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denoland-deno/cli/main.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
mod args;
mod auth_tokens;
mod cache;
mod cdp;
mod checksum;
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mod deno_dir;
mod deno_std;
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mod diagnostics;
mod diff;
mod display;
mod emit;
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mod errors;
mod file_fetcher;
mod file_watcher;
mod fs_util;
mod graph_util;
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mod http_cache;
mod http_util;
mod lockfile;
mod logger;
mod lsp;
mod module_loader;
mod napi;
mod node;
mod npm;
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mod ops;
mod proc_state;
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mod progress_bar;
mod resolver;
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mod standalone;
mod text_encoding;
mod tools;
mod tsc;
mod unix_util;
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mod version;
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mod windows_util;
mod worker;
use crate::args::flags_from_vec;
use crate::args::BenchFlags;
use crate::args::BundleFlags;
use crate::args::CacheFlags;
use crate::args::CheckFlags;
use crate::args::CompileFlags;
use crate::args::CompletionsFlags;
use crate::args::CoverageFlags;
use crate::args::DenoSubcommand;
use crate::args::DocFlags;
use crate::args::EvalFlags;
use crate::args::Flags;
use crate::args::FmtFlags;
use crate::args::InfoFlags;
use crate::args::InitFlags;
use crate::args::InstallFlags;
use crate::args::LintFlags;
use crate::args::ReplFlags;
use crate::args::RunFlags;
use crate::args::TaskFlags;
use crate::args::TestFlags;
use crate::args::TypeCheckMode;
use crate::args::UninstallFlags;
use crate::args::UpgradeFlags;
use crate::args::VendorFlags;
use crate::cache::TypeCheckCache;
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use crate::emit::TsConfigType;
use crate::file_fetcher::File;
use crate::file_watcher::ResolutionResult;
use crate::graph_util::graph_lock_or_exit;
use crate::graph_util::graph_valid;
use crate::proc_state::ProcState;
use crate::resolver::CliResolver;
use crate::tools::check;
use args::CliOptions;
use deno_ast::MediaType;
use deno_core::anyhow::bail;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::error::JsError;
use deno_core::futures::future::FutureExt;
use deno_core::futures::Future;
use deno_core::parking_lot::RwLock;
use deno_core::resolve_url_or_path;
use deno_core::v8_set_flags;
use deno_core::ModuleSpecifier;
use deno_runtime::colors;
use deno_runtime::fmt_errors::format_js_error;
use deno_runtime::permissions::Permissions;
use deno_runtime::tokio_util::run_local;
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use log::debug;
use log::info;
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use npm::NpmPackageReference;
use std::env;
use std::io::Read;
use std::iter::once;
use std::path::PathBuf;
use std::pin::Pin;
use std::sync::Arc;
use worker::create_main_worker;
pub fn get_types(unstable: bool) -> String {
let mut types = vec![
tsc::DENO_NS_LIB,
tsc::DENO_CONSOLE_LIB,
tsc::DENO_URL_LIB,
tsc::DENO_WEB_LIB,
tsc::DENO_FETCH_LIB,
tsc::DENO_WEBGPU_LIB,
tsc::DENO_WEBSOCKET_LIB,
tsc::DENO_WEBSTORAGE_LIB,
tsc::DENO_CRYPTO_LIB,
tsc::DENO_BROADCAST_CHANNEL_LIB,
tsc::DENO_NET_LIB,
tsc::SHARED_GLOBALS_LIB,
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tsc::DENO_CACHE_LIB,
tsc::WINDOW_LIB,
];
if unstable {
types.push(tsc::UNSTABLE_NS_LIB);
}
types.join("\n")
}
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async fn compile_command(
flags: Flags,
compile_flags: CompileFlags,
) -> Result<i32, AnyError> {
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let debug = flags.log_level == Some(log::Level::Debug);
let run_flags = tools::standalone::compile_to_runtime_flags(
&flags,
compile_flags.args.clone(),
)?;
let module_specifier = resolve_url_or_path(&compile_flags.source_file)?;
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let ps = ProcState::build(flags).await?;
let deno_dir = &ps.dir;
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let output_path =
tools::standalone::resolve_compile_executable_output_path(&compile_flags)?;
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let graph = Arc::try_unwrap(
create_graph_and_maybe_check(module_specifier.clone(), &ps, debug).await?,
)
.map_err(|_| {
generic_error("There should only be one reference to ModuleGraph")
})?;
graph.valid().unwrap();
// at the moment, we don't support npm specifiers in deno_compile, so show an error
let first_npm_specifier = graph
.specifiers()
.values()
.filter_map(|r| match r {
Ok((specifier, kind, _)) if *kind == deno_graph::ModuleKind::External => {
Some(specifier.clone())
}
_ => None,
})
.next();
if let Some(npm_specifier) = first_npm_specifier {
bail!("npm specifiers have not yet been implemented for deno compile (https://github.com/denoland/deno/issues/15960). Found: {}", npm_specifier)
}
let parser = ps.parsed_source_cache.as_capturing_parser();
let eszip = eszip::EszipV2::from_graph(graph, &parser, Default::default())?;
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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,
eszip,
module_specifier.clone(),
run_flags,
ps,
)
.await?;
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info!("{} {}", colors::green("Emit"), output_path.display());
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tools::standalone::write_standalone_binary(output_path, final_bin).await?;
Ok(0)
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}
async fn init_command(
_flags: Flags,
init_flags: InitFlags,
) -> Result<i32, AnyError> {
tools::init::init_project(init_flags).await?;
Ok(0)
}
async fn info_command(
flags: Flags,
info_flags: InfoFlags,
) -> Result<i32, AnyError> {
tools::info::info(flags, info_flags).await?;
Ok(0)
}
async fn install_command(
flags: Flags,
install_flags: InstallFlags,
) -> Result<i32, AnyError> {
let mut preload_flags = flags.clone();
preload_flags.inspect = None;
preload_flags.inspect_brk = None;
let permissions =
Permissions::from_options(&preload_flags.permissions_options())?;
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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,
permissions,
vec![],
Default::default(),
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)
.await?;
// First, fetch and compile the module; this step ensures that the module exists.
worker.preload_main_module().await?;
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tools::installer::install(flags, install_flags)?;
Ok(0)
}
async fn uninstall_command(
uninstall_flags: UninstallFlags,
) -> Result<i32, AnyError> {
tools::installer::uninstall(uninstall_flags.name, uninstall_flags.root)?;
Ok(0)
}
async fn lsp_command() -> Result<i32, AnyError> {
lsp::start().await?;
Ok(0)
}
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async fn lint_command(
flags: Flags,
lint_flags: LintFlags,
) -> Result<i32, AnyError> {
if lint_flags.rules {
tools::lint::print_rules_list(lint_flags.json);
return Ok(0);
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}
tools::lint::lint(flags, lint_flags).await?;
Ok(0)
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}
async fn cache_command(
flags: Flags,
cache_flags: CacheFlags,
) -> Result<i32, AnyError> {
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let ps = ProcState::build(flags).await?;
load_and_type_check(&ps, &cache_flags.files).await?;
ps.cache_module_emits()?;
Ok(0)
}
async fn check_command(
flags: Flags,
check_flags: CheckFlags,
) -> Result<i32, AnyError> {
let ps = ProcState::build(flags).await?;
load_and_type_check(&ps, &check_flags.files).await?;
Ok(0)
}
async fn load_and_type_check(
ps: &ProcState,
files: &[String],
) -> Result<(), AnyError> {
let lib = ps.options.ts_type_lib_window();
let specifiers = files
.iter()
.map(|file| resolve_url_or_path(file))
.collect::<Result<Vec<_>, _>>()?;
ps.prepare_module_load(
specifiers,
false,
lib,
Permissions::allow_all(),
Permissions::allow_all(),
false,
)
.await?;
Ok(())
}
async fn eval_command(
flags: Flags,
eval_flags: EvalFlags,
) -> Result<i32, AnyError> {
// deno_graph works off of extensions for local files to determine the media
// type, and so our "fake" specifier needs to have the proper extension.
let main_module =
resolve_url_or_path(&format!("./$deno$eval.{}", eval_flags.ext))?;
let permissions = Permissions::from_options(&flags.permissions_options())?;
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let ps = ProcState::build(flags).await?;
let mut worker = create_main_worker(
&ps,
main_module.clone(),
permissions,
vec![],
Default::default(),
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)
.await?;
// 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: MediaType::Unknown,
source: String::from_utf8(source_code)?.into(),
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);
let exit_code = worker.run().await?;
Ok(exit_code)
}
async fn create_graph_and_maybe_check(
root: ModuleSpecifier,
ps: &ProcState,
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debug: bool,
) -> Result<Arc<deno_graph::ModuleGraph>, AnyError> {
let mut cache = cache::FetchCacher::new(
ps.emit_cache.clone(),
ps.file_fetcher.clone(),
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Permissions::allow_all(),
Permissions::allow_all(),
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);
let maybe_locker = lockfile::as_maybe_locker(ps.lockfile.clone());
let maybe_imports = ps.options.to_maybe_imports()?;
let maybe_cli_resolver = CliResolver::maybe_new(
ps.options.to_maybe_jsx_import_source_config(),
ps.maybe_import_map.clone(),
);
let maybe_graph_resolver =
maybe_cli_resolver.as_ref().map(|r| r.as_graph_resolver());
let analyzer = ps.parsed_source_cache.as_analyzer();
let graph = Arc::new(
deno_graph::create_graph(
vec![(root, deno_graph::ModuleKind::Esm)],
&mut cache,
deno_graph::GraphOptions {
is_dynamic: false,
imports: maybe_imports,
resolver: maybe_graph_resolver,
locker: maybe_locker,
module_analyzer: Some(&*analyzer),
reporter: None,
},
)
.await,
);
let check_js = ps.options.check_js();
graph_valid(
&graph,
ps.options.type_check_mode() != TypeCheckMode::None,
check_js,
)?;
graph_lock_or_exit(&graph);
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if ps.options.type_check_mode() != TypeCheckMode::None {
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let ts_config_result =
ps.options.resolve_ts_config_for_emit(TsConfigType::Check {
lib: ps.options.ts_type_lib_window(),
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})?;
if let Some(ignored_options) = ts_config_result.maybe_ignored_options {
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eprintln!("{}", ignored_options);
}
let maybe_config_specifier = ps.options.maybe_config_file_specifier();
let cache = TypeCheckCache::new(&ps.dir.type_checking_cache_db_file_path());
let check_result = check::check(
&graph.roots,
Arc::new(RwLock::new(graph.as_ref().into())),
&cache,
ps.npm_resolver.clone(),
check::CheckOptions {
type_check_mode: ps.options.type_check_mode(),
debug,
maybe_config_specifier,
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ts_config: ts_config_result.ts_config,
log_checks: true,
reload: ps.options.reload_flag(),
},
)?;
debug!("{}", check_result.stats);
if !check_result.diagnostics.is_empty() {
return Err(check_result.diagnostics.into());
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}
}
Ok(graph)
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}
fn bundle_module_graph(
graph: &deno_graph::ModuleGraph,
ps: &ProcState,
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) -> Result<deno_emit::BundleEmit, AnyError> {
info!("{} {}", colors::green("Bundle"), graph.roots[0].0);
let ts_config_result = ps
.options
.resolve_ts_config_for_emit(TsConfigType::Bundle)?;
if ps.options.type_check_mode() == TypeCheckMode::None {
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if let Some(ignored_options) = ts_config_result.maybe_ignored_options {
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eprintln!("{}", ignored_options);
}
}
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deno_emit::bundle_graph(
graph,
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deno_emit::BundleOptions {
bundle_type: deno_emit::BundleType::Module,
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emit_options: ts_config_result.ts_config.into(),
emit_ignore_directives: true,
},
)
}
async fn bundle_command(
flags: Flags,
bundle_flags: BundleFlags,
) -> Result<i32, AnyError> {
let debug = flags.log_level == Some(log::Level::Debug);
let cli_options = Arc::new(CliOptions::from_flags(flags)?);
let resolver = |_| {
let cli_options = cli_options.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::from_options(cli_options).await?;
let graph =
create_graph_and_maybe_check(module_specifier, &ps, debug).await?;
let mut paths_to_watch: Vec<PathBuf> = graph
.specifiers()
.iter()
.filter_map(|(_, r)| {
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r.as_ref().ok().and_then(|(s, _, _)| s.to_file_path().ok())
})
.collect();
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if let Ok(Some(import_map_path)) = ps
.options
.resolve_import_map_specifier()
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.map(|ms| ms.and_then(|ref s| s.to_file_path().ok()))
{
paths_to_watch.push(import_map_path);
}
Ok((paths_to_watch, graph, ps))
}
.map(move |result| match result {
Ok((paths_to_watch, graph, ps)) => ResolutionResult::Restart {
paths_to_watch,
result: Ok((ps, graph)),
},
Err(e) => ResolutionResult::Restart {
paths_to_watch: vec![PathBuf::from(source_file2)],
result: Err(e),
},
})
};
let operation = |(ps, graph): (ProcState, Arc<deno_graph::ModuleGraph>)| {
let out_file = bundle_flags.out_file.clone();
async move {
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let bundle_output = bundle_module_graph(graph.as_ref(), &ps)?;
debug!(">>>>> bundle END");
if let Some(out_file) = out_file.as_ref() {
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let output_bytes = bundle_output.code.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(display::human_size(output_len as f64))
);
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if let Some(bundle_map) = bundle_output.maybe_map {
let map_bytes = bundle_map.as_bytes();
let map_len = map_bytes.len();
let ext = if let Some(curr_ext) = out_file.extension() {
format!("{}.map", curr_ext.to_string_lossy())
} else {
"map".to_string()
};
let map_out_file = out_file.with_extension(ext);
fs_util::write_file(&map_out_file, map_bytes, 0o644)?;
info!(
"{} {:?} ({})",
colors::green("Emit"),
map_out_file,
colors::gray(display::human_size(map_len as f64))
);
}
} else {
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println!("{}", bundle_output.code);
}
Ok(())
}
};
if cli_options.watch_paths().is_some() {
file_watcher::watch_func(
resolver,
operation,
file_watcher::PrintConfig {
job_name: "Bundle".to_string(),
clear_screen: !cli_options.no_clear_screen(),
},
)
.await?;
} else {
let module_graph =
if let ResolutionResult::Restart { result, .. } = resolver(None).await {
result?
} else {
unreachable!();
};
operation(module_graph).await?;
}
Ok(0)
}
async fn doc_command(
flags: Flags,
doc_flags: DocFlags,
) -> Result<i32, AnyError> {
tools::doc::print_docs(flags, doc_flags).await?;
Ok(0)
}
async fn format_command(
flags: Flags,
fmt_flags: FmtFlags,
) -> Result<i32, AnyError> {
let config = CliOptions::from_flags(flags)?;
if fmt_flags.files.len() == 1 && fmt_flags.files[0].to_string_lossy() == "-" {
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let maybe_fmt_config = config.to_fmt_config()?;
tools::fmt::format_stdin(
fmt_flags,
maybe_fmt_config.map(|c| c.options).unwrap_or_default(),
)?;
return Ok(0);
}
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tools::fmt::format(&config, fmt_flags).await?;
Ok(0)
}
async fn repl_command(
flags: Flags,
repl_flags: ReplFlags,
) -> Result<i32, AnyError> {
let main_module = resolve_url_or_path("./$deno$repl.ts").unwrap();
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let ps = ProcState::build(flags).await?;
let mut worker = create_main_worker(
&ps,
main_module.clone(),
Permissions::from_options(&ps.options.permissions_options())?,
vec![],
Default::default(),
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)
.await?;
worker.setup_repl().await?;
tools::repl::run(
&ps,
worker.into_main_worker(),
repl_flags.eval_files,
repl_flags.eval,
)
.await
}
async fn run_from_stdin(flags: Flags) -> Result<i32, AnyError> {
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let ps = ProcState::build(flags).await?;
let main_module = resolve_url_or_path("./$deno$stdin.ts").unwrap();
let mut worker = create_main_worker(
&ps.clone(),
main_module.clone(),
Permissions::from_options(&ps.options.permissions_options())?,
vec![],
Default::default(),
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)
.await?;
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: String::from_utf8(source)?.into(),
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);
let exit_code = worker.run().await?;
Ok(exit_code)
}
// TODO(bartlomieju): this function is not handling `exit_code` set by the runtime
// code properly.
async fn run_with_watch(flags: Flags, script: String) -> Result<i32, AnyError> {
let flags = Arc::new(flags);
let main_module = resolve_url_or_path(&script)?;
let (sender, receiver) = tokio::sync::mpsc::unbounded_channel();
let operation = |(sender, main_module): (
tokio::sync::mpsc::UnboundedSender<Vec<PathBuf>>,
ModuleSpecifier,
)| {
let flags = flags.clone();
let permissions = Permissions::from_options(&flags.permissions_options())?;
Ok(async move {
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let ps =
ProcState::build_for_file_watcher((*flags).clone(), sender.clone())
.await?;
let worker = create_main_worker(
&ps,
main_module.clone(),
permissions,
vec![],
Default::default(),
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)
.await?;
worker.run_for_watcher().await?;
Ok(())
})
};
file_watcher::watch_func2(
receiver,
operation,
(sender, main_module),
file_watcher::PrintConfig {
job_name: "Process".to_string(),
clear_screen: !flags.no_clear_screen,
},
)
.await?;
Ok(0)
}
async fn run_command(
flags: Flags,
run_flags: RunFlags,
) -> Result<i32, AnyError> {
// Read script content from stdin
if run_flags.is_stdin() {
return run_from_stdin(flags).await;
}
if flags.watch.is_some() {
return run_with_watch(flags, run_flags.script).await;
}
// TODO(bartlomieju): actually I think it will also fail if there's an import
// map specified and bare specifier is used on the command line - this should
// probably call `ProcState::resolve` instead
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let ps = ProcState::build(flags).await?;
// Run a background task that checks for available upgrades. If an earlier
// run of this background task found a new version of Deno.
tools::upgrade::check_for_upgrades(ps.dir.root.clone());
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let main_module = if NpmPackageReference::from_str(&run_flags.script).is_ok()
{
ModuleSpecifier::parse(&run_flags.script)?
} else {
resolve_url_or_path(&run_flags.script)?
};
let permissions =
Permissions::from_options(&ps.options.permissions_options())?;
let mut worker = create_main_worker(
&ps,
main_module.clone(),
permissions,
vec![],
Default::default(),
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)
.await?;
let exit_code = worker.run().await?;
Ok(exit_code)
}
async fn task_command(
flags: Flags,
task_flags: TaskFlags,
) -> Result<i32, AnyError> {
tools::task::execute_script(flags, task_flags).await
}
async fn coverage_command(
flags: Flags,
coverage_flags: CoverageFlags,
) -> Result<i32, AnyError> {
if coverage_flags.files.is_empty() {
return Err(generic_error("No matching coverage profiles found"));
}
tools::coverage::cover_files(flags, coverage_flags).await?;
Ok(0)
}
async fn bench_command(
flags: Flags,
bench_flags: BenchFlags,
) -> Result<i32, AnyError> {
if flags.watch.is_some() {
tools::bench::run_benchmarks_with_watch(flags, bench_flags).await?;
} else {
tools::bench::run_benchmarks(flags, bench_flags).await?;
}
Ok(0)
}
async fn test_command(
flags: Flags,
test_flags: TestFlags,
) -> Result<i32, 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.is_some() {
tools::test::run_tests_with_watch(flags, test_flags).await?;
} else {
tools::test::run_tests(flags, test_flags).await?;
}
Ok(0)
}
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async fn completions_command(
_flags: Flags,
completions_flags: CompletionsFlags,
) -> Result<i32, AnyError> {
display::write_to_stdout_ignore_sigpipe(&completions_flags.buf)?;
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Ok(0)
}
async fn types_command(flags: Flags) -> Result<i32, AnyError> {
let types = get_types(flags.unstable);
display::write_to_stdout_ignore_sigpipe(types.as_bytes())?;
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Ok(0)
}
async fn upgrade_command(
_flags: Flags,
upgrade_flags: UpgradeFlags,
) -> Result<i32, AnyError> {
tools::upgrade::upgrade(upgrade_flags).await?;
Ok(0)
}
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async fn vendor_command(
flags: Flags,
vendor_flags: VendorFlags,
) -> Result<i32, AnyError> {
tools::vendor::vendor(flags, vendor_flags).await?;
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Ok(0)
}
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<i32, AnyError>>>> {
match flags.subcommand.clone() {
DenoSubcommand::Bench(bench_flags) => {
bench_command(flags, bench_flags).boxed_local()
}
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::Check(check_flags) => {
check_command(flags, check_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::Init(init_flags) => {
init_command(flags, init_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) => {
repl_command(flags, repl_flags).boxed_local()
}
DenoSubcommand::Run(run_flags) => {
run_command(flags, run_flags).boxed_local()
}
DenoSubcommand::Task(task_flags) => {
task_command(flags, task_flags).boxed_local()
}
DenoSubcommand::Test(test_flags) => {
test_command(flags, test_flags).boxed_local()
}
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DenoSubcommand::Completions(completions_flags) => {
completions_command(flags, completions_flags).boxed_local()
}
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DenoSubcommand::Types => types_command(flags).boxed_local(),
DenoSubcommand::Upgrade(upgrade_flags) => {
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upgrade_command(flags, upgrade_flags).boxed_local()
}
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DenoSubcommand::Vendor(vendor_flags) => {
vendor_command(flags, vendor_flags).boxed_local()
}
}
}
fn setup_panic_hook() {
// This function does two things inside of the panic hook:
// - Tokio does not exit the process when a task panics, so we define a custom
// panic hook to implement this behaviour.
// - We print a message to stderr to indicate that this is a bug in Deno, and
// should be reported to us.
let orig_hook = std::panic::take_hook();
std::panic::set_hook(Box::new(move |panic_info| {
eprintln!("\n============================================================");
eprintln!("Deno has panicked. This is a bug in Deno. Please report this");
eprintln!("at https://github.com/denoland/deno/issues/new.");
eprintln!("If you can reliably reproduce this panic, include the");
eprintln!("reproduction steps and re-run with the RUST_BACKTRACE=1 env");
eprintln!("var set and include the backtrace in your report.");
eprintln!();
eprintln!("Platform: {} {}", env::consts::OS, env::consts::ARCH);
eprintln!("Version: {}", version::deno());
eprintln!("Args: {:?}", env::args().collect::<Vec<_>>());
eprintln!();
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) => {
let mut error_string = format!("{:?}", error);
let mut error_code = 1;
if let Some(e) = error.downcast_ref::<JsError>() {
error_string = format_js_error(e);
} else if let Some(e) = error.downcast_ref::<lockfile::LockfileError>() {
error_string = e.to_string();
error_code = 10;
}
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eprintln!(
"{}: {}",
colors::red_bold("error"),
error_string.trim_start_matches("error: ")
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);
std::process::exit(error_code);
}
}
}
pub fn main() {
setup_panic_hook();
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unix_util::raise_fd_limit();
windows_util::ensure_stdio_open();
#[cfg(windows)]
colors::enable_ansi(); // For Windows 10
let args: Vec<String> = env::args().collect();
let exit_code = async move {
let standalone_res =
match standalone::extract_standalone(args.clone()).await {
Ok(Some((metadata, eszip))) => standalone::run(eszip, metadata).await,
Ok(None) => Ok(()),
Err(err) => Err(err),
};
// TODO(bartlomieju): doesn't handle exit code set by the runtime properly
unwrap_or_exit(standalone_res);
let flags = match flags_from_vec(args) {
Ok(flags) => flags,
Err(err @ clap::Error { .. })
if err.kind() == clap::ErrorKind::DisplayHelp
|| err.kind() == clap::ErrorKind::DisplayVersion =>
{
err.print().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);
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get_subcommand(flags).await
};
let exit_code = unwrap_or_exit(run_local(exit_code));
std::process::exit(exit_code);
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}