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ladybird/Kernel/FileSystem/Plan9FileSystem.cpp
Liav A 0fd7b688af Kernel: Introduce support for using FileSystem object in multiple mounts 
The idea is to enable mounting FileSystem objects across multiple mounts
in contrast to what happened until now - each mount has its own unique
FileSystem object being attached to it.

Considering a situation of mounting a block device at 2 different mount
points at in system, there were a couple of critical flaws due to how
the previous "design" worked:
1. BlockBasedFileSystem(s) that pointed to the same actual device had a
separate DiskCache object being attached to them. Because both instances
were not synchronized by any means, corruption of the filesystem is most
likely achieveable by a simple cache flush of either of the instances.
2. For superblock-oriented filesystems (such as the ext2 filesystem),
lack of synchronization between both instances can lead to severe
corruption in the superblock, which could render the entire filesystem
unusable.
3. Flags of a specific filesystem implementation (for example, with xfs
on Linux, one can instruct to mount it with the discard option) must be
honored across multiple mounts, to ensure expected behavior against a
particular filesystem.

This patch put the foundations to start fix the issues mentioned above.
However, there are still major issues to solve, so this is only a start.
2022-10-22 16:57:52 -04:00

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/*
* Copyright (c) 2020, Sergey Bugaev <bugaevc@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/FileSystem/Plan9FileSystem.h>
#include <Kernel/Process.h>
namespace Kernel {
ErrorOr<NonnullLockRefPtr<FileSystem>> Plan9FS::try_create(OpenFileDescription& file_description)
{
return TRY(adopt_nonnull_lock_ref_or_enomem(new (nothrow) Plan9FS(file_description)));
}
Plan9FS::Plan9FS(OpenFileDescription& file_description)
: FileBackedFileSystem(file_description)
, m_completion_blocker(*this)
{
}
ErrorOr<void> Plan9FS::prepare_to_clear_last_mount()
{
// FIXME: Do proper cleaning here.
return {};
}
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(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<typename N>
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<<(StringView);
void append_data(StringView);
template<typename T>
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<KBuffer>&&);
~Message();
Message& operator=(Message&&);
KBuffer const& build();
static constexpr size_t max_header_size = 24;
private:
template<typename N>
Message& append_number(N number)
{
VERIFY(!m_have_been_built);
// FIXME: Handle append failure.
(void)m_builder.append(reinterpret_cast<char const*>(&number), sizeof(number));
return *this;
}
union {
KBufferBuilder m_builder;
struct {
NonnullOwnPtr<KBuffer> buffer;
Decoder decoder;
} m_built;
};
u16 m_tag { 0 };
Type m_type { 0 };
bool m_have_been_built { false };
};
bool Plan9FS::is_initialized_while_locked()
{
VERIFY(m_lock.is_locked());
return !m_root_inode.is_null();
}
ErrorOr<void> Plan9FS::initialize_while_locked()
{
VERIFY(m_lock.is_locked());
VERIFY(!is_initialized_while_locked());
ensure_thread();
Message version_message { *this, Message::Type::Tversion };
version_message << (u32)m_max_message_size << "9P2000.L"sv;
TRY(post_message_and_wait_for_a_reply(version_message));
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"sv
<< "/"sv;
if (m_remote_protocol_version >= ProtocolVersion::v9P2000u)
attach_message << (u32)-1;
TRY(post_message_and_wait_for_a_reply(attach_message));
m_root_inode = TRY(Plan9FSInode::try_create(*this, root_fid));
return {};
}
Plan9FS::ProtocolVersion Plan9FS::parse_protocol_version(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<<(StringView string)
{
*this << static_cast<u16>(string.length());
// FIXME: Handle append failure.
(void)m_builder.append(string);
return *this;
}
void Plan9FS::Message::append_data(StringView data)
{
*this << static_cast<u32>(data.length());
// FIXME: Handle append failure.
(void)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(KBufferBuilder::try_create().release_value()) // FIXME: Don't assume KBufferBuilder allocation success.
, 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<KBuffer>&& buffer)
: m_built { move(buffer), Decoder({ buffer->bytes() }) }
, 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<KBuffer>();
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<KBuffer>();
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<KBuffer>(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;
}
KBuffer const& 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<KBuffer>(tmp_buffer.release_nonnull());
new (&m_built.decoder) Decoder({ m_built.buffer->data(), m_built.buffer->size() });
u32* size = reinterpret_cast<u32*>(m_built.buffer->data());
*size = m_built.buffer->size();
return *m_built.buffer;
}
Plan9FS::ReceiveCompletion::ReceiveCompletion(u16 tag)
: tag(tag)
{
}
Plan9FS::ReceiveCompletion::~ReceiveCompletion() = default;
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<Blocker&>(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<Blocker&>(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<Blocker&>(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(ReceiveCompletion const& 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;
}
ErrorOr<void> Plan9FS::post_message(Message& message, LockRefPtr<ReceiveCompletion> completion)
{
auto const& buffer = message.build();
u8 const* 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<Thread::WriteBlocker>({}, description, unblock_flags).was_interrupted())
return EINTR;
}
auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(const_cast<u8*>(data));
auto nwritten = TRY(description.write(data_buffer, size));
data += nwritten;
size -= nwritten;
}
return {};
}
ErrorOr<void> 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<Thread::ReadBlocker>({}, description, unblock_flags).was_interrupted())
return EINTR;
}
auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(data);
auto nread = TRY(description.read(data_buffer, size));
if (nread == 0)
return EIO;
data += nread;
size -= nread;
}
return {};
}
ErrorOr<void> Plan9FS::read_and_dispatch_one_message()
{
struct [[gnu::packed]] Header {
u32 size;
u8 type;
u16 tag;
};
Header header;
TRY(do_read(reinterpret_cast<u8*>(&header), sizeof(header)));
auto buffer = TRY(KBuffer::try_create_with_size("Plan9FS: Message read buffer"sv, header.size, Memory::Region::Access::ReadWrite));
// Copy the already read header into the buffer.
memcpy(buffer->data(), &header, sizeof(header));
TRY(do_read(buffer->data() + sizeof(header), header.size - sizeof(header)));
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 = {};
completion->message = adopt_own_if_nonnull(new (nothrow) Message { move(buffer) });
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 {};
}
ErrorOr<void> Plan9FS::post_message_and_explicitly_ignore_reply(Message& message)
{
return post_message(message, {});
}
ErrorOr<void> Plan9FS::post_message_and_wait_for_a_reply(Message& message)
{
auto request_type = message.type();
auto tag = message.tag();
auto completion = adopt_lock_ref(*new ReceiveCompletion(tag));
TRY(post_message(message, completion));
if (Thread::current()->block<Plan9FS::Blocker>({}, *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 Error::from_errno((ErrnoCode)error_code);
}
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;
}
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;
}
return {};
}
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)) {
auto process_name = KString::try_create("Plan9FS"sv);
if (process_name.is_error())
TODO();
(void)Process::create_kernel_process(m_thread, process_name.release_value(), [&]() {
thread_main();
m_thread_running.store(false, AK::MemoryOrder::memory_order_release);
});
}
}
Plan9FSInode::Plan9FSInode(Plan9FS& fs, u32 fid)
: Inode(fs, fid)
{
}
ErrorOr<NonnullLockRefPtr<Plan9FSInode>> Plan9FSInode::try_create(Plan9FS& fs, u32 fid)
{
return adopt_nonnull_lock_ref_or_enomem(new (nothrow) 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);
}
ErrorOr<void> 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 {};
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);
}
Plan9FS::Message message { fs(), Plan9FS::Message::Type::Topen };
message << fid() << p9_mode;
return fs().post_message_and_wait_for_a_reply(message);
}
ErrorOr<size_t> Plan9FSInode::read_bytes_locked(off_t offset, size_t size, UserOrKernelBuffer& buffer, OpenFileDescription*) const
{
TRY(const_cast<Plan9FSInode&>(*this).ensure_open_for_mode(O_RDONLY));
size = fs().adjust_buffer_size(size);
Plan9FS::Message message { fs(), Plan9FS::Message::Type::Treadlink };
StringView data;
// Try readlink first.
bool readlink_succeeded = false;
if (fs().m_remote_protocol_version >= Plan9FS::ProtocolVersion::v9P2000L && offset == 0) {
message << fid();
if (auto result = fs().post_message_and_wait_for_a_reply(message); !result.is_error()) {
readlink_succeeded = true;
message >> data;
}
}
if (!readlink_succeeded) {
message = Plan9FS::Message { fs(), Plan9FS::Message::Type::Tread };
message << fid() << (u64)offset << (u32)size;
TRY(fs().post_message_and_wait_for_a_reply(message));
data = message.read_data();
}
// Guard against the server returning more data than requested.
size_t nread = min(data.length(), size);
TRY(buffer.write(data.characters_without_null_termination(), nread));
return nread;
}
ErrorOr<size_t> Plan9FSInode::write_bytes_locked(off_t offset, size_t size, UserOrKernelBuffer const& data, OpenFileDescription*)
{
TRY(ensure_open_for_mode(O_WRONLY));
size = fs().adjust_buffer_size(size);
auto data_copy = TRY(data.try_copy_into_kstring(size)); // FIXME: this seems ugly
Plan9FS::Message message { fs(), Plan9FS::Message::Type::Twrite };
message << fid() << (u64)offset;
message.append_data(data_copy->view());
TRY(fs().post_message_and_wait_for_a_reply(message));
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;
}
ErrorOr<void> Plan9FSInode::flush_metadata()
{
// Do nothing.
return {};
}
ErrorOr<void> Plan9FSInode::traverse_as_directory(Function<ErrorOr<void>(FileSystem::DirectoryEntryView const&)> callback) const
{
// 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;
TRY(fs().post_message_and_wait_for_a_reply(clone_message));
Plan9FS::Message open_message { fs(), Plan9FS::Message::Type::Tlopen };
open_message << clone_fid << (u32)0;
auto 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);
ErrorOr<void> result;
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;
result = callback({ name, { fsid(), fs().allocate_fid() }, 0 });
if (result.is_error())
break;
}
if (result.is_error())
break;
}
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;
}
// TODO
return ENOTIMPL;
}
ErrorOr<NonnullLockRefPtr<Inode>> Plan9FSInode::lookup(StringView name)
{
u32 newfid = fs().allocate_fid();
Plan9FS::Message message { fs(), Plan9FS::Message::Type::Twalk };
message << fid() << newfid << (u16)1 << name;
TRY(fs().post_message_and_wait_for_a_reply(message));
return TRY(Plan9FSInode::try_create(fs(), newfid));
}
ErrorOr<NonnullLockRefPtr<Inode>> Plan9FSInode::create_child(StringView, mode_t, dev_t, UserID, GroupID)
{
// TODO
return ENOTIMPL;
}
ErrorOr<void> Plan9FSInode::add_child(Inode&, StringView, mode_t)
{
// TODO
return ENOTIMPL;
}
ErrorOr<void> Plan9FSInode::remove_child(StringView)
{
// TODO
return ENOTIMPL;
}
ErrorOr<void> Plan9FSInode::chmod(mode_t)
{
// TODO
return ENOTIMPL;
}
ErrorOr<void> Plan9FSInode::chown(UserID, GroupID)
{
// TODO
return ENOTIMPL;
}
ErrorOr<void> 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);
}
// TODO: wstat version
return {};
}
}
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