sdk/lib/fdio/zxio.cc - fuchsia - Git at Google

 // Copyright 2018 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "zxio.h"

 #include <fidl/fuchsia.io/cpp/wire.h>
 #include <lib/fdio/fdio.h>
 #include <lib/fdio/io.h>
 #include <lib/zxio/cpp/create_with_type.h>
 #include <lib/zxio/null.h>
 #include <lib/zxio/watcher.h>
 #include <lib/zxio/zxio.h>
 #include <poll.h>
 #include <stdarg.h>
 #include <sys/ioctl.h>
 #include <zircon/rights.h>
 #include <zircon/syscalls.h>
 #include <zircon/types.h>

 #include <fbl/auto_lock.h>

 #include "fdio_unistd.h"

 namespace fio = fuchsia_io;

 namespace fdio_internal {

 zx::status<fdio_ptr> zxio::create() {
   fdio_ptr io = fbl::MakeRefCounted<zxio>();
   if (io == nullptr) {
     return zx::error(ZX_ERR_NO_MEMORY);
   }
   zxio_default_init(&io->zxio_storage().io);
   return zx::ok(io);
 }

 zx::status<fdio_ptr> zxio::create_null() {
   fdio_ptr io = fbl::MakeRefCounted<zxio>();
   if (io == nullptr) {
     return zx::error(ZX_ERR_NO_MEMORY);
   }
   zxio_null_init(&io->zxio_storage().io);
   return zx::ok(io);
 }

 zx_status_t zxio::close() { return zxio_close(&zxio_storage().io); }

 zx_status_t zxio::borrow_channel(zx_handle_t* out_borrowed) {
   return zxio_borrow(&zxio_storage().io, out_borrowed);
 }

 zx_status_t zxio::clone(zx_handle_t* out_handle) {
   return zxio_clone(&zxio_storage().io, out_handle);
 }

 zx_status_t zxio::unwrap(zx_handle_t* out_handle) {
   return zxio_release(&zxio_storage().io, out_handle);
 }

 void zxio::wait_begin(uint32_t events, zx_handle_t* out_handle, zx_signals_t* out_signals) {
   return wait_begin_inner(events, ZXIO_SIGNAL_NONE, out_handle, out_signals);
 }

 // TODO(fxbug.dev/45813): This is mainly used by pipes. Consider merging this with the
 // POSIX-to-zxio signal translation in |remote::wait_begin|.
 // TODO(fxbug.dev/47132): Do not change the signal mapping here and in |wait_end|
 // until linked issue is resolved.
 void zxio::wait_begin_inner(uint32_t events, zx_signals_t signals, zx_handle_t* out_handle,
                             zx_signals_t* out_signals) {
   if (events & POLLIN) {
     signals |= ZXIO_SIGNAL_READABLE | ZXIO_SIGNAL_PEER_CLOSED | ZXIO_SIGNAL_READ_DISABLED;
   }
   if (events & POLLOUT) {
     signals |= ZXIO_SIGNAL_WRITABLE | ZXIO_SIGNAL_WRITE_DISABLED;
   }
   if (events & POLLRDHUP) {
     signals |= ZXIO_SIGNAL_READ_DISABLED | ZXIO_SIGNAL_PEER_CLOSED;
   }
   zxio_wait_begin(&zxio_storage().io, signals, out_handle, out_signals);
 }

 void zxio::wait_end(zx_signals_t signals, uint32_t* out_events) {
   return wait_end_inner(signals, out_events, nullptr);
 }

 void zxio::wait_end_inner(zx_signals_t signals, uint32_t* out_events, zx_signals_t* out_signals) {
   zxio_signals_t zxio_signals;
   zxio_wait_end(&zxio_storage().io, signals, &zxio_signals);
   if (out_signals) {
     *out_signals = zxio_signals;
   }

   uint32_t events = 0;
   if (zxio_signals & (ZXIO_SIGNAL_READABLE | ZXIO_SIGNAL_PEER_CLOSED | ZXIO_SIGNAL_READ_DISABLED)) {
     events |= POLLIN;
   }
   if (zxio_signals & (ZXIO_SIGNAL_WRITABLE | ZXIO_SIGNAL_WRITE_DISABLED)) {
     events |= POLLOUT;
   }
   if (zxio_signals & (ZXIO_SIGNAL_READ_DISABLED | ZXIO_SIGNAL_PEER_CLOSED)) {
     events |= POLLRDHUP;
   }
   *out_events = events;
 }

 Errno zxio::posix_ioctl(int request, va_list va) {
   switch (request) {
     case TIOCGWINSZ: {
       uint32_t width, height;
       zx_status_t status = zxio_get_window_size(&zxio_storage().io, &width, &height);
       if (status != ZX_OK) {
         return Errno(ENOTTY);
       }
       struct winsize size = {
           .ws_row = static_cast<uint16_t>(height),
           .ws_col = static_cast<uint16_t>(width),
       };
       struct winsize* out_size = va_arg(va, struct winsize*);
       *out_size = size;
       return Errno(Errno::Ok);
     }
     case TIOCSWINSZ: {
       const struct winsize* in_size = va_arg(va, const struct winsize*);
       zx_status_t status =
           zxio_set_window_size(&zxio_storage().io, in_size->ws_col, in_size->ws_row);
       if (status != ZX_OK) {
         return Errno(ENOTTY);
       }
       return Errno(Errno::Ok);
     }
     case FIONREAD: {
       size_t available = 0u;
       zx_status_t status = zxio_get_read_buffer_available(&zxio_storage().io, &available);
       if (status != ZX_OK) {
         return Errno(ENOTTY);
       }
       if (available > INT_MAX) {
         available = INT_MAX;
       }
       int* actual = va_arg(va, int*);
       *actual = static_cast<int>(available);
       return Errno(Errno::Ok);
     }
     default:
       return Errno(ENOTTY);
   }
 }

 zx_status_t zxio::get_token(zx_handle_t* out) { return zxio_token_get(&zxio_storage().io, out); }

 zx_status_t zxio::get_attr(zxio_node_attributes_t* out) {
   return zxio_attr_get(&zxio_storage().io, out);
 }

 zx_status_t zxio::set_attr(const zxio_node_attributes_t* attr) {
   return zxio_attr_set(&zxio_storage().io, attr);
 }

 zx_status_t zxio::dirent_iterator_init(zxio_dirent_iterator_t* iterator, zxio_t* directory) {
   return zxio_dirent_iterator_init(iterator, directory);
 }

 zx_status_t zxio::dirent_iterator_next(zxio_dirent_iterator_t* iterator,
                                        zxio_dirent_t* inout_entry) {
   return zxio_dirent_iterator_next(iterator, inout_entry);
 }

 void zxio::dirent_iterator_destroy(zxio_dirent_iterator_t* iterator) {
   return zxio_dirent_iterator_destroy(iterator);
 }

 zx_status_t zxio::watch_directory(zxio_watch_directory_cb cb, zx_time_t deadline, void* context) {
   return zxio_watch_directory(&zxio_storage().io, cb, deadline, context);
 }

 zx_status_t zxio::unlink(std::string_view name, int flags) {
   return zxio_unlink(&zxio_storage().io, name.data(), name.length(), flags);
 }

 zx_status_t zxio::truncate(uint64_t off) { return zxio_truncate(&zxio_storage().io, off); }

 zx_status_t zxio::rename(std::string_view src, zx_handle_t dst_token, std::string_view dst) {
   return zxio_rename(&zxio_storage().io, src.data(), src.length(), dst_token, dst.data(),
                      dst.length());
 }

 zx_status_t zxio::link(std::string_view src, zx_handle_t dst_token, std::string_view dst) {
   return zxio_link(&zxio_storage().io, src.data(), src.length(), dst_token, dst.data(),
                    dst.length());
 }

 zx_status_t zxio::get_flags(fio::wire::OpenFlags* out_flags) {
   return zxio_flags_get(&zxio_storage().io, reinterpret_cast<uint32_t*>(out_flags));
 }

 zx_status_t zxio::set_flags(fio::wire::OpenFlags flags) {
   return zxio_flags_set(&zxio_storage().io, static_cast<uint32_t>(flags));
 }

 zx_status_t zxio::recvmsg_inner(struct msghdr* msg, int flags, size_t* out_actual) {
   zxio_flags_t zxio_flags = 0;
   if (flags & MSG_PEEK) {
     zxio_flags |= ZXIO_PEEK;
     flags &= ~MSG_PEEK;
   }
   if (flags) {
     // TODO(https://fxbug.dev/67925): support MSG_OOB
     return ZX_ERR_NOT_SUPPORTED;
   }

   // Variable length arrays have to have nonzero sizes, so we can't allocate a zx_iov for an empty
   // io vector. Instead, we can ask to read zero entries with a null vector.
   if (msg->msg_iovlen == 0) {
     return zxio_readv(&zxio_storage().io, nullptr, 0, zxio_flags, out_actual);
   }

   zx_iovec_t zx_iov[msg->msg_iovlen];
   for (int i = 0; i < msg->msg_iovlen; ++i) {
     iovec const& iov = msg->msg_iov[i];
     zx_iov[i] = {
         .buffer = iov.iov_base,
         .capacity = iov.iov_len,
     };
   }

   return zxio_readv(&zxio_storage().io, zx_iov, msg->msg_iovlen, zxio_flags, out_actual);
 }

 zx_status_t zxio::sendmsg_inner(const struct msghdr* msg, int flags, size_t* out_actual) {
   if (flags) {
     // TODO(https://fxbug.dev/67925): support MSG_OOB
     return ZX_ERR_NOT_SUPPORTED;
   }

   // Variable length arrays have to have nonzero sizes, so we can't allocate a zx_iov for an empty
   // io vector. Instead, we can ask to write zero entries with a null vector.
   if (msg->msg_iovlen == 0) {
     return zxio_writev(&zxio_storage().io, nullptr, 0, 0, out_actual);
   }

   zx_iovec_t zx_iov[msg->msg_iovlen];
   for (int i = 0; i < msg->msg_iovlen; ++i) {
     zx_iov[i] = {
         .buffer = msg->msg_iov[i].iov_base,
         .capacity = msg->msg_iov[i].iov_len,
     };
   }
   return zxio_writev(&zxio_storage().io, zx_iov, msg->msg_iovlen, 0, out_actual);
 }

 zx_status_t zxio::recvmsg(struct msghdr* msg, int flags, size_t* out_actual, int16_t* out_code) {
   *out_code = 0;
   return recvmsg_inner(msg, flags, out_actual);
 }

 zx_status_t zxio::sendmsg(const struct msghdr* msg, int flags, size_t* out_actual,
                           int16_t* out_code) {
   *out_code = 0;
   return sendmsg_inner(msg, flags, out_actual);
 }

 zx_status_t zxio::shutdown(int how, int16_t* out_code) {
   *out_code = 0;

   zxio_shutdown_options_t options;
   switch (how) {
     case SHUT_RD:
       options = ZXIO_SHUTDOWN_OPTIONS_READ;
       break;
     case SHUT_WR:
       options = ZXIO_SHUTDOWN_OPTIONS_WRITE;
       break;
     case SHUT_RDWR:
       options = ZXIO_SHUTDOWN_OPTIONS_READ | ZXIO_SHUTDOWN_OPTIONS_WRITE;
       break;
   }
   return zxio_shutdown(&zxio_storage().io, options);
 }

 zx::status<fdio_ptr> pipe::create(zx::socket socket) {
   fdio_ptr io = fbl::MakeRefCounted<pipe>();
   if (io == nullptr) {
     return zx::error(ZX_ERR_NO_MEMORY);
   }
   zx_info_socket_t info;
   zx_status_t status = socket.get_info(ZX_INFO_SOCKET, &info, sizeof(info), nullptr, nullptr);
   if (status != ZX_OK) {
     return zx::error(status);
   }
   status = ::zxio::CreatePipe(&io->zxio_storage(), std::move(socket), info);
   if (status != ZX_OK) {
     return zx::error(status);
   }
   return zx::ok(io);
 }

 zx::status<std::pair<fdio_ptr, fdio_ptr>> pipe::create_pair(uint32_t options) {
   zx::socket h0, h1;
   zx_status_t status = zx::socket::create(options, &h0, &h1);
   if (status != ZX_OK) {
     return zx::error(status);
   }
   zx::status a = pipe::create(std::move(h0));
   if (a.is_error()) {
     return a.take_error();
   }
   zx::status b = pipe::create(std::move(h1));
   if (b.is_error()) {
     return b.take_error();
   }
   return zx::ok(std::make_pair(a.value(), b.value()));
 }

 zx_status_t pipe::recvmsg(struct msghdr* msg, int flags, size_t* out_actual, int16_t* out_code) {
   *out_code = 0;
   zx_status_t status = recvmsg_inner(msg, flags, out_actual);

   // We've reached end-of-file, which is signaled by successfully reading zero
   // bytes.
   //
   // If we see |ZX_ERR_BAD_STATE|, that implies reading has been disabled for
   // this endpoint.
   if (status == ZX_ERR_PEER_CLOSED || status == ZX_ERR_BAD_STATE) {
     *out_actual = 0;
     status = ZX_OK;
   }
   return status;
 }

 zx::status<fdio_ptr> open_async(zxio_t* directory, std::string_view path,
                                 fio::wire::OpenFlags flags, uint32_t mode) {
   zx::status endpoints = fidl::CreateEndpoints<fio::Node>();
   if (endpoints.is_error()) {
     return endpoints.take_error();
   }

   zx_status_t status = zxio_open_async(directory, static_cast<uint32_t>(flags), mode, path.data(),
                                        path.length(), endpoints->server.channel().release());
   if (status != ZX_OK) {
     return zx::error(status);
   }

   if (flags & fio::wire::OpenFlags::kDescribe) {
     return fdio::create_with_on_open(std::move(endpoints->client));
   }

   return remote::create(std::move(endpoints->client));
 }

 zx::status<fdio_ptr> remote::open(std::string_view path, fio::wire::OpenFlags flags,
                                   uint32_t mode) {
   return open_async(&zxio_storage().io, path, flags, mode);
 }

 void remote::wait_begin(uint32_t events, zx_handle_t* handle, zx_signals_t* out_signals) {
   // POLLERR is always detected.
   events |= POLLERR;

   zxio_signals_t signals = ZXIO_SIGNAL_NONE;
   if (events & POLLIN) {
     signals |= ZXIO_SIGNAL_READABLE;
   }
   if (events & POLLPRI) {
     signals |= ZXIO_SIGNAL_OUT_OF_BAND;
   }
   if (events & POLLOUT) {
     signals |= ZXIO_SIGNAL_WRITABLE;
   }
   if (events & POLLERR) {
     signals |= ZXIO_SIGNAL_ERROR;
   }
   if (events & POLLHUP) {
     signals |= ZXIO_SIGNAL_PEER_CLOSED;
   }
   if (events & POLLRDHUP) {
     signals |= ZXIO_SIGNAL_READ_DISABLED;
   }
   zxio_wait_begin(&zxio_storage().io, signals, handle, out_signals);
 }

 void remote::wait_end(zx_signals_t signals, uint32_t* out_events) {
   zxio_signals_t zxio_signals = 0;
   zxio_wait_end(&zxio_storage().io, signals, &zxio_signals);

   uint32_t events = 0;
   if (zxio_signals & ZXIO_SIGNAL_READABLE) {
     events |= POLLIN;
   }
   if (zxio_signals & ZXIO_SIGNAL_OUT_OF_BAND) {
     events |= POLLPRI;
   }
   if (zxio_signals & ZXIO_SIGNAL_WRITABLE) {
     events |= POLLOUT;
   }
   if (zxio_signals & ZXIO_SIGNAL_ERROR) {
     events |= POLLERR;
   }
   if (zxio_signals & ZXIO_SIGNAL_PEER_CLOSED) {
     events |= POLLHUP;
   }
   if (zxio_signals & ZXIO_SIGNAL_READ_DISABLED) {
     events |= POLLRDHUP;
   }
   *out_events = events;
 }

 zx::status<fdio_ptr> remote::create(fidl::ClientEnd<fuchsia_io::Node> node) {
   fdio_ptr io = fbl::MakeRefCounted<remote>();
   if (io == nullptr) {
     return zx::error(ZX_ERR_NO_MEMORY);
   }
   zx_status_t status = ::zxio::CreateNode(&io->zxio_storage(), std::move(node));
   if (status != ZX_OK) {
     return zx::error(status);
   }
   return zx::ok(io);
 }

 zx::status<fdio_ptr> remote::create(zx::vmo vmo, zx::stream stream) {
   fdio_ptr io = fbl::MakeRefCounted<remote>();
   if (io == nullptr) {
     return zx::error(ZX_ERR_NO_MEMORY);
   }
   zx_status_t status = ::zxio::CreateVmo(&io->zxio_storage(), std::move(vmo), std::move(stream));
   if (status != ZX_OK) {
     return zx::error(status);
   }
   return zx::ok(io);
 }

 }  // namespace fdio_internal
	// Copyright 2018 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "zxio.h"

	#include <fidl/fuchsia.io/cpp/wire.h>
	#include <lib/fdio/fdio.h>
	#include <lib/fdio/io.h>
	#include <lib/zxio/cpp/create_with_type.h>
	#include <lib/zxio/null.h>
	#include <lib/zxio/watcher.h>
	#include <lib/zxio/zxio.h>
	#include <poll.h>
	#include <stdarg.h>
	#include <sys/ioctl.h>
	#include <zircon/rights.h>
	#include <zircon/syscalls.h>
	#include <zircon/types.h>

	#include <fbl/auto_lock.h>

	#include "fdio_unistd.h"

	namespace fio = fuchsia_io;

	namespace fdio_internal {

	zx::status<fdio_ptr> zxio::create() {
	fdio_ptr io = fbl::MakeRefCounted<zxio>();
	if (io == nullptr) {
	return zx::error(ZX_ERR_NO_MEMORY);
	}
	zxio_default_init(&io->zxio_storage().io);
	return zx::ok(io);
	}

	zx::status<fdio_ptr> zxio::create_null() {
	fdio_ptr io = fbl::MakeRefCounted<zxio>();
	if (io == nullptr) {
	return zx::error(ZX_ERR_NO_MEMORY);
	}
	zxio_null_init(&io->zxio_storage().io);
	return zx::ok(io);
	}

	zx_status_t zxio::close() { return zxio_close(&zxio_storage().io); }

	zx_status_t zxio::borrow_channel(zx_handle_t* out_borrowed) {
	return zxio_borrow(&zxio_storage().io, out_borrowed);
	}

	zx_status_t zxio::clone(zx_handle_t* out_handle) {
	return zxio_clone(&zxio_storage().io, out_handle);
	}

	zx_status_t zxio::unwrap(zx_handle_t* out_handle) {
	return zxio_release(&zxio_storage().io, out_handle);
	}

	void zxio::wait_begin(uint32_t events, zx_handle_t* out_handle, zx_signals_t* out_signals) {
	return wait_begin_inner(events, ZXIO_SIGNAL_NONE, out_handle, out_signals);
	}

	// TODO(fxbug.dev/45813): This is mainly used by pipes. Consider merging this with the
	// POSIX-to-zxio signal translation in \|remote::wait_begin\|.
	// TODO(fxbug.dev/47132): Do not change the signal mapping here and in \|wait_end\|
	// until linked issue is resolved.
	void zxio::wait_begin_inner(uint32_t events, zx_signals_t signals, zx_handle_t* out_handle,
	zx_signals_t* out_signals) {
	if (events & POLLIN) {
	signals \|= ZXIO_SIGNAL_READABLE \| ZXIO_SIGNAL_PEER_CLOSED \| ZXIO_SIGNAL_READ_DISABLED;
	}
	if (events & POLLOUT) {
	signals \|= ZXIO_SIGNAL_WRITABLE \| ZXIO_SIGNAL_WRITE_DISABLED;
	}
	if (events & POLLRDHUP) {
	signals \|= ZXIO_SIGNAL_READ_DISABLED \| ZXIO_SIGNAL_PEER_CLOSED;
	}
	zxio_wait_begin(&zxio_storage().io, signals, out_handle, out_signals);
	}

	void zxio::wait_end(zx_signals_t signals, uint32_t* out_events) {
	return wait_end_inner(signals, out_events, nullptr);
	}

	void zxio::wait_end_inner(zx_signals_t signals, uint32_t* out_events, zx_signals_t* out_signals) {
	zxio_signals_t zxio_signals;
	zxio_wait_end(&zxio_storage().io, signals, &zxio_signals);
	if (out_signals) {
	*out_signals = zxio_signals;
	}

	uint32_t events = 0;
	if (zxio_signals & (ZXIO_SIGNAL_READABLE \| ZXIO_SIGNAL_PEER_CLOSED \| ZXIO_SIGNAL_READ_DISABLED)) {
	events \|= POLLIN;
	}
	if (zxio_signals & (ZXIO_SIGNAL_WRITABLE \| ZXIO_SIGNAL_WRITE_DISABLED)) {
	events \|= POLLOUT;
	}
	if (zxio_signals & (ZXIO_SIGNAL_READ_DISABLED \| ZXIO_SIGNAL_PEER_CLOSED)) {
	events \|= POLLRDHUP;
	}
	*out_events = events;
	}

	Errno zxio::posix_ioctl(int request, va_list va) {
	switch (request) {
	case TIOCGWINSZ: {
	uint32_t width, height;
	zx_status_t status = zxio_get_window_size(&zxio_storage().io, &width, &height);
	if (status != ZX_OK) {
	return Errno(ENOTTY);
	}
	struct winsize size = {
	.ws_row = static_cast<uint16_t>(height),
	.ws_col = static_cast<uint16_t>(width),
	};
	struct winsize* out_size = va_arg(va, struct winsize*);
	*out_size = size;
	return Errno(Errno::Ok);
	}
	case TIOCSWINSZ: {
	const struct winsize* in_size = va_arg(va, const struct winsize*);
	zx_status_t status =
	zxio_set_window_size(&zxio_storage().io, in_size->ws_col, in_size->ws_row);
	if (status != ZX_OK) {
	return Errno(ENOTTY);
	}
	return Errno(Errno::Ok);
	}
	case FIONREAD: {
	size_t available = 0u;
	zx_status_t status = zxio_get_read_buffer_available(&zxio_storage().io, &available);
	if (status != ZX_OK) {
	return Errno(ENOTTY);
	}
	if (available > INT_MAX) {
	available = INT_MAX;
	}
	int* actual = va_arg(va, int*);
	*actual = static_cast<int>(available);
	return Errno(Errno::Ok);
	}
	default:
	return Errno(ENOTTY);
	}
	}

	zx_status_t zxio::get_token(zx_handle_t* out) { return zxio_token_get(&zxio_storage().io, out); }

	zx_status_t zxio::get_attr(zxio_node_attributes_t* out) {
	return zxio_attr_get(&zxio_storage().io, out);
	}

	zx_status_t zxio::set_attr(const zxio_node_attributes_t* attr) {
	return zxio_attr_set(&zxio_storage().io, attr);
	}

	zx_status_t zxio::dirent_iterator_init(zxio_dirent_iterator_t* iterator, zxio_t* directory) {
	return zxio_dirent_iterator_init(iterator, directory);
	}

	zx_status_t zxio::dirent_iterator_next(zxio_dirent_iterator_t* iterator,
	zxio_dirent_t* inout_entry) {
	return zxio_dirent_iterator_next(iterator, inout_entry);
	}

	void zxio::dirent_iterator_destroy(zxio_dirent_iterator_t* iterator) {
	return zxio_dirent_iterator_destroy(iterator);
	}

	zx_status_t zxio::watch_directory(zxio_watch_directory_cb cb, zx_time_t deadline, void* context) {
	return zxio_watch_directory(&zxio_storage().io, cb, deadline, context);
	}

	zx_status_t zxio::unlink(std::string_view name, int flags) {
	return zxio_unlink(&zxio_storage().io, name.data(), name.length(), flags);
	}

	zx_status_t zxio::truncate(uint64_t off) { return zxio_truncate(&zxio_storage().io, off); }

	zx_status_t zxio::rename(std::string_view src, zx_handle_t dst_token, std::string_view dst) {
	return zxio_rename(&zxio_storage().io, src.data(), src.length(), dst_token, dst.data(),
	dst.length());
	}

	zx_status_t zxio::link(std::string_view src, zx_handle_t dst_token, std::string_view dst) {
	return zxio_link(&zxio_storage().io, src.data(), src.length(), dst_token, dst.data(),
	dst.length());
	}

	zx_status_t zxio::get_flags(fio::wire::OpenFlags* out_flags) {
	return zxio_flags_get(&zxio_storage().io, reinterpret_cast<uint32_t*>(out_flags));
	}

	zx_status_t zxio::set_flags(fio::wire::OpenFlags flags) {
	return zxio_flags_set(&zxio_storage().io, static_cast<uint32_t>(flags));
	}

	zx_status_t zxio::recvmsg_inner(struct msghdr* msg, int flags, size_t* out_actual) {
	zxio_flags_t zxio_flags = 0;
	if (flags & MSG_PEEK) {
	zxio_flags \|= ZXIO_PEEK;
	flags &= ~MSG_PEEK;
	}
	if (flags) {
	// TODO(https://fxbug.dev/67925): support MSG_OOB
	return ZX_ERR_NOT_SUPPORTED;
	}

	// Variable length arrays have to have nonzero sizes, so we can't allocate a zx_iov for an empty
	// io vector. Instead, we can ask to read zero entries with a null vector.
	if (msg->msg_iovlen == 0) {
	return zxio_readv(&zxio_storage().io, nullptr, 0, zxio_flags, out_actual);
	}

	zx_iovec_t zx_iov[msg->msg_iovlen];
	for (int i = 0; i < msg->msg_iovlen; ++i) {
	iovec const& iov = msg->msg_iov[i];
	zx_iov[i] = {
	.buffer = iov.iov_base,
	.capacity = iov.iov_len,
	};
	}

	return zxio_readv(&zxio_storage().io, zx_iov, msg->msg_iovlen, zxio_flags, out_actual);
	}

	zx_status_t zxio::sendmsg_inner(const struct msghdr* msg, int flags, size_t* out_actual) {
	if (flags) {
	// TODO(https://fxbug.dev/67925): support MSG_OOB
	return ZX_ERR_NOT_SUPPORTED;
	}

	// Variable length arrays have to have nonzero sizes, so we can't allocate a zx_iov for an empty
	// io vector. Instead, we can ask to write zero entries with a null vector.
	if (msg->msg_iovlen == 0) {
	return zxio_writev(&zxio_storage().io, nullptr, 0, 0, out_actual);
	}

	zx_iovec_t zx_iov[msg->msg_iovlen];
	for (int i = 0; i < msg->msg_iovlen; ++i) {
	zx_iov[i] = {
	.buffer = msg->msg_iov[i].iov_base,
	.capacity = msg->msg_iov[i].iov_len,
	};
	}
	return zxio_writev(&zxio_storage().io, zx_iov, msg->msg_iovlen, 0, out_actual);
	}

	zx_status_t zxio::recvmsg(struct msghdr* msg, int flags, size_t* out_actual, int16_t* out_code) {
	*out_code = 0;
	return recvmsg_inner(msg, flags, out_actual);
	}

	zx_status_t zxio::sendmsg(const struct msghdr* msg, int flags, size_t* out_actual,
	int16_t* out_code) {
	*out_code = 0;
	return sendmsg_inner(msg, flags, out_actual);
	}

	zx_status_t zxio::shutdown(int how, int16_t* out_code) {
	*out_code = 0;

	zxio_shutdown_options_t options;
	switch (how) {
	case SHUT_RD:
	options = ZXIO_SHUTDOWN_OPTIONS_READ;
	break;
	case SHUT_WR:
	options = ZXIO_SHUTDOWN_OPTIONS_WRITE;
	break;
	case SHUT_RDWR:
	options = ZXIO_SHUTDOWN_OPTIONS_READ \| ZXIO_SHUTDOWN_OPTIONS_WRITE;
	break;
	}
	return zxio_shutdown(&zxio_storage().io, options);
	}

	zx::status<fdio_ptr> pipe::create(zx::socket socket) {
	fdio_ptr io = fbl::MakeRefCounted<pipe>();
	if (io == nullptr) {
	return zx::error(ZX_ERR_NO_MEMORY);
	}
	zx_info_socket_t info;
	zx_status_t status = socket.get_info(ZX_INFO_SOCKET, &info, sizeof(info), nullptr, nullptr);
	if (status != ZX_OK) {
	return zx::error(status);
	}
	status = ::zxio::CreatePipe(&io->zxio_storage(), std::move(socket), info);
	if (status != ZX_OK) {
	return zx::error(status);
	}
	return zx::ok(io);
	}

	zx::status<std::pair<fdio_ptr, fdio_ptr>> pipe::create_pair(uint32_t options) {
	zx::socket h0, h1;
	zx_status_t status = zx::socket::create(options, &h0, &h1);
	if (status != ZX_OK) {
	return zx::error(status);
	}
	zx::status a = pipe::create(std::move(h0));
	if (a.is_error()) {
	return a.take_error();
	}
	zx::status b = pipe::create(std::move(h1));
	if (b.is_error()) {
	return b.take_error();
	}
	return zx::ok(std::make_pair(a.value(), b.value()));
	}

	zx_status_t pipe::recvmsg(struct msghdr* msg, int flags, size_t* out_actual, int16_t* out_code) {
	*out_code = 0;
	zx_status_t status = recvmsg_inner(msg, flags, out_actual);

	// We've reached end-of-file, which is signaled by successfully reading zero
	// bytes.
	//
	// If we see \|ZX_ERR_BAD_STATE\|, that implies reading has been disabled for
	// this endpoint.
	if (status == ZX_ERR_PEER_CLOSED \|\| status == ZX_ERR_BAD_STATE) {
	*out_actual = 0;
	status = ZX_OK;
	}
	return status;
	}

	zx::status<fdio_ptr> open_async(zxio_t* directory, std::string_view path,
	fio::wire::OpenFlags flags, uint32_t mode) {
	zx::status endpoints = fidl::CreateEndpoints<fio::Node>();
	if (endpoints.is_error()) {
	return endpoints.take_error();
	}

	zx_status_t status = zxio_open_async(directory, static_cast<uint32_t>(flags), mode, path.data(),
	path.length(), endpoints->server.channel().release());
	if (status != ZX_OK) {
	return zx::error(status);
	}

	if (flags & fio::wire::OpenFlags::kDescribe) {
	return fdio::create_with_on_open(std::move(endpoints->client));
	}

	return remote::create(std::move(endpoints->client));
	}

	zx::status<fdio_ptr> remote::open(std::string_view path, fio::wire::OpenFlags flags,
	uint32_t mode) {
	return open_async(&zxio_storage().io, path, flags, mode);
	}

	void remote::wait_begin(uint32_t events, zx_handle_t* handle, zx_signals_t* out_signals) {
	// POLLERR is always detected.
	events \|= POLLERR;

	zxio_signals_t signals = ZXIO_SIGNAL_NONE;
	if (events & POLLIN) {
	signals \|= ZXIO_SIGNAL_READABLE;
	}
	if (events & POLLPRI) {
	signals \|= ZXIO_SIGNAL_OUT_OF_BAND;
	}
	if (events & POLLOUT) {
	signals \|= ZXIO_SIGNAL_WRITABLE;
	}
	if (events & POLLERR) {
	signals \|= ZXIO_SIGNAL_ERROR;
	}
	if (events & POLLHUP) {
	signals \|= ZXIO_SIGNAL_PEER_CLOSED;
	}
	if (events & POLLRDHUP) {
	signals \|= ZXIO_SIGNAL_READ_DISABLED;
	}
	zxio_wait_begin(&zxio_storage().io, signals, handle, out_signals);
	}

	void remote::wait_end(zx_signals_t signals, uint32_t* out_events) {
	zxio_signals_t zxio_signals = 0;
	zxio_wait_end(&zxio_storage().io, signals, &zxio_signals);

	uint32_t events = 0;
	if (zxio_signals & ZXIO_SIGNAL_READABLE) {
	events \|= POLLIN;
	}
	if (zxio_signals & ZXIO_SIGNAL_OUT_OF_BAND) {
	events \|= POLLPRI;
	}
	if (zxio_signals & ZXIO_SIGNAL_WRITABLE) {
	events \|= POLLOUT;
	}
	if (zxio_signals & ZXIO_SIGNAL_ERROR) {
	events \|= POLLERR;
	}
	if (zxio_signals & ZXIO_SIGNAL_PEER_CLOSED) {
	events \|= POLLHUP;
	}
	if (zxio_signals & ZXIO_SIGNAL_READ_DISABLED) {
	events \|= POLLRDHUP;
	}
	*out_events = events;
	}

	zx::status<fdio_ptr> remote::create(fidl::ClientEnd<fuchsia_io::Node> node) {
	fdio_ptr io = fbl::MakeRefCounted<remote>();
	if (io == nullptr) {
	return zx::error(ZX_ERR_NO_MEMORY);
	}
	zx_status_t status = ::zxio::CreateNode(&io->zxio_storage(), std::move(node));
	if (status != ZX_OK) {
	return zx::error(status);
	}
	return zx::ok(io);
	}

	zx::status<fdio_ptr> remote::create(zx::vmo vmo, zx::stream stream) {
	fdio_ptr io = fbl::MakeRefCounted<remote>();
	if (io == nullptr) {
	return zx::error(ZX_ERR_NO_MEMORY);
	}
	zx_status_t status = ::zxio::CreateVmo(&io->zxio_storage(), std::move(vmo), std::move(stream));
	if (status != ZX_OK) {
	return zx::error(status);
	}
	return zx::ok(io);
	}

	} // namespace fdio_internal