Initialise rt::epoll_event data value explicitly Signed-off-by: Willow Barraco <contact@willowbarraco.fr>
use errors;
use io;
use net;
use net::ip;
use rt;
use unix::signal;
export type op = enum u64 {
NONE = 0,
READV = 1 << 0,
WRITEV = 1 << 1,
READABLE = 1 << 16,
WRITABLE = 2 << 16,
ACCEPT = 3 << 16,
CONNECT_TCP = 4 << 16,
SIGNAL = 5 << 16,
TIMER = 6 << 16,
SENDTO = 7 << 16,
RECVFROM = 8 << 16,
SEND = 9 << 16,
RECV = 10 << 16,
};
export type fflags = enum uint {
NONE = 0,
BLOCKING = 1 << 31,
};
export type file = struct {
fd: io::file,
ev: *loop,
flags: fflags,
op: op,
cb: nullable *void,
cb2: nullable *void,
user: nullable *void,
// Operation-specific data
union {
struct {
rvbuf: rt::iovec,
rvec: []rt::iovec,
wvbuf: rt::iovec,
wvec: []rt::iovec,
},
sockflag: net::sockflag,
sigmask: signal::sigset,
sendrecv: struct {
sbuf: []u8,
rbuf: []u8,
dest: ip::addr,
port: u16,
},
},
};
// Registers a file descriptor with an event loop.
export fn register(
loop: *loop,
fd: io::file,
) (*file | errors::error) = {
const file = alloc(file {
flags = fflags::NONE,
fd = fd,
ev = loop,
op = op::NONE,
...
});
let ev = rt::epoll_event {
events = 0,
...
data = rt::epoll_data {
fd = 0,
}
};
ev.data.ptr = file;
match (rt::epoll_ctl(loop.fd, rt::EPOLL_CTL_ADD, fd, &ev)) {
case void =>
yield;
case let err: rt::errno =>
if (err: int == rt::EPERM) {
// epoll(2) does not support regular files, use blocking
// I/O instead
file.flags = fflags::BLOCKING;
return file;
};
return errors::errno(err);
};
return file;
};
// Unregisters a file object with an event loop and frees resources associated
// with it. Does not close the underlying file descriptor.
export fn unregister(file: *file) void = {
const loop = file.ev;
if (file.flags & fflags::BLOCKING == 0) {
// The only way that this could fail is in the event of a
// use-after-free or if the user fucks around and constructs a
// custom [[file]] which was never registered, so assert on
// error.
rt::epoll_ctl(loop.fd, rt::EPOLL_CTL_DEL, file.fd, null)!;
};
if (file.op == op::SIGNAL) {
signal_restore(file);
};
free(file);
};
// Unregisters a file object with an event loop, frees resources associated with
// it, and closes the underlying file descriptor.
export fn close(file: *file) void = {
const fd = file.fd;
unregister(file);
io::close(fd)!;
};
// Sets the user data field on this file object to the provided object.
export fn setuser(file: *file, user: nullable *void) void = {
file.user = user;
};
// Returns the user data field from this file object. If the field was null, an
// assertion is raised.
export fn getuser(file: *file) *void = {
return file.user as *void;
};
// Returns the file descriptor for a given file. Note that ev assumes that it
// will be responsible for all I/O on the file and any user modifications may
// cause the event loop to enter an invalid state.
export fn getfd(file: *file) io::file = {
return file.fd;
};
// Returns the event loop for a given file.
export fn getloop(file: *file) *loop = {
return file.ev;
};
// Updates epoll events for a given file. For internal use.
fn file_epoll_ctl(file: *file) void = {
let events = rt::EPOLLONESHOT;
if (file.op & op::READV != 0 || file.op == op::READABLE) {
events |= rt::EPOLLIN | rt::EPOLLHUP;
};
if (file.op & op::WRITEV != 0 || file.op == op::WRITABLE) {
events |= rt::EPOLLOUT | rt::EPOLLHUP;
};
switch (file.op) {
case op::ACCEPT =>
events |= rt::EPOLLIN;
case op::CONNECT_TCP =>
events |= rt::EPOLLOUT;
case op::SIGNAL =>
events |= rt::EPOLLIN;
case op::TIMER =>
events &= ~rt::EPOLLONESHOT;
events |= rt::EPOLLIN;
case op::SEND, op::SENDTO =>
events |= rt::EPOLLOUT;
case op::RECV, op::RECVFROM =>
events |= rt::EPOLLIN;
case =>
yield;
};
let ev = rt::epoll_event {
events = events,
...
data = rt::epoll_data {
fd = 0,
},
}; ev.data.ptr = file; // This can only fail under conditions associated with EPOLLEXCLUSIVE, // which we do not support. rt::epoll_ctl(file.ev.fd, rt::EPOLL_CTL_MOD, file.fd, &ev)!; };
use errors;
use io;
use rt;
use time;
use types;
use unix::signal;
export type loop = struct {
fd: io::file,
events: []rt::epoll_event,
stop: bool,
};
// Creates a new event loop. The user must pass the return value to [[finish]]
// to free associated resources when done using the loop.
export fn newloop() (loop | errors::error) = {
const fd = match (rt::epoll_create1(rt::EPOLL_CLOEXEC)) {
case let fd: int =>
yield fd: io::file;
case let err: rt::errno =>
return errors::errno(err);
};
return loop {
fd = fd,
// XXX: Should the number of events be customizable?
events = alloc([rt::epoll_event { ... }...], 256),
events = alloc([rt::epoll_event {
events = 0,
data = rt::epoll_data {
fd = 0,
}
}...], 256),
stop = false,
};
};
// Frees resources associated with an event loop. Must only be called once per
// event loop object. Calling finish invalidates all I/O objects associated with
// the event loop.
export fn finish(loop: *loop) void = {
free(loop.events);
io::close(loop.fd)!;
};
// Returns an [[io::file]] for this event loop which can be polled on when
// events are available for processing, for chaining together different event
// loops. The exact semantics of this function are platform-specific, and it may
// not be available for all implementations.
export fn loop_file(loop: *loop) io::file = {
return loop.fd;
};
// Dispatches the event loop, waiting for new events and calling their callbacks
// as appropriate.
//
// A timeout of -1 will block indefinitely until the next event occurs. A
// timeout of 0 will cause dispatch to return immediately if no events are
// available to process. Portable use of the timeout argument supports only
// millisecond granularity of up to 24 days ([[types::INT_MAX]] milliseconds).
// Negative values other than -1 will cause the program to abort.
//
// Returns false if the loop has been stopped via [[stop]], or true otherwise.
export fn dispatch(
loop: *loop,
timeout: time::duration,
) (bool | errors::error) = {
const millis: int = if (timeout == -1) {
yield -1;
} else if (timeout < 0) {
abort("ev::dispatch: invalid timeout");
} else {
yield (timeout / time::MILLISECOND): int;
};
if (loop.stop) {
return false;
};
if (len(loop.events) == 0) {
return true;
};
// TODO: Deal with signals
const maxev = len(loop.events);
assert(maxev <= types::INT_MAX: size, "ev::dispatch: too many events");
const nevent = match(rt::epoll_pwait(
loop.fd, &loop.events[0],
maxev: int, millis, null)) {
case let nevent: int =>
yield nevent;
case let err: rt::errno =>
switch (err) {
case rt::EINTR =>
// We shallow system suspension error code
return true;
case =>
abort("ev::dispatch: epoll_pwait failure");
};
};
for (let i = 0; i < nevent; i += 1) {
const ev = &loop.events[i];
const file = ev.data.ptr: *file;
if (ev.events == 0) {
continue;
};
const pending = file.op;
if (ev.events & (rt::EPOLLIN | rt::EPOLLHUP) != 0
&& pending & op::READV != 0) {
readv_ready(file, ev);
};
if (ev.events & (rt::EPOLLOUT | rt::EPOLLHUP) != 0
&& pending & op::WRITEV != 0) {
writev_ready(file, ev);
};
switch (pending) {
case op::NONE =>
abort("No operation pending for ready object");
case op::READABLE =>
readable_ready(file, ev);
case op::WRITABLE =>
writable_ready(file, ev);
case op::ACCEPT =>
accept_ready(file, ev);
case op::CONNECT_TCP =>
connect_tcp_ready(file, ev);
case op::SIGNAL =>
signal_ready(file, ev);
case op::TIMER =>
timer_ready(file, ev);
case op::SENDTO =>
sendto_ready(file, ev);
case op::RECVFROM =>
recvfrom_ready(file, ev);
case op::SEND =>
send_ready(file, ev);
case op::RECV =>
recv_ready(file, ev);
case =>
assert(pending & ~(op::READV | op::WRITEV) == 0);
};
};
return !loop.stop;
};
// Signals the loop to stop processing events. If called during a callback, it
// will cause that invocation of [[dispatch]] to return false. Otherwise, false
// will be returned only upon the next call to [[dispatch]].
export fn stop(loop: *loop) void = {
loop.stop = true;
};