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#include "interconnect_channel.h"
#include <library/cpp/actors/core/events.h>
#include <library/cpp/actors/core/executor_thread.h>
#include <library/cpp/actors/core/log.h>
#include <library/cpp/actors/core/probes.h>
#include <library/cpp/actors/protos/services_common.pb.h>
#include <library/cpp/actors/prof/tag.h>
#include <library/cpp/digest/crc32c/crc32c.h>
LWTRACE_USING(ACTORLIB_PROVIDER);
namespace NActors {
bool TEventOutputChannel::FeedDescriptor(TTcpPacketOutTask& task, TEventHolder& event, ui64 *weightConsumed) {
const size_t amount = sizeof(TChannelPart) + sizeof(TEventDescr2);
if (task.GetInternalFreeAmount() < amount) {
return false;
}
auto traceId = event.Span.GetTraceId();
event.Span.EndOk();
Y_VERIFY(SerializationInfo);
const ui32 flags = (event.Descr.Flags & ~IEventHandle::FlagForwardOnNondelivery) |
(SerializationInfo->IsExtendedFormat ? IEventHandle::FlagExtendedFormat : 0);
// prepare descriptor record
TEventDescr2 descr{
event.Descr.Type,
flags,
event.Descr.Recipient,
event.Descr.Sender,
event.Descr.Cookie,
{},
event.Descr.Checksum,
#if IC_FORCE_HARDENED_PACKET_CHECKS
event.EventSerializedSize
#endif
};
traceId.Serialize(&descr.TraceId);
// and channel header before the descriptor
TChannelPart part{
.ChannelFlags = static_cast<ui16>(ChannelId | TChannelPart::LastPartFlag),
.Size = sizeof(descr)
};
// append them to the packet
task.Write<false>(&part, sizeof(part));
task.Write<false>(&descr, sizeof(descr));
*weightConsumed += amount;
OutputQueueSize -= sizeof(TEventDescr2);
Metrics->UpdateOutputChannelEvents(ChannelId);
return true;
}
void TEventOutputChannel::DropConfirmed(ui64 confirm) {
LOG_DEBUG_IC_SESSION("ICOCH98", "Dropping confirmed messages");
for (auto it = NotYetConfirmed.begin(); it != NotYetConfirmed.end() && it->Serial <= confirm; ) {
Pool.Release(NotYetConfirmed, it++);
}
}
bool TEventOutputChannel::FeedBuf(TTcpPacketOutTask& task, ui64 serial, ui64 *weightConsumed) {
for (;;) {
Y_VERIFY(!Queue.empty());
TEventHolder& event = Queue.front();
switch (State) {
case EState::INITIAL:
event.InitChecksum();
if (event.Buffer) {
State = EState::BODY;
Iter = event.Buffer->GetBeginIter();
SerializationInfo = &event.Buffer->GetSerializationInfo();
} else if (event.Event) {
State = EState::BODY;
IEventBase *base = event.Event.Get();
if (event.EventSerializedSize) {
Chunker.SetSerializingEvent(base);
}
SerializationInfoContainer = base->CreateSerializationInfo();
SerializationInfo = &SerializationInfoContainer;
} else { // event without buffer and IEventBase instance
State = EState::DESCRIPTOR;
SerializationInfoContainer = {};
SerializationInfo = &SerializationInfoContainer;
}
EventInExternalDataChannel = Params.UseExternalDataChannel && !SerializationInfo->Sections.empty();
if (!event.EventSerializedSize) {
State = EState::DESCRIPTOR;
} else if (EventInExternalDataChannel) {
State = EState::SECTIONS;
SectionIndex = 0;
}
break;
case EState::BODY:
if (FeedPayload(task, event, weightConsumed)) {
State = EState::DESCRIPTOR;
} else {
return false;
}
break;
case EState::DESCRIPTOR:
if (!FeedDescriptor(task, event, weightConsumed)) {
return false;
}
event.Serial = serial;
NotYetConfirmed.splice(NotYetConfirmed.end(), Queue, Queue.begin()); // move event to not-yet-confirmed queue
SerializationInfoContainer = {};
SerializationInfo = nullptr;
State = EState::INITIAL;
return true; // we have processed whole event, signal to the caller
case EState::SECTIONS: {
if (SectionIndex == 0) {
size_t totalSectionSize = 0;
for (const auto& section : SerializationInfo->Sections) {
totalSectionSize += section.Size;
}
Y_VERIFY(totalSectionSize == event.EventSerializedSize);
}
while (SectionIndex != SerializationInfo->Sections.size()) {
char sectionInfo[1 + NInterconnect::NDetail::MaxNumberBytes * 4];
char *p = sectionInfo;
const auto& section = SerializationInfo->Sections[SectionIndex];
*p++ = static_cast<ui8>(EXdcCommand::DECLARE_SECTION);
p += NInterconnect::NDetail::SerializeNumber(section.Headroom, p);
p += NInterconnect::NDetail::SerializeNumber(section.Size, p);
p += NInterconnect::NDetail::SerializeNumber(section.Tailroom, p);
p += NInterconnect::NDetail::SerializeNumber(section.Alignment, p);
Y_VERIFY(p <= std::end(sectionInfo));
const size_t declareLen = p - sectionInfo;
if (sizeof(TChannelPart) + XdcData.size() + declareLen <= task.GetInternalFreeAmount() &&
XdcData.size() + declareLen <= Max<ui16>()) {
XdcData.insert(XdcData.end(), sectionInfo, p);
++SectionIndex;
} else {
break;
}
}
if (XdcData.empty()) {
return false;
}
TChannelPart part{
.ChannelFlags = static_cast<ui16>(ChannelId | TChannelPart::XdcFlag),
.Size = static_cast<ui16>(XdcData.size())
};
task.Write<false>(&part, sizeof(part));
task.Write<false>(XdcData.data(), XdcData.size());
XdcData.clear();
if (SectionIndex == SerializationInfo->Sections.size()) {
State = EState::BODY;
}
break;
}
}
}
}
template<bool External>
bool TEventOutputChannel::SerializeEvent(TTcpPacketOutTask& task, TEventHolder& event, size_t *bytesSerialized) {
auto addChunk = [&](const void *data, size_t len, bool allowCopy) {
event.UpdateChecksum(data, len);
if (allowCopy && (reinterpret_cast<uintptr_t>(data) & 63) + len <= 64) {
task.Write<External>(data, len);
} else {
task.Append<External>(data, len);
}
*bytesSerialized += len;
event.EventActuallySerialized += len;
if (event.EventActuallySerialized > MaxSerializedEventSize) {
throw TExSerializedEventTooLarge(event.Descr.Type);
}
};
bool complete = false;
if (event.Event) {
while (!complete) {
TMutableContiguousSpan out = task.AcquireSpanForWriting<External>();
if (!out.size()) {
break;
}
const auto [first, last] = Chunker.FeedBuf(out.data(), out.size());
for (auto p = first; p != last; ++p) {
addChunk(p->first, p->second, false);
}
complete = Chunker.IsComplete();
if (complete) {
Y_VERIFY(Chunker.IsSuccessfull());
}
}
} else if (event.Buffer) {
while (const size_t numb = Min<size_t>(External ? task.GetExternalFreeAmount() : task.GetInternalFreeAmount(),
Iter.ContiguousSize())) {
const char *obuf = Iter.ContiguousData();
addChunk(obuf, numb, true);
Iter += numb;
}
complete = !Iter.Valid();
} else {
Y_FAIL();
}
Y_VERIFY(!complete || event.EventActuallySerialized == event.EventSerializedSize,
"EventActuallySerialized# %" PRIu32 " EventSerializedSize# %" PRIu32 " Type# 0x%08" PRIx32,
event.EventActuallySerialized, event.EventSerializedSize, event.Descr.Type);
return complete;
}
bool TEventOutputChannel::FeedPayload(TTcpPacketOutTask& task, TEventHolder& event, ui64 *weightConsumed) {
return EventInExternalDataChannel
? FeedExternalPayload(task, event, weightConsumed)
: FeedInlinePayload(task, event, weightConsumed);
}
bool TEventOutputChannel::FeedInlinePayload(TTcpPacketOutTask& task, TEventHolder& event, ui64 *weightConsumed) {
if (task.GetInternalFreeAmount() <= sizeof(TChannelPart)) {
return false;
}
auto partBookmark = task.Bookmark(sizeof(TChannelPart));
size_t bytesSerialized = 0;
const bool complete = SerializeEvent<false>(task, event, &bytesSerialized);
Y_VERIFY_DEBUG(bytesSerialized);
Y_VERIFY(bytesSerialized <= Max<ui16>());
TChannelPart part{
.ChannelFlags = ChannelId,
.Size = static_cast<ui16>(bytesSerialized)
};
task.WriteBookmark(std::move(partBookmark), &part, sizeof(part));
*weightConsumed += sizeof(TChannelPart) + part.Size;
OutputQueueSize -= part.Size;
return complete;
}
bool TEventOutputChannel::FeedExternalPayload(TTcpPacketOutTask& task, TEventHolder& event, ui64 *weightConsumed) {
const size_t partSize = sizeof(TChannelPart) + sizeof(ui8) + sizeof(ui16) + (Params.Encryption ? 0 : sizeof(ui32));
if (task.GetInternalFreeAmount() < partSize || task.GetExternalFreeAmount() == 0) {
return false;
}
// clear external checksum for this chunk
task.ExternalChecksum = 0;
auto partBookmark = task.Bookmark(partSize);
size_t bytesSerialized = 0;
const bool complete = SerializeEvent<true>(task, event, &bytesSerialized);
Y_VERIFY(0 < bytesSerialized && bytesSerialized <= Max<ui16>());
char buffer[partSize];
TChannelPart *part = reinterpret_cast<TChannelPart*>(buffer);
*part = {
.ChannelFlags = static_cast<ui16>(ChannelId | TChannelPart::XdcFlag),
.Size = static_cast<ui16>(partSize - sizeof(TChannelPart))
};
char *ptr = reinterpret_cast<char*>(part + 1);
*ptr++ = static_cast<ui8>(EXdcCommand::PUSH_DATA);
*reinterpret_cast<ui16*>(ptr) = bytesSerialized;
ptr += sizeof(ui16);
if (task.ChecksummingXxhash()) {
XXH3_state_t state;
XXH3_64bits_reset(&state);
task.XdcStream.ScanLastBytes(bytesSerialized, [&state](TContiguousSpan span) {
XXH3_64bits_update(&state, span.data(), span.size());
});
*reinterpret_cast<ui32*>(ptr) = XXH3_64bits_digest(&state);
} else if (task.ChecksummingCrc32c()) {
*reinterpret_cast<ui32*>(ptr) = task.ExternalChecksum;
}
task.WriteBookmark(std::move(partBookmark), buffer, partSize);
*weightConsumed += partSize + bytesSerialized;
OutputQueueSize -= bytesSerialized;
return complete;
}
void TEventOutputChannel::NotifyUndelivered() {
LOG_DEBUG_IC_SESSION("ICOCH89", "Notyfying about Undelivered messages! NotYetConfirmed size: %zu, Queue size: %zu", NotYetConfirmed.size(), Queue.size());
if (State == EState::BODY && Queue.front().Event) {
Y_VERIFY(!Chunker.IsComplete()); // chunk must have an event being serialized
Y_VERIFY(!Queue.empty()); // this event must be the first event in queue
TEventHolder& event = Queue.front();
Y_VERIFY(Chunker.GetCurrentEvent() == event.Event.Get()); // ensure the event is valid
Chunker.Abort(); // stop serializing current event
Y_VERIFY(Chunker.IsComplete());
}
for (auto& item : NotYetConfirmed) {
if (item.Descr.Flags & IEventHandle::FlagGenerateUnsureUndelivered) { // notify only when unsure flag is set
item.ForwardOnNondelivery(true);
}
}
Pool.Release(NotYetConfirmed);
for (auto& item : Queue) {
item.ForwardOnNondelivery(false);
}
Pool.Release(Queue);
}
}
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