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serenity/AK/Stream.h
asynts 8bbb7e25e6 LibCompress: Turn the DEFLATE implementation into a stream. 
Previously, the implementation would produce one Vector<u8> which
would contain the whole decompressed data. That can be a lot and
even exhaust memory.

With these changes it is still necessary to store the whole input data
in one piece (I am working on this next,) but the output can be read
block by block. (That's not optimal either because blocks can be
arbitrarily large, but it's good for now.)
2020-08-20 16:28:31 +02:00

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/*
* Copyright (c) 2020, the SerenityOS developers.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#include <AK/ByteBuffer.h>
#include <AK/Concepts.h>
#include <AK/Forward.h>
#include <AK/Span.h>
#include <AK/StdLibExtras.h>
#include <AK/Vector.h>
namespace AK::Detail {
class Stream {
public:
virtual ~Stream()
{
ASSERT(!has_error());
}
bool has_error() const { return m_error; }
bool handle_error() { return exchange(m_error, false); }
protected:
mutable bool m_error { false };
};
}
namespace AK {
class InputStream : public virtual AK::Detail::Stream {
public:
virtual size_t read(Bytes) = 0;
virtual bool read_or_error(Bytes) = 0;
virtual bool eof() const = 0;
virtual bool discard_or_error(size_t count) = 0;
};
class OutputStream : public virtual AK::Detail::Stream {
public:
virtual size_t write(ReadonlyBytes) = 0;
virtual bool write_or_error(ReadonlyBytes) = 0;
};
class DuplexStream
: public InputStream
, public OutputStream {
};
#if defined(__cpp_concepts) && !defined(__COVERITY__)
template<Concepts::Integral Integral>
#else
template<typename Integral, typename EnableIf<IsIntegral<Integral>::value, int>::Type = 0>
#endif
InputStream& operator>>(InputStream& stream, Integral& value)
{
stream.read_or_error({ &value, sizeof(value) });
return stream;
}
#if defined(__cpp_concepts) && !defined(__COVERITY__)
template<Concepts::Integral Integral>
#else
template<typename Integral, typename EnableIf<IsIntegral<Integral>::value, int>::Type = 0>
#endif
OutputStream& operator<<(OutputStream& stream, Integral value)
{
stream.write_or_error({ &value, sizeof(value) });
return stream;
}
#ifndef KERNEL
// FIXME: clang-format adds spaces before the #if for some reason.
// clang-format off
#if defined(__cpp_concepts) && !defined(__COVERITY__)
template<Concepts::FloatingPoint FloatingPoint>
#else
template<typename FloatingPoint, typename EnableIf<IsFloatingPoint<FloatingPoint>::value, int>::Type = 0>
#endif
InputStream& operator>>(InputStream& stream, FloatingPoint& value)
{
stream.read_or_error({ &value, sizeof(value) });
return stream;
}
#if defined(__cpp_concepts) && !defined(__COVERITY__)
template<Concepts::FloatingPoint FloatingPoint>
#else
template<typename FloatingPoint, typename EnableIf<IsFloatingPoint<FloatingPoint>::value, int>::Type = 0>
#endif
OutputStream& operator<<(OutputStream& stream, FloatingPoint value)
{
stream.write_or_error({ &value, sizeof(value) });
return stream;
}
#endif
// clang-format on
inline InputStream& operator>>(InputStream& stream, bool& value)
{
stream.read_or_error({ &value, sizeof(value) });
return stream;
}
inline OutputStream& operator<<(OutputStream& stream, bool value)
{
stream.write_or_error({ &value, sizeof(value) });
return stream;
}
inline InputStream& operator>>(InputStream& stream, Bytes bytes)
{
stream.read_or_error(bytes);
return stream;
}
inline OutputStream& operator<<(OutputStream& stream, ReadonlyBytes bytes)
{
stream.write_or_error(bytes);
return stream;
}
class InputMemoryStream final : public InputStream {
friend InputMemoryStream& operator>>(InputMemoryStream& stream, String& string);
public:
InputMemoryStream(ReadonlyBytes bytes)
: m_bytes(bytes)
{
}
bool eof() const override { return m_offset >= m_bytes.size(); }
size_t read(Bytes bytes) override
{
const auto count = min(bytes.size(), remaining());
__builtin_memcpy(bytes.data(), m_bytes.data() + m_offset, count);
m_offset += count;
return count;
}
bool read_or_error(Bytes bytes) override
{
if (remaining() < bytes.size()) {
m_error = true;
return false;
}
__builtin_memcpy(bytes.data(), m_bytes.data() + m_offset, bytes.size());
m_offset += bytes.size();
return true;
}
bool discard_or_error(size_t count) override
{
if (remaining() < count) {
m_error = true;
return false;
}
m_offset += count;
return true;
}
void seek(size_t offset)
{
ASSERT(offset < m_bytes.size());
m_offset = offset;
}
u8 peek_or_error() const
{
if (remaining() == 0) {
m_error = true;
return 0;
}
return m_bytes[m_offset];
}
// LEB128 is a variable-length encoding for integers
bool read_LEB128_unsigned(size_t& result)
{
const auto backup = m_offset;
result = 0;
size_t num_bytes = 0;
while (true) {
// Note. The implementation in AK::BufferStream::read_LEB128_unsigned read one
// past the end, this is fixed here.
if (eof()) {
m_offset = backup;
m_error = true;
return false;
}
const u8 byte = m_bytes[m_offset];
result = (result) | (static_cast<size_t>(byte & ~(1 << 7)) << (num_bytes * 7));
++m_offset;
if (!(byte & (1 << 7)))
break;
++num_bytes;
}
return true;
}
// LEB128 is a variable-length encoding for integers
bool read_LEB128_signed(ssize_t& result)
{
const auto backup = m_offset;
result = 0;
size_t num_bytes = 0;
u8 byte = 0;
do {
// Note. The implementation in AK::BufferStream::read_LEB128_unsigned read one
// past the end, this is fixed here.
if (eof()) {
m_offset = backup;
m_error = true;
return false;
}
byte = m_bytes[m_offset];
result = (result) | (static_cast<size_t>(byte & ~(1 << 7)) << (num_bytes * 7));
++m_offset;
++num_bytes;
} while (byte & (1 << 7));
if (num_bytes * 7 < sizeof(size_t) * 4 && (byte & 0x40)) {
// sign extend
result |= ((size_t)(-1) << (num_bytes * 7));
}
return true;
}
ReadonlyBytes bytes() const { return m_bytes; }
size_t offset() const { return m_offset; }
size_t remaining() const { return m_bytes.size() - m_offset; }
private:
ReadonlyBytes m_bytes;
size_t m_offset { 0 };
};
// All data written to this stream can be read from it. Reading and writing is done
// using different offsets, meaning that it is not necessary to seek to the start
// before reading; this behaviour differs from BufferStream.
//
// The stream keeps a history of 64KiB which means that seeking backwards is well
// defined. Data past that point will be discarded.
class DuplexMemoryStream final : public DuplexStream {
public:
static constexpr size_t chunk_size = 4 * 1024;
static constexpr size_t history_size = 64 * 1024;
bool eof() const override { return m_write_offset == m_read_offset; }
bool discard_or_error(size_t count) override
{
if (m_write_offset - m_read_offset < count) {
m_error = true;
return false;
}
m_read_offset += count;
try_discard_chunks();
return true;
}
size_t read(Bytes bytes) override
{
size_t nread = 0;
while (bytes.size() - nread > 0 && m_write_offset - m_read_offset - nread > 0) {
const auto chunk_index = (m_read_offset - m_base_offset) / chunk_size;
const auto chunk_bytes = m_chunks[chunk_index].bytes().slice(m_read_offset % chunk_size).trim(m_write_offset - m_read_offset - nread);
nread += chunk_bytes.copy_trimmed_to(bytes.slice(nread));
}
m_read_offset += nread;
try_discard_chunks();
return nread;
}
size_t read(Bytes bytes, size_t offset)
{
const auto backup = this->roffset();
bool do_discard_chunks = false;
exchange(m_do_discard_chunks, do_discard_chunks);
rseek(offset);
const auto count = read(bytes);
rseek(backup);
exchange(m_do_discard_chunks, do_discard_chunks);
return count;
}
bool read_or_error(Bytes bytes) override
{
if (m_write_offset - m_read_offset < bytes.size()) {
m_error = true;
return false;
}
read(bytes);
return true;
}
size_t write(ReadonlyBytes bytes) override
{
size_t nwritten = 0;
while (bytes.size() - nwritten > 0) {
if ((m_write_offset + nwritten) % chunk_size == 0)
m_chunks.append(ByteBuffer::create_uninitialized(chunk_size));
nwritten += bytes.copy_trimmed_to(m_chunks.last().bytes().slice(m_write_offset % chunk_size));
}
m_write_offset += nwritten;
return nwritten;
}
bool write_or_error(ReadonlyBytes bytes) override
{
write(bytes);
return true;
}
size_t roffset() const { return m_read_offset; }
size_t woffset() const { return m_write_offset; }
void rseek(size_t offset)
{
ASSERT(offset >= m_base_offset);
ASSERT(offset <= m_write_offset);
m_read_offset = offset;
}
size_t remaining() const { return m_write_offset - m_read_offset; }
private:
void try_discard_chunks()
{
if (!m_do_discard_chunks)
return;
while (m_read_offset - m_base_offset >= history_size + chunk_size) {
m_chunks.take_first();
m_base_offset += chunk_size;
}
}
Vector<ByteBuffer> m_chunks;
size_t m_write_offset { 0 };
size_t m_read_offset { 0 };
size_t m_base_offset { 0 };
bool m_do_discard_chunks { false };
};
}
using AK::DuplexMemoryStream;
using AK::InputMemoryStream;
using AK::InputStream;
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