/* * Copyright (c) 2018-2022, Andreas Kling * Copyright (c) 2021, sin-ack * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Kernel { ErrorOr> OpenFileDescription::try_create(Custody& custody) { auto inode_file = TRY(InodeFile::create(custody.inode())); auto description = TRY(adopt_nonnull_lock_ref_or_enomem(new (nothrow) OpenFileDescription(move(inode_file)))); description->m_state.with([&](auto& state) { state.custody = custody; }); TRY(description->attach()); return description; } ErrorOr> OpenFileDescription::try_create(File& file) { auto description = TRY(adopt_nonnull_lock_ref_or_enomem(new (nothrow) OpenFileDescription(file))); TRY(description->attach()); return description; } OpenFileDescription::OpenFileDescription(File& file) : m_file(file) { if (file.is_inode()) m_inode = static_cast(file).inode(); auto metadata = this->metadata(); m_state.with([&](auto& state) { state.is_directory = metadata.is_directory(); }); } OpenFileDescription::~OpenFileDescription() { m_file->detach(*this); if (is_fifo()) static_cast(m_file.ptr())->detach(fifo_direction()); // FIXME: Should this error path be observed somehow? (void)m_file->close(); if (m_inode) m_inode->detach(*this); if (m_inode) m_inode->remove_flocks_for_description(*this); } ErrorOr OpenFileDescription::attach() { if (m_inode) TRY(m_inode->attach(*this)); return m_file->attach(*this); } void OpenFileDescription::set_original_custody(Badge, Custody& custody) { m_state.with([&](auto& state) { state.custody = custody; }); } Thread::FileBlocker::BlockFlags OpenFileDescription::should_unblock(Thread::FileBlocker::BlockFlags block_flags) const { using BlockFlags = Thread::FileBlocker::BlockFlags; BlockFlags unblock_flags = BlockFlags::None; if (has_flag(block_flags, BlockFlags::Read) && can_read()) unblock_flags |= BlockFlags::Read; if (has_flag(block_flags, BlockFlags::Write) && can_write()) unblock_flags |= BlockFlags::Write; // TODO: Implement Thread::FileBlocker::BlockFlags::Exception if (has_any_flag(block_flags, BlockFlags::SocketFlags)) { auto const* sock = socket(); VERIFY(sock); if (has_flag(block_flags, BlockFlags::Accept) && sock->can_accept()) unblock_flags |= BlockFlags::Accept; if (has_flag(block_flags, BlockFlags::Connect) && sock->setup_state() == Socket::SetupState::Completed) unblock_flags |= BlockFlags::Connect; } return unblock_flags; } ErrorOr OpenFileDescription::stat() { // FIXME: This is due to the Device class not overriding File::stat(). if (m_inode) return m_inode->metadata().stat(); return m_file->stat(); } ErrorOr OpenFileDescription::seek(off_t offset, int whence) { if (!m_file->is_seekable()) return ESPIPE; auto metadata = this->metadata(); auto new_offset = TRY(m_state.with([&](auto& state) -> ErrorOr { off_t new_offset; switch (whence) { case SEEK_SET: new_offset = offset; break; case SEEK_CUR: if (Checked::addition_would_overflow(state.current_offset, offset)) return EOVERFLOW; new_offset = state.current_offset + offset; break; case SEEK_END: if (!metadata.is_valid()) return EIO; if (Checked::addition_would_overflow(metadata.size, offset)) return EOVERFLOW; new_offset = metadata.size + offset; break; default: return EINVAL; } if (new_offset < 0) return EINVAL; state.current_offset = new_offset; return new_offset; })); // FIXME: Return EINVAL if attempting to seek past the end of a seekable device. m_file->did_seek(*this, new_offset); if (m_inode) m_inode->did_seek(*this, new_offset); evaluate_block_conditions(); return new_offset; } ErrorOr OpenFileDescription::read(UserOrKernelBuffer& buffer, u64 offset, size_t count) { if (Checked::addition_would_overflow(offset, count)) return EOVERFLOW; return m_file->read(*this, offset, buffer, count); } ErrorOr OpenFileDescription::write(u64 offset, UserOrKernelBuffer const& data, size_t data_size) { if (Checked::addition_would_overflow(offset, data_size)) return EOVERFLOW; return m_file->write(*this, offset, data, data_size); } ErrorOr OpenFileDescription::read(UserOrKernelBuffer& buffer, size_t count) { auto offset = TRY(m_state.with([&](auto& state) -> ErrorOr { if (Checked::addition_would_overflow(state.current_offset, count)) return EOVERFLOW; return state.current_offset; })); auto nread = TRY(m_file->read(*this, offset, buffer, count)); if (m_file->is_seekable()) m_state.with([&](auto& state) { state.current_offset = offset + nread; }); evaluate_block_conditions(); return nread; } ErrorOr OpenFileDescription::write(UserOrKernelBuffer const& data, size_t size) { auto offset = TRY(m_state.with([&](auto& state) -> ErrorOr { if (Checked::addition_would_overflow(state.current_offset, size)) return EOVERFLOW; return state.current_offset; })); auto nwritten = TRY(m_file->write(*this, offset, data, size)); if (m_file->is_seekable()) m_state.with([&](auto& state) { state.current_offset = offset + nwritten; }); evaluate_block_conditions(); return nwritten; } bool OpenFileDescription::can_write() const { return m_file->can_write(*this, offset()); } bool OpenFileDescription::can_read() const { return m_file->can_read(*this, offset()); } ErrorOr> OpenFileDescription::read_entire_file() { // HACK ALERT: (This entire function) VERIFY(m_file->is_inode()); VERIFY(m_inode); return m_inode->read_entire(this); } ErrorOr OpenFileDescription::get_dir_entries(UserOrKernelBuffer& output_buffer, size_t size) { if (!is_directory()) return ENOTDIR; auto metadata = this->metadata(); if (!metadata.is_valid()) return EIO; size_t remaining = size; ErrorOr error; u8 stack_buffer[PAGE_SIZE]; Bytes temp_buffer(stack_buffer, sizeof(stack_buffer)); OutputMemoryStream stream { temp_buffer }; auto flush_stream_to_output_buffer = [&error, &stream, &remaining, &output_buffer]() -> bool { if (error.is_error()) return false; if (stream.size() == 0) return true; if (remaining < stream.size()) { error = EINVAL; return false; } if (auto result = output_buffer.write(stream.bytes()); result.is_error()) { error = result.release_error(); return false; } output_buffer = output_buffer.offset(stream.size()); remaining -= stream.size(); stream.reset(); return true; }; ErrorOr result = VirtualFileSystem::the().traverse_directory_inode(*m_inode, [&flush_stream_to_output_buffer, &error, &stream, this](auto& entry) -> ErrorOr { size_t serialized_size = sizeof(ino_t) + sizeof(u8) + sizeof(size_t) + sizeof(char) * entry.name.length(); if (serialized_size > stream.remaining()) { if (!flush_stream_to_output_buffer()) return error; } stream << (u64)entry.inode.index().value(); stream << m_inode->fs().internal_file_type_to_directory_entry_type(entry); stream << (u32)entry.name.length(); stream << entry.name.bytes(); return {}; }); flush_stream_to_output_buffer(); if (result.is_error()) { // We should only return EFAULT when the userspace buffer is too small, // so that userspace can reliably use it as a signal to increase its // buffer size. VERIFY(result.error().code() != EFAULT); return result.release_error(); } if (error.is_error()) return error.release_error(); return size - remaining; } bool OpenFileDescription::is_device() const { return m_file->is_device(); } Device const* OpenFileDescription::device() const { if (!is_device()) return nullptr; return static_cast(m_file.ptr()); } Device* OpenFileDescription::device() { if (!is_device()) return nullptr; return static_cast(m_file.ptr()); } bool OpenFileDescription::is_tty() const { return m_file->is_tty(); } const TTY* OpenFileDescription::tty() const { if (!is_tty()) return nullptr; return static_cast(m_file.ptr()); } TTY* OpenFileDescription::tty() { if (!is_tty()) return nullptr; return static_cast(m_file.ptr()); } bool OpenFileDescription::is_inode_watcher() const { return m_file->is_inode_watcher(); } InodeWatcher const* OpenFileDescription::inode_watcher() const { if (!is_inode_watcher()) return nullptr; return static_cast(m_file.ptr()); } InodeWatcher* OpenFileDescription::inode_watcher() { if (!is_inode_watcher()) return nullptr; return static_cast(m_file.ptr()); } bool OpenFileDescription::is_master_pty() const { return m_file->is_master_pty(); } MasterPTY const* OpenFileDescription::master_pty() const { if (!is_master_pty()) return nullptr; return static_cast(m_file.ptr()); } MasterPTY* OpenFileDescription::master_pty() { if (!is_master_pty()) return nullptr; return static_cast(m_file.ptr()); } ErrorOr OpenFileDescription::close() { if (m_file->attach_count() > 0) return {}; return m_file->close(); } ErrorOr> OpenFileDescription::original_absolute_path() const { if (auto custody = this->custody()) return custody->try_serialize_absolute_path(); return ENOENT; } ErrorOr> OpenFileDescription::pseudo_path() const { if (auto custody = this->custody()) return custody->try_serialize_absolute_path(); return m_file->pseudo_path(*this); } InodeMetadata OpenFileDescription::metadata() const { if (m_inode) return m_inode->metadata(); return {}; } ErrorOr> OpenFileDescription::vmobject_for_mmap(Process& process, Memory::VirtualRange const& range, u64& offset, bool shared) { return m_file->vmobject_for_mmap(process, range, offset, shared); } ErrorOr OpenFileDescription::truncate(u64 length) { return m_file->truncate(length); } ErrorOr OpenFileDescription::sync() { return m_file->sync(); } bool OpenFileDescription::is_fifo() const { return m_file->is_fifo(); } FIFO* OpenFileDescription::fifo() { if (!is_fifo()) return nullptr; return static_cast(m_file.ptr()); } bool OpenFileDescription::is_socket() const { return m_file->is_socket(); } Socket* OpenFileDescription::socket() { if (!is_socket()) return nullptr; return static_cast(m_file.ptr()); } Socket const* OpenFileDescription::socket() const { if (!is_socket()) return nullptr; return static_cast(m_file.ptr()); } void OpenFileDescription::set_file_flags(u32 flags) { m_state.with([&](auto& state) { state.is_blocking = !(flags & O_NONBLOCK); state.should_append = flags & O_APPEND; state.direct = flags & O_DIRECT; state.file_flags = flags; }); } ErrorOr OpenFileDescription::chmod(Credentials const& credentials, mode_t mode) { return m_file->chmod(credentials, *this, mode); } ErrorOr OpenFileDescription::chown(Credentials const& credentials, UserID uid, GroupID gid) { return m_file->chown(credentials, *this, uid, gid); } FileBlockerSet& OpenFileDescription::blocker_set() { return m_file->blocker_set(); } ErrorOr OpenFileDescription::apply_flock(Process const& process, Userspace lock, ShouldBlock should_block) { if (!m_inode) return EBADF; return m_inode->apply_flock(process, *this, lock, should_block); } ErrorOr OpenFileDescription::get_flock(Userspace lock) const { if (!m_inode) return EBADF; return m_inode->get_flock(*this, lock); } bool OpenFileDescription::is_readable() const { return m_state.with([](auto& state) { return state.readable; }); } bool OpenFileDescription::is_writable() const { return m_state.with([](auto& state) { return state.writable; }); } void OpenFileDescription::set_readable(bool b) { m_state.with([&](auto& state) { state.readable = b; }); } void OpenFileDescription::set_writable(bool b) { m_state.with([&](auto& state) { state.writable = b; }); } void OpenFileDescription::set_rw_mode(int options) { m_state.with([&](auto& state) { state.readable = (options & O_RDONLY) == O_RDONLY; state.writable = (options & O_WRONLY) == O_WRONLY; }); } bool OpenFileDescription::is_direct() const { return m_state.with([](auto& state) { return state.direct; }); } bool OpenFileDescription::is_directory() const { return m_state.with([](auto& state) { return state.is_directory; }); } bool OpenFileDescription::is_blocking() const { return m_state.with([](auto& state) { return state.is_blocking; }); } void OpenFileDescription::set_blocking(bool b) { m_state.with([&](auto& state) { state.is_blocking = b; }); } bool OpenFileDescription::should_append() const { return m_state.with([](auto& state) { return state.should_append; }); } u32 OpenFileDescription::file_flags() const { return m_state.with([](auto& state) { return state.file_flags; }); } FIFO::Direction OpenFileDescription::fifo_direction() const { return m_state.with([](auto& state) { return state.fifo_direction; }); } void OpenFileDescription::set_fifo_direction(Badge, FIFO::Direction direction) { m_state.with([&](auto& state) { state.fifo_direction = direction; }); } OwnPtr& OpenFileDescription::data() { return m_state.with([](auto& state) -> OwnPtr& { return state.data; }); } off_t OpenFileDescription::offset() const { return m_state.with([](auto& state) { return state.current_offset; }); } RefPtr OpenFileDescription::custody() const { return m_state.with([](auto& state) { return state.custody; }); } RefPtr OpenFileDescription::custody() { return m_state.with([](auto& state) { return state.custody; }); } }