AuroraRuntime/Source/IO/Adapters/AuIOAdapterAsyncStream.cpp
Jamie Reece Wilson 4ce49941ff [+] SysCheckNotNullMemory
[+] SysCheckNotNull
[+] SysCheckRetExpNotNull
[+] SysCheckRetExpNotNullMemory
2023-10-24 17:43:00 +01:00

690 lines
18 KiB
C++

/***
Copyright (C) 2022 J Reece Wilson (a/k/a "Reece"). All rights reserved.
File: AuIOAdapterAsyncStream.cpp
Date: 2022-6-6
Author: Reece
***/
#include <Source/RuntimeInternal.hpp>
#include <Aurora/IO/IOExperimental.hpp>
#include "AuIOAdapterAsyncStream.hpp"
#include "../AuIOWaitableIOLoopSource.hpp"
namespace Aurora::IO::Adapters
{
struct AsyncStreamAdapter;
struct AsyncStreamReader : IAsyncStreamReader
{
AsyncStreamAdapter *parent;
EStreamError IsOpen() override;
EStreamError Read(const Memory::MemoryViewStreamWrite &parameters) override;
void Close() override;
EStreamError BeginRead(const AuSPtr<Memory::MemoryViewWrite> &internalView) override;
EStreamError Dequeue(AuUInt uReqLength, Memory::MemoryViewWrite &out) override;
};
struct AsyncStreamMemory : AuMemoryViewWrite
{
AsyncStreamMemory(const AuMemoryViewWrite &ref);
AsyncStreamMemory(const AuSPtr<AuMemoryViewWrite> &ref);
AsyncStreamMemory(AuUInt uLength);
~AsyncStreamMemory();
bool IsValid();
bool owned {};
AuSPtr<AuMemoryViewWrite> pin;
AuUInt streamIndex {};
// todo shared
};
struct AsyncStreamWriter : IStreamWriter
{
~AsyncStreamWriter();
AsyncStreamAdapter *parent;
EStreamError IsOpen() override;
EStreamError Write(const Memory::MemoryViewStreamRead &parameters) override;
void Close() override;
void Flush() override;
void Preframe();
void Frame();
AuList<AuSPtr<AsyncStreamMemory>> writesPending;
bool HasWorkItems();
bool used {};
};
struct AsyncStreamAdapter : IAsyncStreamAdapter, AuEnableSharedFromThis<AsyncStreamAdapter>
{
AsyncStreamAdapter();
AuSPtr<AsyncStreamMemory> AllocateNextPageCached(AuUInt64 uLength);
virtual AuSPtr<IAsyncStreamReader> ToStreamReader() override;
virtual AuSPtr<IStreamWriter> ToStreamWriter() override;
virtual AuSPtr<IIOWaitableItem> ToWaitable() override;
virtual bool Reset() override;
bool Init(const AuSPtr<IAsyncTransaction> &transaction, bool bIsStream);
AuSPtr<AsyncStreamMemory> lastAllocation;
AuSPtr<IAsyncTransaction> transaction;
bool SetFlushOnWrite(bool value) override;
void ReserveBuffer(AuUInt64 uLength) override;
AuUInt64 GetReadOffset() override;
AuUInt64 SetReadOffset(AuUInt64 offset) override;
AuUInt64 GetWriteOffset() override;
AuUInt64 SetWriteOffset(AuUInt64 offset) override;
bool bAsyncActive {};
bool bIsStream {};
bool bFlushOnWrite { true };
AuUInt64 readOffset {};
AuUInt64 writeOffset {};
AuOptionalEx<EStreamError> errorCode;
int locked {};
IOWatachableIOLoopSource source;
// impl
AsyncStreamReader reader;
AsyncStreamWriter writer;
};
AsyncStreamMemory::AsyncStreamMemory(const AuMemoryViewWrite &ref) :
AuMemoryViewWrite(ref.ptr, ref.length)
{
}
AsyncStreamMemory::AsyncStreamMemory(const AuSPtr<AuMemoryViewWrite> &ref) :
AuMemoryViewWrite(ref->ptr, ref->length),
pin(ref)
{
}
AsyncStreamMemory::AsyncStreamMemory(AuUInt uLength) : AuMemoryViewWrite(AuMemory::ZAlloc<AuUInt8*>(uLength, AuHwInfo::GetPageSize()), uLength)
{
this->owned = true;
}
AsyncStreamMemory::~AsyncStreamMemory()
{
if (this->ptr && this->owned)
{
AuMemory::Free(this->ptr);
this->ptr = nullptr;
}
}
bool AsyncStreamMemory::IsValid()
{
return bool(this->ptr);
}
bool AsyncStreamAdapter::SetFlushOnWrite(bool value)
{
return AuExchange(this->bFlushOnWrite, value);
}
AuUInt64 AsyncStreamAdapter::GetReadOffset()
{
return this->readOffset;
}
AuUInt64 AsyncStreamAdapter::SetReadOffset(AuUInt64 offset)
{
if (this->locked == 1)
{
this->writer.Preframe();
}
return AuExchange(this->readOffset, offset);
}
AuUInt64 AsyncStreamAdapter::GetWriteOffset()
{
if (this->locked == 1)
{
this->writer.Preframe();
}
return this->writeOffset;
}
AuUInt64 AsyncStreamAdapter::SetWriteOffset(AuUInt64 offset)
{
return AuExchange(this->writeOffset, offset);
}
bool AsyncStreamAdapter::Init(const AuSPtr<IAsyncTransaction> &transaction, bool bIsStream)
{
this->transaction = transaction;
this->lastAllocation.reset();
this->bAsyncActive = false;
this->reader.parent = this;
this->writer.parent = this;
this->bIsStream = bIsStream;
return true;
}
AsyncStreamAdapter::AsyncStreamAdapter() : source({})
{
}
AuSPtr<AsyncStreamMemory> AsyncStreamAdapter::AllocateNextPageCached(AuUInt64 uLength)
{
if (this->lastAllocation)
{
if (this->lastAllocation->length >= uLength)
{
return this->lastAllocation;
}
}
auto newMem = AuMakeShared<AsyncStreamMemory>(uLength);
SysCheckNotNull(newMem, {});
if (!newMem->IsValid())
{
SysPushErrorMem();
return {};
}
return this->lastAllocation = newMem;
}
EStreamError AsyncStreamReader::IsOpen()
{
return this->parent->errorCode.HasValue() ?
this->parent->errorCode.value() :
EStreamError::eErrorNone;
}
EStreamError AsyncStreamReader::BeginRead(const AuSPtr<Memory::MemoryViewWrite> &internalView)
{
if (parent->lastAllocation)
{
auto uLength = parent->transaction->GetLastPacketLength();
if (uLength &&
parent->lastAllocation->streamIndex != uLength)
{
AuDebugBreak();
return EStreamError::eErrorStreamInterrupted;
}
parent->lastAllocation.reset();
}
if (parent->bAsyncActive && !parent->transaction->Complete())
{
AuDebugBreak();
return EStreamError::eErrorStreamInterrupted;
}
// Async success or blank state
parent->transaction->Reset();
parent->bAsyncActive = true;
parent->lastAllocation = AuMakeShared<AsyncStreamMemory>(internalView);
if (!parent->lastAllocation)
{
AuDebugBreak();
return EStreamError::eErrorStreamInterrupted;
}
parent->lastAllocation->streamIndex = 0;
if (!parent->transaction->StartRead(parent->bIsStream ? 0 : parent->readOffset, parent->lastAllocation))
{
parent->bAsyncActive = false;
SysPushErrorNested("Couldn't start async aio read");
return EStreamError::eErrorStreamInterrupted;
}
return EStreamError::eErrorNone;
}
EStreamError AsyncStreamReader::Dequeue(AuUInt uReqLength, Memory::MemoryViewWrite &out)
{
out = {};
if (!parent->transaction->Complete())
{
return EStreamError::eErrorNone;
}
// Transaction error
if (parent->transaction->Failed())
{
parent->bAsyncActive = false;
parent->transaction->Reset();
SysPushErrorIO("IO: {}", parent->transaction->GetOSErrorCode());
return EStreamError::eErrorStreamInterrupted;
}
// Async error
if (parent->errorCode.HasValue())
{
auto code = parent->bIsStream ?
parent->errorCode.Value() :
AuExchange(parent->errorCode, {}).Value();
if (code != EStreamError::eErrorNone)
{
parent->bAsyncActive = false;
parent->transaction->Reset();
return code;
}
}
auto uLength = parent->transaction->GetLastPacketLength();
if (!uLength)
{
parent->bAsyncActive = false;
parent->transaction->Reset();
return EStreamError::eErrorNone;
}
auto streamIndex = parent->lastAllocation->streamIndex;
if (streamIndex == uLength)
{
return EStreamError::eErrorNone;
}
auto toRead = AuMin<AuUInt>(parent->lastAllocation->length, uLength - streamIndex);
auto bRequestedLen = bool(uReqLength);
out.ptr = this->parent->lastAllocation->ToPointer() + streamIndex;
out.length = uReqLength ? AuMin(toRead, uReqLength) : toRead;
if (bRequestedLen)
{
streamIndex += out.length;
parent->lastAllocation->streamIndex = streamIndex;
if (!parent->bIsStream)
{
parent->readOffset += out.length;
}
if (parent->lastAllocation->streamIndex == uLength)
{
parent->bAsyncActive = false;
parent->transaction->Reset();
}
}
return EStreamError::eErrorNone;
}
EStreamError AsyncStreamReader::Read(const Memory::MemoryViewStreamWrite &parameters)
{
if (!parameters.length)
{
SysPushErrorArg();
return EStreamError::eErrorEndOfStream;
}
// Read from the last tranaction, if not fully consumed
if (parent->lastAllocation)
{
auto uLength = parent->transaction->GetLastPacketLength();
if (uLength &&
parent->lastAllocation->streamIndex != uLength)
{
auto toRead = AuMin<AuUInt>(parameters.length, uLength - parent->lastAllocation->streamIndex);
if (toRead)
{
if (parameters.ptr)
{
AuMemcpy(parameters.ptr, parent->lastAllocation->Begin<AuUInt8>() + parent->lastAllocation->streamIndex, toRead);
if (parent->bIsStream)
{
parent->lastAllocation->streamIndex += toRead;
}
else
{
parent->lastAllocation->streamIndex += uLength;
parent->readOffset += uLength;
}
}
}
if (parent->bIsStream)
{
parent->lastAllocation->streamIndex += uLength;
}
parameters.outVariable = toRead;
return EStreamError::eErrorNone;
}
if (parent->transaction && parent->transaction->Failed())
{
SysPushErrorIO("AIO transaction read failed: {}", parent->transaction->GetOSErrorCode());
parent->errorCode = EStreamError::eErrorStreamInterrupted;
parent->lastAllocation.reset();
}
}
// Async error
if (parent->errorCode.HasValue())
{
auto code = parent->bIsStream ?
parent->errorCode.Value() :
AuExchange(parent->errorCode, {}).Value();
if (code != EStreamError::eErrorNone)
{
return code;
}
}
// Async awaiting response
if (parent->bAsyncActive && !parent->transaction->Complete())
{
parameters.outVariable = 0;
return EStreamError::eErrorNone;
}
// Async success or blank state
parent->transaction->Reset();
parent->bAsyncActive = true;
parent->lastAllocation = parent->AllocateNextPageCached(parameters.length);
parent->lastAllocation->streamIndex = 0;
if (!parent->transaction->StartRead(parent->bIsStream ? 0 : parent->readOffset, parent->lastAllocation))
{
parent->bAsyncActive = false;
SysPushErrorNested("Couldn't start async aio read");
return EStreamError::eErrorStreamInterrupted;
}
return EStreamError::eErrorNone;
}
void AsyncStreamReader::Close()
{
}
AsyncStreamWriter::~AsyncStreamWriter()
{
if (used)
{
Flush();
}
}
EStreamError AsyncStreamWriter::IsOpen()
{
return this->parent->errorCode.HasValue() ?
this->parent->errorCode.value() :
EStreamError::eErrorNone;
}
EStreamError AsyncStreamWriter::Write(const Memory::MemoryViewStreamRead &parameters)
{
used = true;
if (!parameters.ptr)
{
return EStreamError::eErrorStreamInterrupted;
}
Preframe();
if (parent->errorCode.HasValue())
{
auto code = parent->bIsStream ?
parent->errorCode.Value() :
AuExchange(parent->errorCode, {}).Value();
if (code != EStreamError::eErrorNone)
{
return code;
}
}
auto newMem = AuMakeShared<AsyncStreamMemory>(parameters.length);
SysCheckNotNull(newMem, EStreamError::eErrorOutOfMemory);
if (!newMem->IsValid())
{
SysPushErrorMem();
return EStreamError::eErrorStreamInterrupted;
}
AuMemcpy(newMem->ptr, parameters.ptr, parameters.length);
parameters.outVariable = parameters.length;
if (!AuTryInsert(this->writesPending, newMem))
{
SysPushErrorMem();
return EStreamError::eErrorStreamInterrupted;
}
if (this->parent->bFlushOnWrite)
{
Frame();
}
return EStreamError::eErrorNone;
}
void AsyncStreamWriter::Flush()
{
Preframe();
Frame();
}
void AsyncStreamWriter::Close()
{
Flush();
}
void AsyncStreamWriter::Preframe()
{
if (parent->transaction->Complete())
{
if (parent->transaction->Failed())
{
SysPushErrorIO("AIO transaction write failed: {}", parent->transaction->GetOSErrorCode());
parent->errorCode = EStreamError::eErrorStreamInterrupted;
parent->lastAllocation.reset();
}
else
{
parent->transaction->GetLastPacketLength();
}
parent->transaction->Reset();
}
}
void AsyncStreamWriter::Frame()
{
AuSPtr<AsyncStreamMemory> buffer;
if (this->writesPending.size() == 1)
{
buffer = AuMove(this->writesPending[0]);
}
else
{
AuUInt uLength {};
for (auto &a : this->writesPending)
{
uLength += a->length;
}
buffer = this->parent->AllocateNextPageCached(uLength);
if (!buffer)
{
return;
}
AuUInt index {};
for (auto &a : this->writesPending)
{
if (a->length + index > buffer->length)
{
SysPanic("");
}
AuMemcpy(buffer->Begin<AuUInt8>() + index, a->ptr, a->length);
index += a->length;
}
//....
}
// Async success or blank state
parent->transaction->Reset();
parent->bAsyncActive = true;
struct WriteMem : AuMemoryViewRead
{
AuSPtr<AsyncStreamMemory> write;
};
auto annoying = AuMakeShared<WriteMem>();
if (!annoying)
{
SysPushErrorMem();
return;
}
annoying->write = buffer;
annoying->ptr = buffer->ptr;
annoying->length = buffer->length;
parent->lastAllocation = buffer;
parent->lastAllocation->streamIndex = 0;
if (!parent->transaction->StartWrite(parent->bIsStream ? 0 : parent->writeOffset, annoying))
{
parent->bAsyncActive = false;
SysPushErrorNested("Couldn't start async aio write");
return;
}
this->writesPending.clear();
}
bool AsyncStreamWriter::HasWorkItems()
{
return this->writesPending.size();
}
AuSPtr<IAsyncStreamReader> AsyncStreamAdapter::ToStreamReader()
{
if (this->locked != 0 && this->locked != 2)
{
return {};
}
this->locked = 2;
return AuSPtr<IAsyncStreamReader>(AuSharedFromThis(), &this->reader);
}
AuSPtr<IStreamWriter> AsyncStreamAdapter::ToStreamWriter()
{
if (this->locked != 0 && this->locked != 1)
{
return {};
}
this->locked = 1;
return AuSPtr<IStreamWriter>(AuSharedFromThis(), &this->writer);
}
AuSPtr<IIOWaitableItem> AsyncStreamAdapter::ToWaitable()
{
auto pLoopSource = this->transaction->NewLoopSource();
if (!pLoopSource)
{
return {};
}
this->source.SetLoopSource(pLoopSource);
return AuSPtr<IIOWaitableItem>(AuSharedFromThis(), &this->source);
}
void AsyncStreamAdapter::ReserveBuffer(AuUInt64 uLength)
{
if (!this->lastAllocation || !this->bAsyncActive)
{
this->lastAllocation = this->AllocateNextPageCached(uLength);
}
}
bool AsyncStreamAdapter::Reset()
{
if (this->locked == 1)
{
if (this->writer.HasWorkItems())
{
return false;
}
this->writer.Flush();
}
if (this->bAsyncActive)
{
if (!this->transaction->Complete())
{
return false;
}
}
this->locked = 0;
this->transaction->Reset();
this->writeOffset = 0;
this->readOffset = 0;
return true;
}
AUKN_SYM AuSPtr<IAsyncStreamAdapter> NewAsyncStreamAdapter(const AuSPtr<IAsyncTransaction> &pTransaction, bool bIsStream)
{
if (!pTransaction)
{
SysPushErrorArg();
return {};
}
auto pAdapter = AuMakeShared<AsyncStreamAdapter>();
if (!pAdapter)
{
return {};
}
if (!pAdapter->Init(pTransaction, bIsStream))
{
return {};
}
return pAdapter;
}
}