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denoland-deno/cli/deno_dir.rs
2019-04-01 21:46:40 -04:00

1848 lines
61 KiB
Rust

// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
use crate::compiler::ModuleMetaData;
use crate::errors;
use crate::errors::DenoError;
use crate::errors::DenoResult;
use crate::errors::ErrorKind;
use crate::fs as deno_fs;
use crate::http_util;
use crate::js_errors::SourceMapGetter;
use crate::msg;
use crate::tokio_util;
use crate::version;
use dirs;
use futures::future::{loop_fn, Either, Loop};
use futures::Future;
use http;
use ring;
use serde_json;
use std;
use std::fmt::Write;
use std::fs;
use std::path::Path;
use std::path::PathBuf;
use std::result::Result;
use std::str;
use url;
use url::Url;
/// Gets corresponding MediaType given extension
fn extmap(ext: &str) -> msg::MediaType {
match ext {
"ts" => msg::MediaType::TypeScript,
"js" => msg::MediaType::JavaScript,
"json" => msg::MediaType::Json,
_ => msg::MediaType::Unknown,
}
}
#[derive(Clone)]
pub struct DenoDir {
// Example: /Users/rld/.deno/
pub root: PathBuf,
// In the Go code this was called SrcDir.
// This is where we cache http resources. Example:
// /Users/rld/.deno/deps/github.com/ry/blah.js
pub gen: PathBuf,
// In the Go code this was called CacheDir.
// This is where we cache compilation outputs. Example:
// /Users/rld/.deno/gen/f39a473452321cacd7c346a870efb0e3e1264b43.js
pub deps: PathBuf,
// This splits to http and https deps
pub deps_http: PathBuf,
pub deps_https: PathBuf,
}
impl DenoDir {
// Must be called before using any function from this module.
// https://github.com/denoland/deno/blob/golang/deno_dir.go#L99-L111
pub fn new(custom_root: Option<PathBuf>) -> std::io::Result<Self> {
// Only setup once.
let home_dir = dirs::home_dir().expect("Could not get home directory.");
let fallback = home_dir.join(".deno");
// We use the OS cache dir because all files deno writes are cache files
// Once that changes we need to start using different roots if DENO_DIR
// is not set, and keep a single one if it is.
let default = dirs::cache_dir()
.map(|d| d.join("deno"))
.unwrap_or(fallback);
let root: PathBuf = custom_root.unwrap_or(default);
let gen = root.as_path().join("gen");
let deps = root.as_path().join("deps");
let deps_http = deps.join("http");
let deps_https = deps.join("https");
let deno_dir = Self {
root,
gen,
deps,
deps_http,
deps_https,
};
// TODO Lazily create these directories.
deno_fs::mkdir(deno_dir.gen.as_ref(), 0o755, true)?;
deno_fs::mkdir(deno_dir.deps.as_ref(), 0o755, true)?;
deno_fs::mkdir(deno_dir.deps_http.as_ref(), 0o755, true)?;
deno_fs::mkdir(deno_dir.deps_https.as_ref(), 0o755, true)?;
debug!("root {}", deno_dir.root.display());
debug!("gen {}", deno_dir.gen.display());
debug!("deps {}", deno_dir.deps.display());
debug!("deps_http {}", deno_dir.deps_http.display());
debug!("deps_https {}", deno_dir.deps_https.display());
Ok(deno_dir)
}
// https://github.com/denoland/deno/blob/golang/deno_dir.go#L32-L35
pub fn cache_path(
self: &Self,
filename: &str,
source_code: &[u8],
) -> (PathBuf, PathBuf) {
let cache_key = source_code_hash(filename, source_code, version::DENO);
(
self.gen.join(cache_key.to_string() + ".js"),
self.gen.join(cache_key.to_string() + ".js.map"),
)
}
pub fn code_cache(
self: &Self,
module_meta_data: &ModuleMetaData,
) -> std::io::Result<()> {
let (cache_path, source_map_path) = self
.cache_path(&module_meta_data.filename, &module_meta_data.source_code);
// TODO(ry) This is a race condition w.r.t to exists() -- probably should
// create the file in exclusive mode. A worry is what might happen is there
// are two processes and one reads the cache file while the other is in the
// midst of writing it.
if cache_path.exists() && source_map_path.exists() {
Ok(())
} else {
match &module_meta_data.maybe_output_code {
Some(output_code) => fs::write(cache_path, output_code),
_ => Ok(()),
}?;
match &module_meta_data.maybe_source_map {
Some(source_map) => fs::write(source_map_path, source_map),
_ => Ok(()),
}?;
Ok(())
}
}
pub fn fetch_module_meta_data_async(
self: &Self,
specifier: &str,
referrer: &str,
use_cache: bool,
) -> impl Future<Item = ModuleMetaData, Error = errors::DenoError> {
debug!(
"fetch_module_meta_data. specifier {} referrer {}",
specifier, referrer
);
let specifier = specifier.to_string();
let referrer = referrer.to_string();
let result = self.resolve_module(&specifier, &referrer);
if let Err(err) = result {
return Either::A(futures::future::err(DenoError::from(err)));
}
let (module_name, filename) = result.unwrap();
let gen = self.gen.clone();
Either::B(
get_source_code_async(
self,
module_name.as_str(),
filename.as_str(),
use_cache,
).then(move |result| {
let mut out = match result {
Ok(out) => out,
Err(err) => {
if err.kind() == ErrorKind::NotFound {
// For NotFound, change the message to something better.
return Err(errors::new(
ErrorKind::NotFound,
format!(
"Cannot resolve module \"{}\" from \"{}\"",
specifier, referrer
),
));
} else {
return Err(err);
}
}
};
if out.source_code.starts_with(b"#!") {
out.source_code = filter_shebang(out.source_code);
}
// If TypeScript we have to also load corresponding compile js and
// source maps (called output_code and output_source_map)
if out.media_type != msg::MediaType::TypeScript || !use_cache {
return Ok(out);
}
let cache_key =
source_code_hash(&out.filename, &out.source_code, version::DENO);
let (output_code_filename, output_source_map_filename) = (
gen.join(cache_key.to_string() + ".js"),
gen.join(cache_key.to_string() + ".js.map"),
);
let result =
load_cache2(&output_code_filename, &output_source_map_filename);
match result {
Err(err) => {
if err.kind() == std::io::ErrorKind::NotFound {
// If there's no compiled JS or source map, that's ok, just
// return what we have.
Ok(out)
} else {
Err(err.into())
}
}
Ok((output_code, source_map)) => {
out.maybe_output_code = Some(output_code);
out.maybe_source_map = Some(source_map);
out.maybe_output_code_filename =
Some(output_code_filename.to_str().unwrap().to_string());
out.maybe_source_map_filename =
Some(output_source_map_filename.to_str().unwrap().to_string());
Ok(out)
}
}
}),
)
}
/// Synchronous version of fetch_module_meta_data_async
/// This function is deprecated.
pub fn fetch_module_meta_data(
self: &Self,
specifier: &str,
referrer: &str,
use_cache: bool,
) -> Result<ModuleMetaData, errors::DenoError> {
tokio_util::block_on(
self.fetch_module_meta_data_async(specifier, referrer, use_cache),
)
}
// Prototype: https://github.com/denoland/deno/blob/golang/os.go#L56-L68
fn src_file_to_url(self: &Self, filename: &str) -> String {
let filename_path = Path::new(filename);
if filename_path.starts_with(&self.deps) {
let (rest, prefix) = if filename_path.starts_with(&self.deps_https) {
let rest = filename_path.strip_prefix(&self.deps_https).unwrap();
let prefix = "https://".to_string();
(rest, prefix)
} else if filename_path.starts_with(&self.deps_http) {
let rest = filename_path.strip_prefix(&self.deps_http).unwrap();
let prefix = "http://".to_string();
(rest, prefix)
} else {
// TODO(kevinkassimo): change this to support other protocols than http
unimplemented!()
};
// Windows doesn't support ":" in filenames, so we represent port using a
// special string.
// TODO(ry) This current implementation will break on a URL that has
// the default port but contains "_PORT" in the path.
let rest = rest.to_str().unwrap().replacen("_PORT", ":", 1);
prefix + &rest
} else {
String::from(filename)
}
}
/// Returns (module name, local filename)
pub fn resolve_module_url(
self: &Self,
specifier: &str,
referrer: &str,
) -> Result<Url, url::ParseError> {
let specifier = self.src_file_to_url(specifier);
let mut referrer = self.src_file_to_url(referrer);
debug!(
"resolve_module specifier {} referrer {}",
specifier, referrer
);
if referrer.starts_with('.') {
let cwd = std::env::current_dir().unwrap();
let referrer_path = cwd.join(referrer);
referrer = referrer_path.to_str().unwrap().to_string() + "/";
}
let j = if is_remote(&specifier) || Path::new(&specifier).is_absolute() {
parse_local_or_remote(&specifier)?
} else if referrer.ends_with('/') {
let r = Url::from_directory_path(&referrer);
// TODO(ry) Properly handle error.
if r.is_err() {
error!("Url::from_directory_path error {}", referrer);
}
let base = r.unwrap();
base.join(specifier.as_ref())?
} else {
let base = parse_local_or_remote(&referrer)?;
base.join(specifier.as_ref())?
};
Ok(j)
}
/// Returns (module name, local filename)
pub fn resolve_module(
self: &Self,
specifier: &str,
referrer: &str,
) -> Result<(String, String), url::ParseError> {
let j = self.resolve_module_url(specifier, referrer)?;
let module_name = j.to_string();
let filename;
match j.scheme() {
"file" => {
filename = deno_fs::normalize_path(j.to_file_path().unwrap().as_ref());
}
"https" => {
filename = deno_fs::normalize_path(
get_cache_filename(self.deps_https.as_path(), &j).as_ref(),
)
}
"http" => {
filename = deno_fs::normalize_path(
get_cache_filename(self.deps_http.as_path(), &j).as_ref(),
)
}
// TODO(kevinkassimo): change this to support other protocols than http.
_ => unimplemented!(),
}
debug!("module_name: {}, filename: {}", module_name, filename);
Ok((module_name, filename))
}
}
impl SourceMapGetter for DenoDir {
fn get_source_map(&self, script_name: &str) -> Option<Vec<u8>> {
match self.fetch_module_meta_data(script_name, ".", true) {
Err(_e) => None,
Ok(out) => match out.maybe_source_map {
None => None,
Some(source_map) => Some(source_map),
},
}
}
}
/// This fetches source code, locally or remotely.
/// module_name is the URL specifying the module.
/// filename is the local path to the module (if remote, it is in the cache
/// folder, and potentially does not exist yet)
///
/// It *does not* fill the compiled JS nor source map portions of
/// ModuleMetaData. This is the only difference between this function and
/// fetch_module_meta_data_async(). TODO(ry) change return type to reflect this
/// fact.
///
/// If this is a remote module, and it has not yet been cached, the resulting
/// download will be written to "filename". This happens no matter the value of
/// use_cache.
fn get_source_code_async(
deno_dir: &DenoDir,
module_name: &str,
filename: &str,
use_cache: bool,
) -> impl Future<Item = ModuleMetaData, Error = DenoError> {
let filename = filename.to_string();
let module_name = module_name.to_string();
let is_module_remote = is_remote(&module_name);
// We try fetch local. Two cases:
// 1. This is a remote module and we're allowed to use cached downloads.
// 2. This is a local module.
if !is_module_remote || use_cache {
debug!(
"fetch local or reload {} is_module_remote {}",
module_name, is_module_remote
);
// Note that local fetch is done synchronously.
match fetch_local_source(deno_dir, &module_name, &filename, None) {
Ok(Some(output)) => {
debug!("found local source ");
return Either::A(futures::future::ok(output));
}
Ok(None) => {
debug!("fetch_local_source returned None");
}
Err(err) => {
return Either::A(futures::future::err(err));
}
}
}
// If not remote file, stop here!
if !is_module_remote {
debug!("not remote file stop here");
return Either::A(futures::future::err(DenoError::from(
std::io::Error::new(
std::io::ErrorKind::NotFound,
format!("cannot find local file '{}'", &filename),
),
)));
}
debug!("is remote but didn't find module");
// not cached/local, try remote.
Either::B(
fetch_remote_source_async(deno_dir, &module_name, &filename).and_then(
move |maybe_remote_source| match maybe_remote_source {
Some(output) => Ok(output),
None => Err(DenoError::from(std::io::Error::new(
std::io::ErrorKind::NotFound,
format!("cannot find remote file '{}'", &filename),
))),
},
),
)
}
#[cfg(test)]
/// Synchronous version of get_source_code_async
/// This function is deprecated.
fn get_source_code(
deno_dir: &DenoDir,
module_name: &str,
filename: &str,
use_cache: bool,
) -> DenoResult<ModuleMetaData> {
tokio_util::block_on(get_source_code_async(
deno_dir,
module_name,
filename,
use_cache,
))
}
fn get_cache_filename(basedir: &Path, url: &Url) -> PathBuf {
let host = url.host_str().unwrap();
let host_port = match url.port() {
// Windows doesn't support ":" in filenames, so we represent port using a
// special string.
Some(port) => format!("{}_PORT{}", host, port),
None => host.to_string(),
};
let mut out = basedir.to_path_buf();
out.push(host_port);
for path_seg in url.path_segments().unwrap() {
out.push(path_seg);
}
out
}
fn load_cache2(
js_filename: &PathBuf,
map_filename: &PathBuf,
) -> Result<(Vec<u8>, Vec<u8>), std::io::Error> {
debug!(
"load_cache code: {} map: {}",
js_filename.display(),
map_filename.display()
);
let read_output_code = fs::read(&js_filename)?;
let read_source_map = fs::read(&map_filename)?;
Ok((read_output_code, read_source_map))
}
fn source_code_hash(
filename: &str,
source_code: &[u8],
version: &str,
) -> String {
let mut ctx = ring::digest::Context::new(&ring::digest::SHA1);
ctx.update(version.as_bytes());
ctx.update(filename.as_bytes());
ctx.update(source_code);
let digest = ctx.finish();
let mut out = String::new();
// TODO There must be a better way to do this...
for byte in digest.as_ref() {
write!(&mut out, "{:02x}", byte).unwrap();
}
out
}
fn is_remote(module_name: &str) -> bool {
module_name.starts_with("http://") || module_name.starts_with("https://")
}
fn parse_local_or_remote(p: &str) -> Result<url::Url, url::ParseError> {
if is_remote(p) || p.starts_with("file:") {
Url::parse(p)
} else {
Url::from_file_path(p).map_err(|_err| url::ParseError::IdnaError)
}
}
fn map_file_extension(path: &Path) -> msg::MediaType {
match path.extension() {
None => msg::MediaType::Unknown,
Some(os_str) => match os_str.to_str() {
Some("ts") => msg::MediaType::TypeScript,
Some("js") => msg::MediaType::JavaScript,
Some("json") => msg::MediaType::Json,
_ => msg::MediaType::Unknown,
},
}
}
// convert a ContentType string into a enumerated MediaType
fn map_content_type(path: &Path, content_type: Option<&str>) -> msg::MediaType {
match content_type {
Some(content_type) => {
// sometimes there is additional data after the media type in
// Content-Type so we have to do a bit of manipulation so we are only
// dealing with the actual media type
let ct_vector: Vec<&str> = content_type.split(';').collect();
let ct: &str = ct_vector.first().unwrap();
match ct.to_lowercase().as_ref() {
"application/typescript"
| "text/typescript"
| "video/vnd.dlna.mpeg-tts"
| "video/mp2t"
| "application/x-typescript" => msg::MediaType::TypeScript,
"application/javascript"
| "text/javascript"
| "application/ecmascript"
| "text/ecmascript"
| "application/x-javascript" => msg::MediaType::JavaScript,
"application/json" | "text/json" => msg::MediaType::Json,
"text/plain" => map_file_extension(path),
_ => {
debug!("unknown content type: {}", content_type);
msg::MediaType::Unknown
}
}
}
None => map_file_extension(path),
}
}
fn filter_shebang(bytes: Vec<u8>) -> Vec<u8> {
let string = str::from_utf8(&bytes).unwrap();
if let Some(i) = string.find('\n') {
let (_, rest) = string.split_at(i);
rest.as_bytes().to_owned()
} else {
Vec::new()
}
}
/// Asynchronously fetch remote source file specified by the URL `module_name`
/// and write it to disk at `filename`.
fn fetch_remote_source_async(
deno_dir: &DenoDir,
module_name: &str,
filename: &str,
) -> impl Future<Item = Option<ModuleMetaData>, Error = DenoError> {
use crate::http_util::FetchOnceResult;
{
eprintln!("Downloading {}", module_name);
}
let filename = filename.to_owned();
let module_name = module_name.to_owned();
// We write a special ".headers.json" file into the `.deno/deps` directory along side the
// cached file, containing just the media type and possible redirect target (both are http headers).
// If redirect target is present, the file itself if not cached.
// In future resolutions, we would instead follow this redirect target ("redirect_to").
loop_fn(
(
deno_dir.clone(),
None,
None,
module_name.clone(),
filename.clone(),
),
|(
dir,
maybe_initial_module_name,
maybe_initial_filename,
module_name,
filename,
)| {
let url = module_name.parse::<http::uri::Uri>().unwrap();
// Single pass fetch, either yields code or yields redirect.
http_util::fetch_string_once(url).and_then(move |fetch_once_result| {
match fetch_once_result {
FetchOnceResult::Redirect(url) => {
// If redirects, update module_name and filename for next looped call.
let resolve_result = dir
.resolve_module(&(url.to_string()), ".")
.map_err(DenoError::from);
match resolve_result {
Ok((new_module_name, new_filename)) => {
let mut maybe_initial_module_name = maybe_initial_module_name;
let mut maybe_initial_filename = maybe_initial_filename;
if maybe_initial_module_name.is_none() {
maybe_initial_module_name = Some(module_name.clone());
maybe_initial_filename = Some(filename.clone());
}
// Not yet completed. Follow the redirect and loop.
Ok(Loop::Continue((
dir,
maybe_initial_module_name,
maybe_initial_filename,
new_module_name,
new_filename,
)))
}
Err(e) => Err(e),
}
}
FetchOnceResult::Code(source, maybe_content_type) => {
// We land on the code.
let p = PathBuf::from(filename.clone());
match p.parent() {
Some(ref parent) => fs::create_dir_all(parent),
None => Ok(()),
}?;
// Write file and create .headers.json for the file.
deno_fs::write_file(&p, &source, 0o666)?;
{
save_source_code_headers(&filename, maybe_content_type.clone(), None);
}
// Check if this file is downloaded due to some old redirect request.
if maybe_initial_filename.is_some() {
// If yes, record down the headers for redirect.
// Also create its containing folder.
let pp = PathBuf::from(filename.clone());
match pp.parent() {
Some(ref parent) => fs::create_dir_all(parent),
None => Ok(()),
}?;
{
save_source_code_headers(
&maybe_initial_filename.clone().unwrap(),
maybe_content_type.clone(),
Some(module_name.clone()),
);
}
}
Ok(Loop::Break(Some(ModuleMetaData {
module_name: module_name.to_string(),
module_redirect_source_name: maybe_initial_module_name,
filename: filename.to_string(),
media_type: map_content_type(
&p,
maybe_content_type.as_ref().map(|s| s.as_str()),
),
source_code: source.as_bytes().to_owned(),
maybe_output_code_filename: None,
maybe_output_code: None,
maybe_source_map_filename: None,
maybe_source_map: None,
})))
}
}
})
},
)
}
/// Fetch remote source code.
#[cfg(test)]
fn fetch_remote_source(
deno_dir: &DenoDir,
module_name: &str,
filename: &str,
) -> DenoResult<Option<ModuleMetaData>> {
tokio_util::block_on(fetch_remote_source_async(
deno_dir,
module_name,
filename,
))
}
/// Fetch local or cached source code.
/// This is a recursive operation if source file has redirection.
/// It will keep reading filename.headers.json for information about redirection.
/// module_initial_source_name would be None on first call,
/// and becomes the name of the very first module that initiates the call
/// in subsequent recursions.
/// AKA if redirection occurs, module_initial_source_name is the source path
/// that user provides, and the final module_name is the resolved path
/// after following all redirections.
fn fetch_local_source(
deno_dir: &DenoDir,
module_name: &str,
filename: &str,
module_initial_source_name: Option<String>,
) -> DenoResult<Option<ModuleMetaData>> {
let p = Path::new(&filename);
let source_code_headers = get_source_code_headers(&filename);
// If source code headers says that it would redirect elsewhere,
// (meaning that the source file might not exist; only .headers.json is present)
// Abort reading attempts to the cached source file and and follow the redirect.
if let Some(redirect_to) = source_code_headers.redirect_to {
// E.g.
// module_name https://import-meta.now.sh/redirect.js
// filename /Users/kun/Library/Caches/deno/deps/https/import-meta.now.sh/redirect.js
// redirect_to https://import-meta.now.sh/sub/final1.js
// real_filename /Users/kun/Library/Caches/deno/deps/https/import-meta.now.sh/sub/final1.js
// real_module_name = https://import-meta.now.sh/sub/final1.js
let (real_module_name, real_filename) =
deno_dir.resolve_module(&redirect_to, ".")?;
let mut module_initial_source_name = module_initial_source_name;
// If this is the first redirect attempt,
// then module_initial_source_name should be None.
// In that case, use current module name as module_initial_source_name.
if module_initial_source_name.is_none() {
module_initial_source_name = Some(module_name.to_owned());
}
// Recurse.
return fetch_local_source(
deno_dir,
&real_module_name,
&real_filename,
module_initial_source_name,
);
}
// No redirect needed or end of redirects.
// We can try read the file
let source_code = match fs::read(p) {
Err(e) => {
if e.kind() == std::io::ErrorKind::NotFound {
return Ok(None);
} else {
return Err(e.into());
}
}
Ok(c) => c,
};
Ok(Some(ModuleMetaData {
module_name: module_name.to_string(),
module_redirect_source_name: module_initial_source_name,
filename: filename.to_string(),
media_type: map_content_type(
&p,
source_code_headers.mime_type.as_ref().map(String::as_str),
),
source_code,
maybe_output_code_filename: None,
maybe_output_code: None,
maybe_source_map_filename: None,
maybe_source_map: None,
}))
}
#[derive(Debug)]
/// Header metadata associated with a particular "symbolic" source code file.
/// (the associated source code file might not be cached, while remaining
/// a user accessible entity through imports (due to redirects)).
pub struct SourceCodeHeaders {
/// MIME type of the source code.
pub mime_type: Option<String>,
/// Where should we actually look for source code.
/// This should be an absolute path!
pub redirect_to: Option<String>,
}
static MIME_TYPE: &'static str = "mime_type";
static REDIRECT_TO: &'static str = "redirect_to";
fn source_code_headers_filename(filename: &str) -> String {
[&filename, ".headers.json"].concat()
}
/// Get header metadata associated with a single source code file.
/// NOTICE: chances are that the source code itself is not downloaded due to redirects.
/// In this case, the headers file provides info about where we should go and get
/// the source code that redirect eventually points to (which should be cached).
fn get_source_code_headers(filename: &str) -> SourceCodeHeaders {
let headers_filename = source_code_headers_filename(filename);
let hd = Path::new(&headers_filename);
// .headers.json file might not exists.
// This is okay for local source.
let maybe_headers_string = fs::read_to_string(&hd).ok();
if let Some(headers_string) = maybe_headers_string {
// TODO(kevinkassimo): consider introduce serde::Deserialize to make things simpler.
let maybe_headers: serde_json::Result<serde_json::Value> =
serde_json::from_str(&headers_string);
if let Ok(headers) = maybe_headers {
return SourceCodeHeaders {
mime_type: headers[MIME_TYPE].as_str().map(String::from),
redirect_to: headers[REDIRECT_TO].as_str().map(String::from),
};
}
}
SourceCodeHeaders {
mime_type: None,
redirect_to: None,
}
}
/// Save headers related to source filename to {filename}.headers.json file,
/// only when there is actually something necessary to save.
/// For example, if the extension ".js" already mean JS file and we have
/// content type of "text/javascript", then we would not save the mime type.
/// If nothing needs to be saved, the headers file is not created.
fn save_source_code_headers(
filename: &str,
mime_type: Option<String>,
redirect_to: Option<String>,
) {
let headers_filename = source_code_headers_filename(filename);
// Remove possibly existing stale .headers.json file.
// May not exist. DON'T unwrap.
let _ = std::fs::remove_file(&headers_filename);
let p = PathBuf::from(filename);
// TODO(kevinkassimo): consider introduce serde::Deserialize to make things simpler.
// This is super ugly at this moment...
// Had trouble to make serde_derive work: I'm unable to build proc-macro2.
let mut value_map = serde_json::map::Map::new();
if mime_type.is_some() {
let mime_type_string = mime_type.clone().unwrap();
let resolved_mime_type =
{ map_content_type(Path::new(""), Some(mime_type_string.as_str())) };
let ext = p
.extension()
.map(|x| x.to_str().unwrap_or(""))
.unwrap_or("");
let ext_based_mime_type = extmap(&ext);
// Add mime to headers only when content type is different from extension.
if ext_based_mime_type == msg::MediaType::Unknown
|| resolved_mime_type != ext_based_mime_type
{
value_map.insert(MIME_TYPE.to_string(), json!(mime_type_string));
}
}
if redirect_to.is_some() {
value_map.insert(REDIRECT_TO.to_string(), json!(redirect_to.unwrap()));
}
// Only save to file when there is actually data.
if value_map.len() > 0 {
let _ = serde_json::to_string(&value_map).map(|s| {
// It is possible that we need to create file
// with parent folders not yet created.
// (Due to .headers.json feature for redirection)
let hd = PathBuf::from(&headers_filename);
let _ = match hd.parent() {
Some(ref parent) => fs::create_dir_all(parent),
None => Ok(()),
};
let _ = deno_fs::write_file(&(hd.as_path()), s, 0o666);
});
}
}
#[cfg(test)]
mod tests {
use super::*;
use tempfile::TempDir;
fn test_setup() -> (TempDir, DenoDir) {
let temp_dir = TempDir::new().expect("tempdir fail");
let deno_dir =
DenoDir::new(Some(temp_dir.path().to_path_buf())).expect("setup fail");
(temp_dir, deno_dir)
}
// The `add_root` macro prepends "C:" to a string if on windows; on posix
// systems it returns the input string untouched. This is necessary because
// `Url::from_file_path()` fails if the input path isn't an absolute path.
macro_rules! add_root {
($path:expr) => {
if cfg!(target_os = "windows") {
concat!("C:", $path)
} else {
$path
}
};
}
macro_rules! file_url {
($path:expr) => {
if cfg!(target_os = "windows") {
concat!("file:///C:", $path)
} else {
concat!("file://", $path)
}
};
}
#[test]
fn test_get_cache_filename() {
let url = Url::parse("http://example.com:1234/path/to/file.ts").unwrap();
let basedir = Path::new("/cache/dir/");
let cache_file = get_cache_filename(&basedir, &url);
assert_eq!(
cache_file,
Path::new("/cache/dir/example.com_PORT1234/path/to/file.ts")
);
}
#[test]
fn test_cache_path() {
let (temp_dir, deno_dir) = test_setup();
let filename = "hello.js";
let source_code = b"1+2";
let hash = source_code_hash(filename, source_code, version::DENO);
assert_eq!(
(
temp_dir.path().join(format!("gen/{}.js", hash)),
temp_dir.path().join(format!("gen/{}.js.map", hash))
),
deno_dir.cache_path(filename, source_code)
);
}
#[test]
fn test_code_cache() {
let (_temp_dir, deno_dir) = test_setup();
let filename = "hello.js";
let source_code = b"1+2";
let output_code = b"1+2 // output code";
let source_map = b"{}";
let hash = source_code_hash(filename, source_code, version::DENO);
let (cache_path, source_map_path) =
deno_dir.cache_path(filename, source_code);
assert!(cache_path.ends_with(format!("gen/{}.js", hash)));
assert!(source_map_path.ends_with(format!("gen/{}.js.map", hash)));
let out = ModuleMetaData {
filename: filename.to_owned(),
source_code: source_code[..].to_owned(),
module_name: "hello.js".to_owned(),
module_redirect_source_name: None,
media_type: msg::MediaType::TypeScript,
maybe_output_code: Some(output_code[..].to_owned()),
maybe_output_code_filename: None,
maybe_source_map: Some(source_map[..].to_owned()),
maybe_source_map_filename: None,
};
let r = deno_dir.code_cache(&out);
r.expect("code_cache error");
assert!(cache_path.exists());
assert_eq!(output_code[..].to_owned(), fs::read(&cache_path).unwrap());
}
#[test]
fn test_source_code_hash() {
assert_eq!(
"7e44de2ed9e0065da09d835b76b8d70be503d276",
source_code_hash("hello.ts", b"1+2", "0.2.11")
);
// Different source_code should result in different hash.
assert_eq!(
"57033366cf9db1ef93deca258cdbcd9ef5f4bde1",
source_code_hash("hello.ts", b"1", "0.2.11")
);
// Different filename should result in different hash.
assert_eq!(
"19657f90b5b0540f87679e2fb362e7bd62b644b0",
source_code_hash("hi.ts", b"1+2", "0.2.11")
);
// Different version should result in different hash.
assert_eq!(
"e2b4b7162975a02bf2770f16836eb21d5bcb8be1",
source_code_hash("hi.ts", b"1+2", "0.2.0")
);
}
#[test]
fn test_source_code_headers_get_and_save() {
let (temp_dir, _deno_dir) = test_setup();
let filename =
deno_fs::normalize_path(temp_dir.into_path().join("f.js").as_ref());
let headers_file_name = source_code_headers_filename(&filename);
assert_eq!(headers_file_name, [&filename, ".headers.json"].concat());
let _ = deno_fs::write_file(&PathBuf::from(&headers_file_name),
"{\"mime_type\":\"text/javascript\",\"redirect_to\":\"http://example.com/a.js\"}", 0o666);
let headers = get_source_code_headers(&filename);
assert_eq!(headers.mime_type.clone().unwrap(), "text/javascript");
assert_eq!(
headers.redirect_to.clone().unwrap(),
"http://example.com/a.js"
);
save_source_code_headers(
&filename,
Some("text/typescript".to_owned()),
Some("http://deno.land/a.js".to_owned()),
);
let headers2 = get_source_code_headers(&filename);
assert_eq!(headers2.mime_type.clone().unwrap(), "text/typescript");
assert_eq!(
headers2.redirect_to.clone().unwrap(),
"http://deno.land/a.js"
);
}
#[test]
fn test_get_source_code_1() {
let (_temp_dir, deno_dir) = test_setup();
// http_util::fetch_sync_string requires tokio
tokio_util::init(|| {
let module_name = "http://localhost:4545/tests/subdir/mod2.ts";
let filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/mod2.ts")
.as_ref(),
);
let headers_file_name = source_code_headers_filename(&filename);
let result = get_source_code(&deno_dir, module_name, &filename, true);
assert!(result.is_ok());
let r = result.unwrap();
assert_eq!(
r.source_code,
"export { printHello } from \"./print_hello.ts\";\n".as_bytes()
);
assert_eq!(&(r.media_type), &msg::MediaType::TypeScript);
// Should not create .headers.json file due to matching ext
assert!(fs::read_to_string(&headers_file_name).is_err());
// Modify .headers.json, write using fs write and read using save_source_code_headers
let _ =
fs::write(&headers_file_name, "{ \"mime_type\": \"text/javascript\" }");
let result2 = get_source_code(&deno_dir, module_name, &filename, true);
assert!(result2.is_ok());
let r2 = result2.unwrap();
assert_eq!(
r2.source_code,
"export { printHello } from \"./print_hello.ts\";\n".as_bytes()
);
// If get_source_code does not call remote, this should be JavaScript
// as we modified before! (we do not overwrite .headers.json due to no http fetch)
assert_eq!(&(r2.media_type), &msg::MediaType::JavaScript);
assert_eq!(
get_source_code_headers(&filename).mime_type.unwrap(),
"text/javascript"
);
// Modify .headers.json again, but the other way around
save_source_code_headers(
&filename,
Some("application/json".to_owned()),
None,
);
let result3 = get_source_code(&deno_dir, module_name, &filename, true);
assert!(result3.is_ok());
let r3 = result3.unwrap();
assert_eq!(
r3.source_code,
"export { printHello } from \"./print_hello.ts\";\n".as_bytes()
);
// If get_source_code does not call remote, this should be JavaScript
// as we modified before! (we do not overwrite .headers.json due to no http fetch)
assert_eq!(&(r3.media_type), &msg::MediaType::Json);
assert!(
fs::read_to_string(&headers_file_name)
.unwrap()
.contains("application/json")
);
// Don't use_cache
let result4 = get_source_code(&deno_dir, module_name, &filename, false);
assert!(result4.is_ok());
let r4 = result4.unwrap();
let expected4 =
"export { printHello } from \"./print_hello.ts\";\n".as_bytes();
assert_eq!(r4.source_code, expected4);
// Now the old .headers.json file should have gone! Resolved back to TypeScript
assert_eq!(&(r4.media_type), &msg::MediaType::TypeScript);
assert!(fs::read_to_string(&headers_file_name).is_err());
});
}
#[test]
fn test_get_source_code_2() {
let (_temp_dir, deno_dir) = test_setup();
// http_util::fetch_sync_string requires tokio
tokio_util::init(|| {
let module_name = "http://localhost:4545/tests/subdir/mismatch_ext.ts";
let filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/mismatch_ext.ts")
.as_ref(),
);
let headers_file_name = source_code_headers_filename(&filename);
let result = get_source_code(&deno_dir, module_name, &filename, true);
assert!(result.is_ok());
let r = result.unwrap();
let expected = "export const loaded = true;\n".as_bytes();
assert_eq!(r.source_code, expected);
// Mismatch ext with content type, create .headers.json
assert_eq!(&(r.media_type), &msg::MediaType::JavaScript);
assert_eq!(
get_source_code_headers(&filename).mime_type.unwrap(),
"text/javascript"
);
// Modify .headers.json
save_source_code_headers(
&filename,
Some("text/typescript".to_owned()),
None,
);
let result2 = get_source_code(&deno_dir, module_name, &filename, true);
assert!(result2.is_ok());
let r2 = result2.unwrap();
let expected2 = "export const loaded = true;\n".as_bytes();
assert_eq!(r2.source_code, expected2);
// If get_source_code does not call remote, this should be TypeScript
// as we modified before! (we do not overwrite .headers.json due to no http fetch)
assert_eq!(&(r2.media_type), &msg::MediaType::TypeScript);
assert!(fs::read_to_string(&headers_file_name).is_err());
// Don't use_cache
let result3 = get_source_code(&deno_dir, module_name, &filename, false);
assert!(result3.is_ok());
let r3 = result3.unwrap();
let expected3 = "export const loaded = true;\n".as_bytes();
assert_eq!(r3.source_code, expected3);
// Now the old .headers.json file should be overwritten back to JavaScript!
// (due to http fetch)
assert_eq!(&(r3.media_type), &msg::MediaType::JavaScript);
assert_eq!(
get_source_code_headers(&filename).mime_type.unwrap(),
"text/javascript"
);
});
}
#[test]
fn test_get_source_code_3() {
let (_temp_dir, deno_dir) = test_setup();
// Test basic follow and headers recording
tokio_util::init(|| {
let redirect_module_name =
"http://localhost:4546/tests/subdir/redirects/redirect1.js";
let redirect_source_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4546/tests/subdir/redirects/redirect1.js")
.as_ref(),
);
let target_module_name =
"http://localhost:4545/tests/subdir/redirects/redirect1.js";
let redirect_target_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/redirects/redirect1.js")
.as_ref(),
);
let mod_meta = get_source_code(
&deno_dir,
redirect_module_name,
&redirect_source_filename,
true,
).unwrap();
// File that requires redirection is not downloaded.
assert!(fs::read_to_string(&redirect_source_filename).is_err());
// ... but its .headers.json is created.
let redirect_source_headers =
get_source_code_headers(&redirect_source_filename);
assert_eq!(
redirect_source_headers.redirect_to.unwrap(),
"http://localhost:4545/tests/subdir/redirects/redirect1.js"
);
// The target of redirection is downloaded instead.
assert_eq!(
fs::read_to_string(&redirect_target_filename).unwrap(),
"export const redirect = 1;\n"
);
let redirect_target_headers =
get_source_code_headers(&redirect_target_filename);
assert!(redirect_target_headers.redirect_to.is_none());
// Examine the meta result.
assert_eq!(&mod_meta.module_name, target_module_name);
assert_eq!(
&mod_meta.module_redirect_source_name.clone().unwrap(),
redirect_module_name
);
});
}
#[test]
fn test_get_source_code_4() {
let (_temp_dir, deno_dir) = test_setup();
// Test double redirects and headers recording
tokio_util::init(|| {
let redirect_module_name =
"http://localhost:4548/tests/subdir/redirects/redirect1.js";
let redirect_source_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4548/tests/subdir/redirects/redirect1.js")
.as_ref(),
);
let redirect_source_filename_intermediate = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4546/tests/subdir/redirects/redirect1.js")
.as_ref(),
);
let target_module_name =
"http://localhost:4545/tests/subdir/redirects/redirect1.js";
let redirect_target_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/redirects/redirect1.js")
.as_ref(),
);
let mod_meta = get_source_code(
&deno_dir,
redirect_module_name,
&redirect_source_filename,
true,
).unwrap();
// File that requires redirection is not downloaded.
assert!(fs::read_to_string(&redirect_source_filename).is_err());
// ... but its .headers.json is created.
let redirect_source_headers =
get_source_code_headers(&redirect_source_filename);
assert_eq!(
redirect_source_headers.redirect_to.unwrap(),
target_module_name
);
// In the intermediate redirection step, file is also not downloaded.
assert!(
fs::read_to_string(&redirect_source_filename_intermediate).is_err()
);
// The target of redirection is downloaded instead.
assert_eq!(
fs::read_to_string(&redirect_target_filename).unwrap(),
"export const redirect = 1;\n"
);
let redirect_target_headers =
get_source_code_headers(&redirect_target_filename);
assert!(redirect_target_headers.redirect_to.is_none());
// Examine the meta result.
assert_eq!(&mod_meta.module_name, target_module_name);
assert_eq!(
&mod_meta.module_redirect_source_name.clone().unwrap(),
redirect_module_name
);
});
}
#[test]
fn test_fetch_source_async_1() {
use crate::tokio_util;
// http_util::fetch_sync_string requires tokio
tokio_util::init(|| {
let (_temp_dir, deno_dir) = test_setup();
let module_name =
"http://127.0.0.1:4545/tests/subdir/mt_video_mp2t.t3.ts".to_string();
let filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("127.0.0.1_PORT4545/tests/subdir/mt_video_mp2t.t3.ts")
.as_ref(),
);
let headers_file_name = source_code_headers_filename(&filename);
let result = tokio_util::block_on(fetch_remote_source_async(
&deno_dir,
&module_name,
&filename,
));
assert!(result.is_ok());
let r = result.unwrap().unwrap();
assert_eq!(r.source_code, b"export const loaded = true;\n");
assert_eq!(&(r.media_type), &msg::MediaType::TypeScript);
// matching ext, no .headers.json file created
assert!(fs::read_to_string(&headers_file_name).is_err());
// Modify .headers.json, make sure read from local
save_source_code_headers(
&filename,
Some("text/javascript".to_owned()),
None,
);
let result2 =
fetch_local_source(&deno_dir, &module_name, &filename, None);
assert!(result2.is_ok());
let r2 = result2.unwrap().unwrap();
assert_eq!(r2.source_code, b"export const loaded = true;\n");
// Not MediaType::TypeScript due to .headers.json modification
assert_eq!(&(r2.media_type), &msg::MediaType::JavaScript);
});
}
#[test]
fn test_fetch_source_1() {
use crate::tokio_util;
// http_util::fetch_sync_string requires tokio
tokio_util::init(|| {
let (_temp_dir, deno_dir) = test_setup();
let module_name =
"http://localhost:4545/tests/subdir/mt_video_mp2t.t3.ts";
let filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/mt_video_mp2t.t3.ts")
.as_ref(),
);
let headers_file_name = source_code_headers_filename(&filename);
let result = fetch_remote_source(&deno_dir, module_name, &filename);
assert!(result.is_ok());
let r = result.unwrap().unwrap();
assert_eq!(r.source_code, "export const loaded = true;\n".as_bytes());
assert_eq!(&(r.media_type), &msg::MediaType::TypeScript);
// matching ext, no .headers.json file created
assert!(fs::read_to_string(&headers_file_name).is_err());
// Modify .headers.json, make sure read from local
save_source_code_headers(
&filename,
Some("text/javascript".to_owned()),
None,
);
let result2 = fetch_local_source(&deno_dir, module_name, &filename, None);
assert!(result2.is_ok());
let r2 = result2.unwrap().unwrap();
assert_eq!(r2.source_code, "export const loaded = true;\n".as_bytes());
// Not MediaType::TypeScript due to .headers.json modification
assert_eq!(&(r2.media_type), &msg::MediaType::JavaScript);
});
}
#[test]
fn test_fetch_source_2() {
use crate::tokio_util;
// http_util::fetch_sync_string requires tokio
tokio_util::init(|| {
let (_temp_dir, deno_dir) = test_setup();
let module_name = "http://localhost:4545/tests/subdir/no_ext";
let filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/no_ext")
.as_ref(),
);
let result = fetch_remote_source(&deno_dir, module_name, &filename);
assert!(result.is_ok());
let r = result.unwrap().unwrap();
assert_eq!(r.source_code, "export const loaded = true;\n".as_bytes());
assert_eq!(&(r.media_type), &msg::MediaType::TypeScript);
// no ext, should create .headers.json file
assert_eq!(
get_source_code_headers(&filename).mime_type.unwrap(),
"text/typescript"
);
let module_name_2 = "http://localhost:4545/tests/subdir/mismatch_ext.ts";
let filename_2 = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/mismatch_ext.ts")
.as_ref(),
);
let result_2 = fetch_remote_source(&deno_dir, module_name_2, &filename_2);
assert!(result_2.is_ok());
let r2 = result_2.unwrap().unwrap();
assert_eq!(r2.source_code, "export const loaded = true;\n".as_bytes());
assert_eq!(&(r2.media_type), &msg::MediaType::JavaScript);
// mismatch ext, should create .headers.json file
assert_eq!(
get_source_code_headers(&filename_2).mime_type.unwrap(),
"text/javascript"
);
// test unknown extension
let module_name_3 = "http://localhost:4545/tests/subdir/unknown_ext.deno";
let filename_3 = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/unknown_ext.deno")
.as_ref(),
);
let result_3 = fetch_remote_source(&deno_dir, module_name_3, &filename_3);
assert!(result_3.is_ok());
let r3 = result_3.unwrap().unwrap();
assert_eq!(r3.source_code, "export const loaded = true;\n".as_bytes());
assert_eq!(&(r3.media_type), &msg::MediaType::TypeScript);
// unknown ext, should create .headers.json file
assert_eq!(
get_source_code_headers(&filename_3).mime_type.unwrap(),
"text/typescript"
);
});
}
#[test]
fn test_fetch_source_3() {
// only local, no http_util::fetch_sync_string called
let (_temp_dir, deno_dir) = test_setup();
let cwd = std::env::current_dir().unwrap();
let cwd_string = cwd.to_str().unwrap();
let module_name = "http://example.com/mt_text_typescript.t1.ts"; // not used
let filename =
format!("{}/tests/subdir/mt_text_typescript.t1.ts", &cwd_string);
let result = fetch_local_source(&deno_dir, module_name, &filename, None);
assert!(result.is_ok());
let r = result.unwrap().unwrap();
assert_eq!(r.source_code, "export const loaded = true;\n".as_bytes());
assert_eq!(&(r.media_type), &msg::MediaType::TypeScript);
}
#[test]
fn test_fetch_module_meta_data() {
let (_temp_dir, deno_dir) = test_setup();
let cwd = std::env::current_dir().unwrap();
let cwd_string = String::from(cwd.to_str().unwrap()) + "/";
tokio_util::init(|| {
// Test failure case.
let specifier = "hello.ts";
let referrer = add_root!("/baddir/badfile.ts");
let r = deno_dir.fetch_module_meta_data(specifier, referrer, true);
assert!(r.is_err());
// Assuming cwd is the deno repo root.
let specifier = "./js/main.ts";
let referrer = cwd_string.as_str();
let r = deno_dir.fetch_module_meta_data(specifier, referrer, true);
assert!(r.is_ok());
})
}
#[test]
fn test_fetch_module_meta_data_1() {
/*recompile ts file*/
let (_temp_dir, deno_dir) = test_setup();
let cwd = std::env::current_dir().unwrap();
let cwd_string = String::from(cwd.to_str().unwrap()) + "/";
tokio_util::init(|| {
// Test failure case.
let specifier = "hello.ts";
let referrer = add_root!("/baddir/badfile.ts");
let r = deno_dir.fetch_module_meta_data(specifier, referrer, false);
assert!(r.is_err());
// Assuming cwd is the deno repo root.
let specifier = "./js/main.ts";
let referrer = cwd_string.as_str();
let r = deno_dir.fetch_module_meta_data(specifier, referrer, false);
assert!(r.is_ok());
})
}
#[test]
fn test_src_file_to_url_1() {
let (_temp_dir, deno_dir) = test_setup();
assert_eq!("hello", deno_dir.src_file_to_url("hello"));
assert_eq!("/hello", deno_dir.src_file_to_url("/hello"));
let x = deno_dir.deps_http.join("hello/world.txt");
assert_eq!(
"http://hello/world.txt",
deno_dir.src_file_to_url(x.to_str().unwrap())
);
}
#[test]
fn test_src_file_to_url_2() {
let (_temp_dir, deno_dir) = test_setup();
assert_eq!("hello", deno_dir.src_file_to_url("hello"));
assert_eq!("/hello", deno_dir.src_file_to_url("/hello"));
let x = deno_dir.deps_https.join("hello/world.txt");
assert_eq!(
"https://hello/world.txt",
deno_dir.src_file_to_url(x.to_str().unwrap())
);
}
#[test]
fn test_src_file_to_url_3() {
let (_temp_dir, deno_dir) = test_setup();
let x = deno_dir.deps_http.join("localhost_PORT4545/world.txt");
assert_eq!(
"http://localhost:4545/world.txt",
deno_dir.src_file_to_url(x.to_str().unwrap())
);
}
#[test]
fn test_src_file_to_url_4() {
let (_temp_dir, deno_dir) = test_setup();
let x = deno_dir.deps_https.join("localhost_PORT4545/world.txt");
assert_eq!(
"https://localhost:4545/world.txt",
deno_dir.src_file_to_url(x.to_str().unwrap())
);
}
// https://github.com/denoland/deno/blob/golang/os_test.go#L16-L87
#[test]
fn test_resolve_module_1() {
let (_temp_dir, deno_dir) = test_setup();
let test_cases = [
(
"./subdir/print_hello.ts",
add_root!("/Users/rld/go/src/github.com/denoland/deno/testdata/006_url_imports.ts"),
file_url!("/Users/rld/go/src/github.com/denoland/deno/testdata/subdir/print_hello.ts"),
add_root!("/Users/rld/go/src/github.com/denoland/deno/testdata/subdir/print_hello.ts"),
),
(
"testdata/001_hello.js",
add_root!("/Users/rld/go/src/github.com/denoland/deno/"),
file_url!("/Users/rld/go/src/github.com/denoland/deno/testdata/001_hello.js"),
add_root!("/Users/rld/go/src/github.com/denoland/deno/testdata/001_hello.js"),
),
(
add_root!("/Users/rld/src/deno/hello.js"),
".",
file_url!("/Users/rld/src/deno/hello.js"),
add_root!("/Users/rld/src/deno/hello.js"),
),
(
add_root!("/this/module/got/imported.js"),
add_root!("/that/module/did/it.js"),
file_url!("/this/module/got/imported.js"),
add_root!("/this/module/got/imported.js"),
),
];
for &test in test_cases.iter() {
let specifier = String::from(test.0);
let referrer = String::from(test.1);
let (module_name, filename) =
deno_dir.resolve_module(&specifier, &referrer).unwrap();
assert_eq!(module_name, test.2);
assert_eq!(filename, test.3);
}
}
#[test]
fn test_resolve_module_2() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "http://localhost:4545/testdata/subdir/print_hello.ts";
let referrer = add_root!("/deno/testdata/006_url_imports.ts");
let expected_module_name =
"http://localhost:4545/testdata/subdir/print_hello.ts";
let expected_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/testdata/subdir/print_hello.ts")
.as_ref(),
);
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_3() {
let (_temp_dir, deno_dir) = test_setup();
let specifier_ =
deno_dir.deps_http.join("unpkg.com/liltest@0.0.5/index.ts");
let specifier = specifier_.to_str().unwrap();
let referrer = ".";
let expected_module_name = "http://unpkg.com/liltest@0.0.5/index.ts";
let expected_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("unpkg.com/liltest@0.0.5/index.ts")
.as_ref(),
);
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_4() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "./util";
let referrer_ = deno_dir.deps_http.join("unpkg.com/liltest@0.0.5/index.ts");
let referrer = referrer_.to_str().unwrap();
// http containing files -> load relative import with http
let expected_module_name = "http://unpkg.com/liltest@0.0.5/util";
let expected_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("unpkg.com/liltest@0.0.5/util")
.as_ref(),
);
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_5() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "./util";
let referrer_ =
deno_dir.deps_https.join("unpkg.com/liltest@0.0.5/index.ts");
let referrer = referrer_.to_str().unwrap();
// https containing files -> load relative import with https
let expected_module_name = "https://unpkg.com/liltest@0.0.5/util";
let expected_filename = deno_fs::normalize_path(
deno_dir
.deps_https
.join("unpkg.com/liltest@0.0.5/util")
.as_ref(),
);
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_6() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "http://localhost:4545/tests/subdir/mod2.ts";
let referrer = add_root!("/deno/tests/006_url_imports.ts");
let expected_module_name = "http://localhost:4545/tests/subdir/mod2.ts";
let expected_filename = deno_fs::normalize_path(
deno_dir
.deps_http
.join("localhost_PORT4545/tests/subdir/mod2.ts")
.as_ref(),
);
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_7() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "http_test.ts";
let referrer = add_root!("/Users/rld/src/deno_net/");
let expected_module_name =
file_url!("/Users/rld/src/deno_net/http_test.ts");
let expected_filename = add_root!("/Users/rld/src/deno_net/http_test.ts");
let (module_name, filename) =
deno_dir.resolve_module(specifier, referrer).unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_referrer_dot() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "tests/001_hello.js";
let cwd = std::env::current_dir().unwrap();
let expected_path = cwd.join(specifier);
let expected_module_name =
Url::from_file_path(&expected_path).unwrap().to_string();
let expected_filename = deno_fs::normalize_path(&expected_path);
let (module_name, filename) =
deno_dir.resolve_module(specifier, ".").unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
let (module_name, filename) =
deno_dir.resolve_module(specifier, "./").unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_resolve_module_referrer_dotdot() {
let (_temp_dir, deno_dir) = test_setup();
let specifier = "tests/001_hello.js";
let cwd = std::env::current_dir().unwrap();
let expected_path = cwd.join("..").join(specifier);
let expected_module_name =
Url::from_file_path(&expected_path).unwrap().to_string();
let expected_filename = deno_fs::normalize_path(&expected_path);
let (module_name, filename) =
deno_dir.resolve_module(specifier, "..").unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
let (module_name, filename) =
deno_dir.resolve_module(specifier, "../").unwrap();
assert_eq!(module_name, expected_module_name);
assert_eq!(filename, expected_filename);
}
#[test]
fn test_map_file_extension() {
assert_eq!(
map_file_extension(Path::new("foo/bar.ts")),
msg::MediaType::TypeScript
);
assert_eq!(
map_file_extension(Path::new("foo/bar.d.ts")),
msg::MediaType::TypeScript
);
assert_eq!(
map_file_extension(Path::new("foo/bar.js")),
msg::MediaType::JavaScript
);
assert_eq!(
map_file_extension(Path::new("foo/bar.json")),
msg::MediaType::Json
);
assert_eq!(
map_file_extension(Path::new("foo/bar.txt")),
msg::MediaType::Unknown
);
assert_eq!(
map_file_extension(Path::new("foo/bar")),
msg::MediaType::Unknown
);
}
#[test]
fn test_map_content_type() {
// Extension only
assert_eq!(
map_content_type(Path::new("foo/bar.ts"), None),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar.d.ts"), None),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar.js"), None),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar.json"), None),
msg::MediaType::Json
);
assert_eq!(
map_content_type(Path::new("foo/bar.txt"), None),
msg::MediaType::Unknown
);
assert_eq!(
map_content_type(Path::new("foo/bar"), None),
msg::MediaType::Unknown
);
// Media Type
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/typescript")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("text/typescript")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("video/vnd.dlna.mpeg-tts")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("video/mp2t")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/x-typescript")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/javascript")),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("text/javascript")),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/ecmascript")),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("text/ecmascript")),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/x-javascript")),
msg::MediaType::JavaScript
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("application/json")),
msg::MediaType::Json
);
assert_eq!(
map_content_type(Path::new("foo/bar"), Some("text/json")),
msg::MediaType::Json
);
assert_eq!(
map_content_type(Path::new("foo/bar.ts"), Some("text/plain")),
msg::MediaType::TypeScript
);
assert_eq!(
map_content_type(Path::new("foo/bar.ts"), Some("foo/bar")),
msg::MediaType::Unknown
);
}
#[test]
fn test_filter_shebang() {
assert_eq!(filter_shebang(b"#!"[..].to_owned()), b"");
assert_eq!(
filter_shebang("#!\n\n".as_bytes().to_owned()),
"\n\n".as_bytes()
);
let code = "#!/usr/bin/env deno\nconsole.log('hello');\n"
.as_bytes()
.to_owned();
assert_eq!(filter_shebang(code), "\nconsole.log('hello');\n".as_bytes());
}
}