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|
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
use core::ops::Deref;
use crate::flags::DenoFlags;
use crate::isolate_state::*;
use crate::js_errors::JSErrorColor;
use crate::msg;
use crate::ops;
use crate::resources;
use crate::resources::ResourceId;
use crate::startup_data;
use crate::workers;
use crate::workers::WorkerBehavior;
use crate::workers::WorkerInit;
use deno::deno_buf;
use deno::Behavior;
use deno::Buf;
use deno::JSError;
use deno::Op;
use deno::StartupData;
use futures::future::*;
use futures::sync::oneshot;
use futures::Future;
use serde_json;
use std::str;
use std::sync::Arc;
use std::sync::Mutex;
use tokio::runtime::Runtime;
/// Used for normalization of types on internal future completions
type CompilerInnerResult = Result<ModuleMetaData, Option<JSError>>;
type WorkerErrReceiver = oneshot::Receiver<CompilerInnerResult>;
/// Shared resources for used to complete compiler operations.
/// rid is the resource id for compiler worker resource used for sending it
/// compile requests
/// worker_err_receiver is a shared future that will compelete when the
/// compiler worker future completes, and send back an error if present
/// or a None if not
#[derive(Clone)]
struct CompilerShared {
pub rid: ResourceId,
pub worker_err_receiver: Shared<WorkerErrReceiver>,
}
lazy_static! {
// Shared worker resources so we can spawn
static ref C_SHARED: Mutex<Option<CompilerShared>> = Mutex::new(None);
// tokio runtime specifically for spawning logic that is dependent on
// completetion of the compiler worker future
static ref C_RUNTIME: Mutex<Runtime> = Mutex::new(Runtime::new().unwrap());
}
pub struct CompilerBehavior {
pub state: Arc<IsolateState>,
}
impl CompilerBehavior {
pub fn new(flags: DenoFlags, argv_rest: Vec<String>) -> Self {
Self {
state: Arc::new(IsolateState::new(flags, argv_rest, None, true)),
}
}
}
impl IsolateStateContainer for CompilerBehavior {
fn state(&self) -> Arc<IsolateState> {
self.state.clone()
}
}
impl IsolateStateContainer for &CompilerBehavior {
fn state(&self) -> Arc<IsolateState> {
self.state.clone()
}
}
impl Behavior for CompilerBehavior {
fn startup_data(&mut self) -> Option<StartupData> {
Some(startup_data::compiler_isolate_init())
}
fn dispatch(
&mut self,
control: &[u8],
zero_copy: deno_buf,
) -> (bool, Box<Op>) {
ops::dispatch_all(self, control, zero_copy, ops::op_selector_compiler)
}
}
impl WorkerBehavior for CompilerBehavior {
fn set_internal_channels(&mut self, worker_channels: WorkerChannels) {
self.state = Arc::new(IsolateState::new(
self.state.flags.clone(),
self.state.argv.clone(),
Some(worker_channels),
true,
));
}
}
// This corresponds to JS ModuleMetaData.
// TODO Rename one or the other so they correspond.
#[derive(Debug, Clone)]
pub struct ModuleMetaData {
pub module_name: String,
pub filename: String,
pub media_type: msg::MediaType,
pub source_code: Vec<u8>,
pub maybe_output_code_filename: Option<String>,
pub maybe_output_code: Option<Vec<u8>>,
pub maybe_source_map_filename: Option<String>,
pub maybe_source_map: Option<Vec<u8>>,
}
impl ModuleMetaData {
pub fn has_output_code_and_source_map(&self) -> bool {
self.maybe_output_code.is_some() && self.maybe_source_map.is_some()
}
pub fn js_source(&self) -> String {
if self.media_type == msg::MediaType::Json {
return format!(
"export default {};",
str::from_utf8(&self.source_code).unwrap()
);
}
match self.maybe_output_code {
None => str::from_utf8(&self.source_code).unwrap().to_string(),
Some(ref output_code) => str::from_utf8(output_code).unwrap().to_string(),
}
}
}
fn lazy_start(parent_state: Arc<IsolateState>) -> CompilerShared {
let mut cell = C_SHARED.lock().unwrap();
cell
.get_or_insert_with(|| {
let worker_result = workers::spawn(
CompilerBehavior::new(
parent_state.flags.clone(),
parent_state.argv.clone(),
),
"TS",
WorkerInit::Script("compilerMain()".to_string()),
);
match worker_result {
Ok(worker) => {
let rid = worker.resource.rid.clone();
// create oneshot channels and use the sender to pass back
// results from worker future
let (err_sender, err_receiver) =
oneshot::channel::<CompilerInnerResult>();
let mut runtime = C_RUNTIME.lock().unwrap();
runtime.spawn(lazy(move || {
let resource = worker.resource.clone();
worker.then(move |result| -> Result<(), ()> {
resource.close();
match result {
Err(err) => err_sender.send(Err(Some(err))).unwrap(),
_ => err_sender.send(Err(None)).unwrap(),
};
Ok(())
})
}));
CompilerShared {
rid,
worker_err_receiver: err_receiver.shared(),
}
}
Err(err) => {
println!("{}", err.to_string());
std::process::exit(1);
}
}
}).clone()
}
fn show_compiler_error(err: JSError) -> ModuleMetaData {
eprintln!("{}", JSErrorColor(&err).to_string());
std::process::exit(1);
}
fn req(specifier: &str, referrer: &str, is_worker_main: bool) -> Buf {
json!({
"specifier": specifier,
"referrer": referrer,
"isWorker": is_worker_main
}).to_string()
.into_boxed_str()
.into_boxed_bytes()
}
pub fn compile_sync(
parent_state: Arc<IsolateState>,
specifier: &str,
referrer: &str,
module_meta_data: &ModuleMetaData,
) -> ModuleMetaData {
let is_worker = parent_state.is_worker.clone();
let shared = lazy_start(parent_state);
let (local_sender, local_receiver) =
oneshot::channel::<Result<ModuleMetaData, Option<JSError>>>();
// Just some extra scoping to keep things clean
{
let compiler_rid = shared.rid.clone();
let module_meta_data_ = module_meta_data.clone();
let req_msg = req(specifier, referrer, is_worker);
let sender_arc = Arc::new(Some(local_sender));
let specifier_ = specifier.clone().to_string();
let referrer_ = referrer.clone().to_string();
let mut runtime = C_RUNTIME.lock().unwrap();
runtime.spawn(lazy(move || {
debug!(
"Running rust part of compile_sync specifier: {} referrer: {}",
specifier_, referrer_
);
let mut send_sender_arc = sender_arc.clone();
resources::post_message_to_worker(compiler_rid, req_msg)
.map_err(move |_| {
let sender = Arc::get_mut(&mut send_sender_arc).unwrap().take();
sender.unwrap().send(Err(None)).unwrap()
}).and_then(move |_| {
debug!(
"Sent message to worker specifier: {} referrer: {}",
specifier_, referrer_
);
let mut get_sender_arc = sender_arc.clone();
let mut result_sender_arc = sender_arc.clone();
resources::get_message_from_worker(compiler_rid)
.map_err(move |_| {
let sender = Arc::get_mut(&mut get_sender_arc).unwrap().take();
sender.unwrap().send(Err(None)).unwrap()
}).and_then(move |res_msg_option| -> Result<(), ()> {
debug!(
"Recieved message from worker specifier: {} referrer: {}",
specifier_, referrer_
);
let res_msg = res_msg_option.unwrap();
let res_json = std::str::from_utf8(&res_msg).unwrap();
let sender = Arc::get_mut(&mut result_sender_arc).unwrap().take();
let sender = sender.unwrap();
Ok(
sender
.send(Ok(match serde_json::from_str::<serde_json::Value>(
res_json,
) {
Ok(serde_json::Value::Object(map)) => ModuleMetaData {
module_name: module_meta_data_.module_name.clone(),
filename: module_meta_data_.filename.clone(),
media_type: module_meta_data_.media_type,
source_code: module_meta_data_.source_code.clone(),
maybe_output_code: match map["outputCode"].as_str() {
Some(str) => Some(str.as_bytes().to_owned()),
_ => None,
},
maybe_output_code_filename: None,
maybe_source_map: match map["sourceMap"].as_str() {
Some(str) => Some(str.as_bytes().to_owned()),
_ => None,
},
maybe_source_map_filename: None,
},
_ => panic!("error decoding compiler response"),
})).unwrap(),
)
})
})
}));
}
let worker_receiver = shared.worker_err_receiver.clone();
let union =
futures::future::select_all(vec![worker_receiver, local_receiver.shared()]);
match union.wait() {
Ok((result, i, rest)) => {
// We got a sucessful finish before any recivers where canceled
let mut rest_mut = rest;
match ((*result.deref()).clone(), i) {
// Either receiver was completed with success.
(Ok(v), _) => v,
// Either receiver was completed with a valid error
// this should be fatal for now since it is not intended
// to be possible to recover from a uncaught error in a isolate
(Err(Some(err)), _) => show_compiler_error(err),
// local_receiver finished first with a none error. This is intended
// to catch when the local logic can't complete because it is unable
// to send and/or receive messages from the compiler worker.
// Due to the way that scheduling works it is very likely that the
// compiler worker future has already or will in the near future
// complete with a valid JSError or a None.
(Err(None), 1) => {
debug!("Compiler local exited with None error!");
// While technically possible to get stuck here indefinately
// in theory it is highly unlikely.
debug!(
"Waiting on compiler worker result specifier: {} referrer: {}!",
specifier, referrer
);
let worker_result =
(*rest_mut.remove(0).wait().unwrap().deref()).clone();
debug!(
"Finished waiting on worker result specifier: {} referrer: {}!",
specifier, referrer
);
match worker_result {
Err(Some(err)) => show_compiler_error(err),
Err(None) => panic!("Compiler exit for an unknown reason!"),
Ok(v) => v,
}
}
// While possible beccause the compiler worker can exit without error
// this shouldn't occurr normally and I don't intend to attempt to
// handle it right now
(_, i) => panic!("Odd compiler result for future {}!", i),
}
}
// This should always a result of a reciver being cancled
// in theory but why not give a print out just in case
Err((err, i, _)) => panic!("compile_sync {} failed: {}", i, err),
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::tokio_util;
#[test]
fn test_compile_sync() {
tokio_util::init(|| {
let cwd = std::env::current_dir().unwrap();
let cwd_string = cwd.to_str().unwrap().to_owned();
let specifier = "./tests/002_hello.ts";
let referrer = cwd_string + "/";
let mut out = ModuleMetaData {
module_name: "xxx".to_owned(),
filename: "/tests/002_hello.ts".to_owned(),
media_type: msg::MediaType::TypeScript,
source_code: include_bytes!("../tests/002_hello.ts").to_vec(),
maybe_output_code_filename: None,
maybe_output_code: None,
maybe_source_map_filename: None,
maybe_source_map: None,
};
out = compile_sync(
Arc::new(IsolateState::mock()),
specifier,
&referrer,
&out,
);
assert!(
out
.maybe_output_code
.unwrap()
.starts_with("console.log(\"Hello World\");".as_bytes())
);
});
}
}
|
