foundationdb/fdbclient/DatabaseBackupAgent.actor.cpp

3298 lines
137 KiB
C++

/*
* DatabaseBackupAgent.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 <iterator>
#include "fdbclient/BackupAgent.actor.h"
#include "fdbclient/Status.h"
#include "fdbclient/StatusClient.h"
#include "fdbclient/DatabaseContext.h"
#include "fdbclient/NativeAPI.actor.h"
#include <ctime>
#include <climits>
#include "fdbrpc/IAsyncFile.h"
#include "flow/genericactors.actor.h"
#include "flow/Hash3.h"
#include <numeric>
#include "fdbclient/ManagementAPI.actor.h"
#include "fdbclient/KeyBackedTypes.h"
#include "flow/actorcompiler.h" // has to be last include
#include <inttypes.h>
#include <map>
const Key DatabaseBackupAgent::keyAddPrefix = LiteralStringRef("add_prefix");
const Key DatabaseBackupAgent::keyRemovePrefix = LiteralStringRef("remove_prefix");
const Key DatabaseBackupAgent::keyRangeVersions = LiteralStringRef("range_versions");
const Key DatabaseBackupAgent::keyCopyStop = LiteralStringRef("copy_stop");
const Key DatabaseBackupAgent::keyDatabasesInSync = LiteralStringRef("databases_in_sync");
const int DatabaseBackupAgent::LATEST_DR_VERSION = 1;
DatabaseBackupAgent::DatabaseBackupAgent()
: subspace(Subspace(databaseBackupPrefixRange.begin)), tagNames(subspace.get(BackupAgentBase::keyTagName)),
states(subspace.get(BackupAgentBase::keyStates)), config(subspace.get(BackupAgentBase::keyConfig)),
errors(subspace.get(BackupAgentBase::keyErrors)), ranges(subspace.get(BackupAgentBase::keyRanges)),
taskBucket(new TaskBucket(subspace.get(BackupAgentBase::keyTasks), true, false, true)),
futureBucket(new FutureBucket(subspace.get(BackupAgentBase::keyFutures), true, true)),
sourceStates(subspace.get(BackupAgentBase::keySourceStates)),
sourceTagNames(subspace.get(BackupAgentBase::keyTagName)) {}
DatabaseBackupAgent::DatabaseBackupAgent(Database src)
: subspace(Subspace(databaseBackupPrefixRange.begin)), tagNames(subspace.get(BackupAgentBase::keyTagName)),
states(subspace.get(BackupAgentBase::keyStates)), config(subspace.get(BackupAgentBase::keyConfig)),
errors(subspace.get(BackupAgentBase::keyErrors)), ranges(subspace.get(BackupAgentBase::keyRanges)),
taskBucket(new TaskBucket(subspace.get(BackupAgentBase::keyTasks), true, false, true)),
futureBucket(new FutureBucket(subspace.get(BackupAgentBase::keyFutures), true, true)),
sourceStates(subspace.get(BackupAgentBase::keySourceStates)),
sourceTagNames(subspace.get(BackupAgentBase::keyTagName)) {
taskBucket->src = src;
}
// Any new per-DR properties should go here.
class DRConfig {
public:
DRConfig(UID uid = UID())
: uid(uid),
configSpace(uidPrefixKey(LiteralStringRef("uid->config/").withPrefix(databaseBackupPrefixRange.begin), uid)) {}
DRConfig(Reference<Task> task)
: DRConfig(BinaryReader::fromStringRef<UID>(task->params[BackupAgentBase::keyConfigLogUid], Unversioned())) {}
KeyBackedBinaryValue<int64_t> rangeBytesWritten() { return configSpace.pack(LiteralStringRef(__FUNCTION__)); }
KeyBackedBinaryValue<int64_t> logBytesWritten() { return configSpace.pack(LiteralStringRef(__FUNCTION__)); }
void clear(Reference<ReadYourWritesTransaction> tr) { tr->clear(configSpace.range()); }
UID getUid() { return uid; }
private:
UID uid;
Subspace configSpace;
};
namespace dbBackup {
bool copyDefaultParameters(Reference<Task> source, Reference<Task> dest) {
if (source) {
copyParameter(source, dest, BackupAgentBase::keyFolderId);
copyParameter(source, dest, BackupAgentBase::keyConfigLogUid);
copyParameter(source, dest, BackupAgentBase::destUid);
copyParameter(source, dest, DatabaseBackupAgent::keyAddPrefix);
copyParameter(source, dest, DatabaseBackupAgent::keyRemovePrefix);
return true;
}
return false;
}
ACTOR template <class Tr>
Future<Void> checkTaskVersion(Tr tr, Reference<Task> task, StringRef name, uint32_t version) {
uint32_t taskVersion = task->getVersion();
if (taskVersion > version) {
TraceEvent(SevError, "BA_BackupRangeTaskFuncExecute")
.detail("TaskVersion", taskVersion)
.detail("Name", name)
.detail("Version", version);
wait(logError(tr,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyErrors)
.pack(task->params[BackupAgentBase::keyConfigLogUid]),
format("ERROR: %s task version `%lu' is greater than supported version `%lu'",
task->params[Task::reservedTaskParamKeyType].toString().c_str(),
(unsigned long)taskVersion,
(unsigned long)version)));
throw task_invalid_version();
}
return Void();
}
struct BackupRangeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
static struct {
static TaskParam<int64_t> bytesWritten() { return LiteralStringRef(__FUNCTION__); }
} Params;
static const Key keyAddBackupRangeTasks;
static const Key keyBackupRangeBeginKey;
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
ACTOR static Future<Standalone<VectorRef<KeyRef>>> getBlockOfShards(Reference<ReadYourWritesTransaction> tr,
Key beginKey,
Key endKey,
int limit) {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Standalone<VectorRef<KeyRef>> results;
Standalone<RangeResultRef> values = wait(tr->getRange(
KeyRangeRef(keyAfter(beginKey.withPrefix(keyServersPrefix)), endKey.withPrefix(keyServersPrefix)), limit));
for (auto& s : values) {
KeyRef k = s.key.removePrefix(keyServersPrefix);
results.push_back_deep(results.arena(), k);
}
return results;
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Key begin,
Key end,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(BackupRangeTaskFunc::name, BackupRangeTaskFunc::version, doneKey);
copyDefaultParameters(parentTask, task);
task->params[BackupAgentBase::keyBeginKey] = begin;
task->params[BackupAgentBase::keyEndKey] = end;
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Reference<FlowLock> lock(new FlowLock(CLIENT_KNOBS->BACKUP_LOCK_BYTES));
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(cx, task, BackupRangeTaskFunc::name, BackupRangeTaskFunc::version));
// Find out if there is a shard boundary in(beginKey, endKey)
Standalone<VectorRef<KeyRef>> keys =
wait(runRYWTransaction(taskBucket->src, [=](Reference<ReadYourWritesTransaction> tr) {
return getBlockOfShards(tr,
task->params[DatabaseBackupAgent::keyBeginKey],
task->params[DatabaseBackupAgent::keyEndKey],
CLIENT_KNOBS->BACKUP_SHARD_TASK_LIMIT);
}));
if (keys.size() > 0) {
task->params[BackupRangeTaskFunc::keyAddBackupRangeTasks] = BinaryWriter::toValue(keys, IncludeVersion());
return Void();
}
// Read everything from beginKey to endKey, write it to an output file, run the output file processor, and
// then set on_done.If we are still writing after X seconds, end the output file and insert a new backup_range
// task for the remainder.
state double timeout = now() + CLIENT_KNOBS->BACKUP_RANGE_TIMEOUT;
state Key addPrefix = task->params[DatabaseBackupAgent::keyAddPrefix];
state Key removePrefix = task->params[DatabaseBackupAgent::keyRemovePrefix];
state KeyRange range(
KeyRangeRef(task->params[BackupAgentBase::keyBeginKey], task->params[BackupAgentBase::keyEndKey]));
// retrieve kvData
state PromiseStream<RangeResultWithVersion> results;
state Future<Void> rc = readCommitted(taskBucket->src, results, lock, range, true, true, true);
state Key rangeBegin = range.begin;
state Key rangeEnd;
state bool endOfStream = false;
state RangeResultWithVersion nextValues;
state int64_t nextValuesSize = 0;
nextValues.second = invalidVersion;
loop {
if (endOfStream && nextValues.second == invalidVersion) {
return Void();
}
state RangeResultWithVersion values = std::move(nextValues);
state int64_t valuesSize = nextValuesSize;
nextValues = RangeResultWithVersion();
nextValues.second = invalidVersion;
nextValuesSize = 0;
if (!endOfStream) {
loop {
try {
RangeResultWithVersion v = waitNext(results.getFuture());
int64_t resultSize = v.first.expectedSize();
lock->release(resultSize);
if (values.second == invalidVersion) {
values = v;
} else if ((values.second != v.second) ||
(valuesSize > 0 && resultSize > 0 &&
valuesSize + resultSize > CLIENT_KNOBS->BACKUP_LOG_WRITE_BATCH_MAX_SIZE)) {
nextValues = v;
nextValuesSize = resultSize;
break;
} else {
values.first.append_deep(values.first.arena(), v.first.begin(), v.first.size());
values.first.more = v.first.more;
}
valuesSize += resultSize;
} catch (Error& e) {
state Error err = e;
if (err.code() == error_code_actor_cancelled)
throw err;
if (err.code() == error_code_end_of_stream) {
endOfStream = true;
if (values.second != invalidVersion)
break;
return Void();
}
wait(logError(cx,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyErrors)
.pack(task->params[BackupAgentBase::keyConfigLogUid]),
format("ERROR: %s", err.what())));
throw err;
}
}
}
if (now() >= timeout) {
task->params[BackupRangeTaskFunc::keyBackupRangeBeginKey] = rangeBegin;
return Void();
}
rangeEnd = values.first.more ? keyAfter(values.first.end()[-1].key) : range.end;
state int valueLoc = 0;
state int committedValueLoc = 0;
state Reference<ReadYourWritesTransaction> tr = makeReference<ReadYourWritesTransaction>(cx);
loop {
try {
tr->reset();
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Key prefix = task->params[BackupAgentBase::keyConfigLogUid].withPrefix(
applyMutationsKeyVersionMapRange.begin);
state Key rangeCountKey = task->params[BackupAgentBase::keyConfigLogUid].withPrefix(
applyMutationsKeyVersionCountRange.begin);
state Future<Standalone<RangeResultRef>> backupVersions =
krmGetRanges(tr, prefix, KeyRangeRef(rangeBegin, rangeEnd), BUGGIFY ? 2 : 2000, 1e5);
state Future<Optional<Value>> logVersionValue = tr->get(
task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsEndRange.begin), true);
state Future<Optional<Value>> rangeCountValue = tr->get(rangeCountKey, true);
state Future<Standalone<RangeResultRef>> prevRange = tr->getRange(
firstGreaterOrEqual(prefix), lastLessOrEqual(rangeBegin.withPrefix(prefix)), 1, true, true);
state Future<Standalone<RangeResultRef>> nextRange =
tr->getRange(firstGreaterOrEqual(rangeEnd.withPrefix(prefix)),
firstGreaterOrEqual(strinc(prefix)),
1,
true,
false);
state Future<Void> verified = taskBucket->keepRunning(tr, task);
wait(checkDatabaseLock(tr,
BinaryReader::fromStringRef<UID>(
task->params[BackupAgentBase::keyConfigLogUid], Unversioned())));
wait(success(backupVersions) && success(logVersionValue) && success(rangeCountValue) &&
success(prevRange) && success(nextRange) && success(verified));
int64_t rangeCount = 0;
if (rangeCountValue.get().present()) {
ASSERT(rangeCountValue.get().get().size() == sizeof(int64_t));
memcpy(&rangeCount, rangeCountValue.get().get().begin(), rangeCountValue.get().get().size());
}
bool prevAdjacent =
prevRange.get().size() && prevRange.get()[0].value.size() &&
BinaryReader::fromStringRef<Version>(prevRange.get()[0].value, Unversioned()) != invalidVersion;
bool nextAdjacent =
nextRange.get().size() && nextRange.get()[0].value.size() &&
BinaryReader::fromStringRef<Version>(nextRange.get()[0].value, Unversioned()) != invalidVersion;
if ((!prevAdjacent || !nextAdjacent) &&
rangeCount > ((prevAdjacent || nextAdjacent) ? CLIENT_KNOBS->BACKUP_MAP_KEY_UPPER_LIMIT
: CLIENT_KNOBS->BACKUP_MAP_KEY_LOWER_LIMIT)) {
TEST(true); // range insert delayed because too versionMap is too large
if (rangeCount > CLIENT_KNOBS->BACKUP_MAP_KEY_UPPER_LIMIT)
TraceEvent(SevWarnAlways, "DBA_KeyRangeMapTooLarge");
wait(delay(1));
task->params[BackupRangeTaskFunc::keyBackupRangeBeginKey] = rangeBegin;
return Void();
}
Version logVersion =
logVersionValue.get().present()
? BinaryReader::fromStringRef<Version>(logVersionValue.get().get(), Unversioned())
: -1;
if (logVersion >= values.second) {
task->params[BackupRangeTaskFunc::keyBackupRangeBeginKey] = rangeBegin;
return Void();
}
//TraceEvent("DBA_Range").detail("Range", KeyRangeRef(rangeBegin, rangeEnd)).detail("Version", values.second).detail("Size", values.first.size()).detail("LogUID", task->params[BackupAgentBase::keyConfigLogUid]).detail("AddPrefix", addPrefix).detail("RemovePrefix", removePrefix);
Subspace krv(conf.get(DatabaseBackupAgent::keyRangeVersions));
state KeyRange versionRange = singleKeyRange(krv.pack(values.second));
tr->addReadConflictRange(versionRange);
tr->addWriteConflictRange(versionRange);
int versionLoc = 0;
std::vector<Future<Void>> setRanges;
state int64_t bytesSet = 0;
loop {
while (versionLoc < backupVersions.get().size() - 1 &&
(backupVersions.get()[versionLoc].value.size() < sizeof(Version) ||
BinaryReader::fromStringRef<Version>(backupVersions.get()[versionLoc].value,
Unversioned()) != invalidVersion)) {
versionLoc++;
}
if (versionLoc == backupVersions.get().size() - 1)
break;
if (backupVersions.get()[versionLoc + 1].key ==
(removePrefix == StringRef() ? normalKeys.end : strinc(removePrefix))) {
tr->clear(KeyRangeRef(
backupVersions.get()[versionLoc].key.removePrefix(removePrefix).withPrefix(addPrefix),
addPrefix == StringRef() ? normalKeys.end : strinc(addPrefix)));
} else {
tr->clear(KeyRangeRef(backupVersions.get()[versionLoc].key,
backupVersions.get()[versionLoc + 1].key)
.removePrefix(removePrefix)
.withPrefix(addPrefix));
}
setRanges.push_back(krmSetRange(
tr,
prefix,
KeyRangeRef(backupVersions.get()[versionLoc].key, backupVersions.get()[versionLoc + 1].key),
BinaryWriter::toValue(values.second, Unversioned())));
int64_t added = 1;
tr->atomicOp(rangeCountKey, StringRef((uint8_t*)&added, 8), MutationRef::AddValue);
for (; valueLoc < values.first.size(); ++valueLoc) {
if (values.first[valueLoc].key >= backupVersions.get()[versionLoc + 1].key)
break;
if (values.first[valueLoc].key >= backupVersions.get()[versionLoc].key) {
//TraceEvent("DBA_Set", debugID).detail("Key", values.first[valueLoc].key).detail("Value", values.first[valueLoc].value);
tr->set(values.first[valueLoc].key.removePrefix(removePrefix).withPrefix(addPrefix),
values.first[valueLoc].value);
bytesSet += values.first[valueLoc].expectedSize() - removePrefix.expectedSize() +
addPrefix.expectedSize();
}
}
versionLoc++;
}
wait(waitForAll(setRanges));
wait(tr->commit());
Params.bytesWritten().set(task, Params.bytesWritten().getOrDefault(task) + bytesSet);
//TraceEvent("DBA_SetComplete", debugID).detail("Ver", values.second).detail("LogVersion", logVersion).detail("ReadVersion", readVer).detail("CommitVer", tr.getCommittedVersion()).detail("Range", versionRange);
if (backupVersions.get().more) {
tr->reset();
committedValueLoc = valueLoc;
rangeBegin = backupVersions.get().end()[-1].key;
} else {
break;
}
} catch (Error& e) {
wait(tr->onError(e));
valueLoc = committedValueLoc;
}
}
rangeBegin = rangeEnd;
}
}
ACTOR static Future<Void> startBackupRangeInternal(Reference<ReadYourWritesTransaction> tr,
Standalone<VectorRef<KeyRef>> keys,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task,
Reference<TaskFuture> onDone) {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Key nextKey = task->params[BackupAgentBase::keyBeginKey];
std::vector<Future<Key>> addTaskVector;
for (int idx = 0; idx < keys.size(); ++idx) {
if (nextKey != keys[idx]) {
addTaskVector.push_back(
addTask(tr, taskBucket, task, nextKey, keys[idx], TaskCompletionKey::joinWith(onDone)));
}
nextKey = keys[idx];
}
if (nextKey != task->params[BackupAgentBase::keyEndKey]) {
addTaskVector.push_back(addTask(tr,
taskBucket,
task,
nextKey,
task->params[BackupAgentBase::keyEndKey],
TaskCompletionKey::joinWith(onDone)));
}
wait(waitForAll(addTaskVector));
return Void();
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Reference<TaskFuture> taskFuture = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
// Get the bytesWritten parameter from task and atomically add it to the rangeBytesWritten() property of the DR
// config.
DRConfig config(task);
int64_t bytesWritten = Params.bytesWritten().getOrDefault(task);
config.rangeBytesWritten().atomicOp(tr, bytesWritten, MutationRef::AddValue);
if (task->params.find(BackupRangeTaskFunc::keyAddBackupRangeTasks) != task->params.end()) {
wait(startBackupRangeInternal(
tr,
BinaryReader::fromStringRef<Standalone<VectorRef<KeyRef>>>(
task->params[BackupRangeTaskFunc::keyAddBackupRangeTasks], IncludeVersion()),
taskBucket,
futureBucket,
task,
taskFuture) &&
taskBucket->finish(tr, task));
} else if (task->params.find(BackupRangeTaskFunc::keyBackupRangeBeginKey) != task->params.end() &&
task->params[BackupRangeTaskFunc::keyBackupRangeBeginKey] <
task->params[BackupAgentBase::keyEndKey]) {
ASSERT(taskFuture->key.size() > 0);
wait(success(BackupRangeTaskFunc::addTask(tr,
taskBucket,
task,
task->params[BackupRangeTaskFunc::keyBackupRangeBeginKey],
task->params[BackupAgentBase::keyEndKey],
TaskCompletionKey::signal(taskFuture->key))) &&
taskBucket->finish(tr, task));
} else {
wait(taskFuture->set(tr, taskBucket) && taskBucket->finish(tr, task));
}
return Void();
}
};
StringRef BackupRangeTaskFunc::name = LiteralStringRef("dr_backup_range");
const Key BackupRangeTaskFunc::keyAddBackupRangeTasks = LiteralStringRef("addBackupRangeTasks");
const Key BackupRangeTaskFunc::keyBackupRangeBeginKey = LiteralStringRef("backupRangeBeginKey");
REGISTER_TASKFUNC(BackupRangeTaskFunc);
struct FinishFullBackupTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace states = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(tr, task, FinishFullBackupTaskFunc::name, FinishFullBackupTaskFunc::version));
// Enable the stop key
Transaction srcTr(taskBucket->src);
srcTr.setOption(FDBTransactionOptions::LOCK_AWARE);
Version readVersion = wait(srcTr.getReadVersion());
tr->set(states.pack(DatabaseBackupAgent::keyCopyStop), BinaryWriter::toValue(readVersion, Unversioned()));
TraceEvent("DBA_FinishFullBackup").detail("CopyStop", readVersion);
wait(taskBucket->finish(tr, task));
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
// After the BackupRangeTask completes, set the stop key which will stop the BackupLogsTask
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(FinishFullBackupTaskFunc::name, FinishFullBackupTaskFunc::version, doneKey);
copyDefaultParameters(parentTask, task);
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return Void();
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef FinishFullBackupTaskFunc::name = LiteralStringRef("dr_finish_full_backup");
REGISTER_TASKFUNC(FinishFullBackupTaskFunc);
struct EraseLogRangeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state FlowLock lock(CLIENT_KNOBS->BACKUP_LOCK_BYTES);
wait(checkTaskVersion(cx, task, EraseLogRangeTaskFunc::name, EraseLogRangeTaskFunc::version));
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(taskBucket->src));
loop {
try {
Version endVersion = BinaryReader::fromStringRef<Version>(
task->params[DatabaseBackupAgent::keyEndVersion], Unversioned());
wait(eraseLogData(
tr,
task->params[BackupAgentBase::keyConfigLogUid],
task->params[BackupAgentBase::destUid],
Optional<Version>(endVersion),
true,
BinaryReader::fromStringRef<Version>(task->params[BackupAgentBase::keyFolderId], Unversioned())));
wait(tr->commit());
return Void();
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Version endVersion,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(EraseLogRangeTaskFunc::name, EraseLogRangeTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
task->params[DatabaseBackupAgent::keyBeginVersion] =
BinaryWriter::toValue(1, Unversioned()); // FIXME: remove in 6.X, only needed for 5.2 backward compatibility
task->params[DatabaseBackupAgent::keyEndVersion] = BinaryWriter::toValue(endVersion, Unversioned());
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Reference<TaskFuture> taskFuture = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
wait(taskFuture->set(tr, taskBucket) && taskBucket->finish(tr, task));
return Void();
}
};
StringRef EraseLogRangeTaskFunc::name = LiteralStringRef("dr_erase_log_range");
REGISTER_TASKFUNC(EraseLogRangeTaskFunc);
struct CopyLogRangeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
static struct {
static TaskParam<int64_t> bytesWritten() { return LiteralStringRef(__FUNCTION__); }
} Params;
static const Key keyNextBeginVersion;
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
// store mutation data from results until the end of stream or the timeout. If breaks on timeout returns the first
// uncopied version
ACTOR static Future<Optional<Version>> dumpData(Database cx,
Reference<Task> task,
PromiseStream<RCGroup> results,
FlowLock* lock,
Reference<TaskBucket> tb,
double breakTime) {
state bool endOfStream = false;
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state std::vector<Standalone<RangeResultRef>> nextMutations;
state bool isTimeoutOccured = false;
state Optional<KeyRef> lastKey;
state Version lastVersion;
state int64_t nextMutationSize = 0;
loop {
try {
if (endOfStream && !nextMutationSize) {
return Optional<Version>();
}
state std::vector<Standalone<RangeResultRef>> mutations = std::move(nextMutations);
state int64_t mutationSize = nextMutationSize;
nextMutations = std::vector<Standalone<RangeResultRef>>();
nextMutationSize = 0;
if (!endOfStream) {
loop {
try {
RCGroup group = waitNext(results.getFuture());
lock->release(group.items.expectedSize());
int vecSize = group.items.expectedSize();
if (mutationSize + vecSize >= CLIENT_KNOBS->BACKUP_LOG_WRITE_BATCH_MAX_SIZE) {
nextMutations.push_back(group.items);
nextMutationSize = vecSize;
break;
}
mutations.push_back(group.items);
mutationSize += vecSize;
} catch (Error& e) {
state Error error = e;
if (e.code() == error_code_end_of_stream) {
endOfStream = true;
break;
}
throw error;
}
}
}
state Optional<Version> nextVersionAfterBreak;
state Transaction tr(cx);
loop {
try {
tr.setOption(FDBTransactionOptions::LOCK_AWARE);
tr.options.sizeLimit = 2 * CLIENT_KNOBS->TRANSACTION_SIZE_LIMIT;
wait(checkDatabaseLock(&tr,
BinaryReader::fromStringRef<UID>(
task->params[BackupAgentBase::keyConfigLogUid], Unversioned())));
state int64_t bytesSet = 0;
bool first = true;
for (auto m : mutations) {
for (auto kv : m) {
if (isTimeoutOccured) {
Version newVersion = getLogKeyVersion(kv.key);
if (newVersion > lastVersion) {
nextVersionAfterBreak = newVersion;
break;
}
}
if (first) {
tr.addReadConflictRange(singleKeyRange(kv.key));
first = false;
}
tr.set(kv.key.removePrefix(backupLogKeys.begin)
.removePrefix(task->params[BackupAgentBase::destUid])
.withPrefix(task->params[BackupAgentBase::keyConfigLogUid])
.withPrefix(applyLogKeys.begin),
kv.value);
bytesSet += kv.expectedSize() - backupLogKeys.begin.expectedSize() +
applyLogKeys.begin.expectedSize();
lastKey = kv.key;
}
}
wait(tr.commit());
Params.bytesWritten().set(task, Params.bytesWritten().getOrDefault(task) + bytesSet);
break;
} catch (Error& e) {
wait(tr.onError(e));
}
}
if (nextVersionAfterBreak.present()) {
return nextVersionAfterBreak;
}
if (!isTimeoutOccured && timer_monotonic() >= breakTime && lastKey.present()) {
// timeout occured
// continue to copy mutations with the
// same version before break because
// the next run should start from the beginning of a version > lastVersion.
lastVersion = getLogKeyVersion(lastKey.get());
isTimeoutOccured = true;
}
} catch (Error& e) {
if (e.code() == error_code_actor_cancelled || e.code() == error_code_backup_error)
throw e;
state Error err = e;
wait(logError(cx,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyErrors)
.pack(task->params[BackupAgentBase::keyConfigLogUid]),
format("ERROR: Failed to dump mutations because of error %s", err.what())));
throw err;
}
}
}
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
// state Reference<FlowLock> lock(new FlowLock(CLIENT_KNOBS->BACKUP_LOCK_BYTES));
wait(checkTaskVersion(cx, task, CopyLogRangeTaskFunc::name, CopyLogRangeTaskFunc::version));
state Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyBeginVersion], Unversioned());
state Version endVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyEndVersion], Unversioned());
Version newEndVersion = std::min(endVersion,
(((beginVersion - 1) / CLIENT_KNOBS->COPY_LOG_BLOCK_SIZE) + 1 +
CLIENT_KNOBS->COPY_LOG_BLOCKS_PER_TASK +
(g_network->isSimulated() ? CLIENT_KNOBS->BACKUP_SIM_COPY_LOG_RANGES : 0)) *
CLIENT_KNOBS->COPY_LOG_BLOCK_SIZE);
state Standalone<VectorRef<KeyRangeRef>> ranges = getLogRanges(
beginVersion, newEndVersion, task->params[BackupAgentBase::destUid], CLIENT_KNOBS->COPY_LOG_BLOCK_SIZE);
state int nRanges = ranges.size();
state std::vector<PromiseStream<RCGroup>> results;
state std::vector<Future<Void>> rc;
state std::vector<Reference<FlowLock>> locks;
state Version nextVersion = beginVersion;
state double breakTime = timer_monotonic() + CLIENT_KNOBS->COPY_LOG_TASK_DURATION_NANOS;
state int rangeN = 0;
loop {
if (rangeN >= nRanges)
break;
// prefetch
int prefetchTo = std::min(rangeN + CLIENT_KNOBS->COPY_LOG_PREFETCH_BLOCKS, nRanges);
for (int j = results.size(); j < prefetchTo; j++) {
results.push_back(PromiseStream<RCGroup>());
locks.push_back(makeReference<FlowLock>(CLIENT_KNOBS->COPY_LOG_READ_AHEAD_BYTES));
rc.push_back(readCommitted(taskBucket->src,
results[j],
Future<Void>(Void()),
locks[j],
ranges[j],
decodeBKMutationLogKey,
true,
true,
true));
}
// copy the range
Optional<Version> nextVersionBr =
wait(dumpData(cx, task, results[rangeN], locks[rangeN].getPtr(), taskBucket, breakTime));
// exit from the task if a timeout occurs
if (nextVersionBr.present()) {
nextVersion = nextVersionBr.get();
// cancel prefetch
TraceEvent(SevInfo, "CopyLogRangeTaskFuncAborted")
.detail("DurationNanos", CLIENT_KNOBS->COPY_LOG_TASK_DURATION_NANOS)
.detail("RangeN", rangeN)
.detail("BytesWritten", Params.bytesWritten().getOrDefault(task));
for (int j = results.size(); --j >= rangeN;)
rc[j].cancel();
break;
}
// the whole range has been dumped
nextVersion = getLogKeyVersion(ranges[rangeN].end);
rangeN++;
}
if (nextVersion < endVersion) {
task->params[CopyLogRangeTaskFunc::keyNextBeginVersion] = BinaryWriter::toValue(nextVersion, Unversioned());
}
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Version beginVersion,
Version endVersion,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(CopyLogRangeTaskFunc::name, CopyLogRangeTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
task->params[DatabaseBackupAgent::keyBeginVersion] = BinaryWriter::toValue(beginVersion, Unversioned());
task->params[DatabaseBackupAgent::keyEndVersion] = BinaryWriter::toValue(endVersion, Unversioned());
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Version endVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyEndVersion], Unversioned());
state Reference<TaskFuture> taskFuture = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
// Get the bytesWritten parameter from task and atomically add it to the logBytesWritten() property of the DR
// config.
DRConfig config(task);
int64_t bytesWritten = Params.bytesWritten().getOrDefault(task);
config.logBytesWritten().atomicOp(tr, bytesWritten, MutationRef::AddValue);
if (task->params.find(CopyLogRangeTaskFunc::keyNextBeginVersion) != task->params.end()) {
state Version nextVersion = BinaryReader::fromStringRef<Version>(
task->params[CopyLogRangeTaskFunc::keyNextBeginVersion], Unversioned());
wait(success(CopyLogRangeTaskFunc::addTask(
tr, taskBucket, task, nextVersion, endVersion, TaskCompletionKey::signal(taskFuture->key))) &&
taskBucket->finish(tr, task));
} else {
wait(taskFuture->set(tr, taskBucket) && taskBucket->finish(tr, task));
}
return Void();
}
};
StringRef CopyLogRangeTaskFunc::name = LiteralStringRef("dr_copy_log_range");
const Key CopyLogRangeTaskFunc::keyNextBeginVersion = LiteralStringRef("nextBeginVersion");
REGISTER_TASKFUNC(CopyLogRangeTaskFunc);
struct CopyLogsTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state Subspace states = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(tr, task, CopyLogsTaskFunc::name, CopyLogsTaskFunc::version));
state Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyBeginVersion], Unversioned());
state Version prevBeginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyPrevBeginVersion], Unversioned());
state Future<Optional<Value>> fStopValue = tr->get(states.pack(DatabaseBackupAgent::keyCopyStop));
state Future<Optional<Value>> fAppliedValue =
tr->get(task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsBeginRange.begin));
Transaction srcTr(taskBucket->src);
srcTr.setOption(FDBTransactionOptions::LOCK_AWARE);
state Version endVersion = wait(srcTr.getReadVersion());
state Reference<TaskFuture> onDone = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
if (endVersion <= beginVersion) {
wait(delay(FLOW_KNOBS->PREVENT_FAST_SPIN_DELAY));
wait(success(CopyLogsTaskFunc::addTask(
tr, taskBucket, task, prevBeginVersion, beginVersion, TaskCompletionKey::signal(onDone))));
wait(taskBucket->finish(tr, task));
return Void();
}
Optional<Value> appliedValue = wait(fAppliedValue);
state Version appliedVersion =
appliedValue.present() ? BinaryReader::fromStringRef<Version>(appliedValue.get(), Unversioned()) : 100;
state Version applyVersion =
std::max<Version>(appliedVersion, beginVersion - CLIENT_KNOBS->BACKUP_VERSION_DELAY);
Subspace krv = conf.get(DatabaseBackupAgent::keyRangeVersions);
KeyRange versionRange = KeyRangeRef(krv.pack(0), krv.pack(applyVersion + 1));
tr->addReadConflictRange(versionRange);
tr->addWriteConflictRange(versionRange);
tr->set(task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsEndRange.begin),
BinaryWriter::toValue(applyVersion, Unversioned()));
Optional<Value> stopValue = wait(fStopValue);
state Version stopVersionData =
stopValue.present() ? BinaryReader::fromStringRef<Version>(stopValue.get(), Unversioned()) : -1;
if (endVersion - beginVersion > deterministicRandom()->randomInt64(0, CLIENT_KNOBS->BACKUP_VERSION_DELAY)) {
TraceEvent("DBA_CopyLogs")
.detail("BeginVersion", beginVersion)
.detail("ApplyVersion", applyVersion)
.detail("EndVersion", endVersion)
.detail("StopVersionData", stopVersionData)
.detail("LogUID", task->params[BackupAgentBase::keyConfigLogUid]);
}
if ((stopVersionData == -1) || (stopVersionData >= applyVersion)) {
state Reference<TaskFuture> allPartsDone = futureBucket->future(tr);
std::vector<Future<Key>> addTaskVector;
addTaskVector.push_back(CopyLogsTaskFunc::addTask(
tr, taskBucket, task, beginVersion, endVersion, TaskCompletionKey::signal(onDone), allPartsDone));
int blockSize = std::max<int>(
1, ((endVersion - beginVersion) / CLIENT_KNOBS->BACKUP_COPY_TASKS) / CLIENT_KNOBS->BACKUP_BLOCK_SIZE);
for (int64_t vblock = beginVersion / CLIENT_KNOBS->BACKUP_BLOCK_SIZE;
vblock < (endVersion + CLIENT_KNOBS->BACKUP_BLOCK_SIZE - 1) / CLIENT_KNOBS->BACKUP_BLOCK_SIZE;
vblock += blockSize) {
addTaskVector.push_back(CopyLogRangeTaskFunc::addTask(
tr,
taskBucket,
task,
std::max(beginVersion, vblock * CLIENT_KNOBS->BACKUP_BLOCK_SIZE),
std::min(endVersion, (vblock + blockSize) * CLIENT_KNOBS->BACKUP_BLOCK_SIZE),
TaskCompletionKey::joinWith(allPartsDone)));
}
// Do not erase at the first time
if (prevBeginVersion > 0) {
addTaskVector.push_back(EraseLogRangeTaskFunc::addTask(
tr, taskBucket, task, beginVersion, TaskCompletionKey::joinWith(allPartsDone)));
}
wait(waitForAll(addTaskVector) && taskBucket->finish(tr, task));
} else {
if (appliedVersion <= stopVersionData) {
wait(delay(FLOW_KNOBS->PREVENT_FAST_SPIN_DELAY));
wait(success(CopyLogsTaskFunc::addTask(
tr, taskBucket, task, prevBeginVersion, beginVersion, TaskCompletionKey::signal(onDone))));
wait(taskBucket->finish(tr, task));
return Void();
}
wait(onDone->set(tr, taskBucket) && taskBucket->finish(tr, task));
tr->set(states.pack(DatabaseBackupAgent::keyStateStop), BinaryWriter::toValue(beginVersion, Unversioned()));
}
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Version prevBeginVersion,
Version beginVersion,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(CopyLogsTaskFunc::name, CopyLogsTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
task->params[BackupAgentBase::keyBeginVersion] = BinaryWriter::toValue(beginVersion, Unversioned());
task->params[DatabaseBackupAgent::keyPrevBeginVersion] = BinaryWriter::toValue(prevBeginVersion, Unversioned());
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return Void();
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef CopyLogsTaskFunc::name = LiteralStringRef("dr_copy_logs");
REGISTER_TASKFUNC(CopyLogsTaskFunc);
struct FinishedFullBackupTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
static const Key keyInsertTask;
StringRef getName() const override { return name; };
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace sourceStates = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keySourceStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(cx, task, FinishedFullBackupTaskFunc::name, FinishedFullBackupTaskFunc::version));
state Transaction tr2(cx);
loop {
try {
tr2.setOption(FDBTransactionOptions::LOCK_AWARE);
Optional<Value> beginValue = wait(
tr2.get(task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsBeginRange.begin)));
state Version appliedVersion =
beginValue.present() ? BinaryReader::fromStringRef<Version>(beginValue.get(), Unversioned()) : -1;
Optional<Value> endValue = wait(
tr2.get(task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsEndRange.begin)));
Version endVersion =
endValue.present() ? BinaryReader::fromStringRef<Version>(endValue.get(), Unversioned()) : -1;
//TraceEvent("DBA_FinishedFullBackup").detail("Applied", appliedVersion).detail("EndVer", endVersion);
if (appliedVersion < endVersion) {
wait(delay(FLOW_KNOBS->PREVENT_FAST_SPIN_DELAY));
task->params[FinishedFullBackupTaskFunc::keyInsertTask] = StringRef();
return Void();
}
break;
} catch (Error& e) {
wait(tr2.onError(e));
}
}
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(taskBucket->src));
state Key logUidValue = task->params[DatabaseBackupAgent::keyConfigLogUid];
state Key destUidValue = task->params[BackupAgentBase::destUid];
state Version backupUid =
BinaryReader::fromStringRef<Version>(task->params[BackupAgentBase::keyFolderId], Unversioned());
loop {
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
Optional<Value> v = wait(tr->get(sourceStates.pack(DatabaseBackupAgent::keyFolderId)));
if (v.present() && BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) >
BinaryReader::fromStringRef<Version>(
task->params[DatabaseBackupAgent::keyFolderId], Unversioned()))
return Void();
wait(eraseLogData(tr, logUidValue, destUidValue, Optional<Version>(), true, backupUid));
wait(tr->commit());
return Void();
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(FinishedFullBackupTaskFunc::name, FinishedFullBackupTaskFunc::version, doneKey);
copyDefaultParameters(parentTask, task);
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state Subspace states = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
if (task->params.find(FinishedFullBackupTaskFunc::keyInsertTask) != task->params.end()) {
state Reference<TaskFuture> onDone = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
wait(success(FinishedFullBackupTaskFunc::addTask(tr, taskBucket, task, TaskCompletionKey::signal(onDone))));
wait(taskBucket->finish(tr, task));
return Void();
}
tr->setOption(FDBTransactionOptions::COMMIT_ON_FIRST_PROXY);
UID logUid =
BinaryReader::fromStringRef<UID>(task->params[DatabaseBackupAgent::keyConfigLogUid], Unversioned());
Key logsPath = uidPrefixKey(applyLogKeys.begin, logUid);
tr->clear(KeyRangeRef(logsPath, strinc(logsPath)));
tr->clear(conf.range());
tr->set(states.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_COMPLETED)));
wait(taskBucket->finish(tr, task));
return Void();
}
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef FinishedFullBackupTaskFunc::name = LiteralStringRef("dr_finished_full_backup");
const Key FinishedFullBackupTaskFunc::keyInsertTask = LiteralStringRef("insertTask");
REGISTER_TASKFUNC(FinishedFullBackupTaskFunc);
struct CopyDiffLogsTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state Subspace states = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(tr, task, CopyDiffLogsTaskFunc::name, CopyDiffLogsTaskFunc::version));
state Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyBeginVersion], Unversioned());
state Version prevBeginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyPrevBeginVersion], Unversioned());
state Future<Optional<Value>> fStopWhenDone = tr->get(conf.pack(DatabaseBackupAgent::keyConfigStopWhenDoneKey));
Transaction srcTr(taskBucket->src);
srcTr.setOption(FDBTransactionOptions::LOCK_AWARE);
state Version endVersion = wait(srcTr.getReadVersion());
state Reference<TaskFuture> onDone = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
if (endVersion <= beginVersion) {
wait(delay(FLOW_KNOBS->PREVENT_FAST_SPIN_DELAY));
wait(success(CopyDiffLogsTaskFunc::addTask(
tr, taskBucket, task, prevBeginVersion, beginVersion, TaskCompletionKey::signal(onDone))));
wait(taskBucket->finish(tr, task));
return Void();
}
tr->set(task->params[BackupAgentBase::keyConfigLogUid].withPrefix(applyMutationsEndRange.begin),
BinaryWriter::toValue(beginVersion, Unversioned()));
Optional<Value> stopWhenDone = wait(fStopWhenDone);
if (endVersion - beginVersion > deterministicRandom()->randomInt64(0, CLIENT_KNOBS->BACKUP_VERSION_DELAY)) {
TraceEvent("DBA_CopyDiffLogs")
.detail("BeginVersion", beginVersion)
.detail("EndVersion", endVersion)
.detail("LogUID", task->params[BackupAgentBase::keyConfigLogUid]);
}
if (!stopWhenDone.present()) {
state Reference<TaskFuture> allPartsDone = futureBucket->future(tr);
std::vector<Future<Key>> addTaskVector;
addTaskVector.push_back(CopyDiffLogsTaskFunc::addTask(
tr, taskBucket, task, beginVersion, endVersion, TaskCompletionKey::signal(onDone), allPartsDone));
int blockSize = std::max<int>(
1, ((endVersion - beginVersion) / CLIENT_KNOBS->BACKUP_COPY_TASKS) / CLIENT_KNOBS->BACKUP_BLOCK_SIZE);
for (int64_t vblock = beginVersion / CLIENT_KNOBS->BACKUP_BLOCK_SIZE;
vblock < (endVersion + CLIENT_KNOBS->BACKUP_BLOCK_SIZE - 1) / CLIENT_KNOBS->BACKUP_BLOCK_SIZE;
vblock += blockSize) {
addTaskVector.push_back(CopyLogRangeTaskFunc::addTask(
tr,
taskBucket,
task,
std::max(beginVersion, vblock * CLIENT_KNOBS->BACKUP_BLOCK_SIZE),
std::min(endVersion, (vblock + blockSize) * CLIENT_KNOBS->BACKUP_BLOCK_SIZE),
TaskCompletionKey::joinWith(allPartsDone)));
}
if (prevBeginVersion > 0) {
addTaskVector.push_back(EraseLogRangeTaskFunc::addTask(
tr, taskBucket, task, beginVersion, TaskCompletionKey::joinWith(allPartsDone)));
}
wait(waitForAll(addTaskVector) && taskBucket->finish(tr, task));
} else {
wait(onDone->set(tr, taskBucket) && taskBucket->finish(tr, task));
}
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Version prevBeginVersion,
Version beginVersion,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(CopyDiffLogsTaskFunc::name, CopyDiffLogsTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
task->params[DatabaseBackupAgent::keyBeginVersion] = BinaryWriter::toValue(beginVersion, Unversioned());
task->params[DatabaseBackupAgent::keyPrevBeginVersion] = BinaryWriter::toValue(prevBeginVersion, Unversioned());
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return Void();
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef CopyDiffLogsTaskFunc::name = LiteralStringRef("dr_copy_diff_logs");
REGISTER_TASKFUNC(CopyDiffLogsTaskFunc);
// Skip unneeded EraseLogRangeTaskFunc in 5.1
struct SkipOldEraseLogRangeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Reference<TaskFuture> taskFuture = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
wait(taskFuture->set(tr, taskBucket) && taskBucket->finish(tr, task));
return Void();
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return Void();
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef SkipOldEraseLogRangeTaskFunc::name = LiteralStringRef("dr_skip_legacy_task");
REGISTER_TASKFUNC(SkipOldEraseLogRangeTaskFunc);
REGISTER_TASKFUNC_ALIAS(SkipOldEraseLogRangeTaskFunc, db_erase_log_range);
// This is almost the same as CopyLogRangeTaskFunc in 5.1. The only purpose is to support DR upgrade
struct OldCopyLogRangeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
static struct {
static TaskParam<int64_t> bytesWritten() { return LiteralStringRef(__FUNCTION__); }
} Params;
static const Key keyNextBeginVersion;
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
ACTOR static Future<Void> dumpData(Database cx,
Reference<Task> task,
PromiseStream<RCGroup> results,
FlowLock* lock,
Reference<TaskBucket> tb) {
state bool endOfStream = false;
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state std::vector<Standalone<RangeResultRef>> nextMutations;
state int64_t nextMutationSize = 0;
loop {
try {
if (endOfStream && !nextMutationSize) {
return Void();
}
state std::vector<Standalone<RangeResultRef>> mutations = std::move(nextMutations);
state int64_t mutationSize = nextMutationSize;
nextMutations = std::vector<Standalone<RangeResultRef>>();
nextMutationSize = 0;
if (!endOfStream) {
loop {
try {
RCGroup group = waitNext(results.getFuture());
lock->release(group.items.expectedSize());
int vecSize = group.items.expectedSize();
if (mutationSize + vecSize >= CLIENT_KNOBS->BACKUP_LOG_WRITE_BATCH_MAX_SIZE) {
nextMutations.push_back(group.items);
nextMutationSize = vecSize;
break;
}
mutations.push_back(group.items);
mutationSize += vecSize;
} catch (Error& e) {
state Error error = e;
if (e.code() == error_code_end_of_stream) {
endOfStream = true;
break;
}
throw error;
}
}
}
state Transaction tr(cx);
loop {
try {
tr.setOption(FDBTransactionOptions::LOCK_AWARE);
tr.options.sizeLimit = 2 * CLIENT_KNOBS->TRANSACTION_SIZE_LIMIT;
wait(checkDatabaseLock(&tr,
BinaryReader::fromStringRef<UID>(
task->params[BackupAgentBase::keyConfigLogUid], Unversioned())));
state int64_t bytesSet = 0;
bool first = true;
for (auto m : mutations) {
for (auto kv : m) {
if (first) {
tr.addReadConflictRange(singleKeyRange(kv.key));
first = false;
}
tr.set(kv.key.removePrefix(backupLogKeys.begin).withPrefix(applyLogKeys.begin),
kv.value);
bytesSet += kv.expectedSize() - backupLogKeys.begin.expectedSize() +
applyLogKeys.begin.expectedSize();
}
}
wait(tr.commit());
Params.bytesWritten().set(task, Params.bytesWritten().getOrDefault(task) + bytesSet);
break;
} catch (Error& e) {
wait(tr.onError(e));
}
}
} catch (Error& e) {
if (e.code() == error_code_actor_cancelled || e.code() == error_code_backup_error)
throw e;
state Error err = e;
wait(logError(cx,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyErrors)
.pack(task->params[BackupAgentBase::keyConfigLogUid]),
format("ERROR: Failed to dump mutations because of error %s", err.what())));
throw err;
}
}
}
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Reference<FlowLock> lock(new FlowLock(CLIENT_KNOBS->BACKUP_LOCK_BYTES));
wait(checkTaskVersion(cx, task, OldCopyLogRangeTaskFunc::name, OldCopyLogRangeTaskFunc::version));
state Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyBeginVersion], Unversioned());
state Version endVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyEndVersion], Unversioned());
state Version newEndVersion =
std::min(endVersion,
(((beginVersion - 1) / CLIENT_KNOBS->BACKUP_BLOCK_SIZE) + 2 +
(g_network->isSimulated() ? CLIENT_KNOBS->BACKUP_SIM_COPY_LOG_RANGES : 0)) *
CLIENT_KNOBS->BACKUP_BLOCK_SIZE);
state Standalone<VectorRef<KeyRangeRef>> ranges = getLogRanges(beginVersion,
newEndVersion,
task->params[BackupAgentBase::keyConfigLogUid],
CLIENT_KNOBS->BACKUP_BLOCK_SIZE);
state std::vector<PromiseStream<RCGroup>> results;
state std::vector<Future<Void>> rc;
state std::vector<Future<Void>> dump;
for (int i = 0; i < ranges.size(); ++i) {
results.push_back(PromiseStream<RCGroup>());
rc.push_back(readCommitted(taskBucket->src,
results[i],
Future<Void>(Void()),
lock,
ranges[i],
decodeBKMutationLogKey,
true,
true,
true));
dump.push_back(dumpData(cx, task, results[i], lock.getPtr(), taskBucket));
}
wait(waitForAll(dump));
if (newEndVersion < endVersion) {
task->params[OldCopyLogRangeTaskFunc::keyNextBeginVersion] =
BinaryWriter::toValue(newEndVersion, Unversioned());
}
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
Version beginVersion,
Version endVersion,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(OldCopyLogRangeTaskFunc::name, OldCopyLogRangeTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
task->params[DatabaseBackupAgent::keyBeginVersion] = BinaryWriter::toValue(beginVersion, Unversioned());
task->params[DatabaseBackupAgent::keyEndVersion] = BinaryWriter::toValue(endVersion, Unversioned());
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Version endVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyEndVersion], Unversioned());
state Reference<TaskFuture> taskFuture = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
// Get the bytesWritten parameter from task and atomically add it to the logBytesWritten() property of the DR
// config.
DRConfig config(task);
int64_t bytesWritten = Params.bytesWritten().getOrDefault(task);
config.logBytesWritten().atomicOp(tr, bytesWritten, MutationRef::AddValue);
if (task->params.find(OldCopyLogRangeTaskFunc::keyNextBeginVersion) != task->params.end()) {
state Version nextVersion = BinaryReader::fromStringRef<Version>(
task->params[OldCopyLogRangeTaskFunc::keyNextBeginVersion], Unversioned());
wait(success(OldCopyLogRangeTaskFunc::addTask(
tr, taskBucket, task, nextVersion, endVersion, TaskCompletionKey::signal(taskFuture->key))) &&
taskBucket->finish(tr, task));
} else {
wait(taskFuture->set(tr, taskBucket) && taskBucket->finish(tr, task));
}
return Void();
}
};
StringRef OldCopyLogRangeTaskFunc::name = LiteralStringRef("db_copy_log_range");
const Key OldCopyLogRangeTaskFunc::keyNextBeginVersion = LiteralStringRef("nextBeginVersion");
REGISTER_TASKFUNC(OldCopyLogRangeTaskFunc);
struct AbortOldBackupTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state DatabaseBackupAgent srcDrAgent(taskBucket->src);
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
state Key tagNameKey;
loop {
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
Key tagPath = srcDrAgent.states.get(task->params[DatabaseBackupAgent::keyConfigLogUid])
.pack(BackupAgentBase::keyConfigBackupTag);
Optional<Key> tagName = wait(tr->get(tagPath));
if (!tagName.present()) {
return Void();
}
tagNameKey = tagName.get();
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
TraceEvent("DBA_AbortOldBackup").detail("TagName", tagNameKey.printable());
wait(srcDrAgent.abortBackup(cx, tagNameKey, false, true));
return Void();
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
wait(taskBucket->finish(tr, task));
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(AbortOldBackupTaskFunc::name, AbortOldBackupTaskFunc::version, doneKey, 1);
copyDefaultParameters(parentTask, task);
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef AbortOldBackupTaskFunc::name = LiteralStringRef("dr_abort_legacy_backup");
REGISTER_TASKFUNC(AbortOldBackupTaskFunc);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_backup_range);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_finish_full_backup);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_copy_logs);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_finished_full_backup);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_backup_restorable);
REGISTER_TASKFUNC_ALIAS(AbortOldBackupTaskFunc, db_start_full_backup);
// Upgrade DR from 5.1
struct CopyDiffLogsUpgradeTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Key logUidValue = task->params[DatabaseBackupAgent::keyConfigLogUid];
state Subspace sourceStates =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keySourceStates).get(logUidValue);
state Subspace config =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keyConfig).get(logUidValue);
wait(checkTaskVersion(cx, task, CopyDiffLogsUpgradeTaskFunc::name, CopyDiffLogsUpgradeTaskFunc::version));
// Retrieve backupRanges
state Standalone<VectorRef<KeyRangeRef>> backupRanges;
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
loop {
try {
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
Future<Void> verified = taskBucket->keepRunning(tr, task);
wait(verified);
Optional<Key> backupKeysPacked = wait(tr->get(config.pack(BackupAgentBase::keyConfigBackupRanges)));
if (!backupKeysPacked.present()) {
return Void();
}
BinaryReader br(backupKeysPacked.get(), IncludeVersion());
br >> backupRanges;
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
// Set destUidValue and versionKey on src side
state Key destUidValue(logUidValue);
state Reference<ReadYourWritesTransaction> srcTr(new ReadYourWritesTransaction(taskBucket->src));
loop {
try {
srcTr->setOption(FDBTransactionOptions::LOCK_AWARE);
srcTr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
state Optional<Value> v = wait(srcTr->get(sourceStates.pack(DatabaseBackupAgent::keyFolderId)));
if (v.present() && BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) >
BinaryReader::fromStringRef<Version>(
task->params[DatabaseBackupAgent::keyFolderId], Unversioned())) {
return Void();
}
if (backupRanges.size() == 1) {
Standalone<RangeResultRef> existingDestUidValues = wait(srcTr->getRange(
KeyRangeRef(destUidLookupPrefix, strinc(destUidLookupPrefix)), CLIENT_KNOBS->TOO_MANY));
bool found = false;
for (auto it : existingDestUidValues) {
if (BinaryReader::fromStringRef<KeyRange>(it.key.removePrefix(destUidLookupPrefix),
IncludeVersion()) == backupRanges[0]) {
if (destUidValue != it.value) {
// existing backup/DR is running
return Void();
} else {
// due to unknown commit result
found = true;
break;
}
}
}
if (found) {
break;
}
srcTr->set(
BinaryWriter::toValue(backupRanges[0], IncludeVersion(ProtocolVersion::withSharedMutations()))
.withPrefix(destUidLookupPrefix),
destUidValue);
}
Key versionKey = logUidValue.withPrefix(destUidValue).withPrefix(backupLatestVersionsPrefix);
srcTr->set(versionKey, task->params[DatabaseBackupAgent::keyBeginVersion]);
wait(srcTr->commit());
break;
} catch (Error& e) {
wait(srcTr->onError(e));
}
}
task->params[BackupAgentBase::destUid] = destUidValue;
ASSERT(destUidValue == logUidValue);
return Void();
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
wait(checkTaskVersion(tr, task, CopyDiffLogsUpgradeTaskFunc::name, CopyDiffLogsUpgradeTaskFunc::version));
state Reference<TaskFuture> onDone = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
if (task->params[BackupAgentBase::destUid].size() == 0) {
TraceEvent("DBA_CopyDiffLogsUpgradeTaskFuncAbortInUpgrade");
wait(success(AbortOldBackupTaskFunc::addTask(tr, taskBucket, task, TaskCompletionKey::signal(onDone))));
} else {
Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[DatabaseBackupAgent::keyBeginVersion], Unversioned());
Subspace config = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[DatabaseBackupAgent::keyConfigLogUid]);
tr->set(config.pack(BackupAgentBase::destUid), task->params[BackupAgentBase::destUid]);
tr->set(config.pack(BackupAgentBase::keyDrVersion),
BinaryWriter::toValue(DatabaseBackupAgent::LATEST_DR_VERSION, Unversioned()));
wait(success(CopyDiffLogsTaskFunc::addTask(
tr, taskBucket, task, 0, beginVersion, TaskCompletionKey::signal(onDone))));
}
wait(taskBucket->finish(tr, task));
return Void();
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef CopyDiffLogsUpgradeTaskFunc::name = LiteralStringRef("db_copy_diff_logs");
REGISTER_TASKFUNC(CopyDiffLogsUpgradeTaskFunc);
struct BackupRestorableTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace sourceStates = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keySourceStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(cx, task, BackupRestorableTaskFunc::name, BackupRestorableTaskFunc::version));
state Transaction tr(taskBucket->src);
loop {
try {
tr.setOption(FDBTransactionOptions::LOCK_AWARE);
tr.addReadConflictRange(singleKeyRange(sourceStates.pack(DatabaseBackupAgent::keyStateStatus)));
tr.set(sourceStates.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_RUNNING_DIFFERENTIAL)));
Key versionKey = task->params[DatabaseBackupAgent::keyConfigLogUid]
.withPrefix(task->params[BackupAgentBase::destUid])
.withPrefix(backupLatestVersionsPrefix);
Optional<Key> prevBeginVersion = wait(tr.get(versionKey));
if (!prevBeginVersion.present()) {
return Void();
}
task->params[DatabaseBackupAgent::keyPrevBeginVersion] = prevBeginVersion.get();
wait(tr.commit());
return Void();
} catch (Error& e) {
wait(tr.onError(e));
}
}
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Subspace conf = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
state Subspace states = Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyStates)
.get(task->params[BackupAgentBase::keyConfigLogUid]);
wait(checkTaskVersion(tr, task, BackupRestorableTaskFunc::name, BackupRestorableTaskFunc::version));
state Reference<TaskFuture> onDone = futureBucket->unpack(task->params[Task::reservedTaskParamKeyDone]);
state Optional<Value> stopValue = wait(tr->get(states.pack(DatabaseBackupAgent::keyStateStop)));
state Version restoreVersion =
stopValue.present() ? BinaryReader::fromStringRef<Version>(stopValue.get(), Unversioned()) : -1;
state Optional<Value> stopWhenDone = wait(tr->get(conf.pack(DatabaseBackupAgent::keyConfigStopWhenDoneKey)));
state Reference<TaskFuture> allPartsDone;
TraceEvent("DBA_Complete")
.detail("RestoreVersion", restoreVersion)
.detail("Differential", stopWhenDone.present())
.detail("LogUID", task->params[BackupAgentBase::keyConfigLogUid]);
// Start the complete task, if differential is not enabled
if (stopWhenDone.present()) {
// After the Backup completes, clear the backup subspace and update the status
wait(success(FinishedFullBackupTaskFunc::addTask(tr, taskBucket, task, TaskCompletionKey::noSignal())));
} else { // Start the writing of logs, if differential
tr->set(states.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_RUNNING_DIFFERENTIAL)));
allPartsDone = futureBucket->future(tr);
Version prevBeginVersion = BinaryReader::fromStringRef<Version>(
task->params[DatabaseBackupAgent::keyPrevBeginVersion], Unversioned());
wait(success(CopyDiffLogsTaskFunc::addTask(
tr, taskBucket, task, prevBeginVersion, restoreVersion, TaskCompletionKey::joinWith(allPartsDone))));
// After the Backup completes, clear the backup subspace and update the status
wait(success(FinishedFullBackupTaskFunc::addTask(
tr, taskBucket, task, TaskCompletionKey::noSignal(), allPartsDone)));
}
wait(taskBucket->finish(tr, task));
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<Task> parentTask,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>()) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(BackupRestorableTaskFunc::name, BackupRestorableTaskFunc::version, doneKey);
copyDefaultParameters(parentTask, task);
if (!waitFor) {
return taskBucket->addTask(tr,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
parentTask->params[Task::reservedTaskParamValidKey],
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef BackupRestorableTaskFunc::name = LiteralStringRef("dr_backup_restorable");
REGISTER_TASKFUNC(BackupRestorableTaskFunc);
struct StartFullBackupTaskFunc : TaskFuncBase {
static StringRef name;
static constexpr uint32_t version = 1;
ACTOR static Future<Void> _execute(Database cx,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Key logUidValue = task->params[DatabaseBackupAgent::keyConfigLogUid];
state Subspace sourceStates =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keySourceStates).get(logUidValue);
wait(checkTaskVersion(cx, task, StartFullBackupTaskFunc::name, StartFullBackupTaskFunc::version));
state Key destUidValue(logUidValue);
state Standalone<VectorRef<KeyRangeRef>> backupRanges =
BinaryReader::fromStringRef<Standalone<VectorRef<KeyRangeRef>>>(
task->params[DatabaseBackupAgent::keyConfigBackupRanges], IncludeVersion());
state Key beginVersionKey;
state Reference<ReadYourWritesTransaction> srcTr(new ReadYourWritesTransaction(taskBucket->src));
loop {
try {
srcTr->setOption(FDBTransactionOptions::LOCK_AWARE);
srcTr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
// Initialize destUid
if (backupRanges.size() == 1) {
Standalone<RangeResultRef> existingDestUidValues = wait(srcTr->getRange(
KeyRangeRef(destUidLookupPrefix, strinc(destUidLookupPrefix)), CLIENT_KNOBS->TOO_MANY));
bool found = false;
for (auto it : existingDestUidValues) {
if (BinaryReader::fromStringRef<KeyRange>(it.key.removePrefix(destUidLookupPrefix),
IncludeVersion()) == backupRanges[0]) {
destUidValue = it.value;
found = true;
break;
}
}
if (!found) {
destUidValue = BinaryWriter::toValue(deterministicRandom()->randomUniqueID(), Unversioned());
srcTr->set(BinaryWriter::toValue(backupRanges[0],
IncludeVersion(ProtocolVersion::withSharedMutations()))
.withPrefix(destUidLookupPrefix),
destUidValue);
}
}
Version bVersion = wait(srcTr->getReadVersion());
beginVersionKey = BinaryWriter::toValue(bVersion, Unversioned());
state Key versionKey = logUidValue.withPrefix(destUidValue).withPrefix(backupLatestVersionsPrefix);
Optional<Key> versionRecord = wait(srcTr->get(versionKey));
if (!versionRecord.present()) {
srcTr->set(versionKey, beginVersionKey);
}
task->params[BackupAgentBase::destUid] = destUidValue;
wait(srcTr->commit());
break;
} catch (Error& e) {
wait(srcTr->onError(e));
}
}
loop {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
try {
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
state Future<Void> verified = taskBucket->keepRunning(tr, task);
wait(verified);
// Set destUid at destination side
state Subspace config =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keyConfig).get(logUidValue);
tr->set(config.pack(BackupAgentBase::destUid), task->params[BackupAgentBase::destUid]);
// Use existing beginVersion if we already have one
Optional<Key> backupStartVersion = wait(tr->get(config.pack(BackupAgentBase::backupStartVersion)));
if (backupStartVersion.present()) {
beginVersionKey = backupStartVersion.get();
} else {
tr->set(config.pack(BackupAgentBase::backupStartVersion), beginVersionKey);
}
task->params[BackupAgentBase::keyBeginVersion] = beginVersionKey;
wait(tr->commit());
break;
} catch (Error& e) {
TraceEvent("SetDestUidOrBeginVersionError").error(e, true);
wait(tr->onError(e));
}
}
state Reference<ReadYourWritesTransaction> srcTr2(new ReadYourWritesTransaction(taskBucket->src));
loop {
try {
srcTr2->setOption(FDBTransactionOptions::LOCK_AWARE);
srcTr2->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
state Optional<Value> v = wait(srcTr2->get(sourceStates.pack(DatabaseBackupAgent::keyFolderId)));
if (v.present() && BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) >=
BinaryReader::fromStringRef<Version>(
task->params[DatabaseBackupAgent::keyFolderId], Unversioned()))
return Void();
srcTr2->set(Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keySourceTagName)
.pack(task->params[BackupAgentBase::keyTagName]),
logUidValue);
srcTr2->set(sourceStates.pack(DatabaseBackupAgent::keyFolderId),
task->params[DatabaseBackupAgent::keyFolderId]);
srcTr2->set(sourceStates.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_RUNNING)));
state Key destPath = destUidValue.withPrefix(backupLogKeys.begin);
// Start logging the mutations for the specified ranges of the tag
for (auto& backupRange : backupRanges) {
srcTr2->set(logRangesEncodeKey(backupRange.begin,
BinaryReader::fromStringRef<UID>(destUidValue, Unversioned())),
logRangesEncodeValue(backupRange.end, destPath));
}
wait(srcTr2->commit());
break;
} catch (Error& e) {
wait(srcTr2->onError(e));
}
}
state Reference<ReadYourWritesTransaction> srcTr3(new ReadYourWritesTransaction(taskBucket->src));
loop {
try {
srcTr3->setOption(FDBTransactionOptions::LOCK_AWARE);
srcTr3->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
srcTr3->atomicOp(metadataVersionKey, metadataVersionRequiredValue, MutationRef::SetVersionstampedValue);
wait(srcTr3->commit());
break;
} catch (Error& e) {
wait(srcTr3->onError(e));
}
}
return Void();
}
ACTOR static Future<Void> _finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Reference<FutureBucket> futureBucket,
Reference<Task> task) {
state Key logUidValue = task->params[BackupAgentBase::keyConfigLogUid];
state Subspace states =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keyStates).get(logUidValue);
state Subspace config =
Subspace(databaseBackupPrefixRange.begin).get(BackupAgentBase::keyConfig).get(logUidValue);
state Version beginVersion =
BinaryReader::fromStringRef<Version>(task->params[BackupAgentBase::keyBeginVersion], Unversioned());
state Standalone<VectorRef<KeyRangeRef>> backupRanges =
BinaryReader::fromStringRef<Standalone<VectorRef<KeyRangeRef>>>(
task->params[DatabaseBackupAgent::keyConfigBackupRanges], IncludeVersion());
tr->set(logUidValue.withPrefix(applyMutationsBeginRange.begin),
BinaryWriter::toValue(beginVersion, Unversioned()));
tr->set(logUidValue.withPrefix(applyMutationsEndRange.begin),
BinaryWriter::toValue(beginVersion, Unversioned()));
tr->set(states.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_RUNNING)));
state Reference<TaskFuture> kvBackupRangeComplete = futureBucket->future(tr);
state Reference<TaskFuture> kvBackupComplete = futureBucket->future(tr);
state int rangeCount = 0;
if (task->params[DatabaseBackupAgent::keyDatabasesInSync] != std::string("t")) {
for (; rangeCount < backupRanges.size(); ++rangeCount) {
wait(success(BackupRangeTaskFunc::addTask(tr,
taskBucket,
task,
backupRanges[rangeCount].begin,
backupRanges[rangeCount].end,
TaskCompletionKey::joinWith(kvBackupRangeComplete))));
}
} else {
kvBackupRangeComplete->set(tr, taskBucket);
}
// After the BackupRangeTask completes, set the stop key which will stop the BackupLogsTask
wait(success(FinishFullBackupTaskFunc::addTask(
tr, taskBucket, task, TaskCompletionKey::noSignal(), kvBackupRangeComplete)));
// Backup the logs which will create BackupLogRange tasks
wait(success(CopyLogsTaskFunc::addTask(
tr, taskBucket, task, 0, beginVersion, TaskCompletionKey::joinWith(kvBackupComplete))));
// After the Backup completes, clear the backup subspace and update the status
wait(success(
BackupRestorableTaskFunc::addTask(tr, taskBucket, task, TaskCompletionKey::noSignal(), kvBackupComplete)));
wait(taskBucket->finish(tr, task));
return Void();
}
ACTOR static Future<Key> addTask(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> taskBucket,
Key logUid,
Key backupUid,
Key keyAddPrefix,
Key keyRemovePrefix,
Key keyConfigBackupRanges,
Key tagName,
TaskCompletionKey completionKey,
Reference<TaskFuture> waitFor = Reference<TaskFuture>(),
bool databasesInSync = false) {
Key doneKey = wait(completionKey.get(tr, taskBucket));
auto task = makeReference<Task>(StartFullBackupTaskFunc::name, StartFullBackupTaskFunc::version, doneKey);
task->params[BackupAgentBase::keyFolderId] = backupUid;
task->params[BackupAgentBase::keyConfigLogUid] = logUid;
task->params[DatabaseBackupAgent::keyAddPrefix] = keyAddPrefix;
task->params[DatabaseBackupAgent::keyRemovePrefix] = keyRemovePrefix;
task->params[BackupAgentBase::keyConfigBackupRanges] = keyConfigBackupRanges;
task->params[BackupAgentBase::keyTagName] = tagName;
task->params[DatabaseBackupAgent::keyDatabasesInSync] =
databasesInSync ? LiteralStringRef("t") : LiteralStringRef("f");
if (!waitFor) {
return taskBucket->addTask(tr,
task,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(logUid)
.pack(BackupAgentBase::keyFolderId),
task->params[BackupAgentBase::keyFolderId]);
}
wait(waitFor->onSetAddTask(tr,
taskBucket,
task,
Subspace(databaseBackupPrefixRange.begin)
.get(BackupAgentBase::keyConfig)
.get(logUid)
.pack(BackupAgentBase::keyFolderId),
task->params[BackupAgentBase::keyFolderId]));
return LiteralStringRef("OnSetAddTask");
}
StringRef getName() const override { return name; };
Future<Void> execute(Database cx,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _execute(cx, tb, fb, task);
};
Future<Void> finish(Reference<ReadYourWritesTransaction> tr,
Reference<TaskBucket> tb,
Reference<FutureBucket> fb,
Reference<Task> task) override {
return _finish(tr, tb, fb, task);
};
};
StringRef StartFullBackupTaskFunc::name = LiteralStringRef("dr_start_full_backup");
REGISTER_TASKFUNC(StartFullBackupTaskFunc);
} // namespace dbBackup
std::set<std::string> getDRAgentsIds(StatusObjectReader statusObj, const char* context) {
std::set<std::string> drBackupAgents;
try {
StatusObjectReader statusObjLayers;
statusObj.get("cluster.layers", statusObjLayers);
StatusObjectReader instances;
std::string path = format("%s.instances", context);
if (statusObjLayers.tryGet(path, instances)) {
for (auto itr : instances.obj()) {
drBackupAgents.insert(itr.first);
}
}
} catch (std::runtime_error& e) {
TraceEvent(SevWarn, "DBA_GetDRAgentsIdsFail").detail("Error", e.what());
throw backup_error();
}
return drBackupAgents;
}
std::string getDRMutationStreamId(StatusObjectReader statusObj, const char* context, Key tagName) {
try {
StatusObjectReader statusObjLayers;
statusObj.get("cluster.layers", statusObjLayers);
StatusObjectReader tags;
std::string path = format("%s.tags", context);
if (statusObjLayers.tryGet(path, tags)) {
for (auto itr : tags.obj()) {
if (itr.first == tagName.toString()) {
JSONDoc tag(itr.second);
return tag["mutation_stream_id"].get_str();
}
}
}
TraceEvent(SevWarn, "DBA_TagNotPresentInStatus").detail("Tag", tagName.toString()).detail("Context", context);
throw backup_error();
} catch (std::runtime_error& e) {
TraceEvent(SevWarn, "DBA_GetDRMutationStreamIdFail").detail("Error", e.what());
throw backup_error();
}
}
bool getLockedStatus(StatusObjectReader statusObj) {
try {
StatusObjectReader statusObjCluster = statusObj["cluster"].get_obj();
return statusObjCluster["database_locked"].get_bool();
} catch (std::runtime_error& e) {
TraceEvent(SevWarn, "DBA_GetLockedStatusFail").detail("Error", e.what());
throw backup_error();
}
}
void checkAtomicSwitchOverConfig(StatusObjectReader srcStatus, StatusObjectReader destStatus, Key tagName) {
try {
// Check if src is unlocked and dest is locked
if (getLockedStatus(srcStatus) != false) {
TraceEvent(SevWarn, "DBA_AtomicSwitchOverSrcLocked");
throw backup_error();
}
if (getLockedStatus(destStatus) != true) {
TraceEvent(SevWarn, "DBA_AtomicSwitchOverDestUnlocked");
throw backup_error();
}
// Check if mutation-stream-id matches
if (getDRMutationStreamId(srcStatus, "dr_backup", tagName) !=
getDRMutationStreamId(destStatus, "dr_backup_dest", tagName)) {
TraceEvent(SevWarn, "DBA_AtomicSwitchOverMutationIdMismatch")
.detail("SourceMutationId", getDRMutationStreamId(srcStatus, "dr_backup", tagName))
.detail("DestMutationId", getDRMutationStreamId(destStatus, "dr_back_dest", tagName));
throw backup_error();
}
// Check if there are agents set up with src as its destination cluster and dest as its source cluster
auto srcDRAgents = getDRAgentsIds(srcStatus, "dr_backup_dest");
auto destDRAgents = getDRAgentsIds(destStatus, "dr_backup");
std::set<std::string> intersectingAgents;
std::set_intersection(srcDRAgents.begin(),
srcDRAgents.end(),
destDRAgents.begin(),
destDRAgents.end(),
std::inserter(intersectingAgents, intersectingAgents.begin()));
if (intersectingAgents.empty()) {
TraceEvent(SevWarn, "DBA_SwitchOverPossibleDRAgentsIncorrectSetup");
throw backup_error();
}
} catch (std::runtime_error& e) {
TraceEvent(SevWarn, "DBA_UnableToCheckAtomicSwitchOverConfig").detail("RunTimeError", e.what());
throw backup_error();
}
return;
}
class DatabaseBackupAgentImpl {
public:
static constexpr int MAX_RESTORABLE_FILE_METASECTION_BYTES = 1024 * 8;
ACTOR static Future<Void> waitUpgradeToLatestDrVersion(DatabaseBackupAgent* backupAgent, Database cx, Key tagName) {
state UID logUid = wait(backupAgent->getLogUid(cx, tagName));
state Key drVersionKey = backupAgent->config.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyDrVersion);
TraceEvent("DRU_WatchLatestDrVersion")
.detail("DrVersionKey", drVersionKey.printable())
.detail("LogUid", BinaryWriter::toValue(logUid, Unversioned()).printable());
loop {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
loop {
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
Optional<Value> drVersion = wait(tr->get(drVersionKey));
TraceEvent("DRU_VersionCheck")
.detail("Current",
drVersion.present() ? BinaryReader::fromStringRef<int>(drVersion.get(), Unversioned())
: -1)
.detail("Expected", DatabaseBackupAgent::LATEST_DR_VERSION)
.detail("LogUid", BinaryWriter::toValue(logUid, Unversioned()).printable());
if (drVersion.present() && BinaryReader::fromStringRef<int>(drVersion.get(), Unversioned()) ==
DatabaseBackupAgent::LATEST_DR_VERSION) {
return Void();
}
state Future<Void> watchDrVersionFuture = tr->watch(drVersionKey);
wait(tr->commit());
wait(watchDrVersionFuture);
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
}
// This method will return the final status of the backup
ACTOR static Future<EBackupState> waitBackup(DatabaseBackupAgent* backupAgent,
Database cx,
Key tagName,
bool stopWhenDone) {
state std::string backTrace;
state UID logUid = wait(backupAgent->getLogUid(cx, tagName));
state Key statusKey = backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyStateStatus);
loop {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
try {
state EBackupState status = wait(backupAgent->getStateValue(tr, logUid));
// Break, if no longer runnable
if (!DatabaseBackupAgent::isRunnable(status) || EBackupState::STATE_PARTIALLY_ABORTED == status) {
return status;
}
// Break, if in differential mode (restorable) and stopWhenDone is not enabled
if ((!stopWhenDone) && (EBackupState::STATE_RUNNING_DIFFERENTIAL == status)) {
return status;
}
state Future<Void> watchFuture = tr->watch(statusKey);
wait(tr->commit());
wait(watchFuture);
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
// This method will return the final status of the backup
ACTOR static Future<EBackupState> waitSubmitted(DatabaseBackupAgent* backupAgent, Database cx, Key tagName) {
state UID logUid = wait(backupAgent->getLogUid(cx, tagName));
state Key statusKey = backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyStateStatus);
loop {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
try {
state EBackupState status = wait(backupAgent->getStateValue(tr, logUid));
// Break, if no longer runnable
if (EBackupState::STATE_SUBMITTED != status) {
return status;
}
state Future<Void> watchFuture = tr->watch(statusKey);
wait(tr->commit());
wait(watchFuture);
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
ACTOR static Future<Void> submitBackup(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
Key tagName,
Standalone<VectorRef<KeyRangeRef>> backupRanges,
bool stopWhenDone,
Key addPrefix,
Key removePrefix,
bool lockDB,
bool databasesInSync) {
state UID logUid = deterministicRandom()->randomUniqueID();
state Key logUidValue = BinaryWriter::toValue(logUid, Unversioned());
state UID logUidCurrent = wait(backupAgent->getLogUid(tr, tagName));
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
// This commit must happen on the first proxy to ensure that the applier has flushed all mutations from previous
// DRs
tr->setOption(FDBTransactionOptions::COMMIT_ON_FIRST_PROXY);
// We will use the global status for now to ensure that multiple backups do not start place with different tags
state EBackupState status = wait(backupAgent->getStateValue(tr, logUidCurrent));
if (DatabaseBackupAgent::isRunnable(status)) {
throw backup_duplicate();
}
if (logUidCurrent.isValid()) {
logUid = logUidCurrent;
logUidValue = BinaryWriter::toValue(logUid, Unversioned());
}
Optional<Key> v = wait(tr->get(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId)));
Version uidVersion = 0;
if (v.present())
uidVersion = BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) + 1;
state Standalone<StringRef> backupUid = BinaryWriter::toValue(uidVersion, Unversioned());
KeyRangeMap<int> backupRangeSet;
for (auto& backupRange : backupRanges) {
backupRangeSet.insert(backupRange, 1);
}
backupRangeSet.coalesce(allKeys);
backupRanges = Standalone<VectorRef<KeyRangeRef>>();
for (auto& backupRange : backupRangeSet.ranges()) {
if (backupRange.value()) {
backupRanges.push_back_deep(backupRanges.arena(), backupRange.range());
}
}
if (!databasesInSync) {
// Make sure all of the ranges are empty before we backup into them.
state std::vector<Future<Standalone<RangeResultRef>>> backupIntoResults;
for (auto& backupRange : backupRanges) {
backupIntoResults.push_back(
tr->getRange(backupRange.removePrefix(removePrefix).withPrefix(addPrefix), 1));
}
wait(waitForAll(backupIntoResults));
for (auto result : backupIntoResults) {
if (result.get().size() > 0) {
// One of the ranges we will be backing up into has pre-existing data.
throw restore_destination_not_empty();
}
}
}
// Clear the backup ranges for the tag
tr->clear(backupAgent->config.get(logUidValue).range());
tr->clear(backupAgent->states.get(logUidValue).range());
tr->clear(backupAgent->errors.range());
tr->set(backupAgent->tagNames.pack(tagName), logUidValue);
// Clear DRConfig for this UID, which unfortunately only contains some newer vars and not the stuff below.
DRConfig(logUid).clear(tr);
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyDrVersion),
BinaryWriter::toValue(DatabaseBackupAgent::LATEST_DR_VERSION, Unversioned()));
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyAddPrefix), addPrefix);
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyRemovePrefix), removePrefix);
tr->set(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyConfigBackupTag), tagName);
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyConfigLogUid), logUidValue);
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId), backupUid);
tr->set(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId),
backupUid); // written to config and states because it's also used by abort
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyConfigBackupRanges),
BinaryWriter::toValue(backupRanges, IncludeVersion(ProtocolVersion::withDRBackupRanges())));
tr->set(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_SUBMITTED)));
if (stopWhenDone) {
tr->set(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyConfigStopWhenDoneKey),
StringRef());
}
int64_t startCount = 0;
state Key mapPrefix = logUidValue.withPrefix(applyMutationsKeyVersionMapRange.begin);
Key mapEnd = normalKeys.end.withPrefix(mapPrefix);
tr->set(logUidValue.withPrefix(applyMutationsAddPrefixRange.begin), addPrefix);
tr->set(logUidValue.withPrefix(applyMutationsRemovePrefixRange.begin), removePrefix);
tr->set(logUidValue.withPrefix(applyMutationsKeyVersionCountRange.begin), StringRef((uint8_t*)&startCount, 8));
tr->clear(KeyRangeRef(mapPrefix, mapEnd));
state Version readVersion = invalidVersion;
if (databasesInSync) {
Transaction readTransaction(backupAgent->taskBucket->src);
readTransaction.setOption(FDBTransactionOptions::LOCK_AWARE);
Version _ = wait(readTransaction.getReadVersion());
readVersion = _;
}
tr->set(mapPrefix, BinaryWriter::toValue<Version>(readVersion, Unversioned()));
Key taskKey = wait(dbBackup::StartFullBackupTaskFunc::addTask(
tr,
backupAgent->taskBucket,
logUidValue,
backupUid,
addPrefix,
removePrefix,
BinaryWriter::toValue(backupRanges, IncludeVersion(ProtocolVersion::withDRBackupRanges())),
tagName,
TaskCompletionKey::noSignal(),
Reference<TaskFuture>(),
databasesInSync));
if (lockDB)
wait(lockDatabase(tr, logUid));
else
wait(checkDatabaseLock(tr, logUid));
TraceEvent("DBA_Submit")
.detail("LogUid", logUid)
.detail("Lock", lockDB)
.detail("LogUID", logUidValue)
.detail("Tag", tagName)
.detail("Key", backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId))
.detail("MapPrefix", mapPrefix);
return Void();
}
ACTOR static Future<Void> unlockBackup(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
Key tagName) {
UID logUid = wait(backupAgent->getLogUid(tr, tagName));
wait(unlockDatabase(tr, logUid));
TraceEvent("DBA_Unlock").detail("Tag", tagName);
return Void();
}
ACTOR static Future<Void> atomicSwitchover(DatabaseBackupAgent* backupAgent,
Database dest,
Key tagName,
Standalone<VectorRef<KeyRangeRef>> backupRanges,
Key addPrefix,
Key removePrefix,
bool forceAction) {
state DatabaseBackupAgent drAgent(dest);
state UID destlogUid = wait(backupAgent->getLogUid(dest, tagName));
state EBackupState status = wait(backupAgent->getStateValue(dest, destlogUid));
TraceEvent("DBA_SwitchoverStart").detail("Status", status);
if (status != EBackupState::STATE_RUNNING_DIFFERENTIAL && status != EBackupState::STATE_COMPLETED) {
throw backup_duplicate();
}
if (!g_network->isSimulated() && !forceAction) {
state StatusObject srcStatus = wait(StatusClient::statusFetcher(backupAgent->taskBucket->src));
StatusObject destStatus = wait(StatusClient::statusFetcher(dest));
checkAtomicSwitchOverConfig(srcStatus, destStatus, tagName);
}
state UID logUid = deterministicRandom()->randomUniqueID();
state Key logUidValue = BinaryWriter::toValue(logUid, Unversioned());
state UID logUidCurrent = wait(drAgent.getLogUid(backupAgent->taskBucket->src, tagName));
if (logUidCurrent.isValid()) {
logUid = logUidCurrent;
logUidValue = BinaryWriter::toValue(logUid, Unversioned());
}
// Lock src, record commit version
state Transaction tr(backupAgent->taskBucket->src);
state Version commitVersion;
loop {
try {
wait(lockDatabase(&tr, logUid));
tr.set(backupAgent->tagNames.pack(tagName), logUidValue);
wait(tr.commit());
commitVersion = tr.getCommittedVersion();
break;
} catch (Error& e) {
wait(tr.onError(e));
}
}
TraceEvent("DBA_SwitchoverLocked").detail("Version", commitVersion);
// Wait for the destination to apply mutations up to the lock commit before switching over.
state ReadYourWritesTransaction tr2(dest);
loop {
try {
tr2.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr2.setOption(FDBTransactionOptions::LOCK_AWARE);
state Optional<Value> backupUid =
wait(tr2.get(backupAgent->states.get(BinaryWriter::toValue(destlogUid, Unversioned()))
.pack(DatabaseBackupAgent::keyFolderId)));
TraceEvent("DBA_SwitchoverBackupUID")
.detail("Uid", backupUid)
.detail("Key",
backupAgent->states.get(BinaryWriter::toValue(destlogUid, Unversioned()))
.pack(DatabaseBackupAgent::keyFolderId));
if (!backupUid.present())
throw backup_duplicate();
Optional<Value> v = wait(tr2.get(
BinaryWriter::toValue(destlogUid, Unversioned()).withPrefix(applyMutationsBeginRange.begin)));
TraceEvent("DBA_SwitchoverVersion")
.detail("Version", v.present() ? BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) : 0);
if (v.present() && BinaryReader::fromStringRef<Version>(v.get(), Unversioned()) >= commitVersion)
break;
state Future<Void> versionWatch = tr2.watch(
BinaryWriter::toValue(destlogUid, Unversioned()).withPrefix(applyMutationsBeginRange.begin));
wait(tr2.commit());
wait(versionWatch);
tr2.reset();
} catch (Error& e) {
wait(tr2.onError(e));
}
}
TraceEvent("DBA_SwitchoverReady");
try {
wait(backupAgent->discontinueBackup(dest, tagName));
} catch (Error& e) {
if (e.code() != error_code_backup_duplicate && e.code() != error_code_backup_unneeded)
throw;
}
wait(success(backupAgent->waitBackup(dest, tagName, true)));
TraceEvent("DBA_SwitchoverStopped");
state ReadYourWritesTransaction tr3(dest);
loop {
try {
tr3.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr3.setOption(FDBTransactionOptions::LOCK_AWARE);
Version destVersion = wait(tr3.getReadVersion());
TraceEvent("DBA_SwitchoverVersionUpgrade").detail("Src", commitVersion).detail("Dest", destVersion);
if (destVersion <= commitVersion) {
TEST(true); // Forcing dest backup cluster to higher version
tr3.set(minRequiredCommitVersionKey, BinaryWriter::toValue(commitVersion + 1, Unversioned()));
wait(tr3.commit());
} else {
break;
}
} catch (Error& e) {
wait(tr3.onError(e));
}
}
TraceEvent("DBA_SwitchoverVersionUpgraded");
try {
wait(drAgent.submitBackup(
backupAgent->taskBucket->src, tagName, backupRanges, false, addPrefix, removePrefix, true, true));
} catch (Error& e) {
if (e.code() != error_code_backup_duplicate)
throw;
}
TraceEvent("DBA_SwitchoverSubmitted");
wait(success(drAgent.waitSubmitted(backupAgent->taskBucket->src, tagName)));
TraceEvent("DBA_SwitchoverStarted");
wait(backupAgent->unlockBackup(dest, tagName));
TraceEvent("DBA_SwitchoverUnlocked");
return Void();
}
ACTOR static Future<Void> discontinueBackup(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
Key tagName) {
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state UID logUid = wait(backupAgent->getLogUid(tr, tagName));
state EBackupState status = wait(backupAgent->getStateValue(tr, logUid));
TraceEvent("DBA_Discontinue").detail("Status", status);
if (!DatabaseBackupAgent::isRunnable(status)) {
throw backup_unneeded();
}
state Optional<Value> stopWhenDoneValue =
wait(tr->get(backupAgent->config.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyConfigStopWhenDoneKey)));
if (stopWhenDoneValue.present()) {
throw backup_duplicate();
}
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
tr->set(backupAgent->config.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(BackupAgentBase::keyConfigStopWhenDoneKey),
StringRef());
return Void();
}
ACTOR static Future<Void> abortBackup(DatabaseBackupAgent* backupAgent,
Database cx,
Key tagName,
bool partial,
bool abortOldBackup,
bool dstOnly,
bool waitForDestUID) {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
state Key logUidValue, destUidValue;
state UID logUid, destUid;
state Value backupUid;
loop {
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
tr->setOption(FDBTransactionOptions::COMMIT_ON_FIRST_PROXY);
UID _logUid = wait(backupAgent->getLogUid(tr, tagName));
logUid = _logUid;
logUidValue = BinaryWriter::toValue(logUid, Unversioned());
state Future<EBackupState> statusFuture = backupAgent->getStateValue(tr, logUid);
state Future<UID> destUidFuture = backupAgent->getDestUid(tr, logUid);
wait(success(statusFuture) && success(destUidFuture));
EBackupState status = statusFuture.get();
if (!backupAgent->isRunnable(status)) {
throw backup_unneeded();
}
UID destUid = destUidFuture.get();
if (destUid.isValid()) {
destUidValue = BinaryWriter::toValue(destUid, Unversioned());
} else if (destUidValue.size() == 0 && waitForDestUID) {
// Give DR task a chance to update destUid to avoid the problem of
// leftover version key. If we got an commit_unknown_result before,
// reuse the previous destUidValue.
throw not_committed();
}
Optional<Value> _backupUid =
wait(tr->get(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId)));
backupUid = _backupUid.get();
// Clearing the folder id will prevent future tasks from executing
tr->clear(backupAgent->config.get(logUidValue).range());
// Clearing the end version of apply mutation cancels ongoing apply work
tr->clear(logUidValue.withPrefix(applyMutationsEndRange.begin));
tr->clear(prefixRange(logUidValue.withPrefix(applyLogKeys.begin)));
tr->set(StringRef(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyStateStatus)),
StringRef(DatabaseBackupAgent::getStateText(EBackupState::STATE_PARTIALLY_ABORTED)));
wait(tr->commit());
TraceEvent("DBA_Abort").detail("CommitVersion", tr->getCommittedVersion());
break;
} catch (Error& e) {
TraceEvent("DBA_AbortError").error(e, true);
wait(tr->onError(e));
}
}
tr = makeReference<ReadYourWritesTransaction>(cx);
loop {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
// dumpData's commits are unstoppable, and we need to make sure that no dumpData commits
// happen after this transaction, as it would mean that the applyMutationsBeginRange read we
// do isn't the final value, and thus a greater version of commits could have been applied.
// Thus, we need to commit it against the same proxy that all dumpData transactions were
// submitted to. The transaction above will stop any further dumpData calls from adding
// transactions to the proxy's commit promise stream, so our commit will come after all
// dumpData transactions.
tr->setOption(FDBTransactionOptions::COMMIT_ON_FIRST_PROXY);
try {
// Ensure that we're at a version higher than the data that we've written.
Optional<Value> lastApplied = wait(tr->get(logUidValue.withPrefix(applyMutationsBeginRange.begin)));
if (lastApplied.present()) {
Version current = tr->getReadVersion().get();
Version applied = BinaryReader::fromStringRef<Version>(lastApplied.get(), Unversioned());
TraceEvent("DBA_AbortVersionUpgrade").detail("Src", applied).detail("Dest", current);
if (current <= applied) {
TEST(true); // Upgrading version of local database.
// The +1 is because we want to make sure that a versionstamped operation can't reuse
// the same version as an already-applied transaction.
tr->set(minRequiredCommitVersionKey, BinaryWriter::toValue(applied + 1, Unversioned()));
} else {
// We need to enforce that the read we did of the applyMutationsBeginKey is the most
// recent and up to date value, as the proxy might have accepted a commit previously
// queued by dumpData after our read. Transactions that don't have write conflict ranges
// have a no-op commit(), as they become snapshot transactions to which we don't promise
// strict serializability. Therefore, we add an arbitrary write conflict range to
// request the strict serializability guarantee that is required.
tr->addWriteConflictRange(singleKeyRange(minRequiredCommitVersionKey));
}
}
wait(tr->commit());
break;
} catch (Error& e) {
wait(tr->onError(e));
}
}
if (!dstOnly) {
state Future<Void> partialTimeout = partial ? delay(30.0) : Never();
state Reference<ReadYourWritesTransaction> srcTr(
new ReadYourWritesTransaction(backupAgent->taskBucket->src));
state Version beginVersion;
state Version endVersion;
loop {
try {
srcTr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
srcTr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Future<Optional<Value>> backupVersionF =
srcTr->get(backupAgent->sourceStates.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId));
wait(success(backupVersionF) || partialTimeout);
if (partialTimeout.isReady()) {
return Void();
}
if (backupVersionF.get().present() &&
BinaryReader::fromStringRef<Version>(backupVersionF.get().get(), Unversioned()) >
BinaryReader::fromStringRef<Version>(backupUid, Unversioned())) {
break;
}
if (abortOldBackup) {
srcTr->set(backupAgent->sourceStates.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(BackupAgentBase::getStateText(EBackupState::STATE_ABORTED)));
srcTr->set(backupAgent->sourceStates.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId),
backupUid);
srcTr->clear(prefixRange(logUidValue.withPrefix(backupLogKeys.begin)));
srcTr->clear(prefixRange(logUidValue.withPrefix(logRangesRange.begin)));
break;
}
Key latestVersionKey = logUidValue.withPrefix(destUidValue.withPrefix(backupLatestVersionsPrefix));
state Future<Optional<Key>> bVersionF = srcTr->get(latestVersionKey);
wait(success(bVersionF) || partialTimeout);
if (partialTimeout.isReady()) {
return Void();
}
if (bVersionF.get().present()) {
beginVersion = BinaryReader::fromStringRef<Version>(bVersionF.get().get(), Unversioned());
} else {
break;
}
srcTr->set(backupAgent->sourceStates.pack(DatabaseBackupAgent::keyStateStatus),
StringRef(DatabaseBackupAgent::getStateText(EBackupState::STATE_PARTIALLY_ABORTED)));
srcTr->set(backupAgent->sourceStates.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId),
backupUid);
wait(eraseLogData(srcTr, logUidValue, destUidValue) || partialTimeout);
if (partialTimeout.isReady()) {
return Void();
}
wait(srcTr->commit() || partialTimeout);
if (partialTimeout.isReady()) {
return Void();
}
endVersion = srcTr->getCommittedVersion() + 1;
break;
} catch (Error& e) {
wait(srcTr->onError(e));
}
}
}
tr = makeReference<ReadYourWritesTransaction>(cx);
loop {
try {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
Optional<Value> v = wait(
tr->get(StringRef(backupAgent->config.get(logUidValue).pack(DatabaseBackupAgent::keyFolderId))));
if (v.present()) {
return Void();
}
tr->set(StringRef(backupAgent->states.get(logUidValue).pack(DatabaseBackupAgent::keyStateStatus)),
StringRef(DatabaseBackupAgent::getStateText(EBackupState::STATE_ABORTED)));
wait(tr->commit());
return Void();
} catch (Error& e) {
wait(tr->onError(e));
}
}
}
ACTOR static Future<std::string> getStatus(DatabaseBackupAgent* backupAgent,
Database cx,
int errorLimit,
Key tagName) {
state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state std::string statusText;
state int retries = 0;
loop {
try {
wait(success(tr->getReadVersion())); // get the read version before getting a version from the source
// database to prevent the time differential from going negative
state Transaction scrTr(backupAgent->taskBucket->src);
scrTr.setOption(FDBTransactionOptions::LOCK_AWARE);
state Future<Version> srcReadVersion = scrTr.getReadVersion();
statusText = "";
state UID logUid = wait(backupAgent->getLogUid(tr, tagName));
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Future<Optional<Value>> fPaused = tr->get(backupAgent->taskBucket->getPauseKey());
state Future<Standalone<RangeResultRef>> fErrorValues =
errorLimit > 0
? tr->getRange(backupAgent->errors.get(BinaryWriter::toValue(logUid, Unversioned())).range(),
errorLimit,
false,
true)
: Future<Standalone<RangeResultRef>>();
state Future<Optional<Value>> fBackupUid =
tr->get(backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyFolderId));
state Future<Optional<Value>> fBackupVerison =
tr->get(BinaryWriter::toValue(logUid, Unversioned()).withPrefix(applyMutationsBeginRange.begin));
state Future<Optional<Key>> fTagName =
tr->get(backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(BackupAgentBase::keyConfigBackupTag));
state Future<Optional<Value>> fStopVersionKey =
tr->get(backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(BackupAgentBase::keyStateStop));
state Future<Optional<Key>> fBackupKeysPacked =
tr->get(backupAgent->config.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(BackupAgentBase::keyConfigBackupRanges));
state EBackupState backupState = wait(backupAgent->getStateValue(tr, logUid));
if (backupState == EBackupState::STATE_NEVERRAN) {
statusText += "No previous backups found.\n";
} else {
state std::string tagNameDisplay;
Optional<Key> tagName = wait(fTagName);
// Define the display tag name
if (tagName.present()) {
tagNameDisplay = tagName.get().toString();
}
state Optional<Value> stopVersionKey = wait(fStopVersionKey);
Optional<Key> backupKeysPacked = wait(fBackupKeysPacked);
state Standalone<VectorRef<KeyRangeRef>> backupRanges;
if (backupKeysPacked.present()) {
BinaryReader br(backupKeysPacked.get(), IncludeVersion());
br >> backupRanges;
}
switch (backupState) {
case EBackupState::STATE_SUBMITTED:
statusText += "The DR on tag `" + tagNameDisplay +
"' is NOT a complete copy of the primary database (just started).\n";
break;
case EBackupState::STATE_RUNNING:
statusText +=
"The DR on tag `" + tagNameDisplay + "' is NOT a complete copy of the primary database.\n";
break;
case EBackupState::STATE_RUNNING_DIFFERENTIAL:
statusText +=
"The DR on tag `" + tagNameDisplay + "' is a complete copy of the primary database.\n";
break;
case EBackupState::STATE_COMPLETED: {
Version stopVersion =
stopVersionKey.present()
? BinaryReader::fromStringRef<Version>(stopVersionKey.get(), Unversioned())
: -1;
statusText += "The previous DR on tag `" + tagNameDisplay + "' completed at version " +
format("%lld", stopVersion) + ".\n";
} break;
case EBackupState::STATE_PARTIALLY_ABORTED: {
statusText += "The previous DR on tag `" + tagNameDisplay + "' " +
BackupAgentBase::getStateText(backupState) + ".\n";
statusText += "Abort the DR with --cleanup before starting a new DR.\n";
break;
}
default:
statusText += "The previous DR on tag `" + tagNameDisplay + "' " +
BackupAgentBase::getStateText(backupState) + ".\n";
break;
}
}
// Append the errors, if requested
if (errorLimit > 0) {
Standalone<RangeResultRef> values = wait(fErrorValues);
// Display the errors, if any
if (values.size() > 0) {
// Inform the user that the list of errors is complete or partial
statusText += (values.size() < errorLimit)
? "WARNING: Some DR agents have reported issues:\n"
: "WARNING: Some DR agents have reported issues (printing " +
std::to_string(errorLimit) + "):\n";
for (auto& s : values) {
statusText += " " + printable(s.value) + "\n";
}
}
}
// calculate time differential
Optional<Value> backupUid = wait(fBackupUid);
if (backupUid.present()) {
Optional<Value> v = wait(fBackupVerison);
if (v.present()) {
state Version destApplyBegin = BinaryReader::fromStringRef<Version>(v.get(), Unversioned());
Version sourceVersion = wait(srcReadVersion);
double secondsBehind =
((double)(sourceVersion - destApplyBegin)) / CLIENT_KNOBS->CORE_VERSIONSPERSECOND;
statusText += format("\nThe DR is %.6f seconds behind.\n", secondsBehind);
}
}
Optional<Value> paused = wait(fPaused);
if (paused.present()) {
statusText += format("\nAll DR agents have been paused.\n");
}
break;
} catch (Error& e) {
retries++;
if (retries > 5) {
statusText += format("\nWARNING: Could not fetch full DR status: %s\n", e.name());
return statusText;
}
wait(tr->onError(e));
}
}
return statusText;
}
ACTOR static Future<EBackupState> getStateValue(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
UID logUid,
bool snapshot) {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Key statusKey = backupAgent->states.get(BinaryWriter::toValue(logUid, Unversioned()))
.pack(DatabaseBackupAgent::keyStateStatus);
Optional<Value> status = wait(tr->get(statusKey, snapshot));
return (!status.present()) ? EBackupState::STATE_NEVERRAN : BackupAgentBase::getState(status.get().toString());
}
ACTOR static Future<UID> getDestUid(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
UID logUid,
bool snapshot) {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Key destUidKey =
backupAgent->config.get(BinaryWriter::toValue(logUid, Unversioned())).pack(BackupAgentBase::destUid);
Optional<Value> destUid = wait(tr->get(destUidKey, snapshot));
return (destUid.present()) ? BinaryReader::fromStringRef<UID>(destUid.get(), Unversioned()) : UID();
}
ACTOR static Future<UID> getLogUid(DatabaseBackupAgent* backupAgent,
Reference<ReadYourWritesTransaction> tr,
Key tagName,
bool snapshot) {
tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
tr->setOption(FDBTransactionOptions::LOCK_AWARE);
state Optional<Value> logUid = wait(tr->get(backupAgent->tagNames.pack(tagName), snapshot));
return (logUid.present()) ? BinaryReader::fromStringRef<UID>(logUid.get(), Unversioned()) : UID();
}
};
Future<Void> DatabaseBackupAgent::unlockBackup(Reference<ReadYourWritesTransaction> tr, Key tagName) {
return DatabaseBackupAgentImpl::unlockBackup(this, tr, tagName);
}
Future<Void> DatabaseBackupAgent::atomicSwitchover(Database dest,
Key tagName,
Standalone<VectorRef<KeyRangeRef>> backupRanges,
Key addPrefix,
Key removePrefix,
bool forceAction) {
return DatabaseBackupAgentImpl::atomicSwitchover(
this, dest, tagName, backupRanges, addPrefix, removePrefix, forceAction);
}
Future<Void> DatabaseBackupAgent::submitBackup(Reference<ReadYourWritesTransaction> tr,
Key tagName,
Standalone<VectorRef<KeyRangeRef>> backupRanges,
bool stopWhenDone,
Key addPrefix,
Key removePrefix,
bool lockDatabase,
bool databasesInSync) {
return DatabaseBackupAgentImpl::submitBackup(
this, tr, tagName, backupRanges, stopWhenDone, addPrefix, removePrefix, lockDatabase, databasesInSync);
}
Future<Void> DatabaseBackupAgent::discontinueBackup(Reference<ReadYourWritesTransaction> tr, Key tagName) {
return DatabaseBackupAgentImpl::discontinueBackup(this, tr, tagName);
}
Future<Void> DatabaseBackupAgent::abortBackup(Database cx,
Key tagName,
bool partial,
bool abortOldBackup,
bool dstOnly,
bool waitForDestUID) {
return DatabaseBackupAgentImpl::abortBackup(this, cx, tagName, partial, abortOldBackup, dstOnly, waitForDestUID);
}
Future<std::string> DatabaseBackupAgent::getStatus(Database cx, int errorLimit, Key tagName) {
return DatabaseBackupAgentImpl::getStatus(this, cx, errorLimit, tagName);
}
Future<EBackupState> DatabaseBackupAgent::getStateValue(Reference<ReadYourWritesTransaction> tr,
UID logUid,
bool snapshot) {
return DatabaseBackupAgentImpl::getStateValue(this, tr, logUid, snapshot);
}
Future<UID> DatabaseBackupAgent::getDestUid(Reference<ReadYourWritesTransaction> tr, UID logUid, bool snapshot) {
return DatabaseBackupAgentImpl::getDestUid(this, tr, logUid, snapshot);
}
Future<UID> DatabaseBackupAgent::getLogUid(Reference<ReadYourWritesTransaction> tr, Key tagName, bool snapshot) {
return DatabaseBackupAgentImpl::getLogUid(this, tr, tagName, snapshot);
}
Future<Void> DatabaseBackupAgent::waitUpgradeToLatestDrVersion(Database cx, Key tagName) {
return DatabaseBackupAgentImpl::waitUpgradeToLatestDrVersion(this, cx, tagName);
}
Future<EBackupState> DatabaseBackupAgent::waitBackup(Database cx, Key tagName, bool stopWhenDone) {
return DatabaseBackupAgentImpl::waitBackup(this, cx, tagName, stopWhenDone);
}
Future<EBackupState> DatabaseBackupAgent::waitSubmitted(Database cx, Key tagName) {
return DatabaseBackupAgentImpl::waitSubmitted(this, cx, tagName);
}
Future<int64_t> DatabaseBackupAgent::getRangeBytesWritten(Reference<ReadYourWritesTransaction> tr,
UID logUid,
bool snapshot) {
return DRConfig(logUid).rangeBytesWritten().getD(tr, snapshot);
}
Future<int64_t> DatabaseBackupAgent::getLogBytesWritten(Reference<ReadYourWritesTransaction> tr,
UID logUid,
bool snapshot) {
return DRConfig(logUid).logBytesWritten().getD(tr, snapshot);
}