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21ac431fac
If the BufferedStream is able to fill its entire circular buffer in populate_read_buffer() and is later asked to read a line or read until a delimiter, it could erroneously return EMSGSIZE if the caller's buffer was smaller than the internal buffer. In this case, all we really care about is whether the caller's buffer is big enough for however much data we're going to copy into it. Which needs to take into account the candidate.
422 lines
14 KiB
C++
422 lines
14 KiB
C++
/*
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* Copyright (c) 2021, sin-ack <sin-ack@protonmail.com>
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* Copyright (c) 2022, the SerenityOS developers.
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/CircularBuffer.h>
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#include <AK/OwnPtr.h>
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#include <AK/Stream.h>
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namespace AK {
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template<typename T>
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concept StreamLike = IsBaseOf<Stream, T>;
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template<typename T>
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concept SeekableStreamLike = IsBaseOf<SeekableStream, T>;
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template<typename T>
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class BufferedHelper {
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AK_MAKE_NONCOPYABLE(BufferedHelper);
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AK_MAKE_DEFAULT_MOVABLE(BufferedHelper);
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public:
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template<StreamLike U>
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BufferedHelper(Badge<U>, NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_stream(move(stream))
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, m_buffer(move(buffer))
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{
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}
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template<template<typename> typename BufferedType>
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static ErrorOr<NonnullOwnPtr<BufferedType<T>>> create_buffered(NonnullOwnPtr<T> stream, size_t buffer_size)
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{
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if (!buffer_size)
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return Error::from_errno(EINVAL);
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if (!stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto buffer = TRY(CircularBuffer::create_empty(buffer_size));
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return adopt_nonnull_own_or_enomem(new BufferedType<T>(move(stream), move(buffer)));
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}
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T& stream() { return *m_stream; }
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T const& stream() const { return *m_stream; }
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ErrorOr<Bytes> read(Bytes buffer)
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{
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if (!stream().is_open())
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return Error::from_errno(ENOTCONN);
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if (buffer.is_empty())
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return buffer;
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// Fill the internal buffer if it has run dry.
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if (m_buffer.used_space() == 0)
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TRY(populate_read_buffer());
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// Let's try to take all we can from the buffer first.
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return m_buffer.read(buffer);
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}
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// Reads into the buffer until \n is encountered.
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// The size of the Bytes object is the maximum amount of bytes that will be
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// read. Returns the bytes read as a StringView.
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ErrorOr<StringView> read_line(Bytes buffer)
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{
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return StringView { TRY(read_until(buffer, "\n"sv)) };
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}
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ErrorOr<Bytes> read_until(Bytes buffer, StringView candidate)
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{
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return read_until_any_of(buffer, Array { candidate });
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}
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of(Bytes buffer, Array<StringView, N> candidates)
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{
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if (!stream().is_open())
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return Error::from_errno(ENOTCONN);
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if (buffer.is_empty())
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return buffer;
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auto const candidate = TRY(find_and_populate_until_any_of(candidates, buffer.size()));
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if (stream().is_eof()) {
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if ((candidate.has_value() && candidate->offset + candidate->size > buffer.size())
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|| (!candidate.has_value() && buffer.size() < m_buffer.used_space())) {
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// Normally, reading from an EOFed stream and receiving bytes
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// would mean that the stream is no longer EOF. However, it's
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// possible with a buffered stream that the user is able to read
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// the buffer contents even when the underlying stream is EOF.
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// We already violate this invariant once by giving the user the
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// chance to read the remaining buffer contents, but if the user
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// doesn't give us a big enough buffer, then we would be
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// violating the invariant twice the next time the user attempts
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// to read, which is No Good. So let's give a descriptive error
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// to the caller about why it can't read.
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return Error::from_errno(EMSGSIZE);
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}
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}
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if (candidate.has_value()) {
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auto const read_bytes = m_buffer.read(buffer.trim(candidate->offset));
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TRY(m_buffer.discard(candidate->size));
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return read_bytes;
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}
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// If we still haven't found anything, then it's most likely the case
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// that the delimiter ends beyond the length of the caller-passed
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// buffer. Let's just fill the caller's buffer up.
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return m_buffer.read(buffer);
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}
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struct Match {
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size_t offset {};
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size_t size {};
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};
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template<size_t N>
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ErrorOr<Optional<Match>> find_and_populate_until_any_of(Array<StringView, N> const& candidates, Optional<size_t> max_offset = {})
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{
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Optional<size_t> longest_candidate;
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for (auto& candidate : candidates) {
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if (candidate.length() >= longest_candidate.value_or(candidate.length()))
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longest_candidate = candidate.length();
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}
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// The intention here is to try to match all the possible
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// delimiter candidates and try to find the longest one we can
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// remove from the buffer after copying up to the delimiter to the
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// user buffer.
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auto const find_candidates = [this, &candidates, &longest_candidate](size_t min_offset, Optional<size_t> max_offset = {}) -> Optional<Match> {
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auto const corrected_minimum_offset = *longest_candidate > min_offset ? 0 : min_offset - *longest_candidate;
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max_offset = max_offset.value_or(m_buffer.used_space());
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Optional<size_t> longest_match;
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size_t match_size = 0;
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for (auto& candidate : candidates) {
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auto const result = m_buffer.offset_of(candidate, corrected_minimum_offset, *max_offset);
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if (result.has_value()) {
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auto previous_match = longest_match.value_or(*result);
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if ((previous_match < *result) || (previous_match == *result && match_size < candidate.length())) {
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longest_match = result;
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match_size = candidate.length();
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}
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}
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}
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if (longest_match.has_value())
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return Match { *longest_match, match_size };
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return {};
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};
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if (auto first_find = find_candidates(0, max_offset); first_find.has_value())
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return first_find;
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auto last_size = m_buffer.used_space();
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while (m_buffer.used_space() < max_offset.value_or(m_buffer.capacity())) {
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auto const read_bytes = TRY(populate_read_buffer());
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if (read_bytes == 0)
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break;
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if (auto first_find = find_candidates(last_size, max_offset); first_find.has_value())
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return first_find;
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last_size = m_buffer.used_space();
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}
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return Optional<Match> {};
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}
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// Populates the buffer, and returns whether it is possible to read up to the given delimiter.
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ErrorOr<bool> can_read_up_to_delimiter(ReadonlyBytes delimiter)
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{
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if (stream().is_eof())
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return m_buffer.offset_of(delimiter).has_value();
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auto maybe_match = TRY(find_and_populate_until_any_of(Array { StringView { delimiter } }));
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if (maybe_match.has_value())
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return true;
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return stream().is_eof() && m_buffer.offset_of(delimiter).has_value();
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}
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bool is_eof_with_data_left_over() const
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{
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return stream().is_eof() && m_buffer.used_space() > 0;
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}
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bool is_eof() const
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{
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if (m_buffer.used_space() > 0) {
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return false;
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}
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return stream().is_eof();
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}
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size_t buffer_size() const
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{
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return m_buffer.capacity();
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}
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size_t buffered_data_size() const
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{
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return m_buffer.used_space();
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}
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void clear_buffer()
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{
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m_buffer.clear();
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}
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ErrorOr<void> discard_bytes(size_t count)
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{
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return m_buffer.discard(count);
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}
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private:
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ErrorOr<size_t> populate_read_buffer()
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{
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if (m_buffer.empty_space() == 0)
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return 0;
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size_t nread = 0;
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while (true) {
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auto result = m_buffer.fill_from_stream(stream());
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if (result.is_error()) {
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if (!result.error().is_errno())
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return result.release_error();
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if (result.error().code() == EINTR)
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continue;
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if (result.error().code() == EAGAIN)
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break;
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return result.release_error();
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}
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nread += result.value();
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break;
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}
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return nread;
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}
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NonnullOwnPtr<T> m_stream;
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CircularBuffer m_buffer;
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};
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// NOTE: A Buffered which accepts any Stream could be added here, but it is not
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// needed at the moment.
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template<SeekableStreamLike T>
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class InputBufferedSeekable final : public SeekableStream {
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friend BufferedHelper<T>;
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public:
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static ErrorOr<NonnullOwnPtr<InputBufferedSeekable<T>>> create(NonnullOwnPtr<T> stream, size_t buffer_size = 16384)
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{
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return BufferedHelper<T>::template create_buffered<InputBufferedSeekable>(move(stream), buffer_size);
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}
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InputBufferedSeekable(InputBufferedSeekable&& other) = default;
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InputBufferedSeekable& operator=(InputBufferedSeekable&& other) = default;
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virtual ErrorOr<Bytes> read_some(Bytes buffer) override { return m_helper.read(move(buffer)); }
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virtual ErrorOr<size_t> write_some(ReadonlyBytes buffer) override { return m_helper.stream().write_some(buffer); }
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virtual bool is_eof() const override { return m_helper.is_eof(); }
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virtual bool is_open() const override { return m_helper.stream().is_open(); }
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virtual void close() override { m_helper.stream().close(); }
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virtual ErrorOr<size_t> seek(i64 offset, SeekMode mode) override
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{
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if (mode == SeekMode::FromCurrentPosition) {
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// If possible, seek using the buffer alone.
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if (0 <= offset && static_cast<u64>(offset) <= m_helper.buffered_data_size()) {
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MUST(m_helper.discard_bytes(offset));
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return TRY(m_helper.stream().tell()) - m_helper.buffered_data_size();
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}
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offset = offset - m_helper.buffered_data_size();
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}
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auto result = TRY(m_helper.stream().seek(offset, mode));
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m_helper.clear_buffer();
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return result;
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}
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virtual ErrorOr<void> truncate(size_t length) override
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{
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return m_helper.stream().truncate(length);
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}
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ErrorOr<StringView> read_line(Bytes buffer) { return m_helper.read_line(move(buffer)); }
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ErrorOr<bool> can_read_line()
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{
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return TRY(m_helper.can_read_up_to_delimiter("\n"sv.bytes())) || m_helper.is_eof_with_data_left_over();
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}
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ErrorOr<Bytes> read_until(Bytes buffer, StringView candidate) { return m_helper.read_until(move(buffer), move(candidate)); }
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of(Bytes buffer, Array<StringView, N> candidates) { return m_helper.read_until_any_of(move(buffer), move(candidates)); }
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ErrorOr<bool> can_read_up_to_delimiter(ReadonlyBytes delimiter) { return m_helper.can_read_up_to_delimiter(delimiter); }
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size_t buffer_size() const { return m_helper.buffer_size(); }
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virtual ~InputBufferedSeekable() override = default;
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private:
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InputBufferedSeekable(NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_helper(Badge<InputBufferedSeekable<T>> {}, move(stream), move(buffer))
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{
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}
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BufferedHelper<T> m_helper;
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};
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template<SeekableStreamLike T>
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class OutputBufferedSeekable : public SeekableStream {
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public:
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static ErrorOr<NonnullOwnPtr<OutputBufferedSeekable<T>>> create(NonnullOwnPtr<T> stream, size_t buffer_size = 16 * KiB)
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{
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if (buffer_size == 0)
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return Error::from_errno(EINVAL);
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if (!stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto buffer = TRY(CircularBuffer::create_empty(buffer_size));
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return adopt_nonnull_own_or_enomem(new OutputBufferedSeekable<T>(move(stream), move(buffer)));
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}
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OutputBufferedSeekable(OutputBufferedSeekable&& other) = default;
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OutputBufferedSeekable& operator=(OutputBufferedSeekable&& other) = default;
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virtual ErrorOr<Bytes> read_some(Bytes buffer) override
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{
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TRY(flush_buffer());
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return m_stream->read_some(buffer);
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}
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virtual ErrorOr<size_t> write_some(ReadonlyBytes buffer) override
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{
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if (!m_stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto const written = m_buffer.write(buffer);
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if (m_buffer.empty_space() == 0)
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TRY(m_buffer.flush_to_stream(*m_stream));
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return written;
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}
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virtual bool is_eof() const override
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{
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MUST(flush_buffer());
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return m_stream->is_eof();
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}
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virtual bool is_open() const override { return m_stream->is_open(); }
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virtual void close() override
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{
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MUST(flush_buffer());
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m_stream->close();
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}
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ErrorOr<void> flush_buffer() const
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{
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while (m_buffer.used_space() > 0)
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TRY(m_buffer.flush_to_stream(*m_stream));
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return {};
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}
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// Since tell() doesn't involve moving the write offset, we can skip flushing the buffer here.
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virtual ErrorOr<size_t> tell() const override
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{
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return TRY(m_stream->tell()) + m_buffer.used_space();
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}
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virtual ErrorOr<size_t> seek(i64 offset, SeekMode mode) override
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{
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TRY(flush_buffer());
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return m_stream->seek(offset, mode);
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}
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virtual ErrorOr<void> truncate(size_t length) override
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{
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TRY(flush_buffer());
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return m_stream->truncate(length);
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}
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virtual ~OutputBufferedSeekable() override
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{
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MUST(flush_buffer());
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}
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private:
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OutputBufferedSeekable(NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_stream(move(stream))
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, m_buffer(move(buffer))
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{
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}
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mutable NonnullOwnPtr<T> m_stream;
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mutable CircularBuffer m_buffer;
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};
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}
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#if USING_AK_GLOBALLY
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using AK::BufferedHelper;
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using AK::InputBufferedSeekable;
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using AK::OutputBufferedSeekable;
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#endif
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