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denoland-deno/cli/main.rs

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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
mod ast;
mod auth_tokens;
mod checksum;
mod compat;
mod config_file;
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mod deno_dir;
mod diagnostics;
mod diff;
mod disk_cache;
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mod errors;
mod file_fetcher;
mod file_watcher;
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mod flags;
mod flags_allow_net;
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mod fmt_errors;
mod fs_util;
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mod http_cache;
mod http_util;
mod info;
mod lockfile;
mod logger;
mod lsp;
mod module_graph;
mod module_loader;
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mod ops;
mod proc_state;
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mod source_maps;
mod specifier_handler;
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mod standalone;
mod text_encoding;
mod tokio_util;
mod tools;
mod tsc;
mod unix_util;
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mod version;
use crate::file_fetcher::File;
use crate::file_watcher::ResolutionResult;
use crate::flags::BundleFlags;
use crate::flags::CacheFlags;
use crate::flags::CompileFlags;
use crate::flags::CompletionsFlags;
use crate::flags::CoverageFlags;
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use crate::flags::DenoSubcommand;
use crate::flags::DocFlags;
use crate::flags::EvalFlags;
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use crate::flags::Flags;
use crate::flags::FmtFlags;
use crate::flags::InfoFlags;
use crate::flags::InstallFlags;
use crate::flags::LintFlags;
use crate::flags::ReplFlags;
use crate::flags::RunFlags;
use crate::flags::TestFlags;
use crate::flags::UninstallFlags;
use crate::flags::UpgradeFlags;
use crate::fmt_errors::PrettyJsError;
use crate::module_loader::CliModuleLoader;
use crate::proc_state::ProcState;
use crate::source_maps::apply_source_map;
use crate::specifier_handler::FetchHandler;
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use crate::tools::installer::infer_name_from_url;
use deno_ast::MediaType;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::futures::future::FutureExt;
use deno_core::futures::Future;
use deno_core::located_script_name;
use deno_core::parking_lot::Mutex;
use deno_core::resolve_url_or_path;
use deno_core::serde_json;
use deno_core::serde_json::json;
use deno_core::v8_set_flags;
use deno_core::JsRuntime;
use deno_core::ModuleSpecifier;
use deno_runtime::colors;
use deno_runtime::ops::worker_host::CreateWebWorkerCb;
use deno_runtime::permissions::Permissions;
use deno_runtime::web_worker::WebWorker;
use deno_runtime::web_worker::WebWorkerOptions;
use deno_runtime::worker::MainWorker;
use deno_runtime::worker::WorkerOptions;
use deno_runtime::BootstrapOptions;
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use log::debug;
use log::info;
use std::env;
use std::io::Read;
use std::io::Write;
use std::iter::once;
use std::path::PathBuf;
use std::pin::Pin;
use std::rc::Rc;
use std::sync::Arc;
fn create_web_worker_callback(ps: ProcState) -> Arc<CreateWebWorkerCb> {
Arc::new(move |args| {
let global_state_ = ps.clone();
let js_error_create_fn = Rc::new(move |core_js_error| {
let source_mapped_error =
apply_source_map(&core_js_error, global_state_.clone());
PrettyJsError::create(source_mapped_error)
});
let maybe_inspector_server = ps.maybe_inspector_server.clone();
let module_loader = CliModuleLoader::new_for_worker(
ps.clone(),
args.parent_permissions.clone(),
);
let create_web_worker_cb = create_web_worker_callback(ps.clone());
let options = WebWorkerOptions {
bootstrap: BootstrapOptions {
args: ps.flags.argv.clone(),
apply_source_maps: true,
cpu_count: num_cpus::get(),
debug_flag: ps
.flags
.log_level
.map_or(false, |l| l == log::Level::Debug),
enable_testing_features: ps.flags.enable_testing_features,
location: Some(args.main_module.clone()),
no_color: !colors::use_color(),
runtime_version: version::deno(),
ts_version: version::TYPESCRIPT.to_string(),
unstable: ps.flags.unstable,
},
unsafely_ignore_certificate_errors: ps
.flags
.unsafely_ignore_certificate_errors
.clone(),
root_cert_store: ps.root_cert_store.clone(),
user_agent: version::get_user_agent(),
seed: ps.flags.seed,
module_loader,
create_web_worker_cb,
js_error_create_fn: Some(js_error_create_fn),
use_deno_namespace: args.use_deno_namespace,
worker_type: args.worker_type,
maybe_inspector_server,
get_error_class_fn: Some(&crate::errors::get_error_class_name),
blob_store: ps.blob_store.clone(),
broadcast_channel: ps.broadcast_channel.clone(),
shared_array_buffer_store: Some(ps.shared_array_buffer_store.clone()),
compiled_wasm_module_store: Some(ps.compiled_wasm_module_store.clone()),
};
let bootstrap_options = options.bootstrap.clone();
// TODO(@AaronO): switch to bootstrap_from_options() once ops below are an extension
// since it uses sync_ops_cache() which currently depends on the Deno namespace
// which can be nuked when bootstrapping workers (use_deno_namespace: false)
let (mut worker, external_handle) = WebWorker::from_options(
args.name,
args.permissions,
args.main_module,
args.worker_id,
options,
);
// TODO(@AaronO): move to a JsRuntime Extension passed into options
// This block registers additional ops and state that
// are only available in the CLI
{
let js_runtime = &mut worker.js_runtime;
js_runtime
.op_state()
.borrow_mut()
.put::<ProcState>(ps.clone());
// Applies source maps - works in conjuction with `js_error_create_fn`
// above
ops::errors::init(js_runtime);
if args.use_deno_namespace {
ops::runtime_compiler::init(js_runtime);
}
js_runtime.sync_ops_cache();
}
worker.bootstrap(&bootstrap_options);
(worker, external_handle)
})
}
pub fn create_main_worker(
ps: &ProcState,
main_module: ModuleSpecifier,
permissions: Permissions,
maybe_op_init: Option<&dyn Fn(&mut JsRuntime)>,
) -> MainWorker {
let module_loader = CliModuleLoader::new(ps.clone());
let global_state_ = ps.clone();
let js_error_create_fn = Rc::new(move |core_js_error| {
let source_mapped_error =
apply_source_map(&core_js_error, global_state_.clone());
PrettyJsError::create(source_mapped_error)
});
let maybe_inspector_server = ps.maybe_inspector_server.clone();
let should_break_on_first_statement = ps.flags.inspect_brk.is_some();
let create_web_worker_cb = create_web_worker_callback(ps.clone());
let options = WorkerOptions {
bootstrap: BootstrapOptions {
apply_source_maps: true,
args: ps.flags.argv.clone(),
cpu_count: num_cpus::get(),
debug_flag: ps.flags.log_level.map_or(false, |l| l == log::Level::Debug),
enable_testing_features: ps.flags.enable_testing_features,
location: ps.flags.location.clone(),
no_color: !colors::use_color(),
runtime_version: version::deno(),
ts_version: version::TYPESCRIPT.to_string(),
unstable: ps.flags.unstable,
},
unsafely_ignore_certificate_errors: ps
.flags
.unsafely_ignore_certificate_errors
.clone(),
root_cert_store: ps.root_cert_store.clone(),
user_agent: version::get_user_agent(),
seed: ps.flags.seed,
js_error_create_fn: Some(js_error_create_fn),
create_web_worker_cb,
maybe_inspector_server,
should_break_on_first_statement,
module_loader,
get_error_class_fn: Some(&crate::errors::get_error_class_name),
origin_storage_dir: ps.flags.location.clone().map(|loc| {
ps.dir
.root
.clone()
// TODO(@crowlKats): change to origin_data for 2.0
.join("location_data")
.join(checksum::gen(&[loc.to_string().as_bytes()]))
}),
blob_store: ps.blob_store.clone(),
broadcast_channel: ps.broadcast_channel.clone(),
shared_array_buffer_store: Some(ps.shared_array_buffer_store.clone()),
compiled_wasm_module_store: Some(ps.compiled_wasm_module_store.clone()),
};
let mut worker =
MainWorker::bootstrap_from_options(main_module, permissions, options);
// TODO(@AaronO): move to a JsRuntime Extension passed into options
// This block registers additional ops and state that
// are only available in the CLI
{
let js_runtime = &mut worker.js_runtime;
js_runtime
.op_state()
.borrow_mut()
.put::<ProcState>(ps.clone());
// Applies source maps - works in conjuction with `js_error_create_fn`
// above
ops::errors::init(js_runtime);
ops::runtime_compiler::init(js_runtime);
if let Some(op_init) = maybe_op_init {
op_init(js_runtime);
}
js_runtime.sync_ops_cache();
}
worker
}
pub fn write_to_stdout_ignore_sigpipe(
bytes: &[u8],
) -> Result<(), std::io::Error> {
use std::io::ErrorKind;
match std::io::stdout().write_all(bytes) {
Ok(()) => Ok(()),
Err(e) => match e.kind() {
ErrorKind::BrokenPipe => Ok(()),
_ => Err(e),
},
}
}
pub fn write_json_to_stdout<T>(value: &T) -> Result<(), AnyError>
where
T: ?Sized + serde::ser::Serialize,
{
let mut writer = std::io::BufWriter::new(std::io::stdout());
serde_json::to_writer_pretty(&mut writer, value)?;
writeln!(&mut writer)?;
Ok(())
}
fn print_cache_info(
state: &ProcState,
json: bool,
location: Option<deno_core::url::Url>,
) -> Result<(), AnyError> {
let deno_dir = &state.dir.root;
let modules_cache = &state.file_fetcher.get_http_cache_location();
let typescript_cache = &state.dir.gen_cache.location;
let registry_cache =
&state.dir.root.join(lsp::language_server::REGISTRIES_PATH);
let mut origin_dir = state.dir.root.join("location_data");
if let Some(location) = &location {
origin_dir =
origin_dir.join(&checksum::gen(&[location.to_string().as_bytes()]));
}
if json {
let mut output = json!({
"denoDir": deno_dir,
"modulesCache": modules_cache,
"typescriptCache": typescript_cache,
"registryCache": registry_cache,
"originStorage": origin_dir,
});
if location.is_some() {
output["localStorage"] =
serde_json::to_value(origin_dir.join("local_storage"))?;
}
write_json_to_stdout(&output)
} else {
println!("{} {:?}", colors::bold("DENO_DIR location:"), deno_dir);
println!(
"{} {:?}",
colors::bold("Remote modules cache:"),
modules_cache
);
println!(
"{} {:?}",
colors::bold("Emitted modules cache:"),
typescript_cache
);
println!(
"{} {:?}",
colors::bold("Language server registries cache:"),
registry_cache,
);
println!("{} {:?}", colors::bold("Origin storage:"), origin_dir);
if location.is_some() {
println!(
"{} {:?}",
colors::bold("Local Storage:"),
origin_dir.join("local_storage"),
);
}
Ok(())
}
}
pub fn get_types(unstable: bool) -> String {
let mut types = vec![
crate::tsc::DENO_NS_LIB,
crate::tsc::DENO_CONSOLE_LIB,
crate::tsc::DENO_URL_LIB,
crate::tsc::DENO_WEB_LIB,
crate::tsc::DENO_FETCH_LIB,
crate::tsc::DENO_WEBGPU_LIB,
crate::tsc::DENO_WEBSOCKET_LIB,
crate::tsc::DENO_WEBSTORAGE_LIB,
crate::tsc::DENO_CRYPTO_LIB,
crate::tsc::DENO_BROADCAST_CHANNEL_LIB,
crate::tsc::DENO_NET_LIB,
crate::tsc::SHARED_GLOBALS_LIB,
crate::tsc::WINDOW_LIB,
];
if unstable {
types.push(crate::tsc::UNSTABLE_NS_LIB);
}
types.join("\n")
}
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async fn compile_command(
flags: Flags,
compile_flags: CompileFlags,
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) -> Result<(), AnyError> {
let debug = flags.log_level == Some(log::Level::Debug);
let run_flags = tools::standalone::compile_to_runtime_flags(
flags.clone(),
compile_flags.args,
)?;
let module_specifier = resolve_url_or_path(&compile_flags.source_file)?;
let ps = ProcState::build(flags.clone()).await?;
let deno_dir = &ps.dir;
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let output = compile_flags.output.or_else(|| {
infer_name_from_url(&module_specifier).map(PathBuf::from)
}).ok_or_else(|| generic_error(
"An executable name was not provided. One could not be inferred from the URL. Aborting.",
))?;
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let module_graph = create_module_graph_and_maybe_check(
module_specifier.clone(),
ps.clone(),
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debug,
)
.await?;
info!(
"{} {}",
colors::green("Bundle"),
module_specifier.to_string()
);
let bundle_str = bundle_module_graph(module_graph, ps.clone(), flags, debug)?;
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info!(
"{} {}",
colors::green("Compile"),
module_specifier.to_string()
);
// Select base binary based on target
let original_binary =
tools::standalone::get_base_binary(deno_dir, compile_flags.target.clone())
.await?;
let final_bin = tools::standalone::create_standalone_binary(
original_binary,
bundle_str,
run_flags,
)?;
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info!("{} {}", colors::green("Emit"), output.display());
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tools::standalone::write_standalone_binary(
output.clone(),
compile_flags.target,
final_bin,
)
.await?;
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Ok(())
}
async fn info_command(
flags: Flags,
info_flags: InfoFlags,
) -> Result<(), AnyError> {
let location = flags.location.clone();
let ps = ProcState::build(flags).await?;
if let Some(specifier) = info_flags.file {
let specifier = resolve_url_or_path(&specifier)?;
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let handler = Arc::new(Mutex::new(specifier_handler::FetchHandler::new(
&ps,
// info accesses dynamically imported modules just for their information
// so we allow access to all of them.
Permissions::allow_all(),
Permissions::allow_all(),
)?));
let mut builder = module_graph::GraphBuilder::new(
handler,
ps.maybe_import_map.clone(),
ps.lockfile.clone(),
);
builder.add(&specifier, false).await?;
builder.analyze_config_file(&ps.maybe_config_file).await?;
let graph = builder.get_graph();
let info = graph.info()?;
if info_flags.json {
write_json_to_stdout(&json!(info))
} else {
write_to_stdout_ignore_sigpipe(info.to_string().as_bytes())
.map_err(|err| err.into())
}
} else {
// If it was just "deno info" print location of caches and exit
print_cache_info(&ps, info_flags.json, location)
}
}
async fn install_command(
flags: Flags,
install_flags: InstallFlags,
) -> Result<(), AnyError> {
let mut preload_flags = flags.clone();
preload_flags.inspect = None;
preload_flags.inspect_brk = None;
let permissions = Permissions::from_options(&preload_flags.clone().into());
let ps = ProcState::build(preload_flags).await?;
let main_module = resolve_url_or_path(&install_flags.module_url)?;
let mut worker =
create_main_worker(&ps, main_module.clone(), permissions, None);
// First, fetch and compile the module; this step ensures that the module exists.
worker.preload_module(&main_module, true).await?;
tools::installer::install(
flags,
&install_flags.module_url,
install_flags.args,
install_flags.name,
install_flags.root,
install_flags.force,
)
}
async fn uninstall_command(
uninstall_flags: UninstallFlags,
) -> Result<(), AnyError> {
tools::installer::uninstall(uninstall_flags.name, uninstall_flags.root)
}
async fn lsp_command() -> Result<(), AnyError> {
lsp::start().await
}
#[allow(clippy::too_many_arguments)]
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async fn lint_command(
flags: Flags,
lint_flags: LintFlags,
) -> Result<(), AnyError> {
if lint_flags.rules {
tools::lint::print_rules_list(lint_flags.json);
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return Ok(());
}
let ps = ProcState::build(flags.clone()).await?;
let maybe_lint_config = if let Some(config_file) = &ps.maybe_config_file {
config_file.to_lint_config()?
} else {
None
};
tools::lint::lint(maybe_lint_config, lint_flags, flags.watch).await
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}
async fn cache_command(
flags: Flags,
cache_flags: CacheFlags,
) -> Result<(), AnyError> {
let lib = if flags.unstable {
module_graph::TypeLib::UnstableDenoWindow
} else {
module_graph::TypeLib::DenoWindow
};
let ps = ProcState::build(flags).await?;
for file in cache_flags.files {
let specifier = resolve_url_or_path(&file)?;
ps.prepare_module_load(
specifier,
lib.clone(),
Permissions::allow_all(),
Permissions::allow_all(),
false,
ps.maybe_import_map.clone(),
)
.await?;
}
Ok(())
}
async fn eval_command(
flags: Flags,
eval_flags: EvalFlags,
) -> Result<(), AnyError> {
// Force TypeScript compile.
let main_module = resolve_url_or_path("./$deno$eval.ts").unwrap();
let permissions = Permissions::from_options(&flags.clone().into());
let ps = ProcState::build(flags.clone()).await?;
let mut worker =
create_main_worker(&ps, main_module.clone(), permissions, None);
// Create a dummy source file.
let source_code = if eval_flags.print {
format!("console.log({})", eval_flags.code)
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} else {
eval_flags.code
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}
.into_bytes();
let file = File {
local: main_module.clone().to_file_path().unwrap(),
maybe_types: None,
media_type: if eval_flags.ext.as_str() == "ts" {
MediaType::TypeScript
} else if eval_flags.ext.as_str() == "tsx" {
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MediaType::Tsx
} else if eval_flags.ext.as_str() == "js" {
MediaType::JavaScript
} else {
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MediaType::Jsx
},
source: Arc::new(String::from_utf8(source_code)?),
specifier: main_module.clone(),
maybe_headers: None,
};
// Save our fake file into file fetcher cache
// to allow module access by TS compiler.
ps.file_fetcher.insert_cached(file);
debug!("main_module {}", &main_module);
if flags.compat {
worker
.execute_side_module(&compat::get_node_globals_url())
.await?;
}
worker.execute_main_module(&main_module).await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('load'))",
)?;
worker.run_event_loop(false).await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('unload'))",
)?;
Ok(())
}
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async fn create_module_graph_and_maybe_check(
module_specifier: ModuleSpecifier,
ps: ProcState,
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debug: bool,
) -> Result<module_graph::Graph, AnyError> {
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let handler = Arc::new(Mutex::new(FetchHandler::new(
&ps,
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// when bundling, dynamic imports are only access for their type safety,
// therefore we will allow the graph to access any module.
Permissions::allow_all(),
Permissions::allow_all(),
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)?));
let mut builder = module_graph::GraphBuilder::new(
handler,
ps.maybe_import_map.clone(),
ps.lockfile.clone(),
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);
builder.add(&module_specifier, false).await?;
builder.analyze_config_file(&ps.maybe_config_file).await?;
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let module_graph = builder.get_graph();
if !ps.flags.no_check {
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// TODO(@kitsonk) support bundling for workers
let lib = if ps.flags.unstable {
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module_graph::TypeLib::UnstableDenoWindow
} else {
module_graph::TypeLib::DenoWindow
};
let result_info =
module_graph.clone().check(module_graph::CheckOptions {
debug,
emit: false,
lib,
maybe_config_file: ps.maybe_config_file.clone(),
reload: ps.flags.reload,
..Default::default()
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})?;
debug!("{}", result_info.stats);
if let Some(ignored_options) = result_info.maybe_ignored_options {
eprintln!("{}", ignored_options);
}
if !result_info.diagnostics.is_empty() {
return Err(generic_error(result_info.diagnostics.to_string()));
}
}
Ok(module_graph)
}
fn bundle_module_graph(
module_graph: module_graph::Graph,
ps: ProcState,
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flags: Flags,
debug: bool,
) -> Result<String, AnyError> {
let (bundle, stats, maybe_ignored_options) =
module_graph.bundle(module_graph::BundleOptions {
debug,
maybe_config_file: ps.maybe_config_file.clone(),
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})?;
match maybe_ignored_options {
Some(ignored_options) if flags.no_check => {
eprintln!("{}", ignored_options);
}
_ => {}
}
debug!("{}", stats);
Ok(bundle)
}
async fn bundle_command(
flags: Flags,
bundle_flags: BundleFlags,
) -> Result<(), AnyError> {
let debug = flags.log_level == Some(log::Level::Debug);
let resolver = |_| {
let flags = flags.clone();
let source_file1 = bundle_flags.source_file.clone();
let source_file2 = bundle_flags.source_file.clone();
async move {
let module_specifier = resolve_url_or_path(&source_file1)?;
debug!(">>>>> bundle START");
let ps = ProcState::build(flags.clone()).await?;
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let module_graph = create_module_graph_and_maybe_check(
module_specifier,
ps.clone(),
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debug,
)
.await?;
let mut paths_to_watch: Vec<PathBuf> = module_graph
.get_modules()
.iter()
.filter_map(|specifier| specifier.to_file_path().ok())
.collect();
if let Some(import_map) = ps.flags.import_map_path.as_ref() {
paths_to_watch
.push(fs_util::resolve_from_cwd(std::path::Path::new(import_map))?);
}
Ok((paths_to_watch, module_graph, ps))
}
.map(move |result| match result {
Ok((paths_to_watch, module_graph, ps)) => ResolutionResult::Restart {
paths_to_watch,
result: Ok((ps, module_graph)),
},
Err(e) => ResolutionResult::Restart {
paths_to_watch: vec![PathBuf::from(source_file2)],
result: Err(e),
},
})
};
let operation = |(ps, module_graph): (ProcState, module_graph::Graph)| {
let flags = flags.clone();
let out_file = bundle_flags.out_file.clone();
async move {
info!("{} {}", colors::green("Bundle"), module_graph.info()?.root);
let output = bundle_module_graph(module_graph, ps, flags, debug)?;
debug!(">>>>> bundle END");
if let Some(out_file) = out_file.as_ref() {
let output_bytes = output.as_bytes();
let output_len = output_bytes.len();
fs_util::write_file(out_file, output_bytes, 0o644)?;
info!(
"{} {:?} ({})",
colors::green("Emit"),
out_file,
colors::gray(&info::human_size(output_len as f64))
);
} else {
println!("{}", output);
}
Ok(())
}
};
if flags.watch {
file_watcher::watch_func(resolver, operation, "Bundle").await?;
} else {
let module_graph =
if let ResolutionResult::Restart { result, .. } = resolver(None).await {
result?
} else {
unreachable!();
};
operation(module_graph).await?;
}
Ok(())
}
async fn doc_command(
flags: Flags,
doc_flags: DocFlags,
) -> Result<(), AnyError> {
tools::doc::print_docs(
flags,
doc_flags.source_file,
doc_flags.json,
doc_flags.filter,
doc_flags.private,
)
.await
}
async fn format_command(
flags: Flags,
fmt_flags: FmtFlags,
) -> Result<(), AnyError> {
let ps = ProcState::build(flags.clone()).await?;
let maybe_fmt_config = if let Some(config_file) = &ps.maybe_config_file {
config_file.to_fmt_config()?
} else {
None
};
if fmt_flags.files.len() == 1 && fmt_flags.files[0].to_string_lossy() == "-" {
return tools::fmt::format_stdin(
fmt_flags,
maybe_fmt_config.map(|c| c.options).unwrap_or_default(),
);
}
tools::fmt::format(fmt_flags, flags.watch, maybe_fmt_config).await?;
Ok(())
}
async fn run_repl(flags: Flags, repl_flags: ReplFlags) -> Result<(), AnyError> {
let main_module = resolve_url_or_path("./$deno$repl.ts").unwrap();
let permissions = Permissions::from_options(&flags.clone().into());
let ps = ProcState::build(flags).await?;
let mut worker =
create_main_worker(&ps, main_module.clone(), permissions, None);
worker.run_event_loop(false).await?;
tools::repl::run(&ps, worker, repl_flags.eval).await
}
async fn run_from_stdin(flags: Flags) -> Result<(), AnyError> {
let ps = ProcState::build(flags.clone()).await?;
let permissions = Permissions::from_options(&flags.clone().into());
let main_module = resolve_url_or_path("./$deno$stdin.ts").unwrap();
let mut worker =
create_main_worker(&ps.clone(), main_module.clone(), permissions, None);
let mut source = Vec::new();
std::io::stdin().read_to_end(&mut source)?;
// Create a dummy source file.
let source_file = File {
local: main_module.clone().to_file_path().unwrap(),
maybe_types: None,
media_type: MediaType::TypeScript,
source: Arc::new(String::from_utf8(source)?),
specifier: main_module.clone(),
maybe_headers: None,
};
// Save our fake file into file fetcher cache
// to allow module access by TS compiler
ps.file_fetcher.insert_cached(source_file);
debug!("main_module {}", main_module);
if flags.compat {
worker
.execute_side_module(&compat::get_node_globals_url())
.await?;
}
worker.execute_main_module(&main_module).await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('load'))",
)?;
worker.run_event_loop(false).await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('unload'))",
)?;
Ok(())
}
async fn run_with_watch(flags: Flags, script: String) -> Result<(), AnyError> {
let resolver = |_| {
let script1 = script.clone();
let script2 = script.clone();
let flags = flags.clone();
async move {
let main_module = resolve_url_or_path(&script1)?;
let ps = ProcState::build(flags).await?;
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let handler = Arc::new(Mutex::new(FetchHandler::new(
&ps,
Permissions::allow_all(),
Permissions::allow_all(),
)?));
let mut builder = module_graph::GraphBuilder::new(
handler,
ps.maybe_import_map.clone(),
ps.lockfile.clone(),
);
builder.add(&main_module, false).await?;
builder.analyze_config_file(&ps.maybe_config_file).await?;
let module_graph = builder.get_graph();
// Find all local files in graph
let mut paths_to_watch: Vec<PathBuf> = module_graph
.get_modules()
.iter()
.filter_map(|specifier| specifier.to_file_path().ok())
.collect();
if let Some(import_map) = ps.flags.import_map_path.as_ref() {
paths_to_watch
.push(fs_util::resolve_from_cwd(std::path::Path::new(import_map))?);
}
Ok((paths_to_watch, main_module, ps))
}
.map(move |result| match result {
Ok((paths_to_watch, module_info, ps)) => ResolutionResult::Restart {
paths_to_watch,
result: Ok((ps, module_info)),
},
Err(e) => ResolutionResult::Restart {
paths_to_watch: vec![PathBuf::from(script2)],
result: Err(e),
},
})
};
/// The FileWatcherModuleExecutor provides module execution with safe dispatching of life-cycle events by tracking the
/// state of any pending events and emitting accordingly on drop in the case of a future
/// cancellation.
struct FileWatcherModuleExecutor {
worker: MainWorker,
pending_unload: bool,
compat: bool,
}
impl FileWatcherModuleExecutor {
pub fn new(worker: MainWorker, compat: bool) -> FileWatcherModuleExecutor {
FileWatcherModuleExecutor {
worker,
pending_unload: false,
compat,
}
}
/// Execute the given main module emitting load and unload events before and after execution
/// respectively.
pub async fn execute(
&mut self,
main_module: &ModuleSpecifier,
) -> Result<(), AnyError> {
if self.compat {
self
.worker
.execute_side_module(&compat::get_node_globals_url())
.await?;
}
self.worker.execute_main_module(main_module).await?;
self.worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('load'))",
)?;
self.pending_unload = true;
let result = self.worker.run_event_loop(false).await;
self.pending_unload = false;
if let Err(err) = result {
return Err(err);
}
self.worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('unload'))",
)?;
Ok(())
}
}
impl Drop for FileWatcherModuleExecutor {
fn drop(&mut self) {
if self.pending_unload {
self
.worker
.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('unload'))",
)
.unwrap();
}
}
}
let operation = |(ps, main_module): (ProcState, ModuleSpecifier)| {
let flags = flags.clone();
let permissions = Permissions::from_options(&flags.clone().into());
async move {
// We make use an module executor guard to ensure that unload is always fired when an
// operation is called.
let mut executor = FileWatcherModuleExecutor::new(
create_main_worker(&ps, main_module.clone(), permissions, None),
flags.compat,
);
executor.execute(&main_module).await?;
Ok(())
}
};
file_watcher::watch_func(resolver, operation, "Process").await
}
async fn run_command(
flags: Flags,
run_flags: RunFlags,
) -> Result<(), AnyError> {
// Read script content from stdin
if run_flags.script == "-" {
return run_from_stdin(flags).await;
}
if flags.watch {
return run_with_watch(flags, run_flags.script).await;
}
let main_module = resolve_url_or_path(&run_flags.script)?;
let ps = ProcState::build(flags.clone()).await?;
let permissions = Permissions::from_options(&flags.clone().into());
let mut worker =
create_main_worker(&ps, main_module.clone(), permissions, None);
let mut maybe_coverage_collector =
if let Some(ref coverage_dir) = ps.coverage_dir {
refactor: Rewrite Inspector implementation (#10725) This commit refactors implementation of inspector. The intention is to be able to move inspector implementation to "deno_core". Following things were done to make that possible: * "runtime/inspector.rs" was split into "runtime/inspector/mod.rs" and "runtime/inspector/server.rs", separating inspector implementation from Websocket server implementation. * "DenoInspector" was renamed to "JsRuntimeInspector" and reference to "server" was removed from the structure, making it independent of Websocket server used to connect to Chrome Devtools. * "WebsocketSession" was renamed to "InspectorSession" and rewritten in such a way that it's not tied to Websockets anymore; instead it accepts a pair of "proxy" channel ends that allow to integrate the session with different "transports". * "InspectorSession" was renamed to "LocalInspectorSession" to better indicate that it's an "in-memory" session and doesn't require Websocket server. It was also rewritten in such a way that it uses "InspectorSession" from previous point instead of reimplementing "v8::inspector::ChannelImpl" trait; this is done by using the "proxy" channels to communicate with the V8 session. Consequently "LocalInspectorSession" is now a frontend to "InspectorSession". This introduces a small inconvenience that awaiting responses for "LocalInspectorSession" requires to concurrently poll worker's event loop. This arises from the fact that "InspectorSession" is now owned by "JsRuntimeInspector", which in turn is owned by "Worker" or "WebWorker". To ease this situation "Worker::with_event_loop" helper method was added, that takes a future and concurrently polls it along with the event loop (using "tokio::select!" macro inside a loop).
2021-05-26 11:47:33 -04:00
let session = worker.create_inspector_session().await;
let coverage_dir = PathBuf::from(coverage_dir);
let mut coverage_collector =
tools::coverage::CoverageCollector::new(coverage_dir, session);
worker
.with_event_loop(coverage_collector.start_collecting().boxed_local())
.await?;
Some(coverage_collector)
} else {
None
};
debug!("main_module {}", main_module);
if flags.compat {
worker
.execute_side_module(&compat::get_node_globals_url())
.await?;
}
worker.execute_main_module(&main_module).await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('load'))",
)?;
worker
.run_event_loop(maybe_coverage_collector.is_none())
.await?;
worker.execute_script(
&located_script_name!(),
"window.dispatchEvent(new Event('unload'))",
)?;
if let Some(coverage_collector) = maybe_coverage_collector.as_mut() {
worker
.with_event_loop(coverage_collector.stop_collecting().boxed_local())
.await?;
}
Ok(())
}
async fn coverage_command(
flags: Flags,
coverage_flags: CoverageFlags,
) -> Result<(), AnyError> {
if coverage_flags.files.is_empty() {
return Err(generic_error("No matching coverage profiles found"));
}
tools::coverage::cover_files(
flags.clone(),
coverage_flags.files,
coverage_flags.ignore,
coverage_flags.include,
coverage_flags.exclude,
coverage_flags.lcov,
)
.await
}
async fn test_command(
flags: Flags,
test_flags: TestFlags,
) -> Result<(), AnyError> {
if let Some(ref coverage_dir) = flags.coverage_dir {
std::fs::create_dir_all(&coverage_dir)?;
env::set_var(
"DENO_UNSTABLE_COVERAGE_DIR",
PathBuf::from(coverage_dir).canonicalize()?,
);
}
if flags.watch {
tools::test::run_tests_with_watch(
flags,
test_flags.include,
test_flags.ignore,
test_flags.doc,
test_flags.no_run,
test_flags.fail_fast,
test_flags.filter,
test_flags.shuffle,
test_flags.concurrent_jobs,
)
.await?;
return Ok(());
}
tools::test::run_tests(
flags,
test_flags.include,
test_flags.ignore,
test_flags.doc,
test_flags.no_run,
test_flags.fail_fast,
test_flags.allow_none,
test_flags.filter,
test_flags.shuffle,
test_flags.concurrent_jobs,
)
.await?;
Ok(())
}
fn init_v8_flags(v8_flags: &[String]) {
let v8_flags_includes_help = v8_flags
.iter()
.any(|flag| flag == "-help" || flag == "--help");
// Keep in sync with `standalone.rs`.
let v8_flags = once("UNUSED_BUT_NECESSARY_ARG0".to_owned())
.chain(v8_flags.iter().cloned())
.collect::<Vec<_>>();
let unrecognized_v8_flags = v8_set_flags(v8_flags)
.into_iter()
.skip(1)
.collect::<Vec<_>>();
if !unrecognized_v8_flags.is_empty() {
for f in unrecognized_v8_flags {
eprintln!("error: V8 did not recognize flag '{}'", f);
}
eprintln!("\nFor a list of V8 flags, use '--v8-flags=--help'");
std::process::exit(1);
}
if v8_flags_includes_help {
std::process::exit(0);
}
}
fn get_subcommand(
flags: Flags,
) -> Pin<Box<dyn Future<Output = Result<(), AnyError>>>> {
match flags.clone().subcommand {
DenoSubcommand::Bundle(bundle_flags) => {
bundle_command(flags, bundle_flags).boxed_local()
}
DenoSubcommand::Doc(doc_flags) => {
doc_command(flags, doc_flags).boxed_local()
}
DenoSubcommand::Eval(eval_flags) => {
eval_command(flags, eval_flags).boxed_local()
}
DenoSubcommand::Cache(cache_flags) => {
cache_command(flags, cache_flags).boxed_local()
}
DenoSubcommand::Compile(compile_flags) => {
compile_command(flags, compile_flags).boxed_local()
}
DenoSubcommand::Coverage(coverage_flags) => {
coverage_command(flags, coverage_flags).boxed_local()
}
DenoSubcommand::Fmt(fmt_flags) => {
format_command(flags, fmt_flags).boxed_local()
}
DenoSubcommand::Info(info_flags) => {
info_command(flags, info_flags).boxed_local()
}
DenoSubcommand::Install(install_flags) => {
install_command(flags, install_flags).boxed_local()
}
DenoSubcommand::Uninstall(uninstall_flags) => {
uninstall_command(uninstall_flags).boxed_local()
}
DenoSubcommand::Lsp => lsp_command().boxed_local(),
DenoSubcommand::Lint(lint_flags) => {
lint_command(flags, lint_flags).boxed_local()
}
DenoSubcommand::Repl(repl_flags) => {
run_repl(flags, repl_flags).boxed_local()
}
DenoSubcommand::Run(run_flags) => {
run_command(flags, run_flags).boxed_local()
}
DenoSubcommand::Test(test_flags) => {
test_command(flags, test_flags).boxed_local()
}
DenoSubcommand::Completions(CompletionsFlags { buf }) => {
if let Err(e) = write_to_stdout_ignore_sigpipe(&buf) {
eprintln!("{}", e);
std::process::exit(1);
}
std::process::exit(0);
}
DenoSubcommand::Types => {
let types = get_types(flags.unstable);
if let Err(e) = write_to_stdout_ignore_sigpipe(types.as_bytes()) {
eprintln!("{}", e);
std::process::exit(1);
}
std::process::exit(0);
}
DenoSubcommand::Upgrade(upgrade_flags) => {
let UpgradeFlags {
force,
dry_run,
canary,
version,
output,
ca_file,
} = upgrade_flags;
tools::upgrade::upgrade_command(
dry_run, force, canary, version, output, ca_file,
)
.boxed_local()
}
}
}
fn setup_exit_process_panic_hook() {
// tokio does not exit the process when a task panics, so we
// define a custom panic hook to implement this behaviour
let orig_hook = std::panic::take_hook();
std::panic::set_hook(Box::new(move |panic_info| {
orig_hook(panic_info);
std::process::exit(1);
}));
}
fn unwrap_or_exit<T>(result: Result<T, AnyError>) -> T {
match result {
Ok(value) => value,
Err(error) => {
eprintln!("{}: {:?}", colors::red_bold("error"), error);
std::process::exit(1);
}
}
}
pub fn main() {
setup_exit_process_panic_hook();
#[cfg(windows)]
colors::enable_ansi(); // For Windows 10
unix_util::raise_fd_limit();
let args: Vec<String> = env::args().collect();
let standalone_res = match standalone::extract_standalone(args.clone()) {
Ok(Some((metadata, bundle))) => {
tokio_util::run_basic(standalone::run(bundle, metadata))
}
Ok(None) => Ok(()),
Err(err) => Err(err),
};
if let Err(err) = standalone_res {
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eprintln!("{}: {}", colors::red_bold("error"), err.to_string());
std::process::exit(1);
}
let flags = match flags::flags_from_vec(args) {
Ok(flags) => flags,
Err(err @ clap::Error { .. })
if err.kind == clap::ErrorKind::HelpDisplayed
|| err.kind == clap::ErrorKind::VersionDisplayed =>
{
err.write_to(&mut std::io::stdout()).unwrap();
std::io::stdout().write_all(b"\n").unwrap();
std::process::exit(0);
}
Err(err) => unwrap_or_exit(Err(AnyError::from(err))),
};
if !flags.v8_flags.is_empty() {
init_v8_flags(&*flags.v8_flags);
}
logger::init(flags.log_level);
unwrap_or_exit(tokio_util::run_basic(get_subcommand(flags)));
2018-06-15 19:43:23 -04:00
}