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denoland-deno/cli/node/mod.rs

1351 lines
36 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use std::collections::HashSet;
use std::collections::VecDeque;
use std::path::Path;
use std::path::PathBuf;
use deno_ast::CjsAnalysis;
use deno_ast::MediaType;
use deno_ast::ModuleSpecifier;
use deno_core::anyhow::anyhow;
use deno_core::anyhow::bail;
use deno_core::anyhow::Context;
use deno_core::error::generic_error;
use deno_core::error::AnyError;
use deno_core::located_script_name;
use deno_core::serde_json::Value;
use deno_core::url::Url;
use deno_core::JsRuntime;
use deno_runtime::deno_node::errors;
use deno_runtime::deno_node::get_closest_package_json;
use deno_runtime::deno_node::legacy_main_resolve;
use deno_runtime::deno_node::package_exports_resolve;
use deno_runtime::deno_node::package_imports_resolve;
use deno_runtime::deno_node::package_resolve;
use deno_runtime::deno_node::path_to_declaration_path;
use deno_runtime::deno_node::NodeModuleKind;
use deno_runtime::deno_node::NodeResolutionMode;
use deno_runtime::deno_node::PackageJson;
use deno_runtime::deno_node::PathClean;
use deno_runtime::deno_node::RequireNpmResolver;
use deno_runtime::deno_node::DEFAULT_CONDITIONS;
use deno_runtime::deno_node::NODE_GLOBAL_THIS_NAME;
use once_cell::sync::Lazy;
use regex::Regex;
use crate::cache::NodeAnalysisCache;
use crate::deno_std::CURRENT_STD_URL;
use crate::file_fetcher::FileFetcher;
use crate::npm::NpmPackageReference;
use crate::npm::NpmPackageReq;
use crate::npm::NpmPackageResolver;
mod analyze;
pub use analyze::esm_code_with_node_globals;
#[derive(Debug)]
pub enum NodeResolution {
Esm(ModuleSpecifier),
CommonJs(ModuleSpecifier),
BuiltIn(String),
}
impl NodeResolution {
pub fn into_url(self) -> ModuleSpecifier {
match self {
Self::Esm(u) => u,
Self::CommonJs(u) => u,
Self::BuiltIn(specifier) => {
if specifier.starts_with("node:") {
ModuleSpecifier::parse(&specifier).unwrap()
} else {
ModuleSpecifier::parse(&format!("node:{}", specifier)).unwrap()
}
}
}
}
pub fn into_specifier_and_media_type(
resolution: Option<Self>,
) -> (ModuleSpecifier, MediaType) {
match resolution {
Some(NodeResolution::CommonJs(specifier)) => {
let media_type = MediaType::from(&specifier);
(
specifier,
match media_type {
MediaType::JavaScript | MediaType::Jsx => MediaType::Cjs,
MediaType::TypeScript | MediaType::Tsx => MediaType::Cts,
MediaType::Dts => MediaType::Dcts,
_ => media_type,
},
)
}
Some(NodeResolution::Esm(specifier)) => {
let media_type = MediaType::from(&specifier);
(
specifier,
match media_type {
MediaType::JavaScript | MediaType::Jsx => MediaType::Mjs,
MediaType::TypeScript | MediaType::Tsx => MediaType::Mts,
MediaType::Dts => MediaType::Dmts,
_ => media_type,
},
)
}
Some(resolution) => (resolution.into_url(), MediaType::Dts),
None => (
ModuleSpecifier::parse("deno:///missing_dependency.d.ts").unwrap(),
MediaType::Dts,
),
}
}
}
struct NodeModulePolyfill {
/// Name of the module like "assert" or "timers/promises"
name: &'static str,
/// Specifier relative to the root of `deno_std` repo, like "node/asser.ts"
specifier: &'static str,
}
static SUPPORTED_MODULES: &[NodeModulePolyfill] = &[
NodeModulePolyfill {
name: "assert",
specifier: "node/assert.ts",
},
NodeModulePolyfill {
name: "assert/strict",
specifier: "node/assert/strict.ts",
},
NodeModulePolyfill {
name: "async_hooks",
specifier: "node/async_hooks.ts",
},
NodeModulePolyfill {
name: "buffer",
specifier: "node/buffer.ts",
},
NodeModulePolyfill {
name: "child_process",
specifier: "node/child_process.ts",
},
NodeModulePolyfill {
name: "cluster",
specifier: "node/cluster.ts",
},
NodeModulePolyfill {
name: "console",
specifier: "node/console.ts",
},
NodeModulePolyfill {
name: "constants",
specifier: "node/constants.ts",
},
NodeModulePolyfill {
name: "crypto",
specifier: "node/crypto.ts",
},
NodeModulePolyfill {
name: "dgram",
specifier: "node/dgram.ts",
},
NodeModulePolyfill {
name: "dns",
specifier: "node/dns.ts",
},
NodeModulePolyfill {
name: "dns/promises",
specifier: "node/dns/promises.ts",
},
NodeModulePolyfill {
name: "domain",
specifier: "node/domain.ts",
},
NodeModulePolyfill {
name: "events",
specifier: "node/events.ts",
},
NodeModulePolyfill {
name: "fs",
specifier: "node/fs.ts",
},
NodeModulePolyfill {
name: "fs/promises",
specifier: "node/fs/promises.ts",
},
NodeModulePolyfill {
name: "http",
specifier: "node/http.ts",
},
NodeModulePolyfill {
name: "https",
specifier: "node/https.ts",
},
NodeModulePolyfill {
name: "module",
// NOTE(bartlomieju): `module` is special, because we don't want to use
// `deno_std/node/module.ts`, but instead use a special shim that we
// provide in `ext/node`.
specifier: "[USE `deno_node::MODULE_ES_SHIM` to get this module]",
},
NodeModulePolyfill {
name: "net",
specifier: "node/net.ts",
},
NodeModulePolyfill {
name: "os",
specifier: "node/os.ts",
},
NodeModulePolyfill {
name: "path",
specifier: "node/path.ts",
},
NodeModulePolyfill {
name: "path/posix",
specifier: "node/path/posix.ts",
},
NodeModulePolyfill {
name: "path/win32",
specifier: "node/path/win32.ts",
},
NodeModulePolyfill {
name: "perf_hooks",
specifier: "node/perf_hooks.ts",
},
NodeModulePolyfill {
name: "process",
specifier: "node/process.ts",
},
NodeModulePolyfill {
name: "querystring",
specifier: "node/querystring.ts",
},
NodeModulePolyfill {
name: "readline",
specifier: "node/readline.ts",
},
NodeModulePolyfill {
name: "stream",
specifier: "node/stream.ts",
},
NodeModulePolyfill {
name: "stream/consumers",
specifier: "node/stream/consumers.mjs",
},
NodeModulePolyfill {
name: "stream/promises",
specifier: "node/stream/promises.mjs",
},
NodeModulePolyfill {
name: "stream/web",
specifier: "node/stream/web.ts",
},
NodeModulePolyfill {
name: "string_decoder",
specifier: "node/string_decoder.ts",
},
NodeModulePolyfill {
name: "sys",
specifier: "node/sys.ts",
},
NodeModulePolyfill {
name: "timers",
specifier: "node/timers.ts",
},
NodeModulePolyfill {
name: "timers/promises",
specifier: "node/timers/promises.ts",
},
NodeModulePolyfill {
name: "tls",
specifier: "node/tls.ts",
},
NodeModulePolyfill {
name: "tty",
specifier: "node/tty.ts",
},
NodeModulePolyfill {
name: "url",
specifier: "node/url.ts",
},
NodeModulePolyfill {
name: "util",
specifier: "node/util.ts",
},
NodeModulePolyfill {
name: "util/types",
specifier: "node/util/types.ts",
},
NodeModulePolyfill {
name: "v8",
specifier: "node/v8.ts",
},
NodeModulePolyfill {
name: "vm",
specifier: "node/vm.ts",
},
NodeModulePolyfill {
name: "worker_threads",
specifier: "node/worker_threads.ts",
},
NodeModulePolyfill {
name: "zlib",
specifier: "node/zlib.ts",
},
];
static NODE_COMPAT_URL: Lazy<Url> = Lazy::new(|| {
if let Ok(url_str) = std::env::var("DENO_NODE_COMPAT_URL") {
let url = Url::parse(&url_str).expect(
"Malformed DENO_NODE_COMPAT_URL value, make sure it's a file URL ending with a slash"
);
return url;
}
CURRENT_STD_URL.clone()
});
pub static MODULE_ALL_URL: Lazy<Url> =
Lazy::new(|| NODE_COMPAT_URL.join("node/module_all.ts").unwrap());
fn find_builtin_node_module(specifier: &str) -> Option<&NodeModulePolyfill> {
SUPPORTED_MODULES.iter().find(|m| m.name == specifier)
}
fn is_builtin_node_module(specifier: &str) -> bool {
find_builtin_node_module(specifier).is_some()
}
pub fn resolve_builtin_node_module(specifier: &str) -> Result<Url, AnyError> {
// NOTE(bartlomieju): `module` is special, because we don't want to use
// `deno_std/node/module.ts`, but instead use a special shim that we
// provide in `ext/node`.
if specifier == "module" {
return Ok(Url::parse("node:module").unwrap());
}
if let Some(module) = find_builtin_node_module(specifier) {
let module_url = NODE_COMPAT_URL.join(module.specifier).unwrap();
return Ok(module_url);
}
Err(generic_error(format!(
"Unknown built-in Node module: {}",
specifier
)))
}
static RESERVED_WORDS: Lazy<HashSet<&str>> = Lazy::new(|| {
HashSet::from([
"break",
"case",
"catch",
"class",
"const",
"continue",
"debugger",
"default",
"delete",
"do",
"else",
"export",
"extends",
"false",
"finally",
"for",
"function",
"if",
"import",
"in",
"instanceof",
"new",
"null",
"return",
"super",
"switch",
"this",
"throw",
"true",
"try",
"typeof",
"var",
"void",
"while",
"with",
"yield",
"let",
"enum",
"implements",
"interface",
"package",
"private",
"protected",
"public",
"static",
])
});
pub async fn initialize_runtime(
js_runtime: &mut JsRuntime,
uses_local_node_modules_dir: bool,
) -> Result<(), AnyError> {
let source_code = &format!(
r#"(async function loadBuiltinNodeModules(moduleAllUrl, nodeGlobalThisName, usesLocalNodeModulesDir) {{
const moduleAll = await import(moduleAllUrl);
Deno[Deno.internal].node.initialize(moduleAll.default, nodeGlobalThisName);
if (usesLocalNodeModulesDir) {{
Deno[Deno.internal].require.setUsesLocalNodeModulesDir();
}}
}})('{}', '{}', {});"#,
MODULE_ALL_URL.as_str(),
NODE_GLOBAL_THIS_NAME.as_str(),
uses_local_node_modules_dir,
);
let value =
js_runtime.execute_script(&located_script_name!(), source_code)?;
js_runtime.resolve_value(value).await?;
Ok(())
}
pub async fn initialize_binary_command(
js_runtime: &mut JsRuntime,
binary_name: &str,
) -> Result<(), AnyError> {
// overwrite what's done in deno_std in order to set the binary arg name
let source_code = &format!(
r#"(async function initializeBinaryCommand(binaryName) {{
const process = Deno[Deno.internal].node.globalThis.process;
Object.defineProperty(process.argv, "0", {{
get: () => binaryName,
}});
}})('{}');"#,
binary_name,
);
let value =
js_runtime.execute_script(&located_script_name!(), source_code)?;
js_runtime.resolve_value(value).await?;
Ok(())
}
/// This function is an implementation of `defaultResolve` in
/// `lib/internal/modules/esm/resolve.js` from Node.
pub fn node_resolve(
specifier: &str,
referrer: &ModuleSpecifier,
mode: NodeResolutionMode,
npm_resolver: &dyn RequireNpmResolver,
) -> Result<Option<NodeResolution>, AnyError> {
// Note: if we are here, then the referrer is an esm module
// TODO(bartlomieju): skipped "policy" part as we don't plan to support it
if is_builtin_node_module(specifier) {
return Ok(Some(NodeResolution::BuiltIn(specifier.to_string())));
}
if let Ok(url) = Url::parse(specifier) {
if url.scheme() == "data" {
return Ok(Some(NodeResolution::Esm(url)));
}
let protocol = url.scheme();
if protocol == "node" {
let split_specifier = url.as_str().split(':');
let specifier = split_specifier.skip(1).collect::<String>();
if is_builtin_node_module(&specifier) {
return Ok(Some(NodeResolution::BuiltIn(specifier)));
}
}
if protocol != "file" && protocol != "data" {
return Err(errors::err_unsupported_esm_url_scheme(&url));
}
// todo(dsherret): this seems wrong
if referrer.scheme() == "data" {
let url = referrer.join(specifier).map_err(AnyError::from)?;
return Ok(Some(NodeResolution::Esm(url)));
}
}
let url = module_resolve(
specifier,
referrer,
DEFAULT_CONDITIONS,
mode,
npm_resolver,
)?;
let url = match url {
Some(url) => url,
None => return Ok(None),
};
let url = match mode {
NodeResolutionMode::Execution => url,
NodeResolutionMode::Types => {
let path = url.to_file_path().unwrap();
// todo(16370): the module kind is not correct here. I think we need
// typescript to tell us if the referrer is esm or cjs
let path = match path_to_declaration_path(path, NodeModuleKind::Esm) {
Some(path) => path,
None => return Ok(None),
};
ModuleSpecifier::from_file_path(path).unwrap()
}
};
let resolve_response = url_to_node_resolution(url, npm_resolver)?;
// TODO(bartlomieju): skipped checking errors for commonJS resolution and
// "preserveSymlinksMain"/"preserveSymlinks" options.
Ok(Some(resolve_response))
}
pub fn node_resolve_npm_reference(
reference: &NpmPackageReference,
mode: NodeResolutionMode,
npm_resolver: &NpmPackageResolver,
) -> Result<Option<NodeResolution>, AnyError> {
let package_folder =
npm_resolver.resolve_package_folder_from_deno_module(&reference.req)?;
let node_module_kind = NodeModuleKind::Esm;
let maybe_resolved_path = package_config_resolve(
&reference
.sub_path
.as_ref()
.map(|s| format!("./{}", s))
.unwrap_or_else(|| ".".to_string()),
&package_folder,
node_module_kind,
DEFAULT_CONDITIONS,
mode,
npm_resolver,
)
.with_context(|| {
format!("Error resolving package config for '{}'", reference)
})?;
let resolved_path = match maybe_resolved_path {
Some(resolved_path) => resolved_path,
None => return Ok(None),
};
let resolved_path = match mode {
NodeResolutionMode::Execution => resolved_path,
NodeResolutionMode::Types => {
match path_to_declaration_path(resolved_path, node_module_kind) {
Some(path) => path,
None => return Ok(None),
}
}
};
let url = ModuleSpecifier::from_file_path(resolved_path).unwrap();
let resolve_response = url_to_node_resolution(url, npm_resolver)?;
// TODO(bartlomieju): skipped checking errors for commonJS resolution and
// "preserveSymlinksMain"/"preserveSymlinks" options.
Ok(Some(resolve_response))
}
pub fn node_resolve_binary_export(
pkg_req: &NpmPackageReq,
bin_name: Option<&str>,
npm_resolver: &NpmPackageResolver,
) -> Result<NodeResolution, AnyError> {
let package_folder =
npm_resolver.resolve_package_folder_from_deno_module(pkg_req)?;
let package_json_path = package_folder.join("package.json");
let package_json = PackageJson::load(npm_resolver, package_json_path)?;
let bin = match &package_json.bin {
Some(bin) => bin,
None => bail!(
"package '{}' did not have a bin property in its package.json",
&pkg_req.name,
),
};
let bin_entry = resolve_bin_entry_value(pkg_req, bin_name, bin)?;
let url =
ModuleSpecifier::from_file_path(package_folder.join(bin_entry)).unwrap();
let resolve_response = url_to_node_resolution(url, npm_resolver)?;
// TODO(bartlomieju): skipped checking errors for commonJS resolution and
// "preserveSymlinksMain"/"preserveSymlinks" options.
Ok(resolve_response)
}
fn resolve_bin_entry_value<'a>(
pkg_req: &NpmPackageReq,
bin_name: Option<&str>,
bin: &'a Value,
) -> Result<&'a str, AnyError> {
let bin_entry = match bin {
Value::String(_) => {
if bin_name.is_some() && bin_name.unwrap() != pkg_req.name {
None
} else {
Some(bin)
}
}
Value::Object(o) => {
if let Some(bin_name) = bin_name {
o.get(bin_name)
} else if o.len() == 1 || o.len() > 1 && o.values().all(|v| v == o.values().next().unwrap()) {
o.values().next()
} else {
o.get(&pkg_req.name)
}
},
_ => bail!("package '{}' did not have a bin property with a string or object value in its package.json", pkg_req.name),
};
let bin_entry = match bin_entry {
Some(e) => e,
None => {
let keys = bin
.as_object()
.map(|o| {
o.keys()
.into_iter()
.map(|k| format!(" * npm:{}/{}", pkg_req, k))
.collect::<Vec<_>>()
})
.unwrap_or_default();
bail!(
"package '{}' did not have a bin entry for '{}' in its package.json{}",
pkg_req.name,
bin_name.unwrap_or(&pkg_req.name),
if keys.is_empty() {
"".to_string()
} else {
format!("\n\nPossibilities:\n{}", keys.join("\n"))
}
)
}
};
match bin_entry {
Value::String(s) => Ok(s),
_ => bail!(
"package '{}' had a non-string sub property of bin in its package.json",
pkg_req.name,
),
}
}
pub fn load_cjs_module_from_ext_node(
js_runtime: &mut JsRuntime,
module: &str,
main: bool,
inspect_brk: bool,
) -> Result<(), AnyError> {
fn escape_for_single_quote_string(text: &str) -> String {
text.replace('\\', r"\\").replace('\'', r"\'")
}
let source_code = &format!(
r#"(function loadCjsModule(module, inspectBrk) {{
if (inspectBrk) {{
Deno[Deno.internal].require.setInspectBrk();
}}
Deno[Deno.internal].require.Module._load(module, null, {main});
}})('{module}', {inspect_brk});"#,
main = main,
module = escape_for_single_quote_string(module),
inspect_brk = inspect_brk,
);
js_runtime.execute_script(&located_script_name!(), source_code)?;
Ok(())
}
fn package_config_resolve(
package_subpath: &str,
package_dir: &Path,
referrer_kind: NodeModuleKind,
conditions: &[&str],
mode: NodeResolutionMode,
npm_resolver: &dyn RequireNpmResolver,
) -> Result<Option<PathBuf>, AnyError> {
let package_json_path = package_dir.join("package.json");
let referrer = ModuleSpecifier::from_directory_path(package_dir).unwrap();
let package_config =
PackageJson::load(npm_resolver, package_json_path.clone())?;
if let Some(exports) = &package_config.exports {
let result = package_exports_resolve(
&package_json_path,
package_subpath.to_string(),
exports,
&referrer,
referrer_kind,
conditions,
mode,
npm_resolver,
);
match result {
Ok(found) => return Ok(Some(found)),
Err(exports_err) => {
if mode.is_types() && package_subpath == "." {
if let Ok(Some(path)) =
legacy_main_resolve(&package_config, referrer_kind, mode)
{
return Ok(Some(path));
} else {
return Ok(None);
}
}
return Err(exports_err);
}
}
}
if package_subpath == "." {
return legacy_main_resolve(&package_config, referrer_kind, mode);
}
Ok(Some(package_dir.join(package_subpath)))
}
pub fn url_to_node_resolution(
url: ModuleSpecifier,
npm_resolver: &dyn RequireNpmResolver,
) -> Result<NodeResolution, AnyError> {
let url_str = url.as_str().to_lowercase();
if url_str.starts_with("http") {
Ok(NodeResolution::Esm(url))
} else if url_str.ends_with(".js") || url_str.ends_with(".d.ts") {
let package_config = get_closest_package_json(&url, npm_resolver)?;
if package_config.typ == "module" {
Ok(NodeResolution::Esm(url))
} else {
Ok(NodeResolution::CommonJs(url))
}
} else if url_str.ends_with(".mjs") || url_str.ends_with(".d.mts") {
Ok(NodeResolution::Esm(url))
} else if url_str.ends_with(".ts") {
Err(generic_error(format!(
"TypeScript files are not supported in npm packages: {}",
url
)))
} else {
Ok(NodeResolution::CommonJs(url))
}
}
fn finalize_resolution(
resolved: ModuleSpecifier,
base: &ModuleSpecifier,
) -> Result<ModuleSpecifier, AnyError> {
// todo(dsherret): cache
let encoded_sep_re = Regex::new(r"%2F|%2C").unwrap();
if encoded_sep_re.is_match(resolved.path()) {
return Err(errors::err_invalid_module_specifier(
resolved.path(),
"must not include encoded \"/\" or \"\\\\\" characters",
Some(to_file_path_string(base)),
));
}
let path = to_file_path(&resolved);
// TODO(bartlomieju): currently not supported
// if (getOptionValue('--experimental-specifier-resolution') === 'node') {
// ...
// }
let p_str = path.to_str().unwrap();
let p = if p_str.ends_with('/') {
p_str[p_str.len() - 1..].to_string()
} else {
p_str.to_string()
};
let (is_dir, is_file) = if let Ok(stats) = std::fs::metadata(p) {
(stats.is_dir(), stats.is_file())
} else {
(false, false)
};
if is_dir {
return Err(errors::err_unsupported_dir_import(
resolved.as_str(),
base.as_str(),
));
} else if !is_file {
return Err(errors::err_module_not_found(
resolved.as_str(),
base.as_str(),
"module",
));
}
Ok(resolved)
}
fn module_resolve(
specifier: &str,
referrer: &ModuleSpecifier,
conditions: &[&str],
mode: NodeResolutionMode,
npm_resolver: &dyn RequireNpmResolver,
) -> Result<Option<ModuleSpecifier>, AnyError> {
// note: if we're here, the referrer is an esm module
let url = if should_be_treated_as_relative_or_absolute_path(specifier) {
let resolved_specifier = referrer.join(specifier)?;
if mode.is_types() {
let file_path = to_file_path(&resolved_specifier);
// todo(dsherret): the node module kind is not correct and we
// should use the value provided by typescript instead
let declaration_path =
path_to_declaration_path(file_path, NodeModuleKind::Esm);
declaration_path.map(|declaration_path| {
ModuleSpecifier::from_file_path(declaration_path).unwrap()
})
} else {
Some(resolved_specifier)
}
} else if specifier.starts_with('#') {
Some(
package_imports_resolve(
specifier,
referrer,
NodeModuleKind::Esm,
conditions,
mode,
npm_resolver,
)
.map(|p| ModuleSpecifier::from_file_path(p).unwrap())?,
)
} else if let Ok(resolved) = Url::parse(specifier) {
Some(resolved)
} else {
package_resolve(
specifier,
referrer,
NodeModuleKind::Esm,
conditions,
mode,
npm_resolver,
)?
.map(|p| ModuleSpecifier::from_file_path(p).unwrap())
};
Ok(match url {
Some(url) => Some(finalize_resolution(url, referrer)?),
None => None,
})
}
fn add_export(
source: &mut Vec<String>,
name: &str,
initializer: &str,
temp_var_count: &mut usize,
) {
fn is_valid_var_decl(name: &str) -> bool {
// it's ok to be super strict here
name
.chars()
.all(|c| c.is_ascii_alphanumeric() || c == '_' || c == '$')
}
// TODO(bartlomieju): Node actually checks if a given export exists in `exports` object,
// but it might not be necessary here since our analysis is more detailed?
if RESERVED_WORDS.contains(name) || !is_valid_var_decl(name) {
*temp_var_count += 1;
// we can't create an identifier with a reserved word or invalid identifier name,
// so assign it to a temporary variable that won't have a conflict, then re-export
// it as a string
source.push(format!(
"const __deno_export_{}__ = {};",
temp_var_count, initializer
));
source.push(format!(
"export {{ __deno_export_{}__ as \"{}\" }};",
temp_var_count, name
));
} else {
source.push(format!("export const {} = {};", name, initializer));
}
}
/// Translates given CJS module into ESM. This function will perform static
/// analysis on the file to find defined exports and reexports.
///
/// For all discovered reexports the analysis will be performed recursively.
///
/// If successful a source code for equivalent ES module is returned.
pub fn translate_cjs_to_esm(
file_fetcher: &FileFetcher,
specifier: &ModuleSpecifier,
code: String,
media_type: MediaType,
npm_resolver: &NpmPackageResolver,
node_analysis_cache: &NodeAnalysisCache,
) -> Result<String, AnyError> {
fn perform_cjs_analysis(
analysis_cache: &NodeAnalysisCache,
specifier: &str,
media_type: MediaType,
code: String,
) -> Result<CjsAnalysis, AnyError> {
let source_hash = NodeAnalysisCache::compute_source_hash(&code);
if let Some(analysis) =
analysis_cache.get_cjs_analysis(specifier, &source_hash)
{
return Ok(analysis);
}
if media_type == MediaType::Json {
return Ok(CjsAnalysis {
exports: vec![],
reexports: vec![],
});
}
let parsed_source = deno_ast::parse_script(deno_ast::ParseParams {
specifier: specifier.to_string(),
text_info: deno_ast::SourceTextInfo::new(code.into()),
media_type,
capture_tokens: true,
scope_analysis: false,
maybe_syntax: None,
})?;
let analysis = parsed_source.analyze_cjs();
analysis_cache.set_cjs_analysis(specifier, &source_hash, &analysis);
Ok(analysis)
}
let mut temp_var_count = 0;
let mut handled_reexports: HashSet<String> = HashSet::default();
let mut source = vec![
r#"const require = Deno[Deno.internal].require.Module.createRequire(import.meta.url);"#.to_string(),
];
let analysis = perform_cjs_analysis(
node_analysis_cache,
specifier.as_str(),
media_type,
code,
)?;
let mut all_exports = analysis
.exports
.iter()
.map(|s| s.to_string())
.collect::<HashSet<_>>();
// (request, referrer)
let mut reexports_to_handle = VecDeque::new();
for reexport in analysis.reexports {
reexports_to_handle.push_back((reexport, specifier.clone()));
}
while let Some((reexport, referrer)) = reexports_to_handle.pop_front() {
if handled_reexports.contains(&reexport) {
continue;
}
handled_reexports.insert(reexport.to_string());
// First, resolve relate reexport specifier
let resolved_reexport = resolve(
&reexport,
&referrer,
// FIXME(bartlomieju): check if these conditions are okay, probably
// should be `deno-require`, because `deno` is already used in `esm_resolver.rs`
&["deno", "require", "default"],
NodeResolutionMode::Execution,
npm_resolver,
)?;
let reexport_specifier =
ModuleSpecifier::from_file_path(resolved_reexport).unwrap();
// Second, read the source code from disk
let reexport_file = file_fetcher
.get_source(&reexport_specifier)
.ok_or_else(|| {
anyhow!(
"Could not find '{}' ({}) referenced from {}",
reexport,
reexport_specifier,
referrer
)
})?;
{
let analysis = perform_cjs_analysis(
node_analysis_cache,
reexport_specifier.as_str(),
reexport_file.media_type,
reexport_file.source.to_string(),
)?;
for reexport in analysis.reexports {
reexports_to_handle.push_back((reexport, reexport_specifier.clone()));
}
all_exports.extend(
analysis
.exports
.into_iter()
.filter(|e| e.as_str() != "default"),
);
}
}
source.push(format!(
"const mod = require(\"{}\");",
specifier
.to_file_path()
.unwrap()
.to_str()
.unwrap()
.replace('\\', "\\\\")
.replace('\'', "\\\'")
.replace('\"', "\\\"")
));
for export in &all_exports {
if export.as_str() != "default" {
add_export(
&mut source,
export,
&format!("mod[\"{}\"]", export),
&mut temp_var_count,
);
}
}
source.push("export default mod;".to_string());
let translated_source = source.join("\n");
Ok(translated_source)
}
fn resolve(
specifier: &str,
referrer: &ModuleSpecifier,
conditions: &[&str],
mode: NodeResolutionMode,
npm_resolver: &dyn RequireNpmResolver,
) -> Result<PathBuf, AnyError> {
if specifier.starts_with('/') {
todo!();
}
let referrer_path = referrer.to_file_path().unwrap();
if specifier.starts_with("./") || specifier.starts_with("../") {
if let Some(parent) = referrer_path.parent() {
return file_extension_probe(parent.join(specifier), &referrer_path);
} else {
todo!();
}
}
// We've got a bare specifier or maybe bare_specifier/blah.js"
let (package_specifier, package_subpath) =
parse_specifier(specifier).unwrap();
// todo(dsherret): use not_found error on not found here
let module_dir = npm_resolver.resolve_package_folder_from_package(
package_specifier.as_str(),
&referrer_path,
mode,
)?;
let package_json_path = module_dir.join("package.json");
if package_json_path.exists() {
let package_json =
PackageJson::load(npm_resolver, package_json_path.clone())?;
if let Some(exports) = &package_json.exports {
return package_exports_resolve(
&package_json_path,
package_subpath,
exports,
referrer,
NodeModuleKind::Esm,
conditions,
mode,
npm_resolver,
);
}
// old school
if package_subpath != "." {
let d = module_dir.join(package_subpath);
if let Ok(m) = d.metadata() {
if m.is_dir() {
// subdir might have a package.json that specifies the entrypoint
let package_json_path = d.join("package.json");
if package_json_path.exists() {
let package_json =
PackageJson::load(npm_resolver, package_json_path)?;
if let Some(main) = package_json.main(NodeModuleKind::Cjs) {
return Ok(d.join(main).clean());
}
}
return Ok(d.join("index.js").clean());
}
}
return file_extension_probe(d, &referrer_path);
} else if let Some(main) = package_json.main(NodeModuleKind::Cjs) {
return Ok(module_dir.join(main).clean());
} else {
return Ok(module_dir.join("index.js").clean());
}
}
Err(not_found(specifier, &referrer_path))
}
fn parse_specifier(specifier: &str) -> Option<(String, String)> {
let mut separator_index = specifier.find('/');
let mut valid_package_name = true;
// let mut is_scoped = false;
if specifier.is_empty() {
valid_package_name = false;
} else if specifier.starts_with('@') {
// is_scoped = true;
if let Some(index) = separator_index {
separator_index = specifier[index + 1..].find('/').map(|i| i + index + 1);
} else {
valid_package_name = false;
}
}
let package_name = if let Some(index) = separator_index {
specifier[0..index].to_string()
} else {
specifier.to_string()
};
// Package name cannot have leading . and cannot have percent-encoding or separators.
for ch in package_name.chars() {
if ch == '%' || ch == '\\' {
valid_package_name = false;
break;
}
}
if !valid_package_name {
return None;
}
let package_subpath = if let Some(index) = separator_index {
format!(".{}", specifier.chars().skip(index).collect::<String>())
} else {
".".to_string()
};
Some((package_name, package_subpath))
}
fn to_file_path(url: &ModuleSpecifier) -> PathBuf {
url
.to_file_path()
.unwrap_or_else(|_| panic!("Provided URL was not file:// URL: {}", url))
}
fn to_file_path_string(url: &ModuleSpecifier) -> String {
to_file_path(url).display().to_string()
}
fn should_be_treated_as_relative_or_absolute_path(specifier: &str) -> bool {
if specifier.is_empty() {
return false;
}
if specifier.starts_with('/') {
return true;
}
is_relative_specifier(specifier)
}
// TODO(ry) We very likely have this utility function elsewhere in Deno.
fn is_relative_specifier(specifier: &str) -> bool {
let specifier_len = specifier.len();
let specifier_chars: Vec<_> = specifier.chars().collect();
if !specifier_chars.is_empty() && specifier_chars[0] == '.' {
if specifier_len == 1 || specifier_chars[1] == '/' {
return true;
}
if specifier_chars[1] == '.'
&& (specifier_len == 2 || specifier_chars[2] == '/')
{
return true;
}
}
false
}
fn file_extension_probe(
p: PathBuf,
referrer: &Path,
) -> Result<PathBuf, AnyError> {
let p = p.clean();
if p.exists() {
let file_name = p.file_name().unwrap();
let p_js = p.with_file_name(format!("{}.js", file_name.to_str().unwrap()));
if p_js.exists() && p_js.is_file() {
return Ok(p_js);
} else if p.is_dir() {
return Ok(p.join("index.js"));
} else {
return Ok(p);
}
} else if let Some(file_name) = p.file_name() {
let p_js = p.with_file_name(format!("{}.js", file_name.to_str().unwrap()));
if p_js.exists() && p_js.is_file() {
return Ok(p_js);
}
}
Err(not_found(&p.to_string_lossy(), referrer))
}
fn not_found(path: &str, referrer: &Path) -> AnyError {
let msg = format!(
"[ERR_MODULE_NOT_FOUND] Cannot find module \"{}\" imported from \"{}\"",
path,
referrer.to_string_lossy()
);
std::io::Error::new(std::io::ErrorKind::NotFound, msg).into()
}
#[cfg(test)]
mod tests {
use deno_core::serde_json::json;
use super::*;
#[test]
fn test_add_export() {
let mut temp_var_count = 0;
let mut source = vec![];
let exports = vec!["static", "server", "app", "dashed-export"];
for export in exports {
add_export(&mut source, export, "init", &mut temp_var_count);
}
assert_eq!(
source,
vec![
"const __deno_export_1__ = init;".to_string(),
"export { __deno_export_1__ as \"static\" };".to_string(),
"export const server = init;".to_string(),
"export const app = init;".to_string(),
"const __deno_export_2__ = init;".to_string(),
"export { __deno_export_2__ as \"dashed-export\" };".to_string(),
]
)
}
#[test]
fn test_parse_specifier() {
assert_eq!(
parse_specifier("@some-package/core/actions"),
Some(("@some-package/core".to_string(), "./actions".to_string()))
);
}
#[test]
fn test_resolve_bin_entry_value() {
// should resolve the specified value
let value = json!({
"bin1": "./value1",
"bin2": "./value2",
"test": "./value3",
});
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("test").unwrap(),
Some("bin1"),
&value
)
.unwrap(),
"./value1"
);
// should resolve the value with the same name when not specified
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("test").unwrap(),
None,
&value
)
.unwrap(),
"./value3"
);
// should not resolve when specified value does not exist
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("test").unwrap(),
Some("other"),
&value
)
.err()
.unwrap()
.to_string(),
concat!(
"package 'test' did not have a bin entry for 'other' in its package.json\n",
"\n",
"Possibilities:\n",
" * npm:test/bin1\n",
" * npm:test/bin2\n",
" * npm:test/test"
)
);
// should not resolve when default value can't be determined
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("asdf@1.2").unwrap(),
None,
&value
)
.err()
.unwrap()
.to_string(),
concat!(
"package 'asdf' did not have a bin entry for 'asdf' in its package.json\n",
"\n",
"Possibilities:\n",
" * npm:asdf@1.2/bin1\n",
" * npm:asdf@1.2/bin2\n",
" * npm:asdf@1.2/test"
)
);
// should resolve since all the values are the same
let value = json!({
"bin1": "./value",
"bin2": "./value",
});
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("test").unwrap(),
None,
&value
)
.unwrap(),
"./value"
);
// should not resolve when specified and is a string
let value = json!("./value");
assert_eq!(
resolve_bin_entry_value(
&NpmPackageReq::from_str("test").unwrap(),
Some("path"),
&value
)
.err()
.unwrap()
.to_string(),
"package 'test' did not have a bin entry for 'path' in its package.json"
);
}
}