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denoland-deno/cli/state.rs
Bartek Iwańczuk 9d63772fe5
refactor: rewrite TS dependency analysis in Rust (#5029) 
This commit completely overhauls how module analysis is 
performed in TS compiler by moving the logic to Rust.

In the current setup module analysis is performed using 
"ts.preProcessFile" API in a special TS compiler worker 
running on a separate thread.

"ts.preProcessFile" allowed us to build a lot of functionality
in CLI including X-TypeScript-Types header support 
and @deno-types directive support. Unfortunately at the 
same time complexity of the ops required to perform 
supporting tasks exploded and caused some hidden 
permission escapes.

This PR introduces "ModuleGraphLoader" which can parse
source and load recursively all dependent source files; as 
well as declaration files. All dependencies used in TS 
compiler and now fetched and collected upfront in Rust 
before spinning up TS compiler.

To achieve feature parity with existing APIs this commit 
includes a lot of changes:

* add "ModuleGraphLoader"
  - can fetch local and remote sources
  - parses source code using SWC and extracts imports, exports, file references, special 
     headers
  - this struct inherited all of the hidden complexity and cruft from TS version and requires 
     several follow up PRs
* rewrite cli/tsc.rs to perform module analysis upfront and send all required source code to 
  TS worker in one message
* remove op_resolve_modules and op_fetch_source_files from cli/ops/compiler.rs
* run TS worker on the same thread
2020-05-18 12:59:29 +02:00

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use crate::file_fetcher::SourceFileFetcher;
use crate::global_state::GlobalState;
use crate::global_timer::GlobalTimer;
use crate::import_map::ImportMap;
use crate::inspector::DenoInspector;
use crate::metrics::Metrics;
use crate::op_error::OpError;
use crate::ops::JsonOp;
use crate::ops::MinimalOp;
use crate::permissions::Permissions;
use crate::tsc::TargetLib;
use crate::web_worker::WebWorkerHandle;
use deno_core::Buf;
use deno_core::CoreIsolate;
use deno_core::ErrBox;
use deno_core::ModuleLoadId;
use deno_core::ModuleLoader;
use deno_core::ModuleSpecifier;
use deno_core::Op;
use deno_core::ZeroCopyBuf;
use futures::future::FutureExt;
use futures::Future;
use rand::rngs::StdRng;
use rand::SeedableRng;
use serde_json::Value;
use std::cell::RefCell;
use std::collections::HashMap;
use std::ops::Deref;
use std::path::Path;
use std::pin::Pin;
use std::rc::Rc;
use std::str;
use std::thread::JoinHandle;
use std::time::Instant;
#[derive(Clone)]
pub struct State(Rc<RefCell<StateInner>>);
impl Deref for State {
type Target = Rc<RefCell<StateInner>>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[cfg_attr(feature = "cargo-clippy", allow(stutter))]
pub struct StateInner {
pub global_state: GlobalState,
pub permissions: Permissions,
pub main_module: ModuleSpecifier,
/// When flags contains a `.import_map_path` option, the content of the
/// import map file will be resolved and set.
pub import_map: Option<ImportMap>,
pub metrics: Metrics,
pub global_timer: GlobalTimer,
pub workers: HashMap<u32, (JoinHandle<()>, WebWorkerHandle)>,
pub next_worker_id: u32,
pub start_time: Instant,
pub seeded_rng: Option<StdRng>,
pub target_lib: TargetLib,
pub is_main: bool,
pub is_internal: bool,
pub inspector: Option<Box<DenoInspector>>,
}
impl State {
pub fn stateful_json_op<D>(
&self,
dispatcher: D,
) -> impl Fn(&mut deno_core::CoreIsolate, &[u8], Option<ZeroCopyBuf>) -> Op
where
D: Fn(&State, Value, Option<ZeroCopyBuf>) -> Result<JsonOp, OpError>,
{
use crate::ops::json_op;
self.core_op(json_op(self.stateful_op(dispatcher)))
}
pub fn stateful_json_op2<D>(
&self,
dispatcher: D,
) -> impl Fn(&mut deno_core::CoreIsolate, &[u8], Option<ZeroCopyBuf>) -> Op
where
D: Fn(
&mut deno_core::CoreIsolate,
&State,
Value,
Option<ZeroCopyBuf>,
) -> Result<JsonOp, OpError>,
{
use crate::ops::json_op;
self.core_op(json_op(self.stateful_op2(dispatcher)))
}
/// Wrap core `OpDispatcher` to collect metrics.
// TODO(ry) this should be private. Is called by stateful_json_op or
// stateful_minimal_op
pub fn core_op<D>(
&self,
dispatcher: D,
) -> impl Fn(&mut deno_core::CoreIsolate, &[u8], Option<ZeroCopyBuf>) -> Op
where
D: Fn(&mut deno_core::CoreIsolate, &[u8], Option<ZeroCopyBuf>) -> Op,
{
let state = self.clone();
move |isolate: &mut deno_core::CoreIsolate,
control: &[u8],
zero_copy: Option<ZeroCopyBuf>|
-> Op {
let bytes_sent_control = control.len() as u64;
let bytes_sent_zero_copy =
zero_copy.as_ref().map(|b| b.len()).unwrap_or(0) as u64;
let op = dispatcher(isolate, control, zero_copy);
match op {
Op::Sync(buf) => {
let mut state_ = state.borrow_mut();
state_.metrics.op_sync(
bytes_sent_control,
bytes_sent_zero_copy,
buf.len() as u64,
);
Op::Sync(buf)
}
Op::Async(fut) => {
let mut state_ = state.borrow_mut();
state_
.metrics
.op_dispatched_async(bytes_sent_control, bytes_sent_zero_copy);
let state = state.clone();
let result_fut = fut.map(move |buf: Buf| {
let mut state_ = state.borrow_mut();
state_.metrics.op_completed_async(buf.len() as u64);
buf
});
Op::Async(result_fut.boxed_local())
}
Op::AsyncUnref(fut) => {
let mut state_ = state.borrow_mut();
state_.metrics.op_dispatched_async_unref(
bytes_sent_control,
bytes_sent_zero_copy,
);
let state = state.clone();
let result_fut = fut.map(move |buf: Buf| {
let mut state_ = state.borrow_mut();
state_.metrics.op_completed_async_unref(buf.len() as u64);
buf
});
Op::AsyncUnref(result_fut.boxed_local())
}
}
}
}
pub fn stateful_minimal_op2<D>(
&self,
dispatcher: D,
) -> impl Fn(&mut deno_core::CoreIsolate, &[u8], Option<ZeroCopyBuf>) -> Op
where
D: Fn(
&mut deno_core::CoreIsolate,
&State,
bool,
i32,
Option<ZeroCopyBuf>,
) -> MinimalOp,
{
let state = self.clone();
self.core_op(crate::ops::minimal_op(
move |isolate: &mut deno_core::CoreIsolate,
is_sync: bool,
rid: i32,
zero_copy: Option<ZeroCopyBuf>|
-> MinimalOp {
dispatcher(isolate, &state, is_sync, rid, zero_copy)
},
))
}
/// This is a special function that provides `state` argument to dispatcher.
///
/// NOTE: This only works with JSON dispatcher.
/// This is a band-aid for transition to `CoreIsolate.register_op` API as most of our
/// ops require `state` argument.
pub fn stateful_op<D>(
&self,
dispatcher: D,
) -> impl Fn(
&mut deno_core::CoreIsolate,
Value,
Option<ZeroCopyBuf>,
) -> Result<JsonOp, OpError>
where
D: Fn(&State, Value, Option<ZeroCopyBuf>) -> Result<JsonOp, OpError>,
{
let state = self.clone();
move |_isolate: &mut deno_core::CoreIsolate,
args: Value,
zero_copy: Option<ZeroCopyBuf>|
-> Result<JsonOp, OpError> { dispatcher(&state, args, zero_copy) }
}
pub fn stateful_op2<D>(
&self,
dispatcher: D,
) -> impl Fn(
&mut deno_core::CoreIsolate,
Value,
Option<ZeroCopyBuf>,
) -> Result<JsonOp, OpError>
where
D: Fn(
&mut deno_core::CoreIsolate,
&State,
Value,
Option<ZeroCopyBuf>,
) -> Result<JsonOp, OpError>,
{
let state = self.clone();
move |isolate: &mut deno_core::CoreIsolate,
args: Value,
zero_copy: Option<ZeroCopyBuf>|
-> Result<JsonOp, OpError> {
dispatcher(isolate, &state, args, zero_copy)
}
}
/// Quits the process if the --unstable flag was not provided.
///
/// This is intentionally a non-recoverable check so that people cannot probe
/// for unstable APIs from stable programs.
pub fn check_unstable(&self, api_name: &str) {
// TODO(ry) Maybe use IsolateHandle::terminate_execution here to provide a
// stack trace in JS.
let s = self.0.borrow();
if !s.global_state.flags.unstable {
exit_unstable(api_name);
}
}
}
pub fn exit_unstable(api_name: &str) {
eprintln!(
"Unstable API '{}'. The --unstable flag must be provided.",
api_name
);
std::process::exit(70);
}
impl ModuleLoader for State {
fn resolve(
&self,
specifier: &str,
referrer: &str,
is_main: bool,
) -> Result<ModuleSpecifier, ErrBox> {
if !is_main {
if let Some(import_map) = &self.borrow().import_map {
let result = import_map.resolve(specifier, referrer)?;
if let Some(r) = result {
return Ok(r);
}
}
}
let module_specifier =
ModuleSpecifier::resolve_import(specifier, referrer)?;
Ok(module_specifier)
}
/// Given an absolute url, load its source code.
fn load(
&self,
module_specifier: &ModuleSpecifier,
maybe_referrer: Option<ModuleSpecifier>,
is_dyn_import: bool,
) -> Pin<Box<deno_core::ModuleSourceFuture>> {
let module_specifier = module_specifier.clone();
if is_dyn_import {
if let Err(e) = self.check_dyn_import(&module_specifier) {
return async move { Err(e.into()) }.boxed_local();
}
} else {
// Verify that remote file doesn't try to statically import local file.
if let Some(referrer) = maybe_referrer.as_ref() {
let referrer_url = referrer.as_url();
match referrer_url.scheme() {
"http" | "https" => {
let specifier_url = module_specifier.as_url();
match specifier_url.scheme() {
"http" | "https" => {}
_ => {
let e = OpError::permission_denied("Remote module are not allowed to statically import local modules. Use dynamic import instead.".to_string());
return async move { Err(e.into()) }.boxed_local();
}
}
}
_ => {}
}
}
}
let mut state = self.borrow_mut();
// TODO(bartlomieju): incrementing resolve_count here has no sense...
state.metrics.resolve_count += 1;
let module_url_specified = module_specifier.to_string();
let global_state = state.global_state.clone();
let target_lib = state.target_lib.clone();
let permissions = if state.is_main {
Permissions::allow_all()
} else {
state.permissions.clone()
};
let fut = async move {
let compiled_module = global_state
.fetch_compiled_module(
module_specifier,
maybe_referrer,
target_lib,
permissions,
is_dyn_import,
)
.await?;
Ok(deno_core::ModuleSource {
// Real module name, might be different from initial specifier
// due to redirections.
code: compiled_module.code,
module_url_specified,
module_url_found: compiled_module.name,
})
};
fut.boxed_local()
}
fn prepare_load(
&self,
_load_id: ModuleLoadId,
_module_specifier: &ModuleSpecifier,
_maybe_referrer: Option<String>,
_is_dyn_import: bool,
) -> Pin<Box<dyn Future<Output = Result<(), ErrBox>>>> {
// TODO(bartlomieju):
// 1. recursively:
// a) resolve specifier
// b) check permission if dynamic import
// c) fetch/download source code
// d) parse the source code and extract all import/exports (dependencies)
// e) add discovered deps and loop algorithm until no new dependencies
// are discovered
// 2. run through appropriate compiler giving it access only to
// discovered files
async { Ok(()) }.boxed_local()
}
}
impl State {
/// If `shared_permission` is None then permissions from globa state are used.
pub fn new(
global_state: GlobalState,
shared_permissions: Option<Permissions>,
main_module: ModuleSpecifier,
is_internal: bool,
) -> Result<Self, ErrBox> {
let import_map: Option<ImportMap> =
match global_state.flags.import_map_path.as_ref() {
None => None,
Some(file_path) => {
if !global_state.flags.unstable {
exit_unstable("--importmap")
}
Some(ImportMap::load(file_path)?)
}
};
let seeded_rng = match global_state.flags.seed {
Some(seed) => Some(StdRng::seed_from_u64(seed)),
None => None,
};
let permissions = if let Some(perm) = shared_permissions {
perm
} else {
global_state.permissions.clone()
};
let state = Rc::new(RefCell::new(StateInner {
global_state,
main_module,
permissions,
import_map,
metrics: Metrics::default(),
global_timer: GlobalTimer::new(),
workers: HashMap::new(),
next_worker_id: 0,
start_time: Instant::now(),
seeded_rng,
target_lib: TargetLib::Main,
is_main: true,
is_internal,
inspector: None,
}));
Ok(Self(state))
}
/// If `shared_permission` is None then permissions from globa state are used.
pub fn new_for_worker(
global_state: GlobalState,
shared_permissions: Option<Permissions>,
main_module: ModuleSpecifier,
) -> Result<Self, ErrBox> {
let seeded_rng = match global_state.flags.seed {
Some(seed) => Some(StdRng::seed_from_u64(seed)),
None => None,
};
let permissions = if let Some(perm) = shared_permissions {
perm
} else {
global_state.permissions.clone()
};
let state = Rc::new(RefCell::new(StateInner {
global_state,
main_module,
permissions,
import_map: None,
metrics: Metrics::default(),
global_timer: GlobalTimer::new(),
workers: HashMap::new(),
next_worker_id: 0,
start_time: Instant::now(),
seeded_rng,
target_lib: TargetLib::Worker,
is_main: false,
is_internal: false,
inspector: None,
}));
Ok(Self(state))
}
#[inline]
pub fn check_read(&self, path: &Path) -> Result<(), OpError> {
self.borrow().permissions.check_read(path)
}
#[inline]
pub fn check_write(&self, path: &Path) -> Result<(), OpError> {
self.borrow().permissions.check_write(path)
}
#[inline]
pub fn check_env(&self) -> Result<(), OpError> {
self.borrow().permissions.check_env()
}
#[inline]
pub fn check_net(&self, hostname: &str, port: u16) -> Result<(), OpError> {
self.borrow().permissions.check_net(hostname, port)
}
#[inline]
pub fn check_net_url(&self, url: &url::Url) -> Result<(), OpError> {
self.borrow().permissions.check_net_url(url)
}
#[inline]
pub fn check_run(&self) -> Result<(), OpError> {
self.borrow().permissions.check_run()
}
#[inline]
pub fn check_plugin(&self, filename: &Path) -> Result<(), OpError> {
self.borrow().permissions.check_plugin(filename)
}
pub fn check_dyn_import(
&self,
module_specifier: &ModuleSpecifier,
) -> Result<(), OpError> {
let u = module_specifier.as_url();
// TODO(bartlomieju): temporary fix to prevent hitting `unreachable`
// statement that is actually reachable...
SourceFileFetcher::check_if_supported_scheme(u)?;
match u.scheme() {
"http" | "https" => {
self.check_net_url(u)?;
Ok(())
}
"file" => {
let path = u
.to_file_path()
.unwrap()
.into_os_string()
.into_string()
.unwrap();
self.check_read(Path::new(&path))?;
Ok(())
}
_ => unreachable!(),
}
}
pub fn maybe_init_inspector(&self, isolate: &mut CoreIsolate) {
let mut state = self.borrow_mut();
if state.is_internal {
return;
};
let inspector_host = {
let global_state = &state.global_state;
match global_state
.flags
.inspect
.or(global_state.flags.inspect_brk)
{
Some(host) => host,
None => return,
}
};
let inspector = DenoInspector::new(isolate, inspector_host);
state.inspector.replace(inspector);
}
#[inline]
pub fn should_inspector_break_on_first_statement(&self) -> bool {
let state = self.borrow();
state.inspector.is_some() && state.is_main
}
#[cfg(test)]
pub fn mock(main_module: &str) -> State {
let module_specifier = ModuleSpecifier::resolve_url_or_path(main_module)
.expect("Invalid entry module");
State::new(
GlobalState::mock(vec!["deno".to_string()]),
None,
module_specifier,
false,
)
.unwrap()
}
}
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