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denoland-deno/cli/global_state.rs

491 lines
14 KiB
Rust

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use crate::deno_dir;
use crate::file_fetcher::SourceFileFetcher;
use crate::flags;
use crate::http_cache;
use crate::import_map::ImportMap;
use crate::lockfile::Lockfile;
use crate::module_graph::ModuleGraphFile;
use crate::module_graph::ModuleGraphLoader;
use crate::msg;
use crate::msg::MediaType;
use crate::op_error::OpError;
use crate::permissions::Permissions;
use crate::state::exit_unstable;
use crate::tsc::CompiledModule;
use crate::tsc::TargetLib;
use crate::tsc::TsCompiler;
use deno_core::ErrBox;
use deno_core::ModuleSpecifier;
use std::env;
use std::ops::Deref;
use std::sync::atomic::AtomicUsize;
use std::sync::Arc;
use std::sync::Mutex;
use tokio::sync::Mutex as AsyncMutex;
/// Holds state of the program and can be accessed by V8 isolate.
#[derive(Clone)]
pub struct GlobalState(Arc<GlobalStateInner>);
/// This structure represents state of single "deno" program.
///
/// It is shared by all created workers (thus V8 isolates).
pub struct GlobalStateInner {
/// Flags parsed from `argv` contents.
pub flags: flags::Flags,
/// Permissions parsed from `flags`.
pub permissions: Permissions,
pub dir: deno_dir::DenoDir,
pub file_fetcher: SourceFileFetcher,
pub ts_compiler: TsCompiler,
pub lockfile: Option<Mutex<Lockfile>>,
pub compiler_starts: AtomicUsize,
pub maybe_import_map: Option<ImportMap>,
compile_lock: AsyncMutex<()>,
}
impl Deref for GlobalState {
type Target = GlobalStateInner;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl GlobalState {
pub fn new(flags: flags::Flags) -> Result<Self, ErrBox> {
let custom_root = env::var("DENO_DIR").map(String::into).ok();
let dir = deno_dir::DenoDir::new(custom_root)?;
let deps_cache_location = dir.root.join("deps");
let http_cache = http_cache::HttpCache::new(&deps_cache_location);
let file_fetcher = SourceFileFetcher::new(
http_cache,
!flags.reload,
flags.cache_blocklist.clone(),
flags.no_remote,
flags.cached_only,
flags.ca_file.clone(),
)?;
let ts_compiler = TsCompiler::new(
file_fetcher.clone(),
dir.gen_cache.clone(),
!flags.reload,
flags.config_path.clone(),
)?;
// Note: reads lazily from disk on first call to lockfile.check()
let lockfile = if let Some(filename) = &flags.lock {
Some(Mutex::new(Lockfile::new(filename.to_string())))
} else {
None
};
let maybe_import_map: Option<ImportMap> =
match flags.import_map_path.as_ref() {
None => None,
Some(file_path) => {
if !flags.unstable {
exit_unstable("--importmap")
}
Some(ImportMap::load(file_path)?)
}
};
let inner = GlobalStateInner {
dir,
permissions: Permissions::from_flags(&flags),
flags,
file_fetcher,
ts_compiler,
lockfile,
maybe_import_map,
compiler_starts: AtomicUsize::new(0),
compile_lock: AsyncMutex::new(()),
};
Ok(GlobalState(Arc::new(inner)))
}
/// This function is called when new module load is
/// initialized by the EsIsolate. Its resposibility is to collect
/// all dependencies and if it is required then also perform TS typecheck
/// and traspilation.
pub async fn prepare_module_load(
&self,
module_specifier: ModuleSpecifier,
maybe_referrer: Option<ModuleSpecifier>,
target_lib: TargetLib,
permissions: Permissions,
is_dyn_import: bool,
maybe_import_map: Option<ImportMap>,
) -> Result<(), ErrBox> {
let module_specifier = module_specifier.clone();
// TODO(ry) Try to lift compile_lock as high up in the call stack for
// sanity.
let compile_lock = self.compile_lock.lock().await;
let mut module_graph_loader = ModuleGraphLoader::new(
self.file_fetcher.clone(),
maybe_import_map,
permissions.clone(),
is_dyn_import,
false,
);
module_graph_loader
.add_to_graph(&module_specifier, maybe_referrer)
.await?;
let module_graph = module_graph_loader.get_graph();
let out = self
.file_fetcher
.fetch_cached_source_file(&module_specifier, permissions.clone())
.expect("Source file not found");
// Check if we need to compile files.
let module_graph_files = module_graph.values().collect::<Vec<_>>();
let should_compile = needs_compilation(
self.ts_compiler.compile_js,
out.media_type,
&module_graph_files,
);
let allow_js = should_allow_js(&module_graph_files);
if should_compile {
self
.ts_compiler
.compile_module_graph(
self.clone(),
&out,
target_lib,
permissions,
module_graph,
allow_js,
)
.await?;
}
drop(compile_lock);
Ok(())
}
// TODO(bartlomieju): this method doesn't need to be async anymore
/// This method is used after `prepare_module_load` finishes and EsIsolate
/// starts loading source and executing source code. This method shouldn't
/// perform any IO (besides $DENO_DIR) and only operate on sources collected
/// during `prepare_module_load`.
pub async fn fetch_compiled_module(
&self,
module_specifier: ModuleSpecifier,
_maybe_referrer: Option<ModuleSpecifier>,
) -> Result<CompiledModule, ErrBox> {
let state1 = self.clone();
let state2 = self.clone();
let module_specifier = module_specifier.clone();
let out = self
.file_fetcher
.fetch_cached_source_file(&module_specifier, Permissions::allow_all())
.expect("Cached source file doesn't exist");
// TODO(ry) Try to lift compile_lock as high up in the call stack for
// sanity.
let compile_lock = self.compile_lock.lock().await;
// Check if we need to compile files
let was_compiled = match out.media_type {
msg::MediaType::TypeScript
| msg::MediaType::TSX
| msg::MediaType::JSX => true,
msg::MediaType::JavaScript => self.ts_compiler.compile_js,
_ => false,
};
let compiled_module = if was_compiled {
state1
.ts_compiler
.get_compiled_module(&out.url)
.map_err(|e| {
let msg = e.to_string();
OpError::other(format!(
"Failed to get compiled source code of {}.\nReason: {}",
out.url, msg
))
})?
} else {
CompiledModule {
code: String::from_utf8(out.source_code.clone())?,
name: out.url.to_string(),
}
};
drop(compile_lock);
if let Some(ref lockfile) = state2.lockfile {
let mut g = lockfile.lock().unwrap();
if state2.flags.lock_write {
g.insert(&out.url, out.source_code);
} else {
let check = match g.check(&out.url, out.source_code) {
Err(e) => return Err(ErrBox::from(e)),
Ok(v) => v,
};
if !check {
eprintln!(
"Subresource integrity check failed --lock={}\n{}",
g.filename, compiled_module.name
);
std::process::exit(10);
}
}
}
Ok(compiled_module)
}
#[cfg(test)]
pub fn mock(argv: Vec<String>) -> GlobalState {
GlobalState::new(flags::Flags {
argv,
..flags::Flags::default()
})
.unwrap()
}
}
/// Determine if TS compiler should be run with `allowJs` setting on. This
/// is the case when there's either:
/// - a JavaScript file with non-JavaScript import
/// - JSX import
fn should_allow_js(module_graph_files: &[&ModuleGraphFile]) -> bool {
module_graph_files.iter().any(|module_file| {
if module_file.media_type == (MediaType::JSX as i32) {
true
} else if module_file.media_type == (MediaType::JavaScript as i32) {
module_file.imports.iter().any(|import_desc| {
let import_file = module_graph_files
.iter()
.find(|f| {
f.specifier == import_desc.resolved_specifier.to_string().as_str()
})
.expect("Failed to find imported file");
let media_type = import_file.media_type;
media_type == (MediaType::TypeScript as i32)
|| media_type == (MediaType::TSX as i32)
|| media_type == (MediaType::JSX as i32)
})
} else {
false
}
})
}
// Compilation happens if either:
// - `checkJs` is set to true in TS config
// - entry point is a TS file
// - any dependency in module graph is a TS file
fn needs_compilation(
compile_js: bool,
media_type: MediaType,
module_graph_files: &[&ModuleGraphFile],
) -> bool {
let mut needs_compilation = match media_type {
msg::MediaType::TypeScript | msg::MediaType::TSX | msg::MediaType::JSX => {
true
}
msg::MediaType::JavaScript => compile_js,
_ => false,
};
needs_compilation |= module_graph_files.iter().any(|module_file| {
let media_type = module_file.media_type;
media_type == (MediaType::TypeScript as i32)
|| media_type == (MediaType::TSX as i32)
|| media_type == (MediaType::JSX as i32)
});
needs_compilation
}
#[test]
fn thread_safe() {
fn f<S: Send + Sync>(_: S) {}
f(GlobalState::mock(vec![]));
}
#[test]
fn test_should_allow_js() {
use crate::module_graph::ImportDescriptor;
assert!(should_allow_js(&[
&ModuleGraphFile {
specifier: "file:///some/file.ts".to_string(),
url: "file:///some/file.ts".to_string(),
redirect: None,
filename: "some/file.ts".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::TypeScript as i32,
source_code: "function foo() {}".to_string(),
},
&ModuleGraphFile {
specifier: "file:///some/file1.js".to_string(),
url: "file:///some/file1.js".to_string(),
redirect: None,
filename: "some/file1.js".to_string(),
imports: vec![ImportDescriptor {
specifier: "./file.ts".to_string(),
resolved_specifier: ModuleSpecifier::resolve_url(
"file:///some/file.ts",
)
.unwrap(),
type_directive: None,
resolved_type_directive: None,
}],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JavaScript as i32,
source_code: "function foo() {}".to_string(),
},
],));
assert!(should_allow_js(&[
&ModuleGraphFile {
specifier: "file:///some/file.jsx".to_string(),
url: "file:///some/file.jsx".to_string(),
redirect: None,
filename: "some/file.jsx".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JSX as i32,
source_code: "function foo() {}".to_string(),
},
&ModuleGraphFile {
specifier: "file:///some/file.ts".to_string(),
url: "file:///some/file.ts".to_string(),
redirect: None,
filename: "some/file.ts".to_string(),
imports: vec![ImportDescriptor {
specifier: "./file.jsx".to_string(),
resolved_specifier: ModuleSpecifier::resolve_url(
"file:///some/file.jsx",
)
.unwrap(),
type_directive: None,
resolved_type_directive: None,
}],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::TypeScript as i32,
source_code: "function foo() {}".to_string(),
},
]));
assert!(!should_allow_js(&[
&ModuleGraphFile {
specifier: "file:///some/file.js".to_string(),
url: "file:///some/file.js".to_string(),
redirect: None,
filename: "some/file.js".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JavaScript as i32,
source_code: "function foo() {}".to_string(),
},
&ModuleGraphFile {
specifier: "file:///some/file1.js".to_string(),
url: "file:///some/file1.js".to_string(),
redirect: None,
filename: "some/file1.js".to_string(),
imports: vec![ImportDescriptor {
specifier: "./file.js".to_string(),
resolved_specifier: ModuleSpecifier::resolve_url(
"file:///some/file.js",
)
.unwrap(),
type_directive: None,
resolved_type_directive: None,
}],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JavaScript as i32,
source_code: "function foo() {}".to_string(),
},
],));
}
#[test]
fn test_needs_compilation() {
assert!(!needs_compilation(
false,
MediaType::JavaScript,
&[&ModuleGraphFile {
specifier: "some/file.js".to_string(),
url: "file:///some/file.js".to_string(),
redirect: None,
filename: "some/file.js".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JavaScript as i32,
source_code: "function foo() {}".to_string(),
}],
));
assert!(!needs_compilation(false, MediaType::JavaScript, &[]));
assert!(needs_compilation(true, MediaType::JavaScript, &[]));
assert!(needs_compilation(false, MediaType::TypeScript, &[]));
assert!(needs_compilation(false, MediaType::JSX, &[]));
assert!(needs_compilation(false, MediaType::TSX, &[]));
assert!(needs_compilation(
false,
MediaType::JavaScript,
&[
&ModuleGraphFile {
specifier: "file:///some/file.ts".to_string(),
url: "file:///some/file.ts".to_string(),
redirect: None,
filename: "some/file.ts".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::TypeScript as i32,
source_code: "function foo() {}".to_string(),
},
&ModuleGraphFile {
specifier: "file:///some/file1.js".to_string(),
url: "file:///some/file1.js".to_string(),
redirect: None,
filename: "some/file1.js".to_string(),
imports: vec![],
referenced_files: vec![],
lib_directives: vec![],
types_directives: vec![],
type_headers: vec![],
media_type: MediaType::JavaScript as i32,
source_code: "function foo() {}".to_string(),
},
],
));
}