));
} else {
printf("No left over backup version key\n");
}
RangeResult versions = wait(
tr->getRange(KeyRange(KeyRangeRef(backupLatestVersionsPath, strinc(backupLatestVersionsPath))), 1));
if (!versions.size()) {
RangeResult logValues =
wait(tr->getRange(KeyRange(KeyRangeRef(backupLogValuesKey, strinc(backupLogValuesKey))), 100));
// Error if the log/mutation keyspace for the backup tag is not empty
if (logValues.size() > 0) {
displaySystemKeys++;
printf("BackupCorrectnessLeftoverLogKeys: (%d) %s\n",
logValues.size(),
printable(backupLogValuesKey).c_str());
TraceEvent(SevError, "BackupCorrectnessLeftoverLogKeys")
.detail("BackupTag", printable(tag))
.detail("LeftoverKeys", logValues.size())
.detail("KeySpace", printable(backupLogValuesKey))
.detail("Version", decodeBKMutationLogKey(logValues[0].key).first);
for (auto& s : logValues) {
TraceEvent("DRU_LeftoverKey")
.detail("Key", printable(StringRef(s.key.toString())))
.detail("Value", printable(StringRef(s.value.toString())));
printf(" Key: %-50s Value: %s\n",
printable(StringRef(s.key.toString())).c_str(),
printable(StringRef(s.value.toString())).c_str());
}
} else {
printf("No left over backup log keys\n");
}
}
break;
} catch (Error& e) {
TraceEvent("DRU_CheckError").error(e);
wait(tr->onError(e));
}
}
if (displaySystemKeys) {
wait(TaskBucket::debugPrintRange(cx, LiteralStringRef("\xff"), StringRef()));
}
return Void();
}
ACTOR static Future<Void> _setup(Database cx, BackupToDBUpgradeWorkload* self) {
state DatabaseBackupAgent backupAgent(cx);
try {
wait(delay(self->backupAfter));
TraceEvent("DRU_DoBackup").detail("Tag", printable(self->backupTag));
state Future<Void> b = doBackup(self, &backupAgent, self->extraDB, self->backupTag, self->backupRanges);
TraceEvent("DRU_DoBackupWait").detail("BackupTag", printable(self->backupTag));
wait(b);
TraceEvent("DRU_DoBackupWaitEnd").detail("BackupTag", printable(self->backupTag));
} catch (Error& e) {
TraceEvent(SevError, "BackupToDBUpgradeSetuEerror").error(e);
throw;
}
return Void();
}
ACTOR static Future<Void> diffRanges(Standalone<VectorRef<KeyRangeRef>> ranges,
StringRef backupPrefix,
Database src,
Database dest) {
state int rangeIndex;
for (rangeIndex = 0; rangeIndex < ranges.size(); ++rangeIndex) {
state KeyRangeRef range = ranges[rangeIndex];
state Key begin = range.begin;
if (range.empty()) {
continue;
}
loop {
state Transaction tr(src);
state Transaction tr2(dest);
try {
loop {
tr.setOption(FDBTransactionOptions::LOCK_AWARE);
tr2.setOption(FDBTransactionOptions::LOCK_AWARE);
state Future<RangeResult> srcFuture = tr.getRange(KeyRangeRef(begin, range.end), 1000);
state Future<RangeResult> bkpFuture =
tr2.getRange(KeyRangeRef(begin, range.end).withPrefix(backupPrefix), 1000);
wait(success(srcFuture) && success(bkpFuture));
auto src = srcFuture.get().begin();
auto bkp = bkpFuture.get().begin();
while (src != srcFuture.get().end() && bkp != bkpFuture.get().end()) {
KeyRef bkpKey = bkp->key.substr(backupPrefix.size());
if (src->key != bkpKey && src->value != bkp->value) {
TraceEvent(SevError, "MismatchKeyAndValue")
.detail("SrcKey", printable(src->key))
.detail("SrcVal", printable(src->value))
.detail("BkpKey", printable(bkpKey))
.detail("BkpVal", printable(bkp->value));
} else if (src->key != bkpKey) {
TraceEvent(SevError, "MismatchKey")
.detail("SrcKey", printable(src->key))
.detail("SrcVal", printable(src->value))
.detail("BkpKey", printable(bkpKey))
.detail("BkpVal", printable(bkp->value));
} else if (src->value != bkp->value) {
TraceEvent(SevError, "MismatchValue")
.detail("SrcKey", printable(src->key))
.detail("SrcVal", printable(src->value))
.detail("BkpKey", printable(bkpKey))
.detail("BkpVal", printable(bkp->value));
}
begin = std::min(src->key, bkpKey);
if (src->key == bkpKey) {
++src;
++bkp;
} else if (src->key < bkpKey) {
++src;
} else {
++bkp;
}
}
while (src != srcFuture.get().end() && !bkpFuture.get().more) {
TraceEvent(SevError, "MissingBkpKey")
.detail("SrcKey", printable(src->key))
.detail("SrcVal", printable(src->value));
begin = src->key;
++src;
}
while (bkp != bkpFuture.get().end() && !srcFuture.get().more) {
TraceEvent(SevError, "MissingSrcKey")
.detail("BkpKey", printable(bkp->key.substr(backupPrefix.size())))
.detail("BkpVal", printable(bkp->value));
begin = bkp->key;
++bkp;
}
if (!srcFuture.get().more && !bkpFuture.get().more) {
break;
}
begin = keyAfter(begin);
}
break;
} catch (Error& e) {
wait(tr.onError(e));
}
}
}
return Void();
}
ACTOR static Future<Void> _start(Database cx, BackupToDBUpgradeWorkload* self) {
state DatabaseBackupAgent backupAgent(cx);
state DatabaseBackupAgent restoreTool(self->extraDB);
state Standalone<VectorRef<KeyRangeRef>> prevBackupRanges;
state UID logUid;
state Version commitVersion;
state Future<Void> stopDifferential = delay(self->stopDifferentialAfter);
state Future<Void> waitUpgrade = backupAgent.waitUpgradeToLatestDrVersion(self->extraDB, self->backupTag);
wait(success(stopDifferential) && success(waitUpgrade));
TraceEvent("DRU_WaitDifferentialEnd").detail("Tag", printable(self->backupTag));
try {
// Get restore ranges before aborting
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(self->extraDB));
loop {
try {
// Get backup ranges
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
UID _logUid = wait(backupAgent.getLogUid(tr, self->backupTag));
logUid = _logUid;
Optional<Key> backupKeysPacked =
wait(tr->get(backupAgent.config.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(BackupAgentBase::keyConfigBackupRanges)));
ASSERT(backupKeysPacked.present());
BinaryReader br(backupKeysPacked.get(), IncludeVersion());
prevBackupRanges = Standalone<VectorRef<KeyRangeRef>>();
br >> prevBackupRanges;
wait(lockDatabase(tr, logUid));
tr->addWriteConflictRange(singleKeyRange(StringRef()));
wait(tr->commit());
commitVersion = tr->getCommittedVersion();
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
TraceEvent("DRU_Locked").detail("LockedVersion", commitVersion);
// Wait for the destination to apply mutations up to the lock commit before switching over.
state ReadYourWritesTransaction versionCheckTr(self->extraDB);
loop {
try {
versionCheckTr.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
versionCheckTr.setOption(FDBTransactionOptions::LOCK_AWARE);
Optional<Value> v = wait(versionCheckTr.get(
BinaryWriter::toValue(logUid, Unversioned()).withPrefix(applyMutationsBeginRange.begin)));
TraceEvent("DRU_Applied")
.detail("AppliedVersion",
v.present() ? BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) : -1);
if (v.present() && BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) >= commitVersion)
break;
state Future<Void> versionWatch = versionCheckTr.watch(
BinaryWriter::toValue(logUid, Unversioned()).withPrefix(applyMutationsBeginRange.begin));
wait(versionCheckTr.commit());
wait(versionWatch);
versionCheckTr.reset();
} catch (Error& e) {
wait(versionCheckTr.onError(e));
}
}
TraceEvent("DRU_DiffRanges").log();
wait(diffRanges(prevBackupRanges, self->backupPrefix, cx, self->extraDB));
// abort backup
TraceEvent("DRU_AbortBackup").detail("Tag", printable(self->backupTag));
wait(backupAgent.abortBackup(self->extraDB, self->backupTag));
wait(unlockDatabase(self->extraDB, logUid));
// restore database
TraceEvent("DRU_PrepareRestore").detail("RestoreTag", printable(self->restoreTag));
state Reference<ReadYourWritesTransaction> tr2(new ReadYourWritesTransaction(cx));
loop {
try {
tr2->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr2->setOption(FDBTransactionOptions::LOCK_AWARE);
for (auto r : prevBackupRanges) {
if (!r.empty()) {
std::cout << "r: " << r.begin.printable() << " - " << r.end.printable() << std::endl;
tr2->addReadConflictRange(r);
tr2->clear(r);
}
}
wait(tr2->commit());
break;
} catch (Error& e) {
TraceEvent("DRU_RestoreSetupError").errorUnsuppressed(e);
wait(tr2->onError(e));
}
}
state Standalone<VectorRef<KeyRangeRef>> restoreRanges;
for (auto r : prevBackupRanges) {
restoreRanges.push_back_deep(
restoreRanges.arena(),
KeyRangeRef(r.begin.withPrefix(self->backupPrefix), r.end.withPrefix(self->backupPrefix)));
}
// start restoring db
try {
TraceEvent("DRU_RestoreDb").detail("RestoreTag", printable(self->restoreTag));
wait(restoreTool.submitBackup(
cx, self->restoreTag, restoreRanges, StopWhenDone::True, StringRef(), self->backupPrefix));
} catch (Error& e) {
TraceEvent("DRU_RestoreSubmitBackupError").error(e).detail("Tag", printable(self->restoreTag));
if (e.code() != error_code_backup_unneeded && e.code() != error_code_backup_duplicate)
throw;
}
wait(success(restoreTool.waitBackup(cx, self->restoreTag)));
wait(restoreTool.unlockBackup(cx, self->restoreTag));
wait(checkData(self->extraDB, logUid, logUid, self->backupTag, &backupAgent));
state UID restoreUid = wait(restoreTool.getLogUid(cx, self->restoreTag));
wait(checkData(cx, restoreUid, restoreUid, self->restoreTag, &restoreTool));
TraceEvent("DRU_Complete").detail("BackupTag", printable(self->backupTag));
if (g_simulator.drAgents == ISimulator::BackupAgentType::BackupToDB) {
g_simulator.drAgents = ISimulator::BackupAgentType::NoBackupAgents;
}
} catch (Error& e) {
TraceEvent(SevError, "BackupAndRestoreCorrectnessError").error(e);
throw;
}
return Void();
}
};
WorkloadFactory<BackupToDBUpgradeWorkload> BackupToDBUpgradeWorkloadFactory("BackupToDBUpgrade");