Hi… I am well aware that this diff view is very suboptimal. It will be fixed when the refactored server comes along!
linux::io_uring: sqe_flags => flags Signed-off-by: Drew DeVault <sir@cmpwn.com>
use endian; use rt; use types;
fn prep(sq: *sqe, op: op, flags: sqe_flags...) void = {
fn prep(sq: *sqe, op: op, flags: flags...) void = {
rt::memset(sq, 0, size(sqe));
sq.opcode = op;
for (let i = 0z; i < len(flags); i += 1) {
sq.flags |= flags[i];
};
};
fn preprw(
sqe: *sqe,
op: op,
fd: int,
addr: nullable *void,
length: uint,
offs: u64,
flags: sqe_flags...
flags: flags...
) void = {
prep(sqe, op, flags...);
sqe.fd = fd;
sqe.addr = addr;
sqe.length = length;
sqe.off = offs;
};
// Sets the user data field of an [[sqe]]. This is copied to the [[cqe]] and can
// be used to correlate a completion event with the original SQE.
export fn set_user(sqe: *sqe, user_data: *void) void = {
static assert(size(uintptr) <= size(u64));
sqe.user_data = user_data: uintptr: u64;
};
// Prepares a no-op "operation" for an [[sqe]].
export fn nop(sqe: *sqe, flags: sqe_flags...) void = {
export fn nop(sqe: *sqe, flags: flags...) void = {
prep(sqe, op::NOP, flags...); }; // Prepares a vectored read operation for an [[sqe]]. export fn readv( sqe: *sqe, fd: int, iov: []rt::iovec, offs: size,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::READV, fd,
iov: *[*]rt::iovec, len(iov): uint, offs, flags...);
};
// Prepares a vectored write operation for an [[sqe]].
export fn writev(
sqe: *sqe,
fd: int,
iov: []rt::iovec,
offs: size,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::WRITEV, fd,
iov: *[*]rt::iovec, len(iov): uint, offs, flags...);
};
// Prepares a read operation for an [[sqe]].
export fn read(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::READ, fd, buf, count: u32, 0, flags...);
};
// Prepares a write operation for an [[sqe]].
export fn write(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::WRITE, fd, buf, count: u32, 0, flags...);
};
// Prepares a read for a fixed buffer previously registered with
// [[register_buffers]]. The buf and count parameters must refer to an address
// which falls within the buffer referenced by the index parameter.
export fn read_fixed(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
index: u16,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::READ_FIXED, fd, buf, count: u32, 0, flags...);
sqe.buf_index = index;
};
// Prepares a write for a fixed buffer previously registered with
// [[register_buffers]]. The buf and count parameters must refer to an address
// which falls within the buffer referenced by the index parameter.
export fn write_fixed(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
index: u16,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::WRITE_FIXED, fd, buf, count: u32, 0, flags...);
sqe.buf_index = index;
};
// Prepares an fsync operation for an [[sqe]]. Note that operations are executed
// in parallel and not are completed in submission order, so an fsync submitted
// after a write may not cause the write to be accounted for by the fsync unless
// [[sqe_flags::IO_LINK]] is used.
// [[flags::IO_LINK]] is used.
export fn fsync( sqe: *sqe, fd: int, fsync_flags: fsync_flags,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::FSYNC, fd, null, 0, 0, flags...);
sqe.fsync_flags = fsync_flags;
};
// Adds a request to poll a file descriptor for the given set of poll events.
// This will only happen once, the poll request must be submitted with a new SQE
// to re-poll the file descriptor later. The caller must call [[setuser]] to
// provide a user data field in order to use [[poll_remove]] to remove this poll
// request later.
export fn poll_add(
sqe: *sqe,
fd: int,
poll_mask: uint,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::POLL_ADD, fd, null, 0, 0, flags...);
assert(endian::host == &endian::little); // TODO?
sqe.poll32_events = poll_mask: u32;
};
// Removes an existing poll request by matching the SQE's user_data field. See
// [[setuser]].
export fn poll_remove(sqe: *sqe, user_data: *void, flags: sqe_flags...) void = {
export fn poll_remove(sqe: *sqe, user_data: *void, flags: flags...) void = {
preprw(sqe, op::POLL_REMOVE, -1, null, 0, 0, flags...); set_user(sqe, user_data); }; // Prepares a sendmsg operation for an [[sqe]], equivalent to the sendmsg(2) // system call. export fn sendmsg( sqe: *sqe, fd: int, msghdr: *rt::msghdr, sendmsg_flags: int,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::SENDMSG, fd, msghdr, 0, 0, flags...);
sqe.msg_flags = sendmsg_flags;
};
// Prepares a recvmsg operation for an [[sqe]], equivalent to the recvmsg(2)
// system call.
export fn recvmsg(
sqe: *sqe,
fd: int,
msghdr: *rt::msghdr,
recvmsg_flags: int,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::RECVMSG, fd, msghdr, 0, 0, flags...);
sqe.msg_flags = recvmsg_flags;
};
// Prepares a send operation for an [[sqe]], equivalent to the send(2) system
// call.
export fn send(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
send_flags: int,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::SEND, fd, buf, count: u32, 0, flags...);
sqe.msg_flags = send_flags;
};
// Prepares a recv operation for an [[sqe]], equivalent to the recv(2) system
// call.
export fn recv(
sqe: *sqe,
fd: int,
buf: *void,
count: size,
recv_flags: int,
flags: sqe_flags...
flags: flags...
) void = {
assert(count <= types::U32_MAX);
preprw(sqe, op::RECV, fd, buf, count: u32, 0, flags...);
sqe.msg_flags = recv_flags;
};
// Prepares a timeout operation for an [[sqe]]. "ts" should be a timespec
// describing the desired timeout, and "events" may optionally be used to define
// a number of completion events to wake after (or zero to wake only after the
// timeout expires). The caller must call [[setuser]] to provide a user data
// field in order to use [[timeout_remove]] to cancel this timeout later.
export fn timeout(
sqe: *sqe,
ts: *rt::timespec,
events: uint,
to_flags: timeout_flags,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::TIMEOUT, 0, ts, 1, events, flags...);
sqe.timeout_flags = to_flags;
};
// Removes an existing timeout request by matching the SQE's user_data field.
// See [[setuser]].
export fn timeout_remove(
sqe: *sqe,
user_data: *void,
to_flags: timeout_flags,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::TIMEOUT_REMOVE, 0, user_data, 0, 0, flags...);
sqe.timeout_flags = to_flags;
};
// Updates an existing timeout request by matching the SQE's user_data field.
// See [[setuser]].
export fn timeout_update(
sqe: *sqe,
user_data: *void,
ts: *rt::timespec,
events: uint,
to_flags: timeout_flags,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::TIMEOUT_REMOVE, 0, user_data, 0, events, flags...);
sqe.timeout_flags = to_flags | timeout_flags::UPDATE;
sqe.addr2 = ts;
};
// Prepares a socket accept operation for an [[sqe]]. Equivalent to accept4(2).
export fn accept(
sqe: *sqe,
fd: int,
addr: nullable *rt::sockaddr,
addrlen: nullable *uint,
aflags: uint,
flags: sqe_flags...
flags: flags...
) void = {
preprw(sqe, op::ACCEPT, fd, addr, 0, 0, flags...);
sqe.accept_flags = aflags;
sqe.addr2 = addrlen;
};
// Prepares an [[sqe]] operation which closes a file descriptor.
export fn close(sqe: *sqe, fd: int, flags: sqe_flags...) void = {
export fn close(sqe: *sqe, fd: int, flags: flags...) void = {
preprw(sqe, op::CLOSE, fd, null, 0, 0, flags...); };
use errors;
// All errors which may be returned by this module.
export type error = (errors::timeout | errors::cancelled | errors::opaque);
// Converts an [[error]] into a human-readable string.
export fn strerror(err: error) const str = {
return errors::strerror(err);
};
// The maximum value for the first parameter of [[setup]].
export def MAX_ENTRIES: uint = 4096;
def CQE_BUFFER_SHIFT: uint = 16;
def OFF_SQ_RING: u64 = 0;
def OFF_CQ_RING: u64 = 0x8000000;
def OFF_SQES: u64 = 0x10000000;
// An io_uring [[sqe]] operation.
export type op = enum u8 {
NOP,
READV,
WRITEV,
FSYNC,
READ_FIXED,
WRITE_FIXED,
POLL_ADD,
POLL_REMOVE,
SYNC_FILE_RANGE,
SENDMSG,
RECVMSG,
TIMEOUT,
TIMEOUT_REMOVE,
ACCEPT,
ASYNC_CANCEL,
LINK_TIMEOUT,
CONNECT,
FALLOCATE,
OPENAT,
CLOSE,
FILES_UPDATE,
STATX,
READ,
WRITE,
FADVISE,
MADVISE,
SEND,
RECV,
OPENAT2,
EPOLL_CTL,
SPLICE,
PROVIDE_BUFFERS,
REMOVE_BUFFERS,
TEE,
};
// Flags for an [[sqe]].
export type sqe_flags = enum u8 {
export type flags = enum u8 {
// Use fixed fileset
FIXED_FILE = 1 << 0,
// Issue after inflight IO
IO_DRAIN = 1 << 1,
// Links next sqe
IO_LINK = 1 << 2,
// Like LINK, but stronger
IO_HARDLINK = 1 << 3,
// Always go async
ASYNC = 1 << 4,
// Select buffer from sqe.buf_group
BUFFER_SELECT = 1 << 5,
};
// Flags for an fsync operation.
export type fsync_flags = enum u32 {
DATASYNC = 1 << 0,
};
// Flags for a timeout operation.
export type timeout_flags = enum u32 {
// If set, the timeout will be "absolute", waiting until CLOCK_MONOTONIC
// reaches the time defined by the timespec. If unset, it will be
// interpted as a duration relative to the I/O submission.
ABS = 1 << 0,
// When combined with [[op::TIMEOUT_REMOVE]], causes the submission to
// update the timer rather than remove it.
UPDATE = 1 << 1,
};
// Flags for a splice operation.
export type splice_flags = enum u32 {
F_FD_IN_FIXED = 1 << 31,
};
// Flags for a [[cqe]].
export type cqe_flags = enum u32 {
F_BUFFER = 1 << 0,
};
// A submission queue entry.
export type sqe = struct {
opcode: op,
flags: sqe_flags,
flags: flags,
ioprio: u16,
fd: i32,
union {
off: u64,
addr2: nullable *void,
},
union {
addr: nullable *void,
splice_off_in: u64,
},
length: u32,
union {
rw_flags: int,
fsync_flags: fsync_flags,
poll_events: u16,
poll32_events: u32,
sync_range_flags: u32,
msg_flags: int,
timeout_flags: timeout_flags,
accept_flags: u32,
cancel_flags: u32,
open_flags: u32,
statx_flags: u32,
fadvise_advice: u32,
splice_flags: splice_flags,
},
user_data: u64,
union {
struct {
union {
buf_index: u16,
buf_group: u16,
},
personality: u16,
splice_fd_in: i32,
},
pad2: [3]u64,
},
};
// A completion queue entry.
export type cqe = struct {
user_data: u64,
res: i32,
flags: cqe_flags,
};
// Filled with the offset for mmap(2)
export type sqring_offsets = struct {
head: u32,
tail: u32,
ring_mask: u32,
ring_entries: u32,
flags: u32,
dropped: u32,
array: u32,
resv1: u32,
resv2: u64,
};
// Flags for the sq ring.
export type sqring_flags = enum u32 {
// Needs io_uring_enter wakeup
NEED_WAKEUP = 1 << 0,
// CQ ring is overflown
CQ_OVERFLOW = 1 << 1,
};
// Filled with the offset for mmap(2)
export type cqring_offsets = struct {
head: u32,
tail: u32,
ring_mask: u32,
ring_entries: u32,
overflow: u32,
cqes: u32,
flags: u32,
resv1: u32,
resv2: u64,
};
// Flags for the cq ring.
export type cqring_flags = enum u32 {
EVENTFD_DISABLED = 1 << 0,
};
// Flags for [[setup]].
export type setup_flags = enum u32 {
// io_context is polled
IOPOLL = 1 << 0,
// SQ poll thread
SQPOLL = 1 << 1,
// sq_thread_cpu is valid
SQ_AFF = 1 << 2,
// App defines CQ size
CQSIZE = 1 << 3,
// Clamp SQ/CQ ring sizes
CLAMP = 1 << 4,
// Attach to existing wq
ATTACH_WQ = 1 << 5,
// Start with ring disabled
R_DISABLED = 1 << 6,
};
// Parameters for [[setup]]. Partially completed by the kernel.
export type params = struct {
sq_entries: u32,
cq_entries: u32,
flags: setup_flags,
sq_thread_cpu: u32,
sq_thread_idle: u32,
features: features,
wq_fd: u32,
resv: [3]u32,
sq_off: sqring_offsets,
cq_off: cqring_offsets,
};
// Features supported by the kernel.
export type features = enum u32 {
SINGLE_MMAP = 1 << 0,
NODROP = 1 << 1,
SUBMIT_STABLE = 1 << 2,
RW_CUR_POS = 1 << 3,
CUR_PERSONALITY = 1 << 4,
FAST_POLL = 1 << 5,
POLL_32BITS = 1 << 6,
};
// Flags for [[enter]].
export type enter_flags = enum uint {
GETEVENTS = 1 << 0,
SQ_WAKEUP = 1 << 1,
SQ_WAIT = 1 << 2,
};
// Operations for [[register]].
export type regop = enum uint {
REGISTER_BUFFERS,
UNREGISTER_BUFFERS,
REGISTER_FILES,
UNREGISTER_FILES,
REGISTER_EVENTFD,
UNREGISTER_EVENTFD,
REGISTER_FILES_UPDATE,
REGISTER_EVENTFD_ASYNC,
REGISTER_PROBE,
REGISTER_PERSONALITY,
UNREGISTER_PERSONALITY,
REGISTER_RESTRICTIONS,
REGISTER_ENABLE_RINGS,
};
// Information for a REGISTER_FILES_UPDATE operation.
export type files_update = struct {
offs: u32,
resv: u32,
// XXX: i32 but aligned to u64
fds: u64,
};
// Flags for a probe operation.
export type op_flags = enum u16 {
SUPPORTED = 1 << 0,
};
// REGISTER_PROBE operation details.
export type probe_op = struct {
op: u8,
resv: u8,
flags: op_flags,
resv2: u32,
};
// Summary of REGISTER_PROBE results.
export type probe = struct {
last_op: u8,
ops_len: u8,
resv: u16,
resv2: [3]u32,
ops: [*]probe_op,
};
// Details for a REGISTER_RESTRICTIONS operation.
export type restriction = struct {
opcode: resop,
union {
register_op: regop,
sqe_op: op,
sqe_flags: sqe_flags,
flags: flags,
},
resv: u8,
resv2: [3]u32,
};
// Opcode for a [[restriction]].
export type resop = enum u16 {
// Allow an io_uring_register(2) opcode
REGISTER_OP = 0,
// Allow an sqe opcode
SQE_OP = 1,
// Allow sqe flags
SQE_FLAGS_ALLOWED = 2,
// Require sqe flags (these flags must be set on each submission)
SQE_FLAGS_REQUIRED = 3,
};
// State for an io_uring.
export type io_uring = struct {
sq: sq,
cq: cq,
fd: int,
flags: setup_flags,
features: features,
};
// Submission queue state.
export type sq = struct {
khead: *uint,
ktail: *uint,
kring_mask: *uint,
kring_entries: *uint,
kflags: *sqring_flags,
kdropped: *uint,
array: *[*]uint,
sqes: *[*]sqe,
sqe_head: uint,
sqe_tail: uint,
ring_sz: size,
ring_ptr: *void,
};
// Completion queue state.
export type cq = struct {
khead: *uint,
ktail: *uint,
kring_mask: *uint,
kring_entries: *uint,
kflags: *cqring_flags,
koverflow: *uint,
cqes: *[*]cqe,
ring_sz: size,
ring_ptr: *void,
};