foundationdb/fdbserver/ConfigDatabaseUnitTests.act...

1030 lines
38 KiB
C++

/*
* ConfigDatabaseUnitTests.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 "fdbclient/CoordinationInterface.h"
#include "fdbclient/IConfigTransaction.h"
#include "fdbclient/TestKnobCollection.h"
#include "fdbserver/ConfigBroadcaster.h"
#include "fdbserver/ConfigNode.h"
#include "fdbserver/LocalConfiguration.h"
#include "fdbclient/Tuple.h"
#include "flow/UnitTest.h"
#include "flow/actorcompiler.h" // must be last include
namespace {
Key encodeConfigKey(Optional<KeyRef> configClass, KeyRef knobName) {
Tuple tuple;
if (configClass.present()) {
tuple.append(configClass.get());
} else {
tuple.appendNull();
}
tuple << knobName;
return tuple.pack();
}
void appendVersionedMutation(Standalone<VectorRef<VersionedConfigMutationRef>>& versionedMutations,
Version version,
Optional<KeyRef> configClass,
KeyRef knobName,
Optional<KnobValueRef> knobValue) {
auto configKey = ConfigKeyRef(configClass, knobName);
auto mutation = ConfigMutationRef(configKey, knobValue);
versionedMutations.emplace_back_deep(versionedMutations.arena(), version, mutation);
}
class WriteToTransactionEnvironment {
std::string dataDir;
ConfigTransactionInterface cti;
ConfigFollowerInterface cfi;
Reference<ConfigNode> node;
Future<Void> ctiServer;
Future<Void> cfiServer;
Version lastWrittenVersion{ 0 };
static Value longToValue(int64_t v) {
auto s = format("%ld", v);
return StringRef(reinterpret_cast<uint8_t const*>(s.c_str()), s.size());
}
ACTOR static Future<Void> set(WriteToTransactionEnvironment* self,
Optional<KeyRef> configClass,
KeyRef knobName,
int64_t value) {
state Reference<IConfigTransaction> tr = IConfigTransaction::createTestSimple(self->cti);
auto configKey = encodeConfigKey(configClass, knobName);
tr->set(configKey, longToValue(value));
wait(tr->commit());
self->lastWrittenVersion = tr->getCommittedVersion();
return Void();
}
ACTOR static Future<Void> clear(WriteToTransactionEnvironment* self,
Optional<KeyRef> configClass,
KeyRef knobName) {
state Reference<IConfigTransaction> tr = IConfigTransaction::createTestSimple(self->cti);
auto configKey = encodeConfigKey(configClass, knobName);
tr->clear(configKey);
wait(tr->commit());
self->lastWrittenVersion = tr->getCommittedVersion();
return Void();
}
void setup() {
ctiServer = node->serve(cti);
cfiServer = node->serve(cfi);
}
public:
WriteToTransactionEnvironment(std::string const& dataDir)
: dataDir(dataDir), node(makeReference<ConfigNode>(dataDir)) {
platform::eraseDirectoryRecursive(dataDir);
setup();
}
Future<Void> set(Optional<KeyRef> configClass, KeyRef knobName, int64_t value) {
return set(this, configClass, knobName, value);
}
Future<Void> clear(Optional<KeyRef> configClass, KeyRef knobName) { return clear(this, configClass, knobName); }
Future<Void> compact() { return cfi.compact.getReply(ConfigFollowerCompactRequest{ lastWrittenVersion }); }
Future<Void> rollforward(Optional<Version> rollback,
Version lastKnownCommitted,
Version target,
Standalone<VectorRef<VersionedConfigMutationRef>> mutations,
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations) {
return cfi.rollforward.getReply(
ConfigFollowerRollforwardRequest{ rollback, lastKnownCommitted, target, mutations, annotations });
}
void restartNode() {
cfiServer.cancel();
ctiServer.cancel();
node = makeReference<ConfigNode>(dataDir);
setup();
}
ConfigTransactionInterface getTransactionInterface() const { return cti; }
ConfigFollowerInterface getFollowerInterface() const { return cfi; }
void close() const { node->close(); }
Future<Void> onClosed() const { return node->onClosed(); }
Future<Void> getError() const { return cfiServer || ctiServer; }
};
class ReadFromLocalConfigEnvironment {
UID id;
std::string dataDir;
Reference<LocalConfiguration> localConfiguration;
Reference<AsyncVar<ConfigBroadcastInterface> const> cbi;
Future<Void> consumer;
ACTOR template <class T, class V, class E>
static Future<Void> checkEventually(Reference<LocalConfiguration const> localConfiguration,
V T::*member,
Optional<E> expected) {
state double lastMismatchTime = now();
loop {
if (localConfiguration->getTestKnobs().*member == expected.orDefault(0)) {
return Void();
}
if (now() > lastMismatchTime + 1.0) {
TraceEvent(SevWarn, "CheckEventuallyStillChecking")
.detail("Expected", expected.present() ? expected.get() : 0)
.detail("TestMember", localConfiguration->getTestKnobs().*member);
lastMismatchTime = now();
}
wait(delayJittered(0.1));
}
}
ACTOR static Future<Void> setup(ReadFromLocalConfigEnvironment* self) {
wait(self->localConfiguration->initialize());
if (self->cbi) {
// LocalConfiguration runs in a loop waiting for messages from the
// broadcaster. These unit tests use the same
// ConfigBroadcastInterface across restarts, so when "killing" the
// old LocalConfiguration, it's necessary to make sure it is
// completely stopped before starting the second config. This
// prevents two actors trying to listen for the same message on the
// same interface, causing lots of issues!
self->consumer.cancel();
self->consumer = self->localConfiguration->consume(self->cbi->get());
}
return Void();
}
public:
ReadFromLocalConfigEnvironment(std::string const& dataDir,
std::string const& configPath,
std::map<std::string, std::string> const& manualKnobOverrides)
: dataDir(dataDir),
localConfiguration(makeReference<LocalConfiguration>(dataDir, configPath, manualKnobOverrides, IsTest::True)),
consumer(Never()) {}
Future<Void> setup() { return setup(this); }
Future<Void> restartLocalConfig(std::string const& newConfigPath) {
std::map<std::string, std::string> manualKnobOverrides = {};
localConfiguration =
makeReference<LocalConfiguration>(dataDir, newConfigPath, manualKnobOverrides, IsTest::True);
return setup();
}
void connectToBroadcaster(Reference<AsyncVar<ConfigBroadcastInterface> const> const& cbi) {
this->cbi = cbi;
consumer = localConfiguration->consume(cbi->get());
}
template <class T, class V, class E>
void checkImmediate(V T::*member, Optional<E> expected) const {
if (expected.present()) {
ASSERT_EQ(localConfiguration->getTestKnobs().*member, expected.get());
} else {
ASSERT_EQ(localConfiguration->getTestKnobs().*member, 0);
}
}
template <class T, class V, class E>
Future<Void> checkEventually(V T::*member, Optional<E> expected) const {
return checkEventually(localConfiguration, member, expected);
}
LocalConfiguration& getMutableLocalConfiguration() { return *localConfiguration; }
void close() const { localConfiguration->close(); }
Future<Void> onClosed() const { return localConfiguration->onClosed(); }
Future<Void> getError() const { return consumer; }
Version lastSeenVersion() { return localConfiguration->lastSeenVersion(); }
ConfigClassSet configClassSet() { return localConfiguration->configClassSet(); }
};
class LocalConfigEnvironment {
ReadFromLocalConfigEnvironment readFrom;
Version lastWrittenVersion{ 0 };
Future<Void> addMutation(Optional<KeyRef> configClass, KeyRef knobName, Optional<KnobValueRef> value) {
Standalone<VectorRef<VersionedConfigMutationRef>> versionedMutations;
appendVersionedMutation(versionedMutations, ++lastWrittenVersion, configClass, knobName, value);
return readFrom.getMutableLocalConfiguration().addChanges(versionedMutations, lastWrittenVersion);
}
public:
LocalConfigEnvironment(std::string const& dataDir,
std::string const& configPath,
std::map<std::string, std::string> const& manualKnobOverrides = {})
: readFrom(dataDir, configPath, manualKnobOverrides) {}
Future<Void> setup(ConfigClassSet const& configClassSet) { return readFrom.setup(); }
Future<Void> restartLocalConfig(std::string const& newConfigPath) {
return readFrom.restartLocalConfig(newConfigPath);
}
Future<Void> getError() const { return Never(); }
Future<Void> clear(Optional<KeyRef> configClass, KeyRef knobName) { return addMutation(configClass, knobName, {}); }
Future<Void> set(Optional<KeyRef> configClass, KeyRef knobName, int64_t value) {
auto knobValue = KnobValueRef::create(value);
return addMutation(configClass, knobName, knobValue.contents());
}
template <class T, class V, class E>
void check(V T::*member, Optional<E> value) const {
return readFrom.checkImmediate(member, value);
}
};
class BroadcasterToLocalConfigEnvironment {
ReadFromLocalConfigEnvironment readFrom;
Reference<AsyncVar<ConfigBroadcastInterface>> cbi;
ConfigBroadcaster broadcaster;
Version lastWrittenVersion{ 0 };
Future<Void> broadcastServer;
Promise<Void> workerFailure;
Future<Void> workerFailed_;
ACTOR static Future<Void> setup(BroadcasterToLocalConfigEnvironment* self, ConfigClassSet configClassSet) {
wait(self->readFrom.setup());
self->cbi = makeReference<AsyncVar<ConfigBroadcastInterface>>();
self->readFrom.connectToBroadcaster(self->cbi);
self->broadcastServer =
self->broadcaster.registerWorker(0, configClassSet, self->workerFailure.getFuture(), self->cbi->get());
return Void();
}
void addMutation(Optional<KeyRef> configClass, KeyRef knobName, KnobValueRef value) {
Standalone<VectorRef<VersionedConfigMutationRef>> versionedMutations;
appendVersionedMutation(versionedMutations, ++lastWrittenVersion, configClass, knobName, value);
broadcaster.applyChanges(versionedMutations, lastWrittenVersion, {});
}
public:
BroadcasterToLocalConfigEnvironment(std::string const& dataDir, std::string const& configPath)
: readFrom(dataDir, configPath, {}), cbi(makeReference<AsyncVar<ConfigBroadcastInterface>>()),
broadcaster(ConfigFollowerInterface{}) {}
Future<Void> setup(ConfigClassSet const& configClassSet) { return setup(this, configClassSet); }
void set(Optional<KeyRef> configClass, KeyRef knobName, int64_t value) {
auto knobValue = KnobValueRef::create(value);
addMutation(configClass, knobName, knobValue.contents());
}
void clear(Optional<KeyRef> configClass, KeyRef knobName) { addMutation(configClass, knobName, {}); }
template <class T, class V, class E>
Future<Void> check(V T::*member, Optional<E> value) const {
return readFrom.checkEventually(member, value);
}
void changeBroadcaster() {
broadcastServer.cancel();
cbi->set(ConfigBroadcastInterface{});
readFrom.connectToBroadcaster(cbi);
broadcastServer = broadcaster.registerWorker(
readFrom.lastSeenVersion(), readFrom.configClassSet(), workerFailure.getFuture(), cbi->get());
}
Future<Void> restartLocalConfig(std::string const& newConfigPath) {
return readFrom.restartLocalConfig(newConfigPath);
}
void killLocalConfig() {
workerFailed_ = broadcaster.getClientFailure(cbi->get().id());
workerFailure.send(Void());
}
Future<Void> workerFailed() {
ASSERT(workerFailed_.isValid());
return workerFailed_;
}
void compact() { broadcaster.compact(lastWrittenVersion); }
void close() const { readFrom.close(); }
Future<Void> onClosed() const { return readFrom.onClosed(); }
Future<Void> getError() const { return readFrom.getError() || broadcaster.getError(); }
};
class TransactionEnvironment {
WriteToTransactionEnvironment writeTo;
ACTOR static Future<Void> check(TransactionEnvironment* self,
Optional<KeyRef> configClass,
KeyRef knobName,
Optional<int64_t> expected) {
state Reference<IConfigTransaction> tr =
IConfigTransaction::createTestSimple(self->writeTo.getTransactionInterface());
state Key configKey = encodeConfigKey(configClass, knobName);
state Optional<Value> value = wait(tr->get(configKey));
if (expected.present()) {
ASSERT_EQ(BinaryReader::fromStringRef<int64_t>(value.get(), Unversioned()), expected.get());
} else {
ASSERT(!value.present());
}
return Void();
}
ACTOR static Future<Standalone<VectorRef<KeyRef>>> getConfigClasses(TransactionEnvironment* self) {
state Reference<IConfigTransaction> tr =
IConfigTransaction::createTestSimple(self->writeTo.getTransactionInterface());
state KeySelector begin = firstGreaterOrEqual(configClassKeys.begin);
state KeySelector end = firstGreaterOrEqual(configClassKeys.end);
RangeResult range = wait(tr->getRange(begin, end, 1000));
Standalone<VectorRef<KeyRef>> result;
for (const auto& kv : range) {
result.push_back_deep(result.arena(), kv.key);
ASSERT(kv.value == ""_sr);
}
return result;
}
ACTOR static Future<Standalone<VectorRef<KeyRef>>> getKnobNames(TransactionEnvironment* self,
Optional<KeyRef> configClass) {
state Reference<IConfigTransaction> tr =
IConfigTransaction::createTestSimple(self->writeTo.getTransactionInterface());
state KeyRange keys = globalConfigKnobKeys;
if (configClass.present()) {
keys = singleKeyRange(configClass.get().withPrefix(configKnobKeys.begin));
}
KeySelector begin = firstGreaterOrEqual(keys.begin);
KeySelector end = firstGreaterOrEqual(keys.end);
RangeResult range = wait(tr->getRange(begin, end, 1000));
Standalone<VectorRef<KeyRef>> result;
for (const auto& kv : range) {
result.push_back_deep(result.arena(), kv.key);
ASSERT(kv.value == ""_sr);
}
return result;
}
ACTOR static Future<Void> badRangeRead(TransactionEnvironment* self) {
state Reference<IConfigTransaction> tr =
IConfigTransaction::createTestSimple(self->writeTo.getTransactionInterface());
KeySelector begin = firstGreaterOrEqual(normalKeys.begin);
KeySelector end = firstGreaterOrEqual(normalKeys.end);
wait(success(tr->getRange(begin, end, 1000)));
return Void();
}
public:
TransactionEnvironment(std::string const& dataDir) : writeTo(dataDir) {}
Future<Void> setup() { return Void(); }
void restartNode() { writeTo.restartNode(); }
template <class T>
Future<Void> set(Optional<KeyRef> configClass, KeyRef knobName, T value) {
return writeTo.set(configClass, knobName, value);
}
Future<Void> clear(Optional<KeyRef> configClass, KeyRef knobName) { return writeTo.clear(configClass, knobName); }
Future<Void> check(Optional<KeyRef> configClass, KeyRef knobName, Optional<int64_t> expected) {
return check(this, configClass, knobName, expected);
}
Future<Void> badRangeRead() { return badRangeRead(this); }
Future<Standalone<VectorRef<KeyRef>>> getConfigClasses() { return getConfigClasses(this); }
Future<Standalone<VectorRef<KeyRef>>> getKnobNames(Optional<KeyRef> configClass) {
return getKnobNames(this, configClass);
}
Future<Void> compact() { return writeTo.compact(); }
Future<Void> rollforward(Optional<Version> rollback,
Version lastKnownCommitted,
Version target,
Standalone<VectorRef<VersionedConfigMutationRef>> mutations,
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations) {
return writeTo.rollforward(rollback, lastKnownCommitted, target, mutations, annotations);
}
Future<Void> getError() const { return writeTo.getError(); }
};
class TransactionToLocalConfigEnvironment {
WriteToTransactionEnvironment writeTo;
ReadFromLocalConfigEnvironment readFrom;
Reference<AsyncVar<ConfigBroadcastInterface>> cbi;
ConfigBroadcaster broadcaster;
Future<Void> broadcastServer;
Promise<Void> workerFailure;
Future<Void> workerFailed_;
ACTOR static Future<Void> setup(TransactionToLocalConfigEnvironment* self, ConfigClassSet configClassSet) {
wait(self->readFrom.setup());
self->cbi = makeReference<AsyncVar<ConfigBroadcastInterface>>();
self->readFrom.connectToBroadcaster(self->cbi);
self->broadcastServer =
self->broadcaster.registerWorker(0, configClassSet, self->workerFailure.getFuture(), self->cbi->get());
return Void();
}
public:
TransactionToLocalConfigEnvironment(std::string const& dataDir, std::string const& configPath)
: writeTo(dataDir), readFrom(dataDir, configPath, {}), cbi(makeReference<AsyncVar<ConfigBroadcastInterface>>()),
broadcaster(writeTo.getFollowerInterface()) {}
Future<Void> setup(ConfigClassSet const& configClassSet) { return setup(this, configClassSet); }
void restartNode() { writeTo.restartNode(); }
void changeBroadcaster() {
broadcastServer.cancel();
cbi->set(ConfigBroadcastInterface{});
readFrom.connectToBroadcaster(cbi);
broadcastServer = broadcaster.registerWorker(
readFrom.lastSeenVersion(), readFrom.configClassSet(), workerFailure.getFuture(), cbi->get());
}
Future<Void> restartLocalConfig(std::string const& newConfigPath) {
return readFrom.restartLocalConfig(newConfigPath);
}
void killLocalConfig() {
workerFailed_ = broadcaster.getClientFailure(cbi->get().id());
workerFailure.send(Void());
}
Future<Void> workerFailed() {
ASSERT(workerFailed_.isValid());
return workerFailed_;
}
Future<Void> compact() { return writeTo.compact(); }
template <class T>
Future<Void> set(Optional<KeyRef> configClass, KeyRef knobName, T const& value) {
return writeTo.set(configClass, knobName, value);
}
Future<Void> clear(Optional<KeyRef> configClass, KeyRef knobName) { return writeTo.clear(configClass, knobName); }
template <class T, class V, class E>
Future<Void> check(V T::*member, Optional<E> value) const {
return readFrom.checkEventually(member, value);
}
void close() const {
writeTo.close();
readFrom.close();
}
Future<Void> onClosed() const { return writeTo.onClosed() && readFrom.onClosed(); }
Future<Void> getError() const { return writeTo.getError() || readFrom.getError() || broadcaster.getError(); }
};
// These functions give a common interface to all environments, to improve code reuse
template <class Env, class... Args>
Future<Void> set(Env& env, Args&&... args) {
return waitOrError(env.set(std::forward<Args>(args)...), env.getError());
}
template <class... Args>
Future<Void> set(BroadcasterToLocalConfigEnvironment& env, Args&&... args) {
env.set(std::forward<Args>(args)...);
return Void();
}
template <class Env, class... Args>
Future<Void> clear(Env& env, Args&&... args) {
return waitOrError(env.clear(std::forward<Args>(args)...), env.getError());
}
template <class... Args>
Future<Void> clear(BroadcasterToLocalConfigEnvironment& env, Args&&... args) {
env.clear(std::forward<Args>(args)...);
return Void();
}
template <class Env, class... Args>
Future<Void> check(Env& env, Args&&... args) {
return waitOrError(env.check(std::forward<Args>(args)...), env.getError());
}
template <class... Args>
Future<Void> check(LocalConfigEnvironment& env, Args&&... args) {
env.check(std::forward<Args>(args)...);
return Void();
}
template <class Env>
Future<Void> compact(Env& env) {
return waitOrError(env.compact(), env.getError());
}
Future<Void> compact(BroadcasterToLocalConfigEnvironment& env) {
env.compact();
return Void();
}
template <class Env, class... Args>
Future<Void> rollforward(Env& env, Args&&... args) {
return waitOrError(env.rollforward(std::forward<Args>(args)...), env.getError());
}
ACTOR template <class Env>
Future<Void> testRestartLocalConfig(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(env.restartLocalConfig("class-A"));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(set(env, "class-A"_sr, "test_long"_sr, 2));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 2 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testRestartLocalConfigAndChangeClass(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr, "class-B"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(env.restartLocalConfig("class-B"));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 0 }));
wait(set(env, "class-B"_sr, "test_long"_sr, int64_t{ 2 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 2 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testNewLocalConfigAfterCompaction(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(compact(env));
// Erase the data dir to simulate a new worker joining the system after
// compaction.
platform::eraseDirectoryRecursive(params.getDataDir());
platform::createDirectory(params.getDataDir());
wait(env.restartLocalConfig("class-A"));
// Reregister worker with broadcaster.
env.changeBroadcaster();
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(set(env, "class-A"_sr, "test_long"_sr, 2));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 2 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testKillWorker(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
env.killLocalConfig();
// Make sure broadcaster detects worker death in a timely manner.
wait(timeoutError(env.workerFailed(), 3));
Future<Void> closed = env.onClosed();
env.close();
wait(closed);
return Void();
}
ACTOR template <class Env>
Future<Void> testSet(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testAtomicSet(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
state bool restarted = false;
try {
wait(set(env, "class-A"_sr, "test_atomic_long"_sr, int64_t{ 1 }));
} catch (Error& e) {
ASSERT(e.code() == error_code_local_config_changed);
restarted = true;
}
ASSERT(restarted);
wait(env.restartLocalConfig("class-A"));
wait(check(env, &TestKnobs::TEST_ATOMIC_LONG, Optional<int64_t>{ 1 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testClear(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(clear(env, "class-A"_sr, "test_long"_sr));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{}));
return Void();
}
ACTOR template <class Env>
Future<Void> testAtomicClear(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
state bool restarted = false;
try {
wait(set(env, "class-A"_sr, "test_atomic_long"_sr, int64_t{ 1 }));
} catch (Error& e) {
ASSERT(e.code() == error_code_local_config_changed);
restarted = true;
}
ASSERT(restarted);
restarted = false;
try {
wait(clear(env, "class-A"_sr, "test_atomic_long"_sr));
} catch (Error& e) {
ASSERT(e.code() == error_code_local_config_changed);
restarted = true;
}
ASSERT(restarted);
wait(check(env, &TestKnobs::TEST_ATOMIC_LONG, Optional<int64_t>{}));
return Void();
}
ACTOR template <class Env>
Future<Void> testGlobalSet(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, Optional<KeyRef>{}, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 10 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 10 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testIgnore(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr, "class-B"_sr })));
wait(set(env, "class-B"_sr, "test_long"_sr, int64_t{ 1 }));
choose {
when(wait(delay(5))) {}
when(wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }))) { ASSERT(false); }
}
return Void();
}
ACTOR template <class Env>
Future<Void> testCompact(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(compact(env));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 2 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 2 }));
return Void();
}
ACTOR template <class Env>
Future<Void> testChangeBroadcaster(UnitTestParameters params) {
state Env env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
env.changeBroadcaster();
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 2 }));
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 2 }));
return Void();
}
bool matches(Standalone<VectorRef<KeyRef>> const& vec, std::set<Key> const& compareTo) {
std::set<Key> s;
for (const auto& value : vec) {
s.insert(value);
}
return (s == compareTo);
}
ACTOR Future<Void> testGetConfigClasses(UnitTestParameters params, bool doCompact) {
state TransactionEnvironment env(params.getDataDir());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(set(env, "class-B"_sr, "test_long"_sr, int64_t{ 1 }));
if (doCompact) {
wait(compact(env));
}
Standalone<VectorRef<KeyRef>> configClasses = wait(env.getConfigClasses());
ASSERT(matches(configClasses, { "class-A"_sr, "class-B"_sr }));
return Void();
}
ACTOR Future<Void> testGetKnobs(UnitTestParameters params, bool global, bool doCompact) {
state TransactionEnvironment env(params.getDataDir());
state Optional<Key> configClass;
if (!global) {
configClass = "class-A"_sr;
}
wait(set(env, configClass.castTo<KeyRef>(), "test_long"_sr, int64_t{ 1 }));
wait(set(env, configClass.castTo<KeyRef>(), "test_int"_sr, int{ 2 }));
wait(set(env, "class-B"_sr, "test_double"_sr, double{ 3.0 })); // ignored
if (doCompact) {
wait(compact(env));
}
Standalone<VectorRef<KeyRef>> knobNames =
wait(waitOrError(env.getKnobNames(configClass.castTo<KeyRef>()), env.getError()));
ASSERT(matches(knobNames, { "test_long"_sr, "test_int"_sr }));
return Void();
}
} // namespace
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/Set") {
wait(testSet<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/AtomicSet") {
wait(testAtomicSet<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/Restart") {
wait(testRestartLocalConfig<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/RestartFresh") {
wait(testRestartLocalConfigAndChangeClass<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/Clear") {
wait(testClear<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/AtomicClear") {
wait(testAtomicClear<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/GlobalSet") {
wait(testGlobalSet<LocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/ConflictingOverrides") {
state LocalConfigEnvironment env(params.getDataDir(), "class-A/class-B", {});
wait(env.setup(ConfigClassSet({ "class-A"_sr, "class-B"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(set(env, "class-B"_sr, "test_long"_sr, int64_t{ 10 }));
env.check(&TestKnobs::TEST_LONG, Optional<int64_t>{ 10 });
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/LocalConfiguration/Manual") {
state LocalConfigEnvironment env(params.getDataDir(), "class-A", { { "test_long", "1000" } });
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
env.check(&TestKnobs::TEST_LONG, Optional<int64_t>{ 1000 });
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/Set") {
wait(testSet<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/Clear") {
wait(testClear<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/Ignore") {
wait(testIgnore<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/GlobalSet") {
wait(testGlobalSet<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/ChangeBroadcaster") {
wait(testChangeBroadcaster<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/RestartLocalConfig") {
wait(testRestartLocalConfig<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/RestartLocalConfigAndChangeClass") {
wait(testRestartLocalConfigAndChangeClass<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/Compact") {
wait(testCompact<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/RestartLocalConfigurationAfterCompaction") {
wait(testNewLocalConfigAfterCompaction<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/BroadcasterToLocalConfig/KillWorker") {
wait(testKillWorker<BroadcasterToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/Set") {
wait(testSet<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/Clear") {
wait(testClear<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/GlobalSet") {
wait(testGlobalSet<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/RestartNode") {
state TransactionToLocalConfigEnvironment env(params.getDataDir(), "class-A");
wait(env.setup(ConfigClassSet({ "class-A"_sr })));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
env.restartNode();
wait(check(env, &TestKnobs::TEST_LONG, Optional<int64_t>{ 1 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/ChangeBroadcaster") {
wait(testChangeBroadcaster<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/RestartLocalConfigAndChangeClass") {
wait(testRestartLocalConfigAndChangeClass<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/CompactNode") {
wait(testCompact<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/RestartLocalConfigurationAfterCompaction") {
wait(testNewLocalConfigAfterCompaction<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/TransactionToLocalConfig/KillWorker") {
wait(testKillWorker<TransactionToLocalConfigEnvironment>(params));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/Set") {
state TransactionEnvironment env(params.getDataDir());
wait(env.setup());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{ 1 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/Clear") {
state TransactionEnvironment env(params.getDataDir());
wait(env.setup());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(clear(env, "class-A"_sr, "test_long"_sr));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{}));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/Restart") {
state TransactionEnvironment env(params.getDataDir());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
env.restartNode();
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{ 1 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/CompactNode") {
state TransactionEnvironment env(params.getDataDir());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
wait(compact(env));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{ 1 }));
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 2 }));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{ 2 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/Rollforward") {
state TransactionEnvironment env(params.getDataDir());
Standalone<VectorRef<VersionedConfigMutationRef>> mutations;
appendVersionedMutation(
mutations, 1, "class-A"_sr, "test_long_v1"_sr, KnobValueRef::create(int64_t{ 1 }).contents());
appendVersionedMutation(
mutations, 2, "class-B"_sr, "test_long_v2"_sr, KnobValueRef::create(int64_t{ 2 }).contents());
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations;
annotations.emplace_back_deep(annotations.arena(), 1, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
annotations.emplace_back_deep(annotations.arena(), 2, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
wait(rollforward(env, Optional<Version>{}, 0, 2, mutations, annotations));
wait(check(env, "class-A"_sr, "test_long_v1"_sr, Optional<int64_t>{ 1 }));
wait(check(env, "class-B"_sr, "test_long_v2"_sr, Optional<int64_t>{ 2 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/RollforwardWithExistingMutation") {
state TransactionEnvironment env(params.getDataDir());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
Standalone<VectorRef<VersionedConfigMutationRef>> mutations;
appendVersionedMutation(
mutations, 2, "class-A"_sr, "test_long_v2"_sr, KnobValueRef::create(int64_t{ 2 }).contents());
appendVersionedMutation(
mutations, 3, "class-A"_sr, "test_long_v3"_sr, KnobValueRef::create(int64_t{ 3 }).contents());
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations;
annotations.emplace_back_deep(annotations.arena(), 2, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
annotations.emplace_back_deep(annotations.arena(), 3, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
wait(rollforward(env, Optional<Version>{}, 1, 3, mutations, annotations));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{ 1 }));
wait(check(env, "class-A"_sr, "test_long_v2"_sr, Optional<int64_t>{ 2 }));
wait(check(env, "class-A"_sr, "test_long_v3"_sr, Optional<int64_t>{ 3 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/RollforwardWithInvalidMutation") {
state TransactionEnvironment env(params.getDataDir());
Standalone<VectorRef<VersionedConfigMutationRef>> mutations;
appendVersionedMutation(
mutations, 1, "class-A"_sr, "test_long_v1"_sr, KnobValueRef::create(int64_t{ 1 }).contents());
appendVersionedMutation(
mutations, 10, "class-A"_sr, "test_long_v10"_sr, KnobValueRef::create(int64_t{ 2 }).contents());
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations;
annotations.emplace_back_deep(annotations.arena(), 1, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
wait(rollforward(env, Optional<Version>{}, 0, 5, mutations, annotations));
wait(check(env, "class-A"_sr, "test_long_v1"_sr, Optional<int64_t>{ 1 }));
wait(check(env, "class-A"_sr, "test_long_v10"_sr, Optional<int64_t>{}));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/RollbackThenRollforward") {
state TransactionEnvironment env(params.getDataDir());
wait(set(env, "class-A"_sr, "test_long"_sr, int64_t{ 1 }));
Standalone<VectorRef<VersionedConfigMutationRef>> mutations;
appendVersionedMutation(
mutations, 1, "class-B"_sr, "test_long_v1"_sr, KnobValueRef::create(int64_t{ 2 }).contents());
Standalone<VectorRef<VersionedConfigCommitAnnotationRef>> annotations;
annotations.emplace_back_deep(annotations.arena(), 1, ConfigCommitAnnotationRef{ "unit_test"_sr, now() });
wait(rollforward(env, 0, 1, 1, mutations, annotations));
wait(check(env, "class-A"_sr, "test_long"_sr, Optional<int64_t>{}));
wait(check(env, "class-B"_sr, "test_long_v1"_sr, Optional<int64_t>{ 2 }));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/GetConfigClasses") {
wait(testGetConfigClasses(params, false));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/CompactThenGetConfigClasses") {
wait(testGetConfigClasses(params, true));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/GetKnobs") {
wait(testGetKnobs(params, false, false));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/CompactThenGetKnobs") {
wait(testGetKnobs(params, false, true));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/GetGlobalKnobs") {
wait(testGetKnobs(params, true, false));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/CompactThenGetGlobalKnobs") {
wait(testGetKnobs(params, true, true));
return Void();
}
TEST_CASE("/fdbserver/ConfigDB/Transaction/BadRangeRead") {
state TransactionEnvironment env(params.getDataDir());
try {
wait(env.badRangeRead() || env.getError());
ASSERT(false);
} catch (Error& e) {
ASSERT_EQ(e.code(), error_code_invalid_config_db_range_read);
}
return Void();
}