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#include "event_pb.h"
namespace NActors {
bool TRopeStream::Next(const void** data, int* size) {
*data = Iter.ContiguousData();
*size = Iter.ContiguousSize();
if (size_t(*size + TotalByteCount) > Size) {
*size = Size - TotalByteCount;
Iter += *size;
} else if (Iter.Valid()) {
Iter.AdvanceToNextContiguousBlock();
}
TotalByteCount += *size;
return *size != 0;
}
void TRopeStream::BackUp(int count) {
Y_VERIFY(count <= TotalByteCount);
Iter -= count;
TotalByteCount -= count;
}
bool TRopeStream::Skip(int count) {
if (static_cast<size_t>(TotalByteCount + count) > Size) {
count = Size - TotalByteCount;
}
Iter += count;
TotalByteCount += count;
return static_cast<size_t>(TotalByteCount) != Size;
}
TCoroutineChunkSerializer::TCoroutineChunkSerializer()
: TotalSerializedDataSize(0)
, Stack(64 * 1024)
, SelfClosure{this, TArrayRef(Stack.Begin(), Stack.End())}
, InnerContext(SelfClosure)
{}
TCoroutineChunkSerializer::~TCoroutineChunkSerializer() {
CancelFlag = true;
Resume();
Y_VERIFY(Finished);
}
bool TCoroutineChunkSerializer::AllowsAliasing() const {
return true;
}
void TCoroutineChunkSerializer::Produce(const void *data, size_t size) {
Y_VERIFY(size <= SizeRemain);
SizeRemain -= size;
TotalSerializedDataSize += size;
if (!Chunks.empty()) {
auto& last = Chunks.back();
if (last.first + last.second == data) {
last.second += size; // just extend the last buffer
return;
}
}
Chunks.emplace_back(static_cast<const char*>(data), size);
}
bool TCoroutineChunkSerializer::WriteAliasedRaw(const void* data, int size) {
Y_VERIFY(size >= 0);
while (size) {
if (const size_t bytesToAppend = Min<size_t>(size, SizeRemain)) {
const void *produce = data;
if ((reinterpret_cast<uintptr_t>(data) & 63) + bytesToAppend <= 64 &&
(Chunks.empty() || data != Chunks.back().first + Chunks.back().second)) {
memcpy(BufferPtr, data, bytesToAppend);
produce = BufferPtr;
BufferPtr += bytesToAppend;
}
Produce(produce, bytesToAppend);
data = static_cast<const char*>(data) + bytesToAppend;
size -= bytesToAppend;
} else {
InnerContext.SwitchTo(BufFeedContext);
if (CancelFlag || AbortFlag) {
return false;
}
}
}
return true;
}
bool TCoroutineChunkSerializer::Next(void** data, int* size) {
if (!SizeRemain) {
InnerContext.SwitchTo(BufFeedContext);
if (CancelFlag || AbortFlag) {
return false;
}
}
Y_VERIFY(SizeRemain);
*data = BufferPtr;
*size = SizeRemain;
BufferPtr += SizeRemain;
Produce(*data, *size);
return true;
}
void TCoroutineChunkSerializer::BackUp(int count) {
if (!count) {
return;
}
Y_VERIFY(count > 0);
Y_VERIFY(!Chunks.empty());
TChunk& buf = Chunks.back();
Y_VERIFY((size_t)count <= buf.second);
Y_VERIFY(buf.first + buf.second == BufferPtr, "buf# %p:%zu BufferPtr# %p SizeRemain# %zu NumChunks# %zu",
buf.first, buf.second, BufferPtr, SizeRemain, Chunks.size());
buf.second -= count;
if (!buf.second) {
Chunks.pop_back();
}
BufferPtr -= count;
SizeRemain += count;
TotalSerializedDataSize -= count;
}
void TCoroutineChunkSerializer::Resume() {
TContMachineContext feedContext;
BufFeedContext = &feedContext;
feedContext.SwitchTo(&InnerContext);
BufFeedContext = nullptr;
}
bool TCoroutineChunkSerializer::WriteRope(const TRope *rope) {
for (auto iter = rope->Begin(); iter.Valid(); iter.AdvanceToNextContiguousBlock()) {
if (!WriteAliasedRaw(iter.ContiguousData(), iter.ContiguousSize())) {
return false;
}
}
return true;
}
bool TCoroutineChunkSerializer::WriteString(const TString *s) {
return WriteAliasedRaw(s->data(), s->length());
}
std::span<TCoroutineChunkSerializer::TChunk> TCoroutineChunkSerializer::FeedBuf(void* data, size_t size) {
// fill in base params
BufferPtr = static_cast<char*>(data);
SizeRemain = size;
Y_VERIFY_DEBUG(size);
// transfer control to the coroutine
Y_VERIFY(Event);
Chunks.clear();
Resume();
return Chunks;
}
void TCoroutineChunkSerializer::SetSerializingEvent(const IEventBase *event) {
Y_VERIFY(Event == nullptr);
Event = event;
TotalSerializedDataSize = 0;
AbortFlag = false;
}
void TCoroutineChunkSerializer::Abort() {
Y_VERIFY(Event);
AbortFlag = true;
Resume();
}
void TCoroutineChunkSerializer::DoRun() {
while (!CancelFlag) {
Y_VERIFY(Event);
SerializationSuccess = Event->SerializeToArcadiaStream(this);
Event = nullptr;
if (!CancelFlag) { // cancel flag may have been received during serialization
InnerContext.SwitchTo(BufFeedContext);
}
}
Finished = true;
InnerContext.SwitchTo(BufFeedContext);
}
bool TAllocChunkSerializer::Next(void** pdata, int* psize) {
if (Backup) {
// we have some data in backup rope -- move the first chunk from the backup rope to the buffer and return
// pointer to the buffer; it is safe to remove 'const' here as we uniquely own this buffer
TRope::TIterator iter = Backup.Begin();
*pdata = const_cast<char*>(iter.ContiguousData());
*psize = iter.ContiguousSize();
iter.AdvanceToNextContiguousBlock();
Buffers->Append(Backup.Extract(Backup.Begin(), iter));
} else {
// no backup buffer, so we have to create new one
auto item = TRopeAlignedBuffer::Allocate(4096);
*pdata = item->GetBuffer();
*psize = item->GetCapacity();
Buffers->Append(TRope(std::move(item)));
}
return true;
}
void TAllocChunkSerializer::BackUp(int count) {
Backup.Insert(Backup.Begin(), Buffers->EraseBack(count));
}
bool TAllocChunkSerializer::WriteAliasedRaw(const void*, int) {
Y_VERIFY(false);
return false;
}
bool TAllocChunkSerializer::WriteRope(const TRope *rope) {
Buffers->Append(TRope(*rope));
return true;
}
bool TAllocChunkSerializer::WriteString(const TString *s) {
Buffers->Append(*s);
return true;
}
}
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