foundationdb/fdbserver/LogRouter.actor.cpp

773 lines
30 KiB
C++

/*
* LogRouter.actor.cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2022 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 "flow/ActorCollection.h"
#include "fdbclient/NativeAPI.actor.h"
#include "fdbrpc/Stats.h"
#include "fdbserver/WorkerInterface.actor.h"
#include "fdbserver/WaitFailure.h"
#include "fdbserver/Knobs.h"
#include "fdbserver/ServerDBInfo.h"
#include "fdbserver/LogSystem.h"
#include "fdbclient/SystemData.h"
#include "fdbserver/ApplyMetadataMutation.h"
#include "fdbserver/RecoveryState.h"
#include "fdbclient/Atomic.h"
#include "flow/Arena.h"
#include "flow/Histogram.h"
#include "flow/TDMetric.actor.h"
#include "flow/actorcompiler.h" // This must be the last #include.
struct LogRouterData {
struct TagData : NonCopyable, public ReferenceCounted<TagData> {
std::deque<std::pair<Version, LengthPrefixedStringRef>> version_messages;
Version popped;
Version durableKnownCommittedVersion;
Tag tag;
TagData(Tag tag, Version popped, Version durableKnownCommittedVersion)
: popped(popped), durableKnownCommittedVersion(durableKnownCommittedVersion), tag(tag) {}
TagData(TagData&& r) noexcept
: version_messages(std::move(r.version_messages)), popped(r.popped),
durableKnownCommittedVersion(r.durableKnownCommittedVersion), tag(r.tag) {}
void operator=(TagData&& r) noexcept {
version_messages = std::move(r.version_messages);
tag = r.tag;
popped = r.popped;
durableKnownCommittedVersion = r.durableKnownCommittedVersion;
}
// Erase messages not needed to update *from* versions >= before (thus, messages with toversion <= before)
ACTOR Future<Void> eraseMessagesBefore(TagData* self,
Version before,
LogRouterData* tlogData,
TaskPriority taskID) {
while (!self->version_messages.empty() && self->version_messages.front().first < before) {
Version version = self->version_messages.front().first;
int64_t messagesErased = 0;
while (!self->version_messages.empty() && self->version_messages.front().first == version) {
++messagesErased;
self->version_messages.pop_front();
}
wait(yield(taskID));
}
return Void();
}
Future<Void> eraseMessagesBefore(Version before, LogRouterData* tlogData, TaskPriority taskID) {
return eraseMessagesBefore(this, before, tlogData, taskID);
}
};
const UID dbgid;
Reference<AsyncVar<Reference<ILogSystem>>> logSystem;
Optional<UID> primaryPeekLocation;
NotifiedVersion version; // The largest version at which the log router has peeked mutations
// from satellite tLog or primary tLogs.
NotifiedVersion minPopped; // The minimum version among all tags that has been popped by remote tLogs.
const Version startVersion;
Version minKnownCommittedVersion; // The minimum durable version among all LRs.
// A LR's durable version is the maximum version of mutations that have been
// popped by remote tLog.
Version poppedVersion;
Deque<std::pair<Version, Standalone<VectorRef<uint8_t>>>> messageBlocks;
Tag routerTag;
bool allowPops;
LogSet logSet;
bool foundEpochEnd; // Cluster is not fully recovered yet. LR has to handle recovery
double waitForVersionTime = 0; // The total amount of time LR waits for remote tLog to peek and pop its data.
double maxWaitForVersionTime = 0; // The max one-instance wait time when LR must wait for remote tLog to pop data.
double getMoreTime = 0; // The total amount of time LR waits for satellite tLog's data to become available.
double maxGetMoreTime = 0; // The max wait time LR spent in a pull-data-request to satellite tLog.
int64_t generation = -1;
Reference<Histogram> peekLatencyDist;
struct PeekTrackerData {
std::map<int, Promise<std::pair<Version, bool>>> sequence_version;
double lastUpdate;
};
std::map<UID, PeekTrackerData> peekTracker;
CounterCollection cc;
Counter getMoreCount; // Increase by 1 when LR tries to pull data from satellite tLog.
Counter
getMoreBlockedCount; // Increase by 1 if data is not available when LR tries to pull data from satellite tLog.
Future<Void> logger;
Reference<EventCacheHolder> eventCacheHolder;
int activePeekStreams = 0;
std::vector<Reference<TagData>> tag_data; // we only store data for the remote tag locality
Reference<TagData> getTagData(Tag tag) {
ASSERT(tag.locality == tagLocalityRemoteLog);
if (tag.id >= tag_data.size()) {
tag_data.resize(tag.id + 1);
}
return tag_data[tag.id];
}
// only callable after getTagData returns a null reference
Reference<TagData> createTagData(Tag tag, Version popped, Version knownCommittedVersion) {
auto newTagData = makeReference<TagData>(tag, popped, knownCommittedVersion);
tag_data[tag.id] = newTagData;
return newTagData;
}
LogRouterData(UID dbgid, const InitializeLogRouterRequest& req)
: dbgid(dbgid), logSystem(new AsyncVar<Reference<ILogSystem>>()), version(req.startVersion - 1), minPopped(0),
startVersion(req.startVersion), minKnownCommittedVersion(0), poppedVersion(0), routerTag(req.routerTag),
allowPops(false), foundEpochEnd(false), generation(req.recoveryCount),
peekLatencyDist(Histogram::getHistogram(LiteralStringRef("LogRouter"),
LiteralStringRef("PeekTLogLatency"),
Histogram::Unit::microseconds)),
cc("LogRouter", dbgid.toString()), getMoreCount("GetMoreCount", cc),
getMoreBlockedCount("GetMoreBlockedCount", cc) {
// setup just enough of a logSet to be able to call getPushLocations
logSet.logServers.resize(req.tLogLocalities.size());
logSet.tLogPolicy = req.tLogPolicy;
logSet.locality = req.locality;
logSet.updateLocalitySet(req.tLogLocalities);
for (int i = 0; i < req.tLogLocalities.size(); i++) {
Tag tag(tagLocalityRemoteLog, i);
auto tagData = getTagData(tag);
if (!tagData) {
tagData = createTagData(tag, 0, 0);
}
}
eventCacheHolder = makeReference<EventCacheHolder>(dbgid.shortString() + ".PeekLocation");
// FetchedVersions: How many version of mutations buffered at LR and have not been popped by remote tLogs
specialCounter(cc, "Version", [this]() { return this->version.get(); });
specialCounter(cc, "MinPopped", [this]() { return this->minPopped.get(); });
// TODO: Add minPopped locality and minPoppedId, similar as tLog Metrics
specialCounter(cc, "FetchedVersions", [this]() {
return std::max<Version>(0,
std::min<Version>(SERVER_KNOBS->MAX_READ_TRANSACTION_LIFE_VERSIONS,
this->version.get() - this->minPopped.get()));
});
specialCounter(cc, "MinKnownCommittedVersion", [this]() { return this->minKnownCommittedVersion; });
specialCounter(cc, "PoppedVersion", [this]() { return this->poppedVersion; });
specialCounter(cc, "FoundEpochEnd", [this]() { return this->foundEpochEnd; });
specialCounter(cc, "WaitForVersionMS", [this]() {
double val = this->waitForVersionTime;
this->waitForVersionTime = 0;
return int64_t(1000 * val);
});
specialCounter(cc, "WaitForVersionMaxMS", [this]() {
double val = this->maxWaitForVersionTime;
this->maxWaitForVersionTime = 0;
return int64_t(1000 * val);
});
specialCounter(cc, "GetMoreMS", [this]() {
double val = this->getMoreTime;
this->getMoreTime = 0;
return int64_t(1000 * val);
});
specialCounter(cc, "GetMoreMaxMS", [this]() {
double val = this->maxGetMoreTime;
this->maxGetMoreTime = 0;
return int64_t(1000 * val);
});
specialCounter(cc, "Generation", [this]() { return this->generation; });
specialCounter(cc, "ActivePeekStreams", [this]() { return this->activePeekStreams; });
logger = traceCounters("LogRouterMetrics",
dbgid,
SERVER_KNOBS->WORKER_LOGGING_INTERVAL,
&cc,
"LogRouterMetrics",
[this](TraceEvent& te) {
te.detail("PrimaryPeekLocation", this->primaryPeekLocation);
te.detail("RouterTag", this->routerTag.toString());
});
}
};
void commitMessages(LogRouterData* self, Version version, const std::vector<TagsAndMessage>& taggedMessages) {
if (!taggedMessages.size()) {
return;
}
int msgSize = 0;
for (const auto& i : taggedMessages) {
msgSize += i.message.size();
}
// Grab the last block in the blocks list so we can share its arena
// We pop all of the elements of it to create a "fresh" vector that starts at the end of the previous vector
Standalone<VectorRef<uint8_t>> block;
if (self->messageBlocks.empty()) {
block = Standalone<VectorRef<uint8_t>>();
block.reserve(block.arena(), std::max<int64_t>(SERVER_KNOBS->TLOG_MESSAGE_BLOCK_BYTES, msgSize));
} else {
block = self->messageBlocks.back().second;
}
block.pop_front(block.size());
for (const auto& msg : taggedMessages) {
if (msg.message.size() > block.capacity() - block.size()) {
self->messageBlocks.emplace_back(version, block);
block = Standalone<VectorRef<uint8_t>>();
block.reserve(block.arena(), std::max<int64_t>(SERVER_KNOBS->TLOG_MESSAGE_BLOCK_BYTES, msgSize));
}
block.append(block.arena(), msg.message.begin(), msg.message.size());
for (const auto& tag : msg.tags) {
auto tagData = self->getTagData(tag);
if (!tagData) {
tagData = self->createTagData(tag, 0, 0);
}
if (version >= tagData->popped) {
tagData->version_messages.emplace_back(
version, LengthPrefixedStringRef((uint32_t*)(block.end() - msg.message.size())));
if (tagData->version_messages.back().second.expectedSize() > SERVER_KNOBS->MAX_MESSAGE_SIZE) {
TraceEvent(SevWarnAlways, "LargeMessage")
.detail("Size", tagData->version_messages.back().second.expectedSize());
}
}
}
msgSize -= msg.message.size();
}
self->messageBlocks.emplace_back(version, block);
}
ACTOR Future<Void> waitForVersion(LogRouterData* self, Version ver) {
// The only time the log router should allow a gap in versions larger than MAX_READ_TRANSACTION_LIFE_VERSIONS is
// when processing epoch end. Since one set of log routers is created per generation of transaction logs, the gap
// caused by epoch end will be within MAX_VERSIONS_IN_FLIGHT of the log routers start version.
state double startTime = now();
if (self->version.get() < self->startVersion) {
// Log router needs to wait for remote tLogs to process data, whose version is less than self->startVersion,
// before the log router can pull more data (i.e., data after self->startVersion) from satellite tLog;
// This prevents LR from getting OOM due to it pulls too much data from satellite tLog at once;
// Note: each commit writes data to both primary tLog and satellite tLog. Satellite tLog can be viewed as
// a part of primary tLogs.
if (ver > self->startVersion) {
self->version.set(self->startVersion);
// Wait for remote tLog to peek and pop from LR,
// so that LR's minPopped version can increase to self->startVersion
wait(self->minPopped.whenAtLeast(self->version.get()));
}
self->waitForVersionTime += now() - startTime;
self->maxWaitForVersionTime = std::max(self->maxWaitForVersionTime, now() - startTime);
return Void();
}
if (!self->foundEpochEnd) {
// Similar to proxy that does not keep more than MAX_READ_TRANSACTION_LIFE_VERSIONS transactions oustanding;
// Log router does not keep more than MAX_READ_TRANSACTION_LIFE_VERSIONS transactions outstanding because
// remote SS cannot roll back to more than MAX_READ_TRANSACTION_LIFE_VERSIONS ago.
wait(self->minPopped.whenAtLeast(
std::min(self->version.get(), ver - SERVER_KNOBS->MAX_READ_TRANSACTION_LIFE_VERSIONS)));
} else {
while (self->minPopped.get() + SERVER_KNOBS->MAX_READ_TRANSACTION_LIFE_VERSIONS < ver) {
if (self->minPopped.get() + SERVER_KNOBS->MAX_READ_TRANSACTION_LIFE_VERSIONS > self->version.get()) {
self->version.set(self->minPopped.get() + SERVER_KNOBS->MAX_READ_TRANSACTION_LIFE_VERSIONS);
wait(yield(TaskPriority::TLogCommit));
} else {
wait(self->minPopped.whenAtLeast((self->minPopped.get() + 1)));
}
}
}
if (ver >= self->startVersion + SERVER_KNOBS->MAX_VERSIONS_IN_FLIGHT) {
self->foundEpochEnd = true;
}
self->waitForVersionTime += now() - startTime;
self->maxWaitForVersionTime = std::max(self->maxWaitForVersionTime, now() - startTime);
return Void();
}
// Log router (LR) asynchronously pull data from satellite tLogs (preferred) or primary tLogs at tag (self->routerTag)
// for the version range from the LR's current version (exclusive) to its epoch's end version or recovery version.
ACTOR Future<Void> pullAsyncData(LogRouterData* self) {
state Future<Void> dbInfoChange = Void();
state Reference<ILogSystem::IPeekCursor> r;
state Version tagAt = self->version.get() + 1;
state Version lastVer = 0;
state std::vector<int> tags; // an optimization to avoid reallocating vector memory in every loop
loop {
loop {
Future<Void> getMoreF = Never();
if (r) {
getMoreF = r->getMore(TaskPriority::TLogCommit);
++self->getMoreCount;
if (!getMoreF.isReady()) {
++self->getMoreBlockedCount;
}
}
state double startTime = now();
choose {
when(wait(getMoreF)) {
double peekTime = now() - startTime;
self->peekLatencyDist->sampleSeconds(peekTime);
self->getMoreTime += peekTime;
self->maxGetMoreTime = std::max(self->maxGetMoreTime, peekTime);
break;
}
when(wait(dbInfoChange)) { // FIXME: does this actually happen?
if (self->logSystem->get()) {
r = self->logSystem->get()->peekLogRouter(self->dbgid, tagAt, self->routerTag);
self->primaryPeekLocation = r->getPrimaryPeekLocation();
TraceEvent("LogRouterPeekLocation", self->dbgid)
.detail("LogID", r->getPrimaryPeekLocation())
.trackLatest(self->eventCacheHolder->trackingKey);
} else {
r = Reference<ILogSystem::IPeekCursor>();
}
dbInfoChange = self->logSystem->onChange();
}
}
}
self->minKnownCommittedVersion = std::max(self->minKnownCommittedVersion, r->getMinKnownCommittedVersion());
state Version ver = 0;
state std::vector<TagsAndMessage> messages;
state Arena arena;
while (true) {
state bool foundMessage = r->hasMessage();
if (!foundMessage || r->version().version != ver) {
ASSERT(r->version().version > lastVer);
if (ver) {
wait(waitForVersion(self, ver));
commitMessages(self, ver, messages);
self->version.set(ver);
wait(yield(TaskPriority::TLogCommit));
//TraceEvent("LogRouterVersion").detail("Ver",ver);
}
lastVer = ver;
ver = r->version().version;
messages.clear();
arena = Arena();
if (!foundMessage) {
ver--; // ver is the next possible version we will get data for
if (ver > self->version.get()) {
wait(waitForVersion(self, ver));
self->version.set(ver);
wait(yield(TaskPriority::TLogCommit));
}
break;
}
}
TagsAndMessage tagAndMsg;
tagAndMsg.message = r->getMessageWithTags();
tags.clear();
self->logSet.getPushLocations(r->getTags(), tags, 0);
tagAndMsg.tags.reserve(arena, tags.size());
for (const auto& t : tags) {
tagAndMsg.tags.push_back(arena, Tag(tagLocalityRemoteLog, t));
}
messages.push_back(std::move(tagAndMsg));
r->nextMessage();
}
tagAt = std::max(r->version().version, self->version.get() + 1);
}
}
std::deque<std::pair<Version, LengthPrefixedStringRef>>& get_version_messages(LogRouterData* self, Tag tag) {
auto tagData = self->getTagData(tag);
if (!tagData) {
static std::deque<std::pair<Version, LengthPrefixedStringRef>> empty;
return empty;
}
return tagData->version_messages;
};
void peekMessagesFromMemory(LogRouterData* self, Tag tag, Version begin, BinaryWriter& messages, Version& endVersion) {
ASSERT(!messages.getLength());
auto& deque = get_version_messages(self, tag);
//TraceEvent("TLogPeekMem", self->dbgid).detail("Tag", req.tag1).detail("PDS", self->persistentDataSequence).detail("PDDS", self->persistentDataDurableSequence).detail("Oldest", map1.empty() ? 0 : map1.begin()->key ).detail("OldestMsgCount", map1.empty() ? 0 : map1.begin()->value.size());
auto it = std::lower_bound(deque.begin(),
deque.end(),
std::make_pair(begin, LengthPrefixedStringRef()),
[](const auto& l, const auto& r) -> bool { return l.first < r.first; });
Version currentVersion = -1;
for (; it != deque.end(); ++it) {
if (it->first != currentVersion) {
if (messages.getLength() >= SERVER_KNOBS->DESIRED_TOTAL_BYTES) {
endVersion = currentVersion + 1;
//TraceEvent("TLogPeekMessagesReached2", self->dbgid);
break;
}
currentVersion = it->first;
messages << VERSION_HEADER << currentVersion;
}
messages << it->second.toStringRef();
}
}
Version poppedVersion(LogRouterData* self, Tag tag) {
auto tagData = self->getTagData(tag);
if (!tagData)
return Version(0);
return tagData->popped;
}
// Common logics to peek TLog and create TLogPeekReply that serves both streaming peek or normal peek request
ACTOR template <typename PromiseType>
Future<Void> logRouterPeekMessages(PromiseType replyPromise,
LogRouterData* self,
Version reqBegin,
Tag reqTag,
bool reqReturnIfBlocked = false,
bool reqOnlySpilled = false,
Optional<std::pair<UID, int>> reqSequence = Optional<std::pair<UID, int>>()) {
state BinaryWriter messages(Unversioned());
state int sequence = -1;
state UID peekId;
if (reqSequence.present()) {
try {
peekId = reqSequence.get().first;
sequence = reqSequence.get().second;
if (sequence >= SERVER_KNOBS->PARALLEL_GET_MORE_REQUESTS &&
self->peekTracker.find(peekId) == self->peekTracker.end()) {
throw operation_obsolete();
}
auto& trackerData = self->peekTracker[peekId];
if (sequence == 0 && trackerData.sequence_version.find(0) == trackerData.sequence_version.end()) {
trackerData.sequence_version[0].send(std::make_pair(reqBegin, reqOnlySpilled));
}
auto seqBegin = trackerData.sequence_version.begin();
// The peek cursor and this comparison need to agree about the maximum number of in-flight requests.
while (trackerData.sequence_version.size() &&
seqBegin->first <= sequence - SERVER_KNOBS->PARALLEL_GET_MORE_REQUESTS) {
if (seqBegin->second.canBeSet()) {
seqBegin->second.sendError(operation_obsolete());
}
trackerData.sequence_version.erase(seqBegin);
seqBegin = trackerData.sequence_version.begin();
}
if (trackerData.sequence_version.size() && sequence < seqBegin->first) {
throw operation_obsolete();
}
trackerData.lastUpdate = now();
std::pair<Version, bool> prevPeekData = wait(trackerData.sequence_version[sequence].getFuture());
reqBegin = prevPeekData.first;
reqOnlySpilled = prevPeekData.second;
wait(yield());
} catch (Error& e) {
if (e.code() == error_code_timed_out || e.code() == error_code_operation_obsolete) {
replyPromise.sendError(e);
return Void();
} else {
throw;
}
}
}
//TraceEvent("LogRouterPeek1", self->dbgid).detail("From", replyPromise.getEndpoint().getPrimaryAddress()).detail("Ver", self->version.get()).detail("Begin", reqBegin);
if (reqReturnIfBlocked && self->version.get() < reqBegin) {
//TraceEvent("LogRouterPeek2", self->dbgid);
replyPromise.sendError(end_of_stream());
if (reqSequence.present()) {
auto& trackerData = self->peekTracker[peekId];
auto& sequenceData = trackerData.sequence_version[sequence + 1];
if (!sequenceData.isSet()) {
sequenceData.send(std::make_pair(reqBegin, reqOnlySpilled));
}
}
return Void();
}
if (self->version.get() < reqBegin) {
wait(self->version.whenAtLeast(reqBegin));
wait(delay(SERVER_KNOBS->TLOG_PEEK_DELAY, g_network->getCurrentTask()));
}
state double startTime = now();
Version poppedVer = poppedVersion(self, reqTag);
if (poppedVer > reqBegin || reqBegin < self->startVersion) {
// This should only happen if a packet is sent multiple times and the reply is not needed.
// Since we are using popped differently, do not send a reply.
TraceEvent(SevWarnAlways, "LogRouterPeekPopped", self->dbgid)
.detail("Begin", reqBegin)
.detail("Popped", poppedVer)
.detail("Start", self->startVersion);
replyPromise.send(Never());
if (reqSequence.present()) {
auto& trackerData = self->peekTracker[peekId];
auto& sequenceData = trackerData.sequence_version[sequence + 1];
if (!sequenceData.isSet()) {
sequenceData.send(std::make_pair(reqBegin, reqOnlySpilled));
}
}
return Void();
}
state Version endVersion;
// Run the peek logic in a loop to account for the case where there is no data to return to the caller, and we may
// want to wait a little bit instead of just sending back an empty message. This feature is controlled by a knob.
loop {
endVersion = self->version.get() + 1;
peekMessagesFromMemory(self, reqTag, reqBegin, messages, endVersion);
// Reply the peek request when
// - Have data return to the caller, or
// - Batching empty peek is disabled, or
// - Batching empty peek interval has been reached.
if (messages.getLength() > 0 || !SERVER_KNOBS->PEEK_BATCHING_EMPTY_MSG ||
now() - startTime > SERVER_KNOBS->PEEK_BATCHING_EMPTY_MSG_INTERVAL) {
break;
}
state Version waitUntilVersion = self->version.get() + 1;
// Currently, from `reqBegin` to self->version are all empty peeks. Wait for more version, or the empty batching
// interval has expired.
wait(self->version.whenAtLeast(waitUntilVersion) ||
delay(SERVER_KNOBS->PEEK_BATCHING_EMPTY_MSG_INTERVAL - (now() - startTime)));
if (self->version.get() < waitUntilVersion) {
break; // We know that from `reqBegin` to self->version are all empty messages. Skip re-executing the peek
// logic.
}
}
TLogPeekReply reply;
reply.maxKnownVersion = self->version.get();
reply.minKnownCommittedVersion = self->poppedVersion;
reply.messages = StringRef(reply.arena, messages.toValue());
reply.popped = self->minPopped.get() >= self->startVersion ? self->minPopped.get() : 0;
reply.end = endVersion;
reply.onlySpilled = false;
if (reqSequence.present()) {
auto& trackerData = self->peekTracker[peekId];
trackerData.lastUpdate = now();
auto& sequenceData = trackerData.sequence_version[sequence + 1];
if (trackerData.sequence_version.size() && sequence + 1 < trackerData.sequence_version.begin()->first) {
replyPromise.sendError(operation_obsolete());
if (!sequenceData.isSet())
sequenceData.sendError(operation_obsolete());
return Void();
}
if (sequenceData.isSet()) {
if (sequenceData.getFuture().get().first != reply.end) {
TEST(true); // tlog peek second attempt ended at a different version
replyPromise.sendError(operation_obsolete());
return Void();
}
} else {
sequenceData.send(std::make_pair(reply.end, reply.onlySpilled));
}
reply.begin = reqBegin;
}
replyPromise.send(reply);
//TraceEvent("LogRouterPeek4", self->dbgid);
return Void();
}
// This actor keep pushing TLogPeekStreamReply until it's removed from the cluster or should recover
ACTOR Future<Void> logRouterPeekStream(LogRouterData* self, TLogPeekStreamRequest req) {
self->activePeekStreams++;
state Version begin = req.begin;
state bool onlySpilled = false;
req.reply.setByteLimit(std::min(SERVER_KNOBS->MAXIMUM_PEEK_BYTES, req.limitBytes));
loop {
state TLogPeekStreamReply reply;
state Promise<TLogPeekReply> promise;
state Future<TLogPeekReply> future(promise.getFuture());
try {
wait(req.reply.onReady() && store(reply.rep, future) &&
logRouterPeekMessages(promise, self, begin, req.tag, req.returnIfBlocked, onlySpilled));
reply.rep.begin = begin;
req.reply.send(reply);
begin = reply.rep.end;
onlySpilled = reply.rep.onlySpilled;
if (reply.rep.end > self->version.get()) {
wait(delay(SERVER_KNOBS->TLOG_PEEK_DELAY, g_network->getCurrentTask()));
} else {
wait(delay(0, g_network->getCurrentTask()));
}
} catch (Error& e) {
self->activePeekStreams--;
TraceEvent(SevDebug, "TLogPeekStreamEnd", self->dbgid)
.errorUnsuppressed(e)
.detail("PeerAddr", req.reply.getEndpoint().getPrimaryAddress());
if (e.code() == error_code_end_of_stream || e.code() == error_code_operation_obsolete) {
req.reply.sendError(e);
return Void();
} else {
throw;
}
}
}
}
ACTOR Future<Void> cleanupPeekTrackers(LogRouterData* self) {
loop {
double minTimeUntilExpiration = SERVER_KNOBS->PEEK_TRACKER_EXPIRATION_TIME;
auto it = self->peekTracker.begin();
while (it != self->peekTracker.end()) {
double timeUntilExpiration = it->second.lastUpdate + SERVER_KNOBS->PEEK_TRACKER_EXPIRATION_TIME - now();
if (timeUntilExpiration < 1.0e-6) {
for (auto seq : it->second.sequence_version) {
if (!seq.second.isSet()) {
seq.second.sendError(timed_out());
}
}
it = self->peekTracker.erase(it);
} else {
minTimeUntilExpiration = std::min(minTimeUntilExpiration, timeUntilExpiration);
++it;
}
}
wait(delay(minTimeUntilExpiration));
}
}
ACTOR Future<Void> logRouterPop(LogRouterData* self, TLogPopRequest req) {
auto tagData = self->getTagData(req.tag);
if (!tagData) {
tagData = self->createTagData(req.tag, req.to, req.durableKnownCommittedVersion);
} else if (req.to > tagData->popped) {
tagData->popped = req.to;
tagData->durableKnownCommittedVersion = req.durableKnownCommittedVersion;
wait(tagData->eraseMessagesBefore(req.to, self, TaskPriority::TLogPop));
}
state Version minPopped = std::numeric_limits<Version>::max();
state Version minKnownCommittedVersion = std::numeric_limits<Version>::max();
for (auto it : self->tag_data) {
if (it) {
minPopped = std::min(it->popped, minPopped);
minKnownCommittedVersion = std::min(it->durableKnownCommittedVersion, minKnownCommittedVersion);
}
}
while (!self->messageBlocks.empty() && self->messageBlocks.front().first < minPopped) {
self->messageBlocks.pop_front();
wait(yield(TaskPriority::TLogPop));
}
self->poppedVersion = std::min(minKnownCommittedVersion, self->minKnownCommittedVersion);
if (self->logSystem->get() && self->allowPops) {
const Tag popTag = self->logSystem->get()->getPseudoPopTag(self->routerTag, ProcessClass::LogRouterClass);
self->logSystem->get()->pop(self->poppedVersion, popTag);
}
req.reply.send(Void());
self->minPopped.set(std::max(minPopped, self->minPopped.get()));
return Void();
}
ACTOR Future<Void> logRouterCore(TLogInterface interf,
InitializeLogRouterRequest req,
Reference<AsyncVar<ServerDBInfo> const> db) {
state LogRouterData logRouterData(interf.id(), req);
state PromiseStream<Future<Void>> addActor;
state Future<Void> error = actorCollection(addActor.getFuture());
state Future<Void> dbInfoChange = Void();
addActor.send(pullAsyncData(&logRouterData));
addActor.send(cleanupPeekTrackers(&logRouterData));
addActor.send(traceRole(Role::LOG_ROUTER, interf.id()));
loop choose {
when(wait(dbInfoChange)) {
dbInfoChange = db->onChange();
logRouterData.allowPops = db->get().recoveryState == RecoveryState::FULLY_RECOVERED &&
db->get().recoveryCount >= req.recoveryCount;
logRouterData.logSystem->set(ILogSystem::fromServerDBInfo(logRouterData.dbgid, db->get(), true));
}
when(TLogPeekRequest req = waitNext(interf.peekMessages.getFuture())) {
addActor.send(logRouterPeekMessages(
req.reply, &logRouterData, req.begin, req.tag, req.returnIfBlocked, req.onlySpilled, req.sequence));
}
when(TLogPeekStreamRequest req = waitNext(interf.peekStreamMessages.getFuture())) {
TraceEvent(SevDebug, "LogRouterPeekStream", logRouterData.dbgid)
.detail("Token", interf.peekStreamMessages.getEndpoint().token);
addActor.send(logRouterPeekStream(&logRouterData, req));
}
when(TLogPopRequest req = waitNext(interf.popMessages.getFuture())) {
// Request from remote tLog to pop data from LR
addActor.send(logRouterPop(&logRouterData, req));
}
when(wait(error)) {}
}
}
ACTOR Future<Void> checkRemoved(Reference<AsyncVar<ServerDBInfo> const> db,
uint64_t recoveryCount,
TLogInterface myInterface) {
loop {
bool isDisplaced =
((db->get().recoveryCount > recoveryCount && db->get().recoveryState != RecoveryState::UNINITIALIZED) ||
(db->get().recoveryCount == recoveryCount && db->get().recoveryState == RecoveryState::FULLY_RECOVERED));
isDisplaced = isDisplaced && !db->get().logSystemConfig.hasLogRouter(myInterface.id());
if (isDisplaced) {
throw worker_removed();
}
wait(db->onChange());
}
}
ACTOR Future<Void> logRouter(TLogInterface interf,
InitializeLogRouterRequest req,
Reference<AsyncVar<ServerDBInfo> const> db) {
try {
TraceEvent("LogRouterStart", interf.id())
.detail("Start", req.startVersion)
.detail("Tag", req.routerTag.toString())
.detail("Localities", req.tLogLocalities.size())
.detail("Locality", req.locality);
state Future<Void> core = logRouterCore(interf, req, db);
loop choose {
when(wait(core)) { return Void(); }
when(wait(checkRemoved(db, req.recoveryCount, interf))) {}
}
} catch (Error& e) {
if (e.code() == error_code_actor_cancelled || e.code() == error_code_worker_removed) {
TraceEvent("LogRouterTerminated", interf.id()).errorUnsuppressed(e);
return Void();
}
throw;
}
}