CSY/reowolf Files · src/ffi/pseudo_socket_api.rs · Centrum Wiskunde & Informatica (CWI)

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Location: CSY/reowolf/src/ffi/pseudo_socket_api.rs

85419b0950c7 7.2 KiB application/rls-services+xml Show Annotation Show as Raw Download as Raw
Rewrote typing to use indices.

Currently it is slower than before, because we do a HashMap lookup
followed up by actually using the index. But it serves as the basis
for a faster type inferencer.

The main goal, however, is to fix the manner in which polymorph
types are determined. The typing queue of functions still needs to
correctly write this data to the type table.
use super::*;

use core::ops::DerefMut;
use libc::{sockaddr, socklen_t};
use std::{
    collections::HashMap,
    ffi::c_void,
    net::SocketAddr,
    os::raw::c_int,
    sync::{Mutex, RwLock},
};
///////////////////////////////////////////////////////////////////

struct FdAllocator {
    next: Option<c_int>,
    freed: Vec<c_int>,
}
enum ConnectorComplexPhased {
    Setup { local: Option<SocketAddr>, peer: Option<SocketAddr> },
    Communication { putter: PortId, getter: PortId },
}
struct ConnectorComplex {
    // invariant: .connector.phased and .phased are variants Setup/Communication in lockstep.
    connector: Connector,
    phased: ConnectorComplexPhased,
}
#[derive(Default)]
struct CcMap {
    fd_to_cc: HashMap<c_int, Mutex<ConnectorComplex>>,
    fd_allocator: FdAllocator,
}
///////////////////////////////////////////////////////////////////
unsafe fn payload_from_raw(bytes_ptr: *const c_void, bytes_len: usize) -> Payload {
    let bytes_ptr = std::mem::transmute(bytes_ptr);
    let bytes = &*slice_from_raw_parts(bytes_ptr, bytes_len);
    Payload::from(bytes)
}
unsafe fn libc_to_std_sockaddr(addr: *const sockaddr, addr_len: socklen_t) -> Option<SocketAddr> {
    os_socketaddr::OsSocketAddr::from_raw_parts(addr as _, addr_len as usize).into_addr()
}
impl Default for FdAllocator {
    fn default() -> Self {
        // negative FDs aren't used s.t. they are available for error signalling
        Self { next: Some(0), freed: vec![] }
    }
}
impl FdAllocator {
    fn alloc(&mut self) -> c_int {
        if let Some(fd) = self.freed.pop() {
            return fd;
        }
        if let Some(fd) = self.next {
            self.next = fd.checked_add(1);
            return fd;
        }
        panic!("No more Connector FDs to allocate!")
    }
    fn free(&mut self, fd: c_int) {
        self.freed.push(fd);
    }
}
lazy_static::lazy_static! {
    static ref CC_MAP: RwLock<CcMap> = Default::default();
    static ref TRIVIAL_PD: Arc<ProtocolDescription> = {
        Arc::new(ProtocolDescription::parse(b"").unwrap())
    };
}
impl ConnectorComplex {
    fn try_become_connected(&mut self) {
        match self.phased {
            ConnectorComplexPhased::Setup { local: Some(local), peer: Some(peer) } => {
                // complete setup
                let [putter, getter] =
                    self.connector.new_udp_mediator_component(local, peer).unwrap();
                self.connector.connect(None).unwrap();
                self.phased = ConnectorComplexPhased::Communication { putter, getter }
            }
            _ => {} // setup incomplete
        }
    }
}
/////////////////////////////////
#[no_mangle]
pub extern "C" fn rw_socket(_domain: c_int, _type: c_int, _protocol: c_int) -> c_int {
    // get writer lock
    let mut w = if let Ok(w) = CC_MAP.write() { w } else { return RW_LOCK_POISONED };

    let fd = w.fd_allocator.alloc();
    let cc = ConnectorComplex {
        connector: Connector::new(
            Box::new(crate::DummyLogger),
            TRIVIAL_PD.clone(),
            Connector::random_id(),
        ),
        phased: ConnectorComplexPhased::Setup { local: None, peer: None },
    };
    w.fd_to_cc.insert(fd, Mutex::new(cc));
    fd
}
#[no_mangle]
pub extern "C" fn rw_close(fd: c_int, _how: c_int) -> c_int {
    // ignoring HOW
    // get writer lock
    let mut w = if let Ok(w) = CC_MAP.write() { w } else { return RW_LOCK_POISONED };
    if w.fd_to_cc.remove(&fd).is_some() {
        w.fd_allocator.free(fd);
        RW_OK
    } else {
        RW_CLOSE_FAIL
    }
}
#[no_mangle]
pub unsafe extern "C" fn rw_bind(fd: c_int, addr: *const sockaddr, addr_len: socklen_t) -> c_int {
    // assuming _domain is AF_INET and _type is SOCK_DGRAM
    let addr = match libc_to_std_sockaddr(addr, addr_len) {
        Some(addr) => addr,
        _ => return RW_BAD_SOCKADDR,
    };
    // get outer reader, inner writer locks
    let r = if let Ok(r) = CC_MAP.read() { r } else { return RW_LOCK_POISONED };
    let cc = if let Some(cc) = r.fd_to_cc.get(&fd) { cc } else { return RW_BAD_FD };
    let mut cc = if let Ok(cc) = cc.lock() { cc } else { return RW_LOCK_POISONED };
    match &mut cc.phased {
        ConnectorComplexPhased::Communication { .. } => RW_WRONG_STATE,
        ConnectorComplexPhased::Setup { local, .. } => {
            *local = Some(addr);
            cc.try_become_connected();
            RW_OK
        }
    }
}
#[no_mangle]
pub unsafe extern "C" fn rw_connect(
    fd: c_int,
    addr: *const sockaddr,
    addr_len: socklen_t,
) -> c_int {
    let addr = match libc_to_std_sockaddr(addr, addr_len) {
        Some(addr) => addr,
        _ => return RW_BAD_SOCKADDR,
    };
    // assuming _domain is AF_INET and _type is SOCK_DGRAM
    // get outer reader, inner writer locks
    let r = if let Ok(r) = CC_MAP.read() { r } else { return RW_LOCK_POISONED };
    let cc = if let Some(cc) = r.fd_to_cc.get(&fd) { cc } else { return RW_BAD_FD };
    let mut cc = if let Ok(cc) = cc.lock() { cc } else { return RW_LOCK_POISONED };
    match &mut cc.phased {
        ConnectorComplexPhased::Communication { .. } => RW_WRONG_STATE,
        ConnectorComplexPhased::Setup { peer, .. } => {
            *peer = Some(addr);
            cc.try_become_connected();
            RW_OK
        }
    }
}
#[no_mangle]
pub unsafe extern "C" fn rw_send(
    fd: c_int,
    bytes_ptr: *const c_void,
    bytes_len: usize,
    _flags: c_int,
) -> isize {
    // ignoring flags
    // get outer reader, inner writer locks
    let r = if let Ok(r) = CC_MAP.read() { r } else { return RW_LOCK_POISONED as isize };
    let cc = if let Some(cc) = r.fd_to_cc.get(&fd) { cc } else { return RW_BAD_FD as isize };
    let mut cc = if let Ok(cc) = cc.lock() { cc } else { return RW_LOCK_POISONED as isize };
    let ConnectorComplex { connector, phased } = cc.deref_mut();
    match phased {
        ConnectorComplexPhased::Setup { .. } => RW_WRONG_STATE as isize,
        ConnectorComplexPhased::Communication { putter, .. } => {
            let payload = payload_from_raw(bytes_ptr, bytes_len);
            connector.put(*putter, payload).unwrap();
            connector.sync(None).unwrap();
            bytes_len as isize
        }
    }
}
#[no_mangle]
pub unsafe extern "C" fn rw_recv(
    fd: c_int,
    bytes_ptr: *mut c_void,
    bytes_len: usize,
    _flags: c_int,
) -> isize {
    // ignoring flags
    // get outer reader, inner writer locks
    let r = if let Ok(r) = CC_MAP.read() { r } else { return RW_LOCK_POISONED as isize };
    let cc = if let Some(cc) = r.fd_to_cc.get(&fd) { cc } else { return RW_BAD_FD as isize };
    let mut cc = if let Ok(cc) = cc.lock() { cc } else { return RW_LOCK_POISONED as isize };
    let ConnectorComplex { connector, phased } = cc.deref_mut();
    match phased {
        ConnectorComplexPhased::Setup { .. } => RW_WRONG_STATE as isize,
        ConnectorComplexPhased::Communication { getter, .. } => {
            connector.get(*getter).unwrap();
            connector.sync(None).unwrap();
            let slice = connector.gotten(*getter).unwrap().as_slice();
            if !bytes_ptr.is_null() {
                let cpy_msg_bytes = slice.len().min(bytes_len);
                std::ptr::copy_nonoverlapping(slice.as_ptr(), bytes_ptr as *mut u8, cpy_msg_bytes);
            }
            slice.len() as isize
        }
    }
}