ladybird/Libraries/LibWasm/WASI/Wasi.cpp
Pavel Shliak 35764db0b7 LibWasm: Clean up #include directives
This change aims to improve the speed of incremental builds.
2024-11-21 14:08:33 +01:00

1294 lines
44 KiB
C++

/*
* Copyright (c) 2023, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ByteReader.h>
#include <AK/Debug.h>
#include <AK/FlyString.h>
#include <AK/Random.h>
#include <AK/Span.h>
#include <AK/Tuple.h>
#include <LibWasm/AbstractMachine/Configuration.h>
#include <LibWasm/Wasi.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <time.h>
#include <unistd.h>
namespace Wasm::Wasi::ABI {
template<typename T>
Wasm::Value CompatibleValue<T>::to_wasm_value() const
{
return Wasm::Value(value);
}
template<typename T>
T deserialize(CompatibleValue<T> const& data)
{
return deserialize<T>(Array { ReadonlyBytes { &data.value, sizeof(data.value) } });
}
template<typename T, size_t N>
void serialize(T const& value, Array<Bytes, N> bytes)
{
if constexpr (IsEnum<T>)
return serialize(to_underlying(value), move(bytes));
else if constexpr (IsIntegral<T>)
ReadonlyBytes { &value, sizeof(value) }.copy_to(bytes[0]);
else if constexpr (IsSpecializationOf<T, DistinctNumeric>)
return serialize(value.value(), move(bytes));
else
return value.serialize_into(move(bytes));
}
template<typename T, size_t N>
T deserialize(Array<ReadonlyBytes, N> const& bytes)
{
if constexpr (IsEnum<T>) {
return static_cast<T>(deserialize<UnderlyingType<T>>(bytes));
} else if constexpr (IsIntegral<T>) {
T value;
ByteReader::load(bytes[0].data(), value);
return value;
} else if constexpr (IsSpecializationOf<T, DistinctNumeric>) {
return deserialize<RemoveCVReference<decltype(T(0).value())>>(bytes);
} else {
return T::read_from(bytes);
}
}
template<typename T>
CompatibleValue<T> to_compatible_value(Wasm::Value const& value)
{
using Type = typename ToCompatibleValue<T>::Type;
// Note: the type can't be something else, we've already checked before through the function type's runtime checker.
auto converted_value = value.template to<Type>();
return { .value = converted_value };
}
}
namespace Wasm::Wasi {
void ArgsSizes::serialize_into(Array<Bytes, 2> bytes) const
{
ABI::serialize(count, Array { bytes[0] });
ABI::serialize(size, Array { bytes[1] });
}
void EnvironSizes::serialize_into(Array<Bytes, 2> bytes) const
{
ABI::serialize(count, Array { bytes[0] });
ABI::serialize(size, Array { bytes[1] });
}
void SockRecvResult::serialize_into(Array<Bytes, 2> bytes) const
{
ABI::serialize(size, Array { bytes[0] });
ABI::serialize(roflags, Array { bytes[1] });
}
void ROFlags::serialize_into(Array<Bytes, 1> bytes) const
{
ABI::serialize(data, Array { bytes[0] });
}
template<typename T>
void LittleEndian<T>::serialize_into(Array<Bytes, 1> bytes) const
{
ABI::serialize(m_value, move(bytes));
}
template<typename T>
LittleEndian<T> LittleEndian<T>::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
auto swapped = ABI::deserialize<T>(bytes);
return bit_cast<LittleEndian<T>>(swapped);
}
Rights Rights::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
Rights rights { .data = 0 };
bytes[0].copy_to(rights.data.bytes());
return rights;
}
void Rights::serialize_into(Array<Bytes, 1> bytes) const
{
data.bytes().copy_to(bytes[0]);
}
void FDFlags::serialize_into(Array<Bytes, 1> bytes) const
{
ReadonlyBytes { &data, sizeof(data) }.copy_to(bytes[0]);
}
FDFlags FDFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
FDFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
FSTFlags FSTFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
FSTFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
OFlags OFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
OFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
SDFlags SDFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
SDFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
void FDStat::serialize_into(Array<Bytes, 1> bytes) const
{
auto data = bytes[0];
ABI::serialize(fs_filetype, Array { data.slice(offsetof(FDStat, fs_filetype), sizeof(fs_filetype)) });
ABI::serialize(fs_flags, Array { data.slice(offsetof(FDStat, fs_flags), sizeof(fs_flags)) });
ABI::serialize(fs_rights_base, Array { data.slice(offsetof(FDStat, fs_rights_base), sizeof(fs_rights_base)) });
ABI::serialize(fs_rights_inheriting, Array { data.slice(offsetof(FDStat, fs_rights_inheriting), sizeof(fs_rights_inheriting)) });
}
void PreStat::serialize_into(Array<Bytes, 1> bytes) const
{
auto data = bytes[0];
ABI::serialize(type, Array { data.slice(0, sizeof(type)) });
if (type == PreOpenType::Dir)
ABI::serialize(dir, Array { data.slice(offsetof(PreStat, dir), sizeof(dir)) });
else
VERIFY_NOT_REACHED();
}
void PreStatDir::serialize_into(Array<Bytes, 1> bytes) const
{
ABI::serialize(pr_name_len, move(bytes));
}
void FileStat::serialize_into(Array<Bytes, 1> bytes) const
{
auto data = bytes[0];
ABI::serialize(dev, Array { data.slice(0, sizeof(dev)) });
ABI::serialize(ino, Array { data.slice(offsetof(FileStat, ino), sizeof(ino)) });
ABI::serialize(filetype, Array { data.slice(offsetof(FileStat, filetype), sizeof(filetype)) });
ABI::serialize(nlink, Array { data.slice(offsetof(FileStat, nlink), sizeof(nlink)) });
ABI::serialize(size, Array { data.slice(offsetof(FileStat, size), sizeof(size)) });
ABI::serialize(atim, Array { data.slice(offsetof(FileStat, atim), sizeof(atim)) });
ABI::serialize(mtim, Array { data.slice(offsetof(FileStat, mtim), sizeof(mtim)) });
ABI::serialize(ctim, Array { data.slice(offsetof(FileStat, ctim), sizeof(ctim)) });
}
RIFlags RIFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
RIFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
LookupFlags LookupFlags::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
LookupFlags flags { .data = 0 };
bytes[0].copy_to(flags.data.bytes());
return flags;
}
CIOVec CIOVec::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
return CIOVec {
.buf = ABI::deserialize<decltype(buf)>(Array { bytes[0].slice(offsetof(CIOVec, buf), sizeof(buf)) }),
.buf_len = ABI::deserialize<decltype(buf_len)>(Array { bytes[0].slice(offsetof(CIOVec, buf_len), sizeof(buf_len)) }),
};
}
IOVec IOVec::read_from(Array<ReadonlyBytes, 1> const& bytes)
{
return IOVec {
.buf = ABI::deserialize<decltype(buf)>(Array { bytes[0].slice(offsetof(IOVec, buf), sizeof(buf)) }),
.buf_len = ABI::deserialize<decltype(buf_len)>(Array { bytes[0].slice(offsetof(IOVec, buf_len), sizeof(buf_len)) }),
};
}
template<typename T>
ErrorOr<Vector<T>> copy_typed_array(Configuration& configuration, Pointer<T> source, Size count)
{
Vector<T> values;
TRY(values.try_ensure_capacity(count));
auto* memory = configuration.store().get(MemoryAddress { 0 });
if (!memory)
return Error::from_errno(ENOMEM);
UnderlyingPointerType address = source.value();
auto size = sizeof(T);
if (memory->size() < address || memory->size() <= address + (size * count)) {
return Error::from_errno(ENOBUFS);
}
for (Size i = 0; i < count; i += 1) {
values.unchecked_append(T::read_from(Array { ReadonlyBytes { memory->data().bytes().slice(address, size) } }));
address += size;
}
return values;
}
template<typename T>
ErrorOr<void> copy_typed_value_to(Configuration& configuration, T const& value, Pointer<T> destination)
{
auto* memory = configuration.store().get(MemoryAddress { 0 });
if (!memory)
return Error::from_errno(ENOMEM);
UnderlyingPointerType address = destination.value();
auto size = sizeof(T);
if (memory->size() < address || memory->size() <= address + size) {
return Error::from_errno(ENOBUFS);
}
ABI::serialize(value, Array { Bytes { memory->data().bytes().slice(address, size) } });
return {};
}
template<typename T>
ErrorOr<Span<T>> slice_typed_memory(Configuration& configuration, Pointer<T> source, Size count)
{
auto* memory = configuration.store().get(MemoryAddress { 0 });
if (!memory)
return Error::from_errno(ENOMEM);
auto address = source.value();
auto size = sizeof(T);
if (memory->size() < address || memory->size() <= address + (size * count))
return Error::from_errno(ENOBUFS);
auto untyped_slice = memory->data().bytes().slice(address, size * count);
return Span<T>(untyped_slice.data(), count);
}
template<typename T>
ErrorOr<Span<T const>> slice_typed_memory(Configuration& configuration, ConstPointer<T> source, Size count)
{
auto* memory = configuration.store().get(MemoryAddress { 0 });
if (!memory)
return Error::from_errno(ENOMEM);
auto address = source.value();
auto size = sizeof(T);
if (memory->size() < address || memory->size() <= address + (size * count))
return Error::from_errno(ENOBUFS);
auto untyped_slice = memory->data().bytes().slice(address, size * count);
return Span<T const>(untyped_slice.data(), count);
}
static ErrorOr<size_t> copy_string_including_terminating_null(Configuration& configuration, StringView string, Pointer<u8> target)
{
auto slice = TRY(slice_typed_memory(configuration, target, string.bytes().size() + 1));
string.bytes().copy_to(slice);
slice[string.bytes().size()] = 0;
return slice.size();
}
static ErrorOr<size_t> copy_string_excluding_terminating_null(Configuration& configuration, StringView string, Pointer<u8> target, Size target_length)
{
auto byte_count = min(string.bytes().size(), target_length);
auto slice = TRY(slice_typed_memory(configuration, target, byte_count));
string.bytes().copy_trimmed_to(slice);
return byte_count;
}
static Errno errno_value_from_errno(int value);
static FileType file_type_of(struct stat const& buf);
static FDFlags fd_flags_of(struct stat const& buf);
Vector<AK::String> const& Implementation::arguments() const
{
if (!cache.cached_arguments.has_value()) {
cache.cached_arguments.lazy_emplace([&] {
if (provide_arguments)
return provide_arguments();
return Vector<AK::String> {};
});
}
return *cache.cached_arguments;
}
Vector<AK::String> const& Implementation::environment() const
{
if (!cache.cached_environment.has_value()) {
cache.cached_environment.lazy_emplace([&] {
if (provide_environment)
return provide_environment();
return Vector<AK::String> {};
});
}
return *cache.cached_environment;
}
Vector<Implementation::MappedPath> const& Implementation::preopened_directories() const
{
if (!cache.cached_preopened_directories.has_value()) {
cache.cached_preopened_directories.lazy_emplace([&] {
if (provide_preopened_directories)
return provide_preopened_directories();
return Vector<MappedPath> {};
});
}
return *cache.cached_preopened_directories;
}
Implementation::Descriptor Implementation::map_fd(FD fd)
{
u32 fd_value = fd.value();
if (auto* value = m_fd_map.find(fd_value))
return value->downcast<Descriptor>();
return UnmappedDescriptor(fd_value);
}
ErrorOr<Result<void>> Implementation::impl$args_get(Configuration& configuration, Pointer<Pointer<u8>> argv, Pointer<u8> argv_buf)
{
UnderlyingPointerType raw_argv_buffer = argv_buf.value();
UnderlyingPointerType raw_argv = argv.value();
for (auto& entry : arguments()) {
auto ptr = Pointer<u8> { raw_argv_buffer };
auto byte_count = TRY(copy_string_including_terminating_null(configuration, entry.bytes_as_string_view(), ptr));
raw_argv_buffer += byte_count;
TRY(copy_typed_value_to(configuration, ptr, Pointer<Pointer<u8>> { raw_argv }));
raw_argv += sizeof(ptr);
}
return Result<void> {};
}
ErrorOr<Result<ArgsSizes>> Implementation::impl$args_sizes_get(Configuration&)
{
size_t count = 0;
size_t total_size = 0;
for (auto& entry : arguments()) {
count += 1;
total_size += entry.bytes().size() + 1; // 1 extra byte for terminating null.
}
return Result<ArgsSizes>(ArgsSizes {
count,
total_size,
});
}
ErrorOr<Result<void>> Implementation::impl$environ_get(Configuration& configuration, Pointer<Pointer<u8>> environ, Pointer<u8> environ_buf)
{
UnderlyingPointerType raw_environ_buffer = environ_buf.value();
UnderlyingPointerType raw_environ = environ.value();
for (auto& entry : environment()) {
auto ptr = Pointer<u8> { raw_environ_buffer };
auto byte_count = TRY(copy_string_including_terminating_null(configuration, entry.bytes_as_string_view(), ptr));
raw_environ_buffer += byte_count;
TRY(copy_typed_value_to(configuration, ptr, Pointer<Pointer<u8>> { raw_environ }));
raw_environ += sizeof(ptr);
}
return Result<void> {};
}
ErrorOr<Result<EnvironSizes>> Implementation::impl$environ_sizes_get(Configuration&)
{
size_t count = 0;
size_t total_size = 0;
for (auto& entry : environment()) {
count += 1;
total_size += entry.bytes().size() + 1; // 1 extra byte for terminating null.
}
return Result<EnvironSizes>(EnvironSizes {
count,
total_size,
});
}
ErrorOr<void> Implementation::impl$proc_exit(Configuration&, ExitCode exit_code)
{
return Error::from_errno(-static_cast<i32>(exit_code + 1));
}
ErrorOr<Result<void>> Implementation::impl$fd_close(Configuration&, FD fd)
{
return map_fd(fd).visit(
[&](u32 fd) -> Result<void> {
if (close(bit_cast<i32>(fd)) != 0)
return errno_value_from_errno(errno);
return {};
},
[&](PreopenedDirectoryDescriptor) -> Result<void> {
return errno_value_from_errno(EISDIR);
},
[&](UnmappedDescriptor) -> Result<void> {
return errno_value_from_errno(EBADF);
});
}
ErrorOr<Result<Size>> Implementation::impl$fd_write(Configuration& configuration, FD fd, Pointer<CIOVec> iovs, Size iovs_len)
{
auto mapped_fd = map_fd(fd);
if (!mapped_fd.has<u32>())
return errno_value_from_errno(EBADF);
u32 fd_value = mapped_fd.get<u32>();
Size bytes_written = 0;
for (auto& iovec : TRY(copy_typed_array(configuration, iovs, iovs_len))) {
auto slice = TRY(slice_typed_memory(configuration, iovec.buf, iovec.buf_len));
auto result = write(fd_value, slice.data(), slice.size());
if (result < 0)
return errno_value_from_errno(errno);
bytes_written += static_cast<Size>(result);
}
return bytes_written;
}
ErrorOr<Result<PreStat>> Implementation::impl$fd_prestat_get(Configuration&, FD fd)
{
auto& paths = preopened_directories();
return map_fd(fd).visit(
[&](UnmappedDescriptor unmapped_fd) -> Result<PreStat> {
// Map the new fd to the next available directory.
if (m_first_unmapped_preopened_directory_index >= paths.size())
return errno_value_from_errno(EBADF);
auto index = m_first_unmapped_preopened_directory_index++;
m_fd_map.insert(unmapped_fd.value(), PreopenedDirectoryDescriptor(index));
return PreStat {
.type = PreOpenType::Dir,
.dir = PreStatDir {
.pr_name_len = paths[index].mapped_path.string().bytes().size(),
},
};
},
[&](u32) -> Result<PreStat> {
return errno_value_from_errno(EBADF);
},
[&](PreopenedDirectoryDescriptor fd) -> Result<PreStat> {
return PreStat {
.type = PreOpenType::Dir,
.dir = PreStatDir {
.pr_name_len = paths[fd.value()].mapped_path.string().bytes().size(),
},
};
});
}
ErrorOr<Result<void>> Implementation::impl$fd_prestat_dir_name(Configuration& configuration, FD fd, Pointer<u8> path, Size path_len)
{
auto mapped_fd = map_fd(fd);
if (!mapped_fd.has<PreopenedDirectoryDescriptor>())
return errno_value_from_errno(EBADF);
auto& entry = preopened_directories()[mapped_fd.get<PreopenedDirectoryDescriptor>().value()];
auto byte_count = TRY(copy_string_excluding_terminating_null(configuration, entry.mapped_path.string().view(), path, path_len));
if (byte_count < path_len.value())
return errno_value_from_errno(ENOBUFS);
return Result<void> {};
}
ErrorOr<Result<FileStat>> Implementation::impl$path_filestat_get(Configuration& configuration, FD fd, LookupFlags flags, ConstPointer<u8> path, Size path_len)
{
auto dir_fd = AT_FDCWD;
auto mapped_fd = map_fd(fd);
mapped_fd.visit(
[&](PreopenedDirectoryDescriptor descriptor) {
auto& entry = preopened_directories()[descriptor.value()];
dir_fd = entry.opened_fd.value_or_lazy_evaluated([&] {
ByteString path = entry.host_path.string();
return open(path.characters(), O_DIRECTORY, 0);
});
entry.opened_fd = dir_fd;
},
[&](u32 fd) {
dir_fd = fd;
},
[](UnmappedDescriptor) {});
if (dir_fd < 0 && dir_fd != AT_FDCWD)
return errno_value_from_errno(errno);
int options = 0;
if (!flags.bits.symlink_follow)
options |= AT_SYMLINK_NOFOLLOW;
auto slice = TRY(slice_typed_memory(configuration, path, path_len));
auto null_terminated_string = ByteString::copy(slice);
struct stat stat_buf;
if (fstatat(dir_fd, null_terminated_string.characters(), &stat_buf, options) < 0)
return errno_value_from_errno(errno);
constexpr auto file_type_of = [](struct stat const& buf) {
if (S_ISDIR(buf.st_mode))
return FileType::Directory;
if (S_ISCHR(buf.st_mode))
return FileType::CharacterDevice;
if (S_ISBLK(buf.st_mode))
return FileType::BlockDevice;
if (S_ISREG(buf.st_mode))
return FileType::RegularFile;
if (S_ISFIFO(buf.st_mode))
return FileType::Unknown; // FIXME: FileType::Pipe is currently not present in WASI (but it should be) so we use Unknown for now.
if (S_ISLNK(buf.st_mode))
return FileType::SymbolicLink;
if (S_ISSOCK(buf.st_mode))
return FileType::SocketStream;
return FileType::Unknown;
};
return Result(FileStat {
.dev = stat_buf.st_dev,
.ino = stat_buf.st_ino,
.filetype = file_type_of(stat_buf),
.nlink = stat_buf.st_nlink,
.size = stat_buf.st_size,
.atim = stat_buf.st_atime,
.mtim = stat_buf.st_mtime,
.ctim = stat_buf.st_ctime,
});
}
ErrorOr<Result<void>> Implementation::impl$path_create_directory(Configuration& configuration, FD fd, Pointer<u8> path, Size path_len)
{
auto dir_fd = AT_FDCWD;
auto mapped_fd = map_fd(fd);
mapped_fd.visit(
[&](PreopenedDirectoryDescriptor descriptor) {
auto& entry = preopened_directories()[descriptor.value()];
dir_fd = entry.opened_fd.value_or_lazy_evaluated([&] {
ByteString path = entry.host_path.string();
return open(path.characters(), O_DIRECTORY, 0);
});
entry.opened_fd = dir_fd;
},
[&](u32 fd) {
dir_fd = fd;
},
[](UnmappedDescriptor) {});
if (dir_fd < 0 && dir_fd != AT_FDCWD)
return errno_value_from_errno(errno);
auto slice = TRY(slice_typed_memory(configuration, path, path_len));
auto null_terminated_string = ByteString::copy(slice);
if (mkdirat(dir_fd, null_terminated_string.characters(), 0755) < 0)
return errno_value_from_errno(errno);
return Result<void> {};
}
ErrorOr<Result<FD>> Implementation::impl$path_open(Configuration& configuration, FD fd, LookupFlags lookup_flags, Pointer<u8> path, Size path_len, OFlags o_flags, Rights, Rights, FDFlags fd_flags)
{
auto dir_fd = AT_FDCWD;
auto mapped_fd = map_fd(fd);
mapped_fd.visit(
[&](PreopenedDirectoryDescriptor descriptor) {
auto& entry = preopened_directories()[descriptor.value()];
dir_fd = entry.opened_fd.value_or_lazy_evaluated([&] {
ByteString path = entry.host_path.string();
return open(path.characters(), O_DIRECTORY, 0);
});
entry.opened_fd = dir_fd;
},
[&](u32 fd) {
dir_fd = fd;
},
[](UnmappedDescriptor) {});
if (dir_fd < 0 && dir_fd != AT_FDCWD)
return errno_value_from_errno(errno);
// FIXME: What should we do with dsync/rsync?
int open_flags = 0;
if (fd_flags.bits.append)
open_flags |= O_APPEND;
if (fd_flags.bits.nonblock)
open_flags |= O_NONBLOCK;
if (fd_flags.bits.sync)
open_flags |= O_SYNC;
if (o_flags.bits.trunc)
open_flags |= O_TRUNC;
if (o_flags.bits.creat)
open_flags |= O_CREAT;
if (o_flags.bits.directory)
open_flags |= O_DIRECTORY;
if (o_flags.bits.excl)
open_flags |= O_EXCL;
if (!lookup_flags.bits.symlink_follow)
open_flags |= O_NOFOLLOW;
auto path_data = TRY(slice_typed_memory(configuration, path, path_len));
auto path_string = ByteString::copy(path_data);
dbgln_if(WASI_FINE_GRAINED_DEBUG, "path_open: dir_fd={}, path={}, open_flags={}", dir_fd, path_string, open_flags);
int opened_fd = openat(dir_fd, path_string.characters(), open_flags, 0644);
if (opened_fd < 0)
return errno_value_from_errno(errno);
// FIXME: Implement Rights and RightsInheriting.
m_fd_map.insert(opened_fd, static_cast<u32>(opened_fd));
return FD(opened_fd);
}
ErrorOr<Result<Timestamp>> Implementation::impl$clock_time_get(Configuration&, ClockID id, Timestamp precision)
{
constexpr u64 nanoseconds_in_millisecond = 1000'000ull;
constexpr u64 nanoseconds_in_second = 1000'000'000ull;
clockid_t clock_id;
switch (id) {
case ClockID::Realtime:
if (precision >= nanoseconds_in_millisecond)
clock_id = CLOCK_REALTIME_COARSE;
else
clock_id = CLOCK_REALTIME;
break;
case ClockID::Monotonic:
if (precision >= nanoseconds_in_millisecond)
clock_id = CLOCK_MONOTONIC_COARSE;
else
clock_id = CLOCK_MONOTONIC;
break;
case ClockID::ProcessCPUTimeID:
case ClockID::ThreadCPUTimeID:
return Errno::NoSys;
break;
}
struct timespec ts;
if (clock_gettime(clock_id, &ts) < 0)
return errno_value_from_errno(errno);
return Result<Timestamp> { static_cast<u64>(ts.tv_sec) * nanoseconds_in_second + static_cast<u64>(ts.tv_nsec) };
}
ErrorOr<Result<FileStat>> Implementation::impl$fd_filestat_get(Configuration&, FD fd)
{
int resolved_fd = -1;
auto mapped_fd = map_fd(fd);
mapped_fd.visit(
[&](PreopenedDirectoryDescriptor descriptor) {
auto& entry = preopened_directories()[descriptor.value()];
resolved_fd = entry.opened_fd.value_or_lazy_evaluated([&] {
ByteString path = entry.host_path.string();
return open(path.characters(), O_DIRECTORY, 0);
});
entry.opened_fd = resolved_fd;
},
[&](u32 fd) {
resolved_fd = fd;
},
[](UnmappedDescriptor) {});
if (resolved_fd < 0)
return errno_value_from_errno(errno);
struct stat stat_buf;
if (fstat(resolved_fd, &stat_buf) < 0)
return errno_value_from_errno(errno);
constexpr auto file_type_of = [](struct stat const& buf) {
if (S_ISDIR(buf.st_mode))
return FileType::Directory;
if (S_ISCHR(buf.st_mode))
return FileType::CharacterDevice;
if (S_ISBLK(buf.st_mode))
return FileType::BlockDevice;
if (S_ISREG(buf.st_mode))
return FileType::RegularFile;
if (S_ISFIFO(buf.st_mode))
return FileType::Unknown; // no Pipe? :yakfused:
if (S_ISLNK(buf.st_mode))
return FileType::SymbolicLink;
if (S_ISSOCK(buf.st_mode))
return FileType::SocketDGram; // :shrug:
return FileType::Unknown;
};
return Result(FileStat {
.dev = stat_buf.st_dev,
.ino = stat_buf.st_ino,
.filetype = file_type_of(stat_buf),
.nlink = stat_buf.st_nlink,
.size = stat_buf.st_size,
.atim = stat_buf.st_atime,
.mtim = stat_buf.st_mtime,
.ctim = stat_buf.st_ctime,
});
}
ErrorOr<Result<void>> Implementation::impl$random_get(Configuration& configuration, Pointer<u8> buf, Size buf_len)
{
auto buffer_slice = TRY(slice_typed_memory(configuration, buf, buf_len));
fill_with_random(buffer_slice);
return Result<void> {};
}
ErrorOr<Result<Size>> Implementation::impl$fd_read(Configuration& configuration, FD fd, Pointer<IOVec> iovs, Size iovs_len)
{
auto mapped_fd = map_fd(fd);
if (!mapped_fd.has<u32>())
return errno_value_from_errno(EBADF);
u32 fd_value = mapped_fd.get<u32>();
Size bytes_read = 0;
for (auto& iovec : TRY(copy_typed_array(configuration, iovs, iovs_len))) {
auto slice = TRY(slice_typed_memory(configuration, iovec.buf, iovec.buf_len));
auto result = read(fd_value, slice.data(), slice.size());
if (result < 0)
return errno_value_from_errno(errno);
bytes_read += static_cast<Size>(result);
}
return bytes_read;
}
ErrorOr<Result<FDStat>> Implementation::impl$fd_fdstat_get(Configuration&, FD fd)
{
auto mapped_fd = map_fd(fd);
auto resolved_fd = -1;
mapped_fd.visit(
[&](PreopenedDirectoryDescriptor descriptor) {
auto& entry = preopened_directories()[descriptor.value()];
resolved_fd = entry.opened_fd.value_or_lazy_evaluated([&] {
ByteString path = entry.host_path.string();
return open(path.characters(), O_DIRECTORY, 0);
});
entry.opened_fd = resolved_fd;
},
[&](u32 fd) {
resolved_fd = fd;
},
[](UnmappedDescriptor) {});
if (resolved_fd < 0)
return errno_value_from_errno(errno);
struct stat stat_buf;
if (fstat(resolved_fd, &stat_buf) < 0)
return errno_value_from_errno(errno);
return FDStat {
.fs_filetype = file_type_of(stat_buf),
.fs_flags = fd_flags_of(stat_buf),
.fs_rights_base = Rights { .data = 0 },
.fs_rights_inheriting = Rights { .data = 0 },
};
}
ErrorOr<Result<FileSize>> Implementation::impl$fd_seek(Configuration&, FD fd, FileDelta offset, Whence whence)
{
auto mapped_fd = map_fd(fd);
if (!mapped_fd.has<u32>())
return errno_value_from_errno(EBADF);
u32 fd_value = mapped_fd.get<u32>();
auto result = lseek(fd_value, offset, static_cast<int>(whence));
if (result < 0)
return errno_value_from_errno(errno);
return FileSize(result);
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
ErrorOr<Result<Timestamp>> Implementation::impl$clock_res_get(Configuration&, ClockID id)
{
return Errno::NoSys;
}
ErrorOr<Result<void>> Implementation::impl$fd_advise(Configuration&, FD, FileSize offset, FileSize len, Advice) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_allocate(Configuration&, FD, FileSize offset, FileSize len) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_datasync(Configuration&, FD) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_fdstat_set_flags(Configuration&, FD, FDFlags) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_fdstat_set_rights(Configuration&, FD, Rights fs_rights_base, Rights fs_rights_inheriting) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_filestat_set_size(Configuration&, FD, FileSize) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_filestat_set_times(Configuration&, FD, Timestamp atim, Timestamp mtim, FSTFlags) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$fd_pread(Configuration&, FD, Pointer<IOVec> iovs, Size iovs_len, FileSize offset) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$fd_pwrite(Configuration&, FD, Pointer<CIOVec> iovs, Size iovs_len, FileSize offset) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$fd_readdir(Configuration&, FD, Pointer<u8> buf, Size buf_len, DirCookie cookie) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_renumber(Configuration&, FD from, FD to) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$fd_sync(Configuration&, FD) { return Errno::NoSys; }
ErrorOr<Result<FileSize>> Implementation::impl$fd_tell(Configuration&, FD) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_filestat_set_times(Configuration&, FD, LookupFlags, Pointer<u8> path, Size path_len, Timestamp atim, Timestamp mtim, FSTFlags) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_link(Configuration&, FD, LookupFlags, Pointer<u8> old_path, Size old_path_len, FD, Pointer<u8> new_path, Size new_path_len) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$path_readlink(Configuration&, FD, LookupFlags, Pointer<u8> path, Size path_len, Pointer<u8> buf, Size buf_len) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_remove_directory(Configuration&, FD, Pointer<u8> path, Size path_len) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_rename(Configuration&, FD, Pointer<u8> old_path, Size old_path_len, FD, Pointer<u8> new_path, Size new_path_len) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_symlink(Configuration&, Pointer<u8> old_path, Size old_path_len, FD, Pointer<u8> new_path, Size new_path_len) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$path_unlink_file(Configuration&, FD, Pointer<u8> path, Size path_len) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$poll_oneoff(Configuration&, ConstPointer<Subscription> in, Pointer<Event> out, Size nsubscriptions) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$proc_raise(Configuration&, Signal) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$sched_yield(Configuration&) { return Errno::NoSys; }
ErrorOr<Result<FD>> Implementation::impl$sock_accept(Configuration&, FD fd, FDFlags fd_flags) { return Errno::NoSys; }
ErrorOr<Result<SockRecvResult>> Implementation::impl$sock_recv(Configuration&, FD fd, Pointer<IOVec> ri_data, Size ri_data_len, RIFlags ri_flags) { return Errno::NoSys; }
ErrorOr<Result<Size>> Implementation::impl$sock_send(Configuration&, FD fd, Pointer<CIOVec> si_data, Size si_data_len, SIFlags si_flags) { return Errno::NoSys; }
ErrorOr<Result<void>> Implementation::impl$sock_shutdown(Configuration&, FD fd, SDFlags how) { return Errno::NoSys; }
#pragma GCC diagnostic pop
template<size_t N>
static Array<Bytes, N> address_spans(Span<Value> values, Configuration& configuration)
{
Array<Bytes, N> result;
auto memory = configuration.store().get(MemoryAddress { 0 })->data().span();
for (size_t i = 0; i < N; ++i)
result[i] = memory.slice(values[i].to<i32>());
return result;
}
#define ENUMERATE_FUNCTION_NAMES(M) \
M(args_get) \
M(args_sizes_get) \
M(environ_get) \
M(environ_sizes_get) \
M(clock_res_get) \
M(clock_time_get) \
M(fd_advise) \
M(fd_allocate) \
M(fd_close) \
M(fd_datasync) \
M(fd_fdstat_get) \
M(fd_fdstat_set_flags) \
M(fd_fdstat_set_rights) \
M(fd_filestat_get) \
M(fd_filestat_set_size) \
M(fd_filestat_set_times) \
M(fd_pread) \
M(fd_prestat_get) \
M(fd_prestat_dir_name) \
M(fd_pwrite) \
M(fd_read) \
M(fd_readdir) \
M(fd_renumber) \
M(fd_seek) \
M(fd_sync) \
M(fd_tell) \
M(fd_write) \
M(path_create_directory) \
M(path_filestat_get) \
M(path_filestat_set_times) \
M(path_link) \
M(path_open) \
M(path_readlink) \
M(path_remove_directory) \
M(path_rename) \
M(path_symlink) \
M(path_unlink_file) \
M(poll_oneoff) \
M(proc_exit) \
M(proc_raise) \
M(sched_yield) \
M(random_get) \
M(sock_accept) \
M(sock_recv) \
M(sock_send) \
M(sock_shutdown)
struct Names {
#define NAME(x) FlyString x;
ENUMERATE_FUNCTION_NAMES(NAME)
#undef NAME
static ErrorOr<Names> construct()
{
return Names {
#define NAME(x) .x = TRY(FlyString::from_utf8(#x##sv)),
ENUMERATE_FUNCTION_NAMES(NAME)
#undef NAME
};
}
};
ErrorOr<HostFunction> Implementation::function_by_name(StringView name)
{
auto name_for_comparison = TRY(FlyString::from_utf8(name));
static auto names = TRY(Names::construct());
#define IMPL(x) \
if (name_for_comparison == names.x) \
return invocation_of<&Implementation::impl$##x>(#x##sv);
ENUMERATE_FUNCTION_NAMES(IMPL)
#undef IMPL
return Error::from_string_literal("No such host function");
}
namespace ABI {
template<typename T>
struct HostTypeImpl {
using Type = T;
};
template<Enum T>
struct HostTypeImpl<T> {
using Type = UnderlyingType<T>;
};
template<typename T>
struct HostTypeImpl<LittleEndian<T>> {
using Type = typename HostTypeImpl<T>::Type;
};
template<typename T, typename t, typename... Fs>
struct HostTypeImpl<DistinctNumeric<T, t, Fs...>> {
using Type = typename HostTypeImpl<T>::Type;
};
template<typename T>
using HostType = typename HostTypeImpl<T>::Type;
template<typename T>
auto CompatibleValueType = IsOneOf<HostType<T>, char, i8, i16, i32, u8, u16>
? Wasm::ValueType(Wasm::ValueType::I32)
: Wasm::ValueType(Wasm::ValueType::I64);
template<typename RV, typename... Args, ErrorOr<RV> (Implementation::*impl)(Configuration&, Args...)>
struct InvocationOf<impl> {
HostFunction operator()(Implementation& self, StringView function_name)
{
using R = typename decltype([] {
if constexpr (IsSame<RV, Result<void>>)
return TypeWrapper<void> {};
else if constexpr (IsSpecializationOf<RV, Result>)
return TypeWrapper<RemoveCVReference<decltype(*declval<RV>().result())>> {};
else
return TypeWrapper<RV> {};
}())::Type;
Vector<ValueType> arguments_types { CompatibleValueType<typename ABI::ToCompatibleValue<Args>::Type>... };
if constexpr (!IsVoid<R>) {
if constexpr (requires { declval<typename R::SerializationComponents>(); }) {
for_each_type<typename R::SerializationComponents>([&]<typename T>(TypeWrapper<T>) {
arguments_types.append(CompatibleValueType<typename ABI::ToCompatibleValue<Pointer<T>>::Type>);
});
} else {
arguments_types.append(CompatibleValueType<typename ABI::ToCompatibleValue<Pointer<R>>::Type>);
}
}
Vector<ValueType> return_ty;
if constexpr (IsSpecializationOf<RV, Result>)
return_ty.append(ValueType(ValueType::I32));
return HostFunction(
[&self, function_name](Configuration& configuration, Vector<Value>& arguments) -> Wasm::Result {
Tuple args = [&]<typename... Ts, auto... Is>(IndexSequence<Is...>) {
return Tuple { ABI::deserialize(ABI::to_compatible_value<Ts>(arguments[Is]))... };
}.template operator()<Args...>(MakeIndexSequence<sizeof...(Args)>());
auto result = args.apply_as_args([&](auto&&... impl_args) { return (self.*impl)(configuration, impl_args...); });
dbgln_if(WASI_DEBUG, "WASI: {}({}) = {}", function_name, arguments, result);
if (result.is_error()) {
auto error = result.release_error();
if (error.is_errno())
return Wasm::Trap { ByteString::formatted("exit:{}", error.code() + 1) };
return Wasm::Trap { ByteString::formatted("Invalid call to {}() = {}", function_name, error) };
}
auto value = result.release_value();
if constexpr (IsSpecializationOf<RV, Result>) {
if (value.is_error())
return Wasm::Result { Vector { Value { static_cast<u32>(to_underlying(value.error().value())) } } };
}
if constexpr (!IsVoid<R>) {
// Return values are passed as pointers, after the arguments
if constexpr (requires { &R::serialize_into; }) {
constexpr auto ResultCount = []<auto N>(void (R::*)(Array<Bytes, N>) const) { return N; }(&R::serialize_into);
ABI::serialize(*value.result(), address_spans<ResultCount>(arguments.span().slice(sizeof...(Args)), configuration));
} else {
ABI::serialize(*value.result(), address_spans<1>(arguments.span().slice(sizeof...(Args)), configuration));
}
}
// Return value is errno, we have nothing to return.
return Wasm::Result { Vector<Value> { Value(ValueType(ValueType::Kind::I32)) } };
},
FunctionType {
move(arguments_types),
return_ty,
},
function_name);
}
};
};
Errno errno_value_from_errno(int value)
{
switch (value) {
#ifdef ESUCCESS
case ESUCCESS:
return Errno::Success;
#endif
case E2BIG:
return Errno::TooBig;
case EACCES:
return Errno::Access;
case EADDRINUSE:
return Errno::AddressInUse;
case EADDRNOTAVAIL:
return Errno::AddressNotAvailable;
case EAFNOSUPPORT:
return Errno::AFNotSupported;
case EAGAIN:
return Errno::Again;
case EALREADY:
return Errno::Already;
case EBADF:
return Errno::BadF;
case EBUSY:
return Errno::Busy;
case ECANCELED:
return Errno::Canceled;
case ECHILD:
return Errno::Child;
case ECONNABORTED:
return Errno::ConnectionAborted;
case ECONNREFUSED:
return Errno::ConnectionRefused;
case ECONNRESET:
return Errno::ConnectionReset;
case EDEADLK:
return Errno::Deadlock;
case EDESTADDRREQ:
return Errno::DestinationAddressRequired;
case EDOM:
return Errno::Domain;
case EEXIST:
return Errno::Exist;
case EFAULT:
return Errno::Fault;
case EFBIG:
return Errno::FBig;
case EHOSTUNREACH:
return Errno::HostUnreachable;
case EILSEQ:
return Errno::IllegalSequence;
case EINPROGRESS:
return Errno::InProgress;
case EINTR:
return Errno::Interrupted;
case EINVAL:
return Errno::Invalid;
case EIO:
return Errno::IO;
case EISCONN:
return Errno::IsConnected;
case EISDIR:
return Errno::IsDirectory;
case ELOOP:
return Errno::Loop;
case EMFILE:
return Errno::MFile;
case EMLINK:
return Errno::MLink;
case EMSGSIZE:
return Errno::MessageSize;
case ENAMETOOLONG:
return Errno::NameTooLong;
case ENETDOWN:
return Errno::NetworkDown;
case ENETRESET:
return Errno::NetworkReset;
case ENETUNREACH:
return Errno::NetworkUnreachable;
case ENFILE:
return Errno::NFile;
case ENOBUFS:
return Errno::NoBufferSpace;
case ENODEV:
return Errno::NoDevice;
case ENOENT:
return Errno::NoEntry;
case ENOEXEC:
return Errno::NoExec;
case ENOLCK:
return Errno::NoLock;
case ENOMEM:
return Errno::NoMemory;
case ENOPROTOOPT:
return Errno::NoProtocolOption;
case ENOSPC:
return Errno::NoSpace;
case ENOSYS:
return Errno::NoSys;
case ENOTCONN:
return Errno::NotConnected;
case ENOTDIR:
return Errno::NotDirectory;
case ENOTEMPTY:
return Errno::NotEmpty;
case ENOTRECOVERABLE:
return Errno::NotRecoverable;
case ENOTSOCK:
return Errno::NotSocket;
case ENOTSUP:
return Errno::NotSupported;
case ENOTTY:
return Errno::NoTTY;
case ENXIO:
return Errno::NXIO;
case EOVERFLOW:
return Errno::Overflow;
case EPERM:
return Errno::Permission;
case EPIPE:
return Errno::Pipe;
case EPROTO:
return Errno::Protocol;
case EPROTONOSUPPORT:
return Errno::ProtocolNotSupported;
case EPROTOTYPE:
return Errno::ProtocolType;
case ERANGE:
return Errno::Range;
case ESPIPE:
return Errno::SPipe;
case ESRCH:
return Errno::SRCH;
case ESTALE:
return Errno::Stale;
case ETIMEDOUT:
return Errno::TimedOut;
case ETXTBSY:
return Errno::TextBusy;
case EXDEV:
return Errno::XDev;
default:
return Errno::Invalid;
}
}
FileType file_type_of(struct stat const& buf)
{
switch (buf.st_mode & S_IFMT) {
case S_IFDIR:
return FileType::Directory;
case S_IFCHR:
return FileType::CharacterDevice;
case S_IFBLK:
return FileType::BlockDevice;
case S_IFREG:
return FileType::RegularFile;
case S_IFIFO:
return FileType::Unknown; // FIXME: FileType::Pipe is currently not present in WASI (but it should be) so we use Unknown for now.
case S_IFLNK:
return FileType::SymbolicLink;
case S_IFSOCK:
return FileType::SocketStream;
default:
return FileType::Unknown;
}
}
FDFlags fd_flags_of(struct stat const&)
{
FDFlags::Bits result {};
return FDFlags { result };
}
}
namespace AK {
template<>
struct Formatter<Wasm::Wasi::Errno> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::Errno const& value)
{
return Formatter<FormatString>::format(builder, "{}"sv, to_underlying(value));
}
};
template<>
struct Formatter<Empty> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder&, Empty)
{
return {};
}
};
template<typename T>
struct Formatter<Wasm::Wasi::Result<T>> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::Result<T> const& value)
{
if (value.is_error())
return Formatter<FormatString>::format(builder, "Error({})"sv, *value.error());
return Formatter<FormatString>::format(builder, "Ok({})"sv, *value.result());
}
};
template<OneOf<Wasm::Wasi::ArgsSizes, Wasm::Wasi::EnvironSizes> T>
struct Formatter<T> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, T const& value)
{
return Formatter<FormatString>::format(builder, "size={}, count={}"sv, value.size, value.count);
}
};
template<>
struct Formatter<Wasm::Wasi::FDStat> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::FDStat const&)
{
return Formatter<FormatString>::format(builder, "(rights)"sv);
}
};
template<>
struct Formatter<Wasm::Wasi::FileStat> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::FileStat const& value)
{
return Formatter<FormatString>::format(builder, "dev={}, ino={}, ft={}, nlink={}, size={}, atim={}, mtim={}, ctim={}"sv,
value.dev, value.ino, to_underlying(value.filetype), value.nlink, value.size, value.atim, value.mtim, value.ctim);
}
};
template<>
struct Formatter<Wasm::Wasi::PreStat> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::PreStat const& value)
{
return Formatter<FormatString>::format(builder, "length={}"sv, value.dir.pr_name_len);
}
};
template<>
struct Formatter<Wasm::Wasi::SockRecvResult> : AK::Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, Wasm::Wasi::SockRecvResult const& value)
{
return Formatter<FormatString>::format(builder, "size={}"sv, value.size);
}
};
}