#![feature(wasi_ext)]

use std::fs::File;
use std::os::wasi::io::FromRawFd;
use std::io::{Read, Write};
use std::net::{Ipv4Addr, AddrParseError};
use std::ops::{Deref, DerefMut};
use std::task::{Waker, RawWaker, RawWakerVTable, Poll};
use std::future::Future;
use std::sync::{Arc, Mutex};
use std::cell::RefCell;

const AF_INET: i32 = 2;
const SOCK_STREAM: i32 = 1;
const O_NONBLOCK: u32 = 2048;
const F_GETFL: i32 = 3;
const F_SETFL: i32 = 4;
const EPOLLIN: u32 = 1u32;
const EPOLLOUT: u32 = 4u32;
const EPOLLONESHOT: u32 = 1u32 << 30;
const EPOLLET: u32 = 1u32 << 31;
const EAGAIN: i32 = 11;
const EWOULDBLOCK: i32 = EAGAIN;
const EPOLL_CTL_ADD: i32 = 1;
const EPOLL_CTL_DEL: i32 = 2;

#[link(wasm_import_module = "net")]
extern "C" {
    fn _socket(family: i32, _type: i32, proto: i32) -> i32;
    fn _bind(fd: i32, sa: *const SockaddrIn, sa_len: usize) -> i32;
    fn _listen(fd: i32, backlog: i32) -> i32;
    fn _accept4(fd: i32, sa: *mut SockaddrIn, sa_len: *mut usize, flags: u32) -> i32;
    fn _sendto(fd: i32, buf: *const u8, buf_len: usize, flags: u32, addr: *const SockaddrIn, addr_len: usize) -> i32;
    fn _recvfrom(fd: i32, buf: *mut u8, buf_len: usize, flags: u32, addr: *mut SockaddrIn, addr_len: *mut usize) -> i32;
    fn _get_immediate_fd() -> i32;
    fn _epoll_create() -> i32;
    fn _epoll_ctl(
        epfd: i32,
        op: i32,
        fd: i32,
        event: *const EpollEvent,
    ) -> i32;
    fn _epoll_wait(
        epfd: i32,
        events: *mut EpollEvent,
        maxevents: usize,
        timeout: i32,
    ) -> i32;
    fn _fcntl(
        fd: i32,
        cmd: i32,
        arg: u32,
    ) -> i32;
}

thread_local! {
    static GLOBAL_EPOLL: RefCell<Option<Arc<Epoll>>> = RefCell::new(None);
}

struct AsyncState {
    callback: Box<FnOnce()>,
    _epoll: Arc<Epoll>,
}

pub struct Epoll {
    fd: i32,
}

impl Epoll {
    pub fn new() -> Epoll {
        let fd = unsafe {
            _epoll_create()
        };
        assert!(fd >= 0);
        Epoll {
            fd: fd,
        }
    }

    pub unsafe fn run(self: Arc<Self>) -> ! {
        GLOBAL_EPOLL.with(|x| {
            *x.borrow_mut() = Some(self.clone());
        });
        let mut events: Vec<EpollEvent> = vec! [ EpollEvent::default(); 16 ];
        loop {
            let events_len = events.len();
            let n_ready = unsafe {
                _epoll_wait(self.fd, events.as_mut_ptr(), events_len, -1)
            };
            assert!(n_ready >= 0);
            //println!("n_ready = {}", n_ready);
            for ev in &events[..n_ready as usize] {
                if ev.events & (EPOLLIN | EPOLLOUT) != 0 {
                    //println!("Free event {:x} {:?}", ev.events, ev.data as usize as *mut AsyncState);
                    let state = unsafe {
                        Box::from_raw(ev.data as usize as *mut AsyncState)
                    };
                    (state.callback)();
                    //println!("After callback");
                } else {
                    println!("unknown event(s): 0x{:x}", ev.events);
                }
            }
        }
    }
}

impl Drop for Epoll {
    fn drop(&mut self) {
        unsafe {
            File::from_raw_fd(self.fd as _);
        }
    }
}

#[derive(Copy, Clone, Debug)]
pub enum EpollDirection {
    In,
    Out
}

pub fn schedule<F: FnOnce() + 'static>(f: F) {
    let epoll = GLOBAL_EPOLL.with(|x| x.borrow().as_ref().unwrap().clone());
    let epfd = epoll.fd;
    let imm_fd = unsafe { _get_immediate_fd() };
    assert!(imm_fd >= 0);

    let state = Box::new(AsyncState {
        callback: Box::new(move || {
            assert!(unsafe {
                _epoll_ctl(epfd, EPOLL_CTL_DEL, imm_fd, ::std::ptr::null())
            } >= 0);
            unsafe { File::from_raw_fd(imm_fd as _) };
            f();
        }),
        _epoll: epoll,
    });
    let ev = EpollEvent {
        events: EPOLLIN | EPOLLET | EPOLLONESHOT,
        data: Box::into_raw(state) as usize as _,
    };
    let ret = unsafe { _epoll_ctl(epfd, EPOLL_CTL_ADD, imm_fd, &ev) };
    assert!(ret >= 0);
}

fn get_async_io_payload<T: 'static, P: FnMut(i32) -> Result<T, i32> + 'static, F: FnOnce(Result<T, i32>) + 'static>(
    epoll: Arc<Epoll>,
    fd: i32,
    direction: EpollDirection,
    poll_action: P,
    on_ready: F,
) -> Box<FnOnce()> {
    __get_async_io_payload(epoll, fd, direction, poll_action, on_ready, false)
}

fn __get_async_io_payload<T: 'static, P: FnMut(i32) -> Result<T, i32> + 'static, F: FnOnce(Result<T, i32>) + 'static>(
    epoll: Arc<Epoll>,
    fd: i32,
    direction: EpollDirection,
    mut poll_action: P,
    on_ready: F,
    registered: bool,
) -> Box<FnOnce()> {
    let epfd = epoll.fd;
    Box::new(move || {
        //println!("async io payload");
        let ret = poll_action(fd);
        //println!("async io payload (after poll_action)");
        match ret {
            Err(x) if x == -EAGAIN || x == -EWOULDBLOCK => {
                let state = Box::new(AsyncState {
                    callback: __get_async_io_payload(epoll.clone(), fd, direction, poll_action, on_ready, true),
                    _epoll: epoll,
                });
                let direction_flag = match direction {
                    EpollDirection::In => EPOLLIN,
                    EpollDirection::Out => EPOLLOUT,
                };
                let ev = EpollEvent {
                    events: direction_flag | EPOLLET | EPOLLONESHOT,
                    data: Box::into_raw(state) as usize as _,
                };
                //println!("Alloc event {:?}", ev.data as usize as *mut AsyncState);
                let ret = unsafe { _epoll_ctl(
                    epfd,
                    EPOLL_CTL_ADD,
                    fd,
                    &ev
                ) };
                assert!(ret >= 0);
            },
            x => {
                if registered {
                    assert!(unsafe { _epoll_ctl(
                        epfd,
                        EPOLL_CTL_DEL,
                        fd,
                        ::std::ptr::null(),
                    ) } >= 0);
                }
                on_ready(x); // fast path
            }
        }
    })
}

#[repr(C)]
#[derive(Copy, Clone)]
struct SockaddrIn {
    sin_family: u16,   // e.g. AF_INET
    sin_port: u16,     // e.g. htons(3490)
    sin_addr: InAddr,
    sin_zero: [u8; 8],
}

#[repr(C)]
#[derive(Copy, Clone)]
struct InAddr {
    s_addr: u32,
}

#[repr(C)]
#[derive(Copy, Clone, Default)]
struct EpollEvent {
    events: u32,
    data: u64,
}

fn invert_byteorder_u16(x: u16) -> u16 {
    unsafe {
        use std::mem::transmute;
        let buf: [u8; 2] = transmute(x);
        let out: [u8; 2] = [buf[1], buf[0]];
        transmute(out)
    }
}

#[derive(Debug)]
pub enum SocketError {
    AddrParse(AddrParseError),
    SocketCreate,
    Bind,
    Listen,
    Accept,
    Message(String),
}

pub struct Tcp4Listener {
    addr: Ipv4Addr,
    port: u16,
    fd: i32,
}

impl Tcp4Listener {
    pub fn new<A: AsRef<str>>(
        addr: A,
        port: u16,
        backlog: u32,
    ) -> Result<Tcp4Listener, SocketError> {
        let addr: Ipv4Addr = addr.as_ref().parse().map_err(SocketError::AddrParse)?;
        let sa = SockaddrIn {
            sin_family: AF_INET as _,
            sin_port: invert_byteorder_u16(port),
            sin_addr: InAddr { s_addr: unsafe { ::std::mem::transmute(addr.octets()) } },
            sin_zero: [0; 8],
        };
        let fd = unsafe {
            _socket(AF_INET, SOCK_STREAM, 0)
        };
        if fd < 0 {
            return Err(SocketError::SocketCreate);
        }
        if(unsafe {
            _bind(fd, &sa, ::std::mem::size_of::<SockaddrIn>())
        } < 0) {
            return Err(SocketError::Bind);
        }
        if(unsafe {
            _listen(fd, backlog as _)
        } < 0) {
            return Err(SocketError::Listen);
        }

        unsafe {
            let mut socket_flags = _fcntl(fd, F_GETFL, 0) as u32;
            socket_flags |= O_NONBLOCK;
            assert!(_fcntl(fd, F_SETFL, socket_flags) >= 0);
        }

        Ok(Tcp4Listener {
            addr: addr,
            port: port,
            fd: fd,
        })
    }

    pub fn accept_async<F: Fn(Result<Arc<TcpStream>, i32>) -> Result<(), ()> + 'static>(self: Arc<Self>, ep: Arc<Epoll>, cb: F) {
        let ep2 = ep.clone();
        (get_async_io_payload(ep.clone(), self.fd, EpollDirection::In, move |fd| -> Result<Arc<TcpStream>, i32> {
            let mut incoming_sa: SockaddrIn = unsafe { ::std::mem::uninitialized() };
            let mut real_len: usize = ::std::mem::size_of::<SockaddrIn>();
            let conn = unsafe {
                _accept4(fd, &mut incoming_sa, &mut real_len, O_NONBLOCK)
            };
            if conn >= 0 {
                unsafe {
                    let mut socket_flags = _fcntl(conn, F_GETFL, 0) as u32;
                    socket_flags |= O_NONBLOCK;
                    assert!(_fcntl(conn, F_SETFL, socket_flags) >= 0);
                }
                Ok(Arc::new(TcpStream {
                    fd: conn,
                    epoll: ep.clone(),
                }))
            } else {
                Err(conn)
            }
        }, move |x| {
            if let Ok(()) = cb(x) {
                self.accept_async(ep2, cb);
            }
        }))();
    }
}

pub struct TcpStream {
    fd: i32,
    epoll: Arc<Epoll>,
}

impl TcpStream {
    pub fn __write_async(self: Arc<Self>, data: Vec<u8>, offset: usize, cb: impl FnOnce(Result<(usize, Vec<u8>), i32>) + 'static) {
        let mut data = Some(data);

        (get_async_io_payload(
            self.epoll.clone(),
            self.fd,
            EpollDirection::Out,
            move |fd| -> Result<(usize, Vec<u8>), i32> {
                let _data = data.as_ref().unwrap();
                let _data = &_data[offset..];
                let ret = unsafe {
                    _sendto(fd, _data.as_ptr(), _data.len(), 0, ::std::ptr::null(), 0)
                };
                if ret >= 0 {
                    Ok((ret as usize, data.take().unwrap()))
                } else {
                    Err(ret)
                }
            },
            move |x| {
                drop(self);
                cb(x);
            }
        ))();
    }

    pub fn write_async(self: Arc<Self>, data: Vec<u8>, cb: impl FnOnce(Result<(usize, Vec<u8>), i32>) + 'static) {
        self.__write_async(data, 0, cb)
    }

    pub fn write_all_async(self: Arc<Self>, data: Vec<u8>, cb: impl FnOnce(Result<Vec<u8>, i32>) + 'static) {
        fn inner(me: Arc<TcpStream>, data: Vec<u8>, offset: usize, cb: impl FnOnce(Result<Vec<u8>, i32>) + 'static) {
            let me2 = me.clone();
            me.__write_async(data, offset, move |result| {
                match result {
                    Ok((len, data)) => {
                        let new_offset = offset + len;
                        if new_offset == data.len() {
                            cb(Ok(data));
                        } else {
                            inner(me2, data, new_offset, cb);
                        }
                    }
                    Err(code) => {
                        cb(Err(code));
                    }
                }
            })
        }
        inner(self, data, 0, cb);
    }

    pub fn read_async(self: Arc<Self>, out: Vec<u8>, cb: impl FnOnce(Result<Vec<u8>, i32>) + 'static) {
        let mut out = Some(out);
        (get_async_io_payload(
            self.epoll.clone(),
            self.fd,
            EpollDirection::In,
            move |fd| -> Result<Vec<u8>, i32> {
                let _out = out.as_mut().unwrap();
                let out_cap = _out.capacity();
                let ret = unsafe {
                    _recvfrom(fd, _out.as_mut_ptr(), out_cap, 0, ::std::ptr::null_mut(), ::std::ptr::null_mut())
                };
                if ret >= 0 {
                    assert!(ret as usize <= out_cap);
                    unsafe {
                        _out.set_len(ret as usize);
                    }
                    Ok(out.take().unwrap())
                } else {
                    Err(ret)
                }
            },
            move |x| {
                drop(self);
                cb(x);
            }
        ))();
    }
}

impl Drop for TcpStream {
    fn drop(&mut self) {
        unsafe {
            File::from_raw_fd(self.fd as _);
        }
    }
}