/* * Copyright (c) 2020, Sergey Bugaev * * SPDX-License-Identifier: BSD-2-Clause */ #include #include namespace Kernel { NonnullRefPtr Plan9FS::create(FileDescription& file_description) { return adopt_ref(*new Plan9FS(file_description)); } Plan9FS::Plan9FS(FileDescription& file_description) : FileBackedFileSystem(file_description) , m_completion_blocker(*this) { } Plan9FS::~Plan9FS() { // Make sure to destroy the root inode before the FS gets destroyed. if (m_root_inode) { VERIFY(m_root_inode->ref_count() == 1); m_root_inode = nullptr; } } class Plan9FS::Message { public: enum class Type : u8 { // 9P2000.L Tlerror = 6, Rlerror = 7, Tstatfs = 8, Rstatfs = 9, Tlopen = 12, Rlopen = 13, Tlcreate = 14, Rlcreate = 15, Tsymlink = 16, Rsymlink = 17, Tmknod = 18, Rmknod = 19, Trename = 20, Rrename = 21, Treadlink = 22, Rreadlink = 23, Tgetattr = 24, Rgetattr = 25, Tsetattr = 26, Rsetattr = 27, Txattrwalk = 30, Rxattrwalk = 31, Txattrcreate = 32, Rxattrcreate = 33, Treaddir = 40, Rreaddir = 41, Tfsync = 50, Rfsync = 51, Tlock = 52, Rlock = 53, Tgetlock = 54, Rgetlock = 55, Tlink = 70, Rlink = 71, Tmkdir = 72, Rmkdir = 73, Trenameat = 74, Rrenameat = 75, Tunlinkat = 76, Runlinkat = 77, // 9P2000 Tversion = 100, Rversion = 101, Tauth = 102, Rauth = 103, Tattach = 104, Rattach = 105, Terror = 106, Rerror = 107, Tflush = 108, Rflush = 109, Twalk = 110, Rwalk = 111, Topen = 112, Ropen = 113, Tcreate = 114, Rcreate = 115, Tread = 116, Rread = 117, Twrite = 118, Rwrite = 119, Tclunk = 120, Rclunk = 121, Tremove = 122, Rremove = 123, Tstat = 124, Rstat = 125, Twstat = 126, Rwstat = 127 }; class Decoder { public: explicit Decoder(const StringView& data) : m_data(data) { } Decoder& operator>>(u8&); Decoder& operator>>(u16&); Decoder& operator>>(u32&); Decoder& operator>>(u64&); Decoder& operator>>(StringView&); Decoder& operator>>(qid&); StringView read_data(); bool has_more_data() const { return !m_data.is_empty(); } private: StringView m_data; template Decoder& read_number(N& number) { VERIFY(sizeof(number) <= m_data.length()); memcpy(&number, m_data.characters_without_null_termination(), sizeof(number)); m_data = m_data.substring_view(sizeof(number), m_data.length() - sizeof(number)); return *this; } }; Message& operator<<(u8); Message& operator<<(u16); Message& operator<<(u32); Message& operator<<(u64); Message& operator<<(const StringView&); void append_data(const StringView&); template Message& operator>>(T& t) { VERIFY(m_have_been_built); m_built.decoder >> t; return *this; } StringView read_data() { VERIFY(m_have_been_built); return m_built.decoder.read_data(); } Type type() const { return m_type; } u16 tag() const { return m_tag; } Message(Plan9FS&, Type); Message(NonnullOwnPtr&&); ~Message(); Message& operator=(Message&&); const KBuffer& build(); static constexpr size_t max_header_size = 24; private: template Message& append_number(N number) { VERIFY(!m_have_been_built); m_builder.append(reinterpret_cast(&number), sizeof(number)); return *this; } union { KBufferBuilder m_builder; struct { NonnullOwnPtr buffer; Decoder decoder; } m_built; }; u16 m_tag { 0 }; Type m_type { 0 }; bool m_have_been_built { false }; }; KResult Plan9FS::initialize() { ensure_thread(); Message version_message { *this, Message::Type::Tversion }; version_message << (u32)m_max_message_size << "9P2000.L"; auto result = post_message_and_wait_for_a_reply(version_message); if (result.is_error()) return result; u32 msize; StringView remote_protocol_version; version_message >> msize >> remote_protocol_version; dbgln("Remote supports msize={} and protocol version {}", msize, remote_protocol_version); m_remote_protocol_version = parse_protocol_version(remote_protocol_version); m_max_message_size = min(m_max_message_size, (size_t)msize); // TODO: auth u32 root_fid = allocate_fid(); Message attach_message { *this, Message::Type::Tattach }; // FIXME: This needs a user name and an "export" name; but how do we get them? // Perhaps initialize() should accept a string of FS-specific options... attach_message << root_fid << (u32)-1 << "sergey" << "/"; if (m_remote_protocol_version >= ProtocolVersion::v9P2000u) attach_message << (u32)-1; result = post_message_and_wait_for_a_reply(attach_message); if (result.is_error()) { dbgln("Attaching failed"); return result; } m_root_inode = Plan9FSInode::create(*this, root_fid); if (!m_root_inode) return ENOMEM; return KSuccess; } Plan9FS::ProtocolVersion Plan9FS::parse_protocol_version(const StringView& s) const { if (s == "9P2000.L") return ProtocolVersion::v9P2000L; if (s == "9P2000.u") return ProtocolVersion::v9P2000u; return ProtocolVersion::v9P2000; } Inode& Plan9FS::root_inode() { return *m_root_inode; } Plan9FS::Message& Plan9FS::Message::operator<<(u8 number) { return append_number(number); } Plan9FS::Message& Plan9FS::Message::operator<<(u16 number) { return append_number(number); } Plan9FS::Message& Plan9FS::Message::operator<<(u32 number) { return append_number(number); } Plan9FS::Message& Plan9FS::Message::operator<<(u64 number) { return append_number(number); } Plan9FS::Message& Plan9FS::Message::operator<<(const StringView& string) { *this << static_cast(string.length()); m_builder.append(string); return *this; } void Plan9FS::Message::append_data(const StringView& data) { *this << static_cast(data.length()); m_builder.append(data); } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(u8& number) { return read_number(number); } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(u16& number) { return read_number(number); } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(u32& number) { return read_number(number); } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(u64& number) { return read_number(number); } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(qid& qid) { return *this >> qid.type >> qid.version >> qid.path; } Plan9FS::Message::Decoder& Plan9FS::Message::Decoder::operator>>(StringView& string) { u16 length; *this >> length; VERIFY(length <= m_data.length()); string = m_data.substring_view(0, length); m_data = m_data.substring_view_starting_after_substring(string); return *this; } StringView Plan9FS::Message::Decoder::read_data() { u32 length; *this >> length; VERIFY(length <= m_data.length()); auto data = m_data.substring_view(0, length); m_data = m_data.substring_view_starting_after_substring(data); return data; } Plan9FS::Message::Message(Plan9FS& fs, Type type) : m_builder() , m_tag(fs.allocate_tag()) , m_type(type) , m_have_been_built(false) { u32 size_placeholder = 0; *this << size_placeholder << (u8)type << m_tag; } Plan9FS::Message::Message(NonnullOwnPtr&& buffer) : m_built { move(buffer), Decoder({ buffer->data(), buffer->size() }) } , m_have_been_built(true) { u32 size; u8 raw_type; *this >> size >> raw_type >> m_tag; m_type = (Type)raw_type; } Plan9FS::Message::~Message() { if (m_have_been_built) { m_built.buffer.~NonnullOwnPtr(); m_built.decoder.~Decoder(); } else { m_builder.~KBufferBuilder(); } } Plan9FS::Message& Plan9FS::Message::operator=(Message&& message) { m_tag = message.m_tag; m_type = message.m_type; if (m_have_been_built) { m_built.buffer.~NonnullOwnPtr(); m_built.decoder.~Decoder(); } else { m_builder.~KBufferBuilder(); } m_have_been_built = message.m_have_been_built; if (m_have_been_built) { new (&m_built.buffer) NonnullOwnPtr(move(message.m_built.buffer)); new (&m_built.decoder) Decoder(move(message.m_built.decoder)); } else { new (&m_builder) KBufferBuilder(move(message.m_builder)); } return *this; } const KBuffer& Plan9FS::Message::build() { VERIFY(!m_have_been_built); auto tmp_buffer = m_builder.build(); // FIXME: We should not assume success here. VERIFY(tmp_buffer); m_have_been_built = true; m_builder.~KBufferBuilder(); new (&m_built.buffer) NonnullOwnPtr(tmp_buffer.release_nonnull()); new (&m_built.decoder) Decoder({ m_built.buffer->data(), m_built.buffer->size() }); u32* size = reinterpret_cast(m_built.buffer->data()); *size = m_built.buffer->size(); return *m_built.buffer; } Plan9FS::ReceiveCompletion::ReceiveCompletion(u16 tag) : tag(tag) { } Plan9FS::ReceiveCompletion::~ReceiveCompletion() { } bool Plan9FS::Blocker::unblock(u16 tag) { { SpinlockLocker lock(m_lock); if (m_did_unblock) return false; m_did_unblock = true; if (m_completion->tag != tag) return false; if (!m_completion->result.is_error()) m_message = move(*m_completion->message); } return unblock(); } bool Plan9FS::Blocker::setup_blocker() { return add_to_blocker_set(m_fs.m_completion_blocker); } void Plan9FS::Blocker::will_unblock_immediately_without_blocking(UnblockImmediatelyReason) { { SpinlockLocker lock(m_lock); if (m_did_unblock) return; } m_fs.m_completion_blocker.try_unblock(*this); } bool Plan9FS::Blocker::is_completed() const { SpinlockLocker lock(m_completion->lock); return m_completion->completed; } bool Plan9FS::Plan9FSBlockerSet::should_add_blocker(Thread::Blocker& b, void*) { // NOTE: m_lock is held already! auto& blocker = static_cast(b); return !blocker.is_completed(); } void Plan9FS::Plan9FSBlockerSet::unblock_completed(u16 tag) { unblock_all_blockers_whose_conditions_are_met([&](Thread::Blocker& b, void*, bool&) { VERIFY(b.blocker_type() == Thread::Blocker::Type::Plan9FS); auto& blocker = static_cast(b); return blocker.unblock(tag); }); } void Plan9FS::Plan9FSBlockerSet::unblock_all() { unblock_all_blockers_whose_conditions_are_met([&](Thread::Blocker& b, void*, bool&) { VERIFY(b.blocker_type() == Thread::Blocker::Type::Plan9FS); auto& blocker = static_cast(b); return blocker.unblock(); }); } void Plan9FS::Plan9FSBlockerSet::try_unblock(Plan9FS::Blocker& blocker) { if (m_fs.is_complete(*blocker.completion())) { SpinlockLocker lock(m_lock); blocker.unblock(blocker.completion()->tag); } } bool Plan9FS::is_complete(const ReceiveCompletion& completion) { MutexLocker locker(m_lock); if (m_completions.contains(completion.tag)) { // If it's still in the map then it can't be complete VERIFY(!completion.completed); return false; } // if it's not in the map anymore, it must be complete. But we MUST // hold m_lock to be able to check completion.completed! VERIFY(completion.completed); return true; } KResult Plan9FS::post_message(Message& message, RefPtr completion) { auto& buffer = message.build(); const u8* data = buffer.data(); size_t size = buffer.size(); auto& description = file_description(); MutexLocker locker(m_send_lock); if (completion) { // Save the completion record *before* we send the message. This // ensures that it exists when the thread reads the response MutexLocker locker(m_lock); auto tag = completion->tag; m_completions.set(tag, completion.release_nonnull()); // TODO: What if there is a collision? Do we need to wait until // the existing record with the tag completes before queueing // this one? } while (size > 0) { if (!description.can_write()) { auto unblock_flags = Thread::FileBlocker::BlockFlags::None; if (Thread::current()->block({}, description, unblock_flags).was_interrupted()) return EINTR; } auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(const_cast(data)); auto nwritten_or_error = description.write(data_buffer, size); if (nwritten_or_error.is_error()) return nwritten_or_error.error(); auto nwritten = nwritten_or_error.value(); data += nwritten; size -= nwritten; } return KSuccess; } KResult Plan9FS::do_read(u8* data, size_t size) { auto& description = file_description(); while (size > 0) { if (!description.can_read()) { auto unblock_flags = Thread::FileBlocker::BlockFlags::None; if (Thread::current()->block({}, description, unblock_flags).was_interrupted()) return EINTR; } auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(data); auto nread_or_error = description.read(data_buffer, size); if (nread_or_error.is_error()) return nread_or_error.error(); auto nread = nread_or_error.value(); if (nread == 0) return EIO; data += nread; size -= nread; } return KSuccess; } KResult Plan9FS::read_and_dispatch_one_message() { struct [[gnu::packed]] Header { u32 size; u8 type; u16 tag; }; Header header; KResult result = do_read(reinterpret_cast(&header), sizeof(header)); if (result.is_error()) return result; auto buffer = KBuffer::try_create_with_size(header.size, Memory::Region::Access::ReadWrite); if (!buffer) return ENOMEM; // Copy the already read header into the buffer. memcpy(buffer->data(), &header, sizeof(header)); result = do_read(buffer->data() + sizeof(header), header.size - sizeof(header)); if (result.is_error()) return result; MutexLocker locker(m_lock); auto optional_completion = m_completions.get(header.tag); if (optional_completion.has_value()) { auto completion = optional_completion.value(); SpinlockLocker lock(completion->lock); completion->result = KSuccess; completion->message = adopt_own_if_nonnull(new (nothrow) Message { buffer.release_nonnull() }); completion->completed = true; m_completions.remove(header.tag); m_completion_blocker.unblock_completed(header.tag); } else { dbgln("Received a 9p message of type {} with an unexpected tag {}, dropping", header.type, header.tag); } return KSuccess; } KResult Plan9FS::post_message_and_explicitly_ignore_reply(Message& message) { return post_message(message, {}); } KResult Plan9FS::post_message_and_wait_for_a_reply(Message& message) { auto request_type = message.type(); auto tag = message.tag(); auto completion = adopt_ref(*new ReceiveCompletion(tag)); auto result = post_message(message, completion); if (result.is_error()) return result; if (Thread::current()->block({}, *this, message, completion).was_interrupted()) return EINTR; if (completion->result.is_error()) { dbgln("Plan9FS: Message was aborted with error {}", completion->result.error()); return EIO; } auto reply_type = message.type(); if (reply_type == Message::Type::Rlerror) { // Contains a numerical Linux errno; hopefully our errno numbers match. u32 error_code; message >> error_code; return KResult((ErrnoCode)error_code); } else if (reply_type == Message::Type::Rerror) { // Contains an error message. We could attempt to parse it, but for now // we simply return EIO instead. In 9P200.u, it can also contain a // numerical errno in an unspecified encoding; we ignore those too. StringView error_name; message >> error_name; dbgln("Plan9FS: Received error name {}", error_name); return EIO; } else if ((u8)reply_type != (u8)request_type + 1) { // Other than those error messages. we only expect the matching reply // message type. dbgln("Plan9FS: Received unexpected message type {} in response to {}", (u8)reply_type, (u8)request_type); return EIO; } else { return KSuccess; } } size_t Plan9FS::adjust_buffer_size(size_t size) const { size_t max_size = m_max_message_size - Message::max_header_size; return min(size, max_size); } void Plan9FS::thread_main() { dbgln("Plan9FS: Thread running"); do { auto result = read_and_dispatch_one_message(); if (result.is_error()) { // If we fail to read, wake up everyone with an error. MutexLocker locker(m_lock); for (auto& it : m_completions) { it.value->result = result; it.value->completed = true; } m_completions.clear(); m_completion_blocker.unblock_all(); dbgln("Plan9FS: Thread terminating, error reading"); return; } } while (!m_thread_shutdown); dbgln("Plan9FS: Thread terminating"); } void Plan9FS::ensure_thread() { SpinlockLocker lock(m_thread_lock); if (!m_thread_running.exchange(true, AK::MemoryOrder::memory_order_acq_rel)) { Process::create_kernel_process(m_thread, "Plan9FS", [&]() { thread_main(); m_thread_running.store(false, AK::MemoryOrder::memory_order_release); }); } } Plan9FSInode::Plan9FSInode(Plan9FS& fs, u32 fid) : Inode(fs, fid) { } NonnullRefPtr Plan9FSInode::create(Plan9FS& fs, u32 fid) { return adopt_ref(*new Plan9FSInode(fs, fid)); } Plan9FSInode::~Plan9FSInode() { Plan9FS::Message clunk_request { fs(), Plan9FS::Message::Type::Tclunk }; clunk_request << fid(); // FIXME: Should we observe this error somehow? [[maybe_unused]] auto rc = fs().post_message_and_explicitly_ignore_reply(clunk_request); } KResult Plan9FSInode::ensure_open_for_mode(int mode) { bool use_lopen = fs().m_remote_protocol_version >= Plan9FS::ProtocolVersion::v9P2000L; u32 l_mode = 0; u8 p9_mode = 0; { MutexLocker locker(m_inode_lock); // If it's already open in this mode, we're done. if ((m_open_mode & mode) == mode) return KSuccess; m_open_mode |= mode; if ((m_open_mode & O_RDWR) == O_RDWR) { l_mode |= 2; p9_mode |= 2; } else if (m_open_mode & O_WRONLY) { l_mode |= 1; p9_mode |= 1; } else if (m_open_mode & O_RDONLY) { // Leave the values at 0. } } if (use_lopen) { Plan9FS::Message message { fs(), Plan9FS::Message::Type::Tlopen }; message << fid() << l_mode; return fs().post_message_and_wait_for_a_reply(message); } else { Plan9FS::Message message { fs(), Plan9FS::Message::Type::Topen }; message << fid() << p9_mode; return fs().post_message_and_wait_for_a_reply(message); } } KResultOr Plan9FSInode::read_bytes(off_t offset, size_t size, UserOrKernelBuffer& buffer, FileDescription*) const { auto result = const_cast(*this).ensure_open_for_mode(O_RDONLY); if (result.is_error()) return result; size = fs().adjust_buffer_size(size); Plan9FS::Message message { fs(), Plan9FS::Message::Type::Treadlink }; StringView data; // Try readlink first. bool readlink_succeded = false; if (fs().m_remote_protocol_version >= Plan9FS::ProtocolVersion::v9P2000L && offset == 0) { message << fid(); result = fs().post_message_and_wait_for_a_reply(message); if (result.is_success()) { readlink_succeded = true; message >> data; } } if (!readlink_succeded) { message = Plan9FS::Message { fs(), Plan9FS::Message::Type::Tread }; message << fid() << (u64)offset << (u32)size; result = fs().post_message_and_wait_for_a_reply(message); if (result.is_error()) return result.error(); data = message.read_data(); } // Guard against the server returning more data than requested. size_t nread = min(data.length(), size); if (!buffer.write(data.characters_without_null_termination(), nread)) return EFAULT; return nread; } KResultOr Plan9FSInode::write_bytes(off_t offset, size_t size, const UserOrKernelBuffer& data, FileDescription*) { auto result = ensure_open_for_mode(O_WRONLY); if (result.is_error()) return result.error(); size = fs().adjust_buffer_size(size); auto data_copy_or_error = data.try_copy_into_kstring(size); // FIXME: this seems ugly if (data_copy_or_error.is_error()) return data_copy_or_error.error(); auto data_copy = data_copy_or_error.release_value(); Plan9FS::Message message { fs(), Plan9FS::Message::Type::Twrite }; message << fid() << (u64)offset; message.append_data(data_copy->view()); result = fs().post_message_and_wait_for_a_reply(message); if (result.is_error()) return result.error(); u32 nwritten; message >> nwritten; return nwritten; } InodeMetadata Plan9FSInode::metadata() const { InodeMetadata metadata; metadata.inode = identifier(); // 9P2000.L; TODO: 9P2000 & 9P2000.u Plan9FS::Message message { fs(), Plan9FS::Message::Type::Tgetattr }; message << fid() << (u64)GetAttrMask::Basic; auto result = fs().post_message_and_wait_for_a_reply(message); if (result.is_error()) { // Just return blank metadata; hopefully that's enough to result in an // error at some upper layer. Ideally, there would be a way for // Inode::metadata() to return failure. return metadata; } u64 valid; Plan9FS::qid qid; u32 mode; u32 uid; u32 gid; u64 nlink; u64 rdev; u64 size; u64 blksize; u64 blocks; message >> valid >> qid >> mode >> uid >> gid >> nlink >> rdev >> size >> blksize >> blocks; // TODO: times... if (valid & (u64)GetAttrMask::Mode) metadata.mode = mode; if (valid & (u64)GetAttrMask::NLink) metadata.link_count = nlink; #if 0 // FIXME: Map UID/GID somehow? Or what do we do? if (valid & (u64)GetAttrMask::UID) metadata.uid = uid; if (valid & (u64)GetAttrMask::GID) metadata.uid = gid; // FIXME: What about device nodes? if (valid & (u64)GetAttrMask::RDev) metadata.encoded_device = 0; // TODO #endif if (valid & (u64)GetAttrMask::Size) metadata.size = size; if (valid & (u64)GetAttrMask::Blocks) { metadata.block_size = blksize; metadata.block_count = blocks; } return metadata; } void Plan9FSInode::flush_metadata() { // Do nothing. } KResult Plan9FSInode::traverse_as_directory(Function callback) const { KResult result = KSuccess; // TODO: Should we synthesize "." and ".." here? if (fs().m_remote_protocol_version >= Plan9FS::ProtocolVersion::v9P2000L) { // Start by cloning the fid and opening it. auto clone_fid = fs().allocate_fid(); { Plan9FS::Message clone_message { fs(), Plan9FS::Message::Type::Twalk }; clone_message << fid() << clone_fid << (u16)0; result = fs().post_message_and_wait_for_a_reply(clone_message); if (result.is_error()) return result; Plan9FS::Message open_message { fs(), Plan9FS::Message::Type::Tlopen }; open_message << clone_fid << (u32)0; result = fs().post_message_and_wait_for_a_reply(open_message); if (result.is_error()) { Plan9FS::Message close_message { fs(), Plan9FS::Message::Type::Tclunk }; close_message << clone_fid; // FIXME: Should we observe this error? [[maybe_unused]] auto rc = fs().post_message_and_explicitly_ignore_reply(close_message); return result; } } u64 offset = 0; u32 count = fs().adjust_buffer_size(8 * MiB); while (true) { Plan9FS::Message message { fs(), Plan9FS::Message::Type::Treaddir }; message << clone_fid << offset << count; result = fs().post_message_and_wait_for_a_reply(message); if (result.is_error()) break; StringView data = message.read_data(); if (data.is_empty()) { // We've reached the end. break; } for (Plan9FS::Message::Decoder decoder { data }; decoder.has_more_data();) { Plan9FS::qid qid; u8 type; StringView name; decoder >> qid >> offset >> type >> name; callback({ name, { fsid(), fs().allocate_fid() }, 0 }); } } Plan9FS::Message close_message { fs(), Plan9FS::Message::Type::Tclunk }; close_message << clone_fid; // FIXME: Should we observe this error? [[maybe_unused]] auto rc = fs().post_message_and_explicitly_ignore_reply(close_message); return result; } else { // TODO return ENOTIMPL; } } KResultOr> Plan9FSInode::lookup(StringView name) { u32 newfid = fs().allocate_fid(); Plan9FS::Message message { fs(), Plan9FS::Message::Type::Twalk }; message << fid() << newfid << (u16)1 << name; auto result = fs().post_message_and_wait_for_a_reply(message); if (result.is_error()) return result; return Plan9FSInode::create(fs(), newfid); } KResultOr> Plan9FSInode::create_child(StringView, mode_t, dev_t, UserID, GroupID) { // TODO return ENOTIMPL; } KResult Plan9FSInode::add_child(Inode&, const StringView&, mode_t) { // TODO return ENOTIMPL; } KResult Plan9FSInode::remove_child(const StringView&) { // TODO return ENOTIMPL; } KResult Plan9FSInode::chmod(mode_t) { // TODO return ENOTIMPL; } KResult Plan9FSInode::chown(UserID, GroupID) { // TODO return ENOTIMPL; } KResult Plan9FSInode::truncate(u64 new_size) { if (fs().m_remote_protocol_version >= Plan9FS::ProtocolVersion::v9P2000L) { Plan9FS::Message message { fs(), Plan9FS::Message::Type::Tsetattr }; SetAttrMask valid = SetAttrMask::Size; u32 mode = 0; u32 uid = 0; u32 gid = 0; u64 atime_sec = 0; u64 atime_nsec = 0; u64 mtime_sec = 0; u64 mtime_nsec = 0; message << fid() << (u64)valid << mode << uid << gid << new_size << atime_sec << atime_nsec << mtime_sec << mtime_nsec; return fs().post_message_and_wait_for_a_reply(message); } else { // TODO: wstat version return KSuccess; } } }