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denoland-deno/core/lib.rs

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#[macro_use]
extern crate log;
extern crate futures;
extern crate libc;
mod js_errors;
mod libdeno;
mod shared;
pub use crate::js_errors::*;
pub use crate::libdeno::deno_buf;
pub use crate::shared::*;
use futures::Async;
use futures::Future;
use futures::Poll;
use libc::c_void;
use std::collections::HashMap;
use std::ffi::CStr;
use std::ffi::CString;
use std::sync::{Once, ONCE_INIT};
pub struct Isolate {
libdeno_isolate: *const libdeno::isolate,
pending_ops: HashMap<i32, PendingOp>, // promise_id -> op
polled_recently: bool,
recv_cb: RecvCallback,
pub shared: Shared,
pub test_send_counter: u32, // TODO only used for testing- REMOVE.
}
pub type RecvCallback = fn(isolate: &mut Isolate, zero_copy_buf: deno_buf);
pub const NUM_RECORDS: usize = 100;
// TODO rename to AsyncResult
pub struct AsyncResult {
pub result: i32,
}
pub type Op = dyn Future<Item = AsyncResult, Error = std::io::Error> + Send;
struct PendingOp {
op: Box<Op>,
polled_recently: bool,
zero_copy_id: usize, // non-zero if associated zero-copy buffer.
}
static DENO_INIT: Once = ONCE_INIT;
unsafe impl Send for Isolate {}
impl Isolate {
pub fn new(recv_cb: RecvCallback) -> Self {
DENO_INIT.call_once(|| {
unsafe { libdeno::deno_init() };
});
// Allocate unmanaged memory for the shared buffer by creating a Vec<u8>,
// grabbing the raw pointer, and then leaking the Vec so it is never freed.
let mut shared = Shared::new();
let shared_deno_buf = shared.as_deno_buf();
let config = libdeno::deno_config {
will_snapshot: 0,
load_snapshot: deno_buf::empty(), // TODO
shared: shared_deno_buf,
recv_cb: pre_dispatch,
};
let libdeno_isolate = unsafe { libdeno::deno_new(config) };
Self {
pending_ops: HashMap::new(),
polled_recently: false,
libdeno_isolate,
test_send_counter: 0,
recv_cb,
shared,
}
}
fn zero_copy_release(&self, zero_copy_id: usize) {
unsafe {
libdeno::deno_zero_copy_release(self.libdeno_isolate, zero_copy_id)
}
}
pub fn add_op(
self: &mut Self,
promise_id: i32,
op: Box<Op>,
zero_copy_id: usize,
) {
debug!("add_op {}", zero_copy_id);
self.pending_ops.insert(
promise_id,
PendingOp {
op,
polled_recently: false,
zero_copy_id,
},
);
self.polled_recently = false;
}
#[inline]
pub unsafe fn from_raw_ptr<'a>(ptr: *const c_void) -> &'a mut Self {
let ptr = ptr as *mut _;
&mut *ptr
}
#[inline]
pub fn as_raw_ptr(&self) -> *const c_void {
self as *const _ as *const c_void
}
pub fn execute(
&self,
js_filename: &str,
js_source: &str,
) -> Result<(), JSError> {
let filename = CString::new(js_filename).unwrap();
let source = CString::new(js_source).unwrap();
unsafe {
libdeno::deno_execute(
self.libdeno_isolate,
self.as_raw_ptr(),
filename.as_ptr(),
source.as_ptr(),
)
};
if let Some(err) = self.last_exception() {
return Err(err);
}
Ok(())
}
pub fn last_exception(&self) -> Option<JSError> {
let ptr = unsafe { libdeno::deno_last_exception(self.libdeno_isolate) };
if ptr.is_null() {
None
} else {
let cstr = unsafe { CStr::from_ptr(ptr) };
let v8_exception = cstr.to_str().unwrap();
debug!("v8_exception\n{}\n", v8_exception);
let js_error = JSError::from_v8_exception(v8_exception).unwrap();
Some(js_error)
}
}
fn check_promise_errors(&self) {
unsafe {
libdeno::deno_check_promise_errors(self.libdeno_isolate);
}
}
fn respond(&mut self) -> Result<(), JSError> {
let buf = deno_buf::empty();
unsafe {
libdeno::deno_respond(self.libdeno_isolate, self.as_raw_ptr(), buf)
}
if let Some(err) = self.last_exception() {
Err(err)
} else {
Ok(())
}
}
}
struct LockerScope {
libdeno_isolate: *const libdeno::isolate,
}
impl LockerScope {
fn new(isolate: &Isolate) -> LockerScope {
let libdeno_isolate = isolate.libdeno_isolate;
unsafe { libdeno::deno_lock(libdeno_isolate) }
LockerScope { libdeno_isolate }
}
}
impl Drop for LockerScope {
fn drop(&mut self) {
unsafe { libdeno::deno_unlock(self.libdeno_isolate) }
}
}
impl Future for Isolate {
type Item = ();
type Error = JSError;
fn poll(&mut self) -> Poll<(), JSError> {
// Lock the current thread for V8.
let _locker = LockerScope::new(self);
// Clear
self.polled_recently = false;
for (_, pending) in self.pending_ops.iter_mut() {
pending.polled_recently = false;
}
while !self.polled_recently {
let mut complete = HashMap::<i32, AsyncResult>::new();
self.polled_recently = true;
for (promise_id, pending) in self.pending_ops.iter_mut() {
// Do not call poll on futures we've already polled this turn.
if pending.polled_recently {
continue;
}
pending.polled_recently = true;
let promise_id = *promise_id;
let op = &mut pending.op;
match op.poll() {
Err(op_err) => {
eprintln!("op err {:?}", op_err);
complete.insert(promise_id, AsyncResult { result: -1 });
debug!("pending op {} complete err", promise_id);
}
Ok(Async::Ready(async_result)) => {
complete.insert(promise_id, async_result);
debug!("pending op {} complete ready", promise_id);
}
Ok(Async::NotReady) => {
debug!("pending op {} not ready", promise_id);
continue;
}
}
}
self.shared.set_num_records(complete.len() as i32);
if complete.len() > 0 {
// self.zero_copy_release() and self.respond() need Locker.
let mut i = 0;
for (promise_id, async_result) in complete.iter_mut() {
let pending = self.pending_ops.remove(promise_id).unwrap();
if pending.zero_copy_id > 0 {
self.zero_copy_release(pending.zero_copy_id);
}
self
.shared
.set_record(i, RECORD_OFFSET_PROMISE_ID, *promise_id);
self
.shared
.set_record(i, RECORD_OFFSET_RESULT, async_result.result);
i += 1;
}
self.respond()?;
}
}
self.check_promise_errors();
if let Some(err) = self.last_exception() {
return Err(err);
}
// We're idle if pending_ops is empty.
if self.pending_ops.is_empty() {
Ok(futures::Async::Ready(()))
} else {
Ok(futures::Async::NotReady)
}
}
}
extern "C" fn pre_dispatch(
user_data: *mut c_void,
control_buf: deno_buf,
zero_copy_buf: deno_buf,
) {
let isolate = unsafe { Isolate::from_raw_ptr(user_data) };
assert_eq!(control_buf.len(), 0);
(isolate.recv_cb)(isolate, zero_copy_buf);
}
#[cfg(test)]
mod tests {
use super::*;
fn inc_counter(isolate: &mut Isolate, zero_copy_buf: deno_buf) {
assert_eq!(zero_copy_buf.len(), 0);
isolate.test_send_counter += 1; // TODO ideally store this in isolate.state?
}
fn js_check(r: Result<(), JSError>) {
if let Err(e) = r {
panic!(e.to_string());
}
}
#[test]
fn test_execute() {
let isolate = Isolate::new(inc_counter);
js_check(isolate.execute(
"filename.js",
r#"
libdeno.send();
async function main() {
libdeno.send();
}
main();
"#,
));
// We expect that main is executed even tho we didn't poll.
assert_eq!(isolate.test_send_counter, 2);
}
fn async_immediate(isolate: &mut Isolate, zero_copy_buf: deno_buf) {
assert_eq!(zero_copy_buf.len(), 0);
isolate.test_send_counter += 1; // TODO ideally store this in isolate.state?
let promise_id = 0;
let op = Box::new(futures::future::ok(AsyncResult { result: 0 }));
isolate.add_op(promise_id, op, zero_copy_buf.zero_copy_id);
}
#[test]
fn test_poll_async_immediate_ops() {
let mut isolate = Isolate::new(async_immediate);
js_check(isolate.execute(
"setup.js",
r#"
let nrecv = 0;
libdeno.recv(() => {
nrecv++;
});
function assertEq(actual, expected) {
if (expected != actual) {
throw Error(`actual ${actual} expected ${expected} `);
}
}
"#,
));
assert_eq!(isolate.test_send_counter, 0);
js_check(isolate.execute(
"check1.js",
r#"
assertEq(nrecv, 0);
libdeno.send();
assertEq(nrecv, 0);
"#,
));
assert_eq!(isolate.test_send_counter, 1);
assert_eq!(Ok(Async::Ready(())), isolate.poll());
assert_eq!(isolate.test_send_counter, 1);
js_check(isolate.execute(
"check2.js",
r#"
assertEq(nrecv, 1);
libdeno.send();
assertEq(nrecv, 1);
"#,
));
assert_eq!(isolate.test_send_counter, 2);
assert_eq!(Ok(Async::Ready(())), isolate.poll());
js_check(isolate.execute("check3.js", "assertEq(nrecv, 2)"));
assert_eq!(isolate.test_send_counter, 2);
// We are idle, so the next poll should be the last.
assert_eq!(Ok(Async::Ready(())), isolate.poll());
}
}