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b00476abac
Let's replace this bool with an `enum class` in order to enhance readability. This is done by repurposing `MappedFile`'s `OpenMode` into a shared `enum` simply called `Mode`.
278 lines
8.1 KiB
C++
278 lines
8.1 KiB
C++
/*
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* Copyright (c) 2021, kleines Filmröllchen <filmroellchen@serenityos.org>.
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* Copyright (c) 2022, Tim Schumacher <timschumi@gmx.de>.
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/ByteBuffer.h>
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#include <AK/FixedArray.h>
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#include <AK/MemMem.h>
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#include <AK/MemoryStream.h>
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namespace AK {
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FixedMemoryStream::FixedMemoryStream(Bytes bytes, Mode mode)
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: m_bytes(bytes)
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, m_writing_enabled(mode == Mode::ReadWrite)
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{
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}
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FixedMemoryStream::FixedMemoryStream(ReadonlyBytes bytes)
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: m_bytes({ const_cast<u8*>(bytes.data()), bytes.size() })
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, m_writing_enabled(false)
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{
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}
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bool FixedMemoryStream::is_eof() const
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{
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return m_offset >= m_bytes.size();
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}
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bool FixedMemoryStream::is_open() const
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{
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return true;
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}
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void FixedMemoryStream::close()
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{
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// FIXME: It doesn't make sense to close a memory stream. Therefore, we don't do anything here. Is that fine?
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}
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ErrorOr<void> FixedMemoryStream::truncate(size_t)
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{
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return Error::from_errno(EBADF);
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}
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ErrorOr<Bytes> FixedMemoryStream::read_some(Bytes bytes)
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{
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auto to_read = min(remaining(), bytes.size());
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if (to_read == 0)
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return Bytes {};
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m_bytes.slice(m_offset, to_read).copy_to(bytes);
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m_offset += to_read;
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return bytes.trim(to_read);
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}
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ErrorOr<void> FixedMemoryStream::read_until_filled(AK::Bytes bytes)
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{
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if (remaining() < bytes.size())
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return Error::from_string_view_or_print_error_and_return_errno("Can't read past the end of the stream memory"sv, EINVAL);
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m_bytes.slice(m_offset).copy_trimmed_to(bytes);
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m_offset += bytes.size();
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return {};
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}
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ErrorOr<size_t> FixedMemoryStream::seek(i64 offset, SeekMode seek_mode)
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{
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switch (seek_mode) {
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case SeekMode::SetPosition:
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if (offset > static_cast<i64>(m_bytes.size()))
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return Error::from_string_view_or_print_error_and_return_errno("Offset past the end of the stream memory"sv, EINVAL);
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m_offset = offset;
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break;
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case SeekMode::FromCurrentPosition:
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if (offset + static_cast<i64>(m_offset) > static_cast<i64>(m_bytes.size()))
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return Error::from_string_view_or_print_error_and_return_errno("Offset past the end of the stream memory"sv, EINVAL);
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m_offset += offset;
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break;
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case SeekMode::FromEndPosition:
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if (-offset > static_cast<i64>(m_bytes.size()))
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return Error::from_string_view_or_print_error_and_return_errno("Offset past the start of the stream memory"sv, EINVAL);
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m_offset = m_bytes.size() + offset;
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break;
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}
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return m_offset;
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}
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ErrorOr<size_t> FixedMemoryStream::write_some(ReadonlyBytes bytes)
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{
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// MemoryStream isn't based on file-descriptors, but since most other
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// Stream implementations are, the interface specifies EBADF as the
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// "we don't support this particular operation" error code.
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if (!m_writing_enabled)
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return Error::from_errno(EBADF);
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// FIXME: Can this not error?
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auto const nwritten = bytes.copy_trimmed_to(m_bytes.slice(m_offset));
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m_offset += nwritten;
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return nwritten;
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}
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ErrorOr<void> FixedMemoryStream::write_until_depleted(ReadonlyBytes bytes)
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{
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if (remaining() < bytes.size())
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return Error::from_string_view_or_print_error_and_return_errno("Write of entire buffer ends past the memory area"sv, EINVAL);
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TRY(write_some(bytes));
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return {};
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}
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size_t FixedMemoryStream::offset() const
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{
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return m_offset;
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}
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size_t FixedMemoryStream::remaining() const
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{
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return m_bytes.size() - m_offset;
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}
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ErrorOr<Bytes> AllocatingMemoryStream::read_some(Bytes bytes)
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{
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size_t read_bytes = 0;
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while (read_bytes < bytes.size()) {
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VERIFY(m_write_offset >= m_read_offset);
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auto range = TRY(next_read_range());
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if (range.size() == 0)
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break;
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auto copied_bytes = range.copy_trimmed_to(bytes.slice(read_bytes));
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read_bytes += copied_bytes;
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m_read_offset += copied_bytes;
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}
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cleanup_unused_chunks();
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return bytes.trim(read_bytes);
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}
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ErrorOr<size_t> AllocatingMemoryStream::write_some(ReadonlyBytes bytes)
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{
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size_t written_bytes = 0;
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while (written_bytes < bytes.size()) {
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VERIFY(m_write_offset >= m_read_offset);
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auto range = TRY(next_write_range());
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auto copied_bytes = bytes.slice(written_bytes).copy_trimmed_to(range);
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written_bytes += copied_bytes;
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m_write_offset += copied_bytes;
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}
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return written_bytes;
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}
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ErrorOr<void> AllocatingMemoryStream::discard(size_t count)
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{
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VERIFY(m_write_offset >= m_read_offset);
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if (count > used_buffer_size())
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return Error::from_string_view_or_print_error_and_return_errno("Number of discarded bytes is higher than the number of allocated bytes"sv, EINVAL);
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m_read_offset += count;
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cleanup_unused_chunks();
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return {};
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}
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bool AllocatingMemoryStream::is_eof() const
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{
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return used_buffer_size() == 0;
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}
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bool AllocatingMemoryStream::is_open() const
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{
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return true;
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}
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void AllocatingMemoryStream::close()
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{
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}
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size_t AllocatingMemoryStream::used_buffer_size() const
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{
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return m_write_offset - m_read_offset;
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}
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ErrorOr<Optional<size_t>> AllocatingMemoryStream::offset_of(ReadonlyBytes needle) const
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{
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VERIFY(m_write_offset >= m_read_offset);
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if (m_chunks.size() == 0)
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return Optional<size_t> {};
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// Ensure that we don't have empty chunks at the beginning of the stream. Our trimming implementation
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// assumes this to be the case, since this should be held up by `cleanup_unused_chunks()` at all times.
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VERIFY(m_read_offset < CHUNK_SIZE);
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auto empty_chunks_at_end = ((m_chunks.size() * CHUNK_SIZE - m_write_offset) / CHUNK_SIZE);
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auto chunk_count = m_chunks.size() - empty_chunks_at_end;
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auto search_spans = TRY(FixedArray<ReadonlyBytes>::create(chunk_count));
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for (size_t i = 0; i < chunk_count; i++) {
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search_spans[i] = m_chunks[i].span();
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}
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auto used_size_of_last_chunk = m_write_offset % CHUNK_SIZE;
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// The case where the stored write offset is actually the used space is the only case where a result of zero
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// actually is zero. In other cases (i.e. our write offset is beyond the size of a chunk) the write offset
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// already points to the beginning of the next chunk, in that case a result of zero indicates "use the last chunk in full".
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if (m_write_offset >= CHUNK_SIZE && used_size_of_last_chunk == 0)
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used_size_of_last_chunk = CHUNK_SIZE;
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// Trimming is done first to ensure that we don't unintentionally shift around if the first and last chunks are the same.
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search_spans[chunk_count - 1] = search_spans[chunk_count - 1].trim(used_size_of_last_chunk);
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search_spans[0] = search_spans[0].slice(m_read_offset);
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return AK::memmem(search_spans.begin(), search_spans.end(), needle);
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}
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ErrorOr<ReadonlyBytes> AllocatingMemoryStream::next_read_range()
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{
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VERIFY(m_write_offset >= m_read_offset);
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size_t const chunk_index = m_read_offset / CHUNK_SIZE;
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size_t const chunk_offset = m_read_offset % CHUNK_SIZE;
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size_t const read_size = min(CHUNK_SIZE - m_read_offset % CHUNK_SIZE, m_write_offset - m_read_offset);
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if (read_size == 0)
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return ReadonlyBytes { static_cast<u8*>(nullptr), 0 };
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VERIFY(chunk_index < m_chunks.size());
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return ReadonlyBytes { m_chunks[chunk_index].data() + chunk_offset, read_size };
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}
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ErrorOr<Bytes> AllocatingMemoryStream::next_write_range()
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{
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VERIFY(m_write_offset >= m_read_offset);
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size_t const chunk_index = m_write_offset / CHUNK_SIZE;
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size_t const chunk_offset = m_write_offset % CHUNK_SIZE;
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size_t const write_size = CHUNK_SIZE - m_write_offset % CHUNK_SIZE;
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if (chunk_index >= m_chunks.size())
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TRY(m_chunks.try_append(TRY(Chunk::create_uninitialized(CHUNK_SIZE))));
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VERIFY(chunk_index < m_chunks.size());
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return Bytes { m_chunks[chunk_index].data() + chunk_offset, write_size };
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}
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void AllocatingMemoryStream::cleanup_unused_chunks()
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{
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VERIFY(m_write_offset >= m_read_offset);
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auto const chunks_to_remove = m_read_offset / CHUNK_SIZE;
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m_chunks.remove(0, chunks_to_remove);
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m_read_offset -= CHUNK_SIZE * chunks_to_remove;
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m_write_offset -= CHUNK_SIZE * chunks_to_remove;
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}
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}
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