//! Static files support use std::cell::RefCell; use std::fmt::Write; use std::fs::{DirEntry, File}; use std::io::{Read, Seek}; use std::path::{Path, PathBuf}; use std::rc::Rc; use std::{cmp, io}; use actix_service::boxed::{self, BoxedNewService, BoxedService}; use actix_service::{IntoNewService, NewService, Service}; use actix_web::dev::{ AppService, HttpServiceFactory, Payload, ResourceDef, ServiceRequest, ServiceResponse, }; use actix_web::error::{BlockingError, Error, ErrorInternalServerError}; use actix_web::http::header::DispositionType; use actix_web::{web, FromRequest, HttpRequest, HttpResponse, Responder}; use bytes::Bytes; use futures::future::{ok, Either, FutureResult}; use futures::{Async, Future, Poll, Stream}; use mime; use mime_guess::get_mime_type; use percent_encoding::{utf8_percent_encode, DEFAULT_ENCODE_SET}; use v_htmlescape::escape as escape_html_entity; mod error; mod named; mod range; use self::error::{FilesError, UriSegmentError}; pub use crate::named::NamedFile; pub use crate::range::HttpRange; type HttpService = BoxedService; type HttpNewService = BoxedNewService<(), ServiceRequest, ServiceResponse, Error, ()>; /// Return the MIME type associated with a filename extension (case-insensitive). /// If `ext` is empty or no associated type for the extension was found, returns /// the type `application/octet-stream`. #[inline] pub fn file_extension_to_mime(ext: &str) -> mime::Mime { get_mime_type(ext) } #[doc(hidden)] /// A helper created from a `std::fs::File` which reads the file /// chunk-by-chunk on a `ThreadPool`. pub struct ChunkedReadFile { size: u64, offset: u64, file: Option, fut: Option>>>, counter: u64, } fn handle_error(err: BlockingError) -> Error { match err { BlockingError::Error(err) => err.into(), BlockingError::Canceled => ErrorInternalServerError("Unexpected error").into(), } } impl Stream for ChunkedReadFile { type Item = Bytes; type Error = Error; fn poll(&mut self) -> Poll, Error> { if self.fut.is_some() { return match self.fut.as_mut().unwrap().poll().map_err(handle_error)? { Async::Ready((file, bytes)) => { self.fut.take(); self.file = Some(file); self.offset += bytes.len() as u64; self.counter += bytes.len() as u64; Ok(Async::Ready(Some(bytes))) } Async::NotReady => Ok(Async::NotReady), }; } let size = self.size; let offset = self.offset; let counter = self.counter; if size == counter { Ok(Async::Ready(None)) } else { let mut file = self.file.take().expect("Use after completion"); self.fut = Some(Box::new(web::block(move || { let max_bytes: usize; max_bytes = cmp::min(size.saturating_sub(counter), 65_536) as usize; let mut buf = Vec::with_capacity(max_bytes); file.seek(io::SeekFrom::Start(offset))?; let nbytes = file.by_ref().take(max_bytes as u64).read_to_end(&mut buf)?; if nbytes == 0 { return Err(io::ErrorKind::UnexpectedEof.into()); } Ok((file, Bytes::from(buf))) }))); self.poll() } } } type DirectoryRenderer = Fn(&Directory, &HttpRequest) -> Result; /// A directory; responds with the generated directory listing. #[derive(Debug)] pub struct Directory { /// Base directory pub base: PathBuf, /// Path of subdirectory to generate listing for pub path: PathBuf, } impl Directory { /// Create a new directory pub fn new(base: PathBuf, path: PathBuf) -> Directory { Directory { base, path } } /// Is this entry visible from this directory? pub fn is_visible(&self, entry: &io::Result) -> bool { if let Ok(ref entry) = *entry { if let Some(name) = entry.file_name().to_str() { if name.starts_with('.') { return false; } } if let Ok(ref md) = entry.metadata() { let ft = md.file_type(); return ft.is_dir() || ft.is_file() || ft.is_symlink(); } } false } } // show file url as relative to static path macro_rules! encode_file_url { ($path:ident) => { utf8_percent_encode(&$path.to_string_lossy(), DEFAULT_ENCODE_SET) }; } // " -- " & -- & ' -- ' < -- < > -- > / -- / macro_rules! encode_file_name { ($entry:ident) => { escape_html_entity(&$entry.file_name().to_string_lossy()) }; } fn directory_listing( dir: &Directory, req: &HttpRequest, ) -> Result { let index_of = format!("Index of {}", req.path()); let mut body = String::new(); let base = Path::new(req.path()); for entry in dir.path.read_dir()? { if dir.is_visible(&entry) { let entry = entry.unwrap(); let p = match entry.path().strip_prefix(&dir.path) { Ok(p) => base.join(p), Err(_) => continue, }; // if file is a directory, add '/' to the end of the name if let Ok(metadata) = entry.metadata() { if metadata.is_dir() { let _ = write!( body, "
  • {}/
  • ", encode_file_url!(p), encode_file_name!(entry), ); } else { let _ = write!( body, "
  • {}
  • ", encode_file_url!(p), encode_file_name!(entry), ); } } else { continue; } } } let html = format!( "\ {}\

    {}

    \
      \ {}\
    \n", index_of, index_of, body ); Ok(ServiceResponse::new( req.clone(), HttpResponse::Ok() .content_type("text/html; charset=utf-8") .body(html), )) } type MimeOverride = Fn(&mime::Name) -> DispositionType; /// Static files handling /// /// `Files` service must be registered with `App::service()` method. /// /// ```rust /// use actix_web::App; /// use actix_files as fs; /// /// fn main() { /// let app = App::new() /// .service(fs::Files::new("/static", ".")); /// } /// ``` pub struct Files { path: String, directory: PathBuf, index: Option, show_index: bool, default: Rc>>>, renderer: Rc, mime_override: Option>, file_flags: named::Flags, } impl Clone for Files { fn clone(&self) -> Self { Self { directory: self.directory.clone(), index: self.index.clone(), show_index: self.show_index, default: self.default.clone(), renderer: self.renderer.clone(), file_flags: self.file_flags, path: self.path.clone(), mime_override: self.mime_override.clone(), } } } impl Files { /// Create new `Files` instance for specified base directory. /// /// `File` uses `ThreadPool` for blocking filesystem operations. /// By default pool with 5x threads of available cpus is used. /// Pool size can be changed by setting ACTIX_CPU_POOL environment variable. pub fn new>(path: &str, dir: T) -> Files { let dir = dir.into().canonicalize().unwrap_or_else(|_| PathBuf::new()); if !dir.is_dir() { log::error!("Specified path is not a directory"); } Files { path: path.to_string(), directory: dir, index: None, show_index: false, default: Rc::new(RefCell::new(None)), renderer: Rc::new(directory_listing), mime_override: None, file_flags: named::Flags::default(), } } /// Show files listing for directories. /// /// By default show files listing is disabled. pub fn show_files_listing(mut self) -> Self { self.show_index = true; self } /// Set custom directory renderer pub fn files_listing_renderer(mut self, f: F) -> Self where for<'r, 's> F: Fn(&'r Directory, &'s HttpRequest) -> Result + 'static, { self.renderer = Rc::new(f); self } /// Specifies mime override callback pub fn mime_override(mut self, f: F) -> Self where F: Fn(&mime::Name) -> DispositionType + 'static, { self.mime_override = Some(Rc::new(f)); self } /// Set index file /// /// Shows specific index file for directory "/" instead of /// showing files listing. pub fn index_file>(mut self, index: T) -> Self { self.index = Some(index.into()); self } #[inline] ///Specifies whether to use ETag or not. /// ///Default is true. pub fn use_etag(mut self, value: bool) -> Self { self.file_flags.set(named::Flags::ETAG, value); self } #[inline] ///Specifies whether to use Last-Modified or not. /// ///Default is true. pub fn use_last_modified(mut self, value: bool) -> Self { self.file_flags.set(named::Flags::LAST_MD, value); self } /// Sets default handler which is used when no matched file could be found. pub fn default_handler(mut self, f: F) -> Self where F: IntoNewService, U: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, > + 'static, { // create and configure default resource self.default = Rc::new(RefCell::new(Some(Rc::new(boxed::new_service( f.into_new_service().map_init_err(|_| ()), ))))); self } } impl HttpServiceFactory for Files { fn register(self, config: &mut AppService) { if self.default.borrow().is_none() { *self.default.borrow_mut() = Some(config.default_service()); } let rdef = if config.is_root() { ResourceDef::root_prefix(&self.path) } else { ResourceDef::prefix(&self.path) }; config.register_service(rdef, None, self, None) } } impl NewService for Files { type Config = (); type Request = ServiceRequest; type Response = ServiceResponse; type Error = Error; type Service = FilesService; type InitError = (); type Future = Box>; fn new_service(&self, _: &()) -> Self::Future { let mut srv = FilesService { directory: self.directory.clone(), index: self.index.clone(), show_index: self.show_index, default: None, renderer: self.renderer.clone(), mime_override: self.mime_override.clone(), file_flags: self.file_flags, }; if let Some(ref default) = *self.default.borrow() { Box::new( default .new_service(&()) .map(move |default| { srv.default = Some(default); srv }) .map_err(|_| ()), ) } else { Box::new(ok(srv)) } } } pub struct FilesService { directory: PathBuf, index: Option, show_index: bool, default: Option, renderer: Rc, mime_override: Option>, file_flags: named::Flags, } impl FilesService { fn handle_err( &mut self, e: io::Error, req: ServiceRequest, ) -> Either< FutureResult, Box>, > { log::debug!("Files: Failed to handle {}: {}", req.path(), e); if let Some(ref mut default) = self.default { default.call(req) } else { Either::A(ok(req.error_response(e))) } } } impl Service for FilesService { type Request = ServiceRequest; type Response = ServiceResponse; type Error = Error; type Future = Either< FutureResult, Box>, >; fn poll_ready(&mut self) -> Poll<(), Self::Error> { Ok(Async::Ready(())) } fn call(&mut self, req: ServiceRequest) -> Self::Future { // let (req, pl) = req.into_parts(); let real_path = match PathBufWrp::get_pathbuf(req.match_info().path()) { Ok(item) => item, Err(e) => return Either::A(ok(req.error_response(e))), }; // full filepath let path = match self.directory.join(&real_path.0).canonicalize() { Ok(path) => path, Err(e) => return self.handle_err(e, req), }; if path.is_dir() { if let Some(ref redir_index) = self.index { let path = path.join(redir_index); match NamedFile::open(path) { Ok(mut named_file) => { if let Some(ref mime_override) = self.mime_override { let new_disposition = mime_override(&named_file.content_type.type_()); named_file.content_disposition.disposition = new_disposition; } named_file.flags = self.file_flags; let (req, _) = req.into_parts(); Either::A(ok(match named_file.respond_to(&req) { Ok(item) => ServiceResponse::new(req, item), Err(e) => ServiceResponse::from_err(e, req), })) } Err(e) => return self.handle_err(e, req), } } else if self.show_index { let dir = Directory::new(self.directory.clone(), path); let (req, _) = req.into_parts(); let x = (self.renderer)(&dir, &req); match x { Ok(resp) => Either::A(ok(resp)), Err(e) => return Either::A(ok(ServiceResponse::from_err(e, req))), } } else { Either::A(ok(ServiceResponse::from_err( FilesError::IsDirectory, req.into_parts().0, ))) } } else { match NamedFile::open(path) { Ok(mut named_file) => { if let Some(ref mime_override) = self.mime_override { let new_disposition = mime_override(&named_file.content_type.type_()); named_file.content_disposition.disposition = new_disposition; } named_file.flags = self.file_flags; let (req, _) = req.into_parts(); match named_file.respond_to(&req) { Ok(item) => { Either::A(ok(ServiceResponse::new(req.clone(), item))) } Err(e) => Either::A(ok(ServiceResponse::from_err(e, req))), } } Err(e) => self.handle_err(e, req), } } } } #[derive(Debug)] struct PathBufWrp(PathBuf); impl PathBufWrp { fn get_pathbuf(path: &str) -> Result { let mut buf = PathBuf::new(); for segment in path.split('/') { if segment == ".." { buf.pop(); } else if segment.starts_with('.') { return Err(UriSegmentError::BadStart('.')); } else if segment.starts_with('*') { return Err(UriSegmentError::BadStart('*')); } else if segment.ends_with(':') { return Err(UriSegmentError::BadEnd(':')); } else if segment.ends_with('>') { return Err(UriSegmentError::BadEnd('>')); } else if segment.ends_with('<') { return Err(UriSegmentError::BadEnd('<')); } else if segment.is_empty() { continue; } else if cfg!(windows) && segment.contains('\\') { return Err(UriSegmentError::BadChar('\\')); } else { buf.push(segment) } } Ok(PathBufWrp(buf)) } } impl FromRequest for PathBufWrp { type Error = UriSegmentError; type Future = Result; type Config = (); fn from_request(req: &HttpRequest, _: &mut Payload) -> Self::Future { PathBufWrp::get_pathbuf(req.match_info().path()) } } #[cfg(test)] mod tests { use std::fs; use std::iter::FromIterator; use std::ops::Add; use std::time::{Duration, SystemTime}; use bytes::BytesMut; use super::*; use actix_web::http::header::{ self, ContentDisposition, DispositionParam, DispositionType, }; use actix_web::http::{Method, StatusCode}; use actix_web::middleware::Compress; use actix_web::test::{self, TestRequest}; use actix_web::App; #[test] fn test_file_extension_to_mime() { let m = file_extension_to_mime("jpg"); assert_eq!(m, mime::IMAGE_JPEG); let m = file_extension_to_mime("invalid extension!!"); assert_eq!(m, mime::APPLICATION_OCTET_STREAM); let m = file_extension_to_mime(""); assert_eq!(m, mime::APPLICATION_OCTET_STREAM); } #[test] fn test_if_modified_since_without_if_none_match() { let file = NamedFile::open("Cargo.toml").unwrap(); let since = header::HttpDate::from(SystemTime::now().add(Duration::from_secs(60))); let req = TestRequest::default() .header(header::IF_MODIFIED_SINCE, since) .to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!(resp.status(), StatusCode::NOT_MODIFIED); } #[test] fn test_if_modified_since_with_if_none_match() { let file = NamedFile::open("Cargo.toml").unwrap(); let since = header::HttpDate::from(SystemTime::now().add(Duration::from_secs(60))); let req = TestRequest::default() .header(header::IF_NONE_MATCH, "miss_etag") .header(header::IF_MODIFIED_SINCE, since) .to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_ne!(resp.status(), StatusCode::NOT_MODIFIED); } #[test] fn test_named_file_text() { assert!(NamedFile::open("test--").is_err()); let mut file = NamedFile::open("Cargo.toml").unwrap(); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/x-toml" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "inline; filename=\"Cargo.toml\"" ); } #[test] fn test_named_file_set_content_type() { let mut file = NamedFile::open("Cargo.toml") .unwrap() .set_content_type(mime::TEXT_XML); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/xml" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "inline; filename=\"Cargo.toml\"" ); } #[test] fn test_named_file_image() { let mut file = NamedFile::open("tests/test.png").unwrap(); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "image/png" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "inline; filename=\"test.png\"" ); } #[test] fn test_named_file_image_attachment() { let cd = ContentDisposition { disposition: DispositionType::Attachment, parameters: vec![DispositionParam::Filename(String::from("test.png"))], }; let mut file = NamedFile::open("tests/test.png") .unwrap() .set_content_disposition(cd); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "image/png" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "attachment; filename=\"test.png\"" ); } #[test] fn test_named_file_binary() { let mut file = NamedFile::open("tests/test.binary").unwrap(); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "application/octet-stream" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "attachment; filename=\"test.binary\"" ); } #[test] fn test_named_file_status_code_text() { let mut file = NamedFile::open("Cargo.toml") .unwrap() .set_status_code(StatusCode::NOT_FOUND); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let req = TestRequest::default().to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/x-toml" ); assert_eq!( resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), "inline; filename=\"Cargo.toml\"" ); assert_eq!(resp.status(), StatusCode::NOT_FOUND); } #[test] fn test_mime_override() { fn all_attachment(_: &mime::Name) -> DispositionType { DispositionType::Attachment } let mut srv = test::init_service( App::new().service( Files::new("/", ".") .mime_override(all_attachment) .index_file("Cargo.toml"), ), ); let request = TestRequest::get().uri("/").to_request(); let response = test::call_service(&mut srv, request); assert_eq!(response.status(), StatusCode::OK); let content_disposition = response .headers() .get(header::CONTENT_DISPOSITION) .expect("To have CONTENT_DISPOSITION"); let content_disposition = content_disposition .to_str() .expect("Convert CONTENT_DISPOSITION to str"); assert_eq!(content_disposition, "attachment; filename=\"Cargo.toml\""); } #[test] fn test_named_file_ranges_status_code() { let mut srv = test::init_service( App::new().service(Files::new("/test", ".").index_file("Cargo.toml")), ); // Valid range header let request = TestRequest::get() .uri("/t%65st/Cargo.toml") .header(header::RANGE, "bytes=10-20") .to_request(); let response = test::call_service(&mut srv, request); assert_eq!(response.status(), StatusCode::PARTIAL_CONTENT); // Invalid range header let request = TestRequest::get() .uri("/t%65st/Cargo.toml") .header(header::RANGE, "bytes=1-0") .to_request(); let response = test::call_service(&mut srv, request); assert_eq!(response.status(), StatusCode::RANGE_NOT_SATISFIABLE); } #[test] fn test_named_file_content_range_headers() { let mut srv = test::init_service( App::new().service(Files::new("/test", ".").index_file("tests/test.binary")), ); // Valid range header let request = TestRequest::get() .uri("/t%65st/tests/test.binary") .header(header::RANGE, "bytes=10-20") .to_request(); let response = test::call_service(&mut srv, request); let contentrange = response .headers() .get(header::CONTENT_RANGE) .unwrap() .to_str() .unwrap(); assert_eq!(contentrange, "bytes 10-20/100"); // Invalid range header let request = TestRequest::get() .uri("/t%65st/tests/test.binary") .header(header::RANGE, "bytes=10-5") .to_request(); let response = test::call_service(&mut srv, request); let contentrange = response .headers() .get(header::CONTENT_RANGE) .unwrap() .to_str() .unwrap(); assert_eq!(contentrange, "bytes */100"); } #[test] fn test_named_file_content_length_headers() { let mut srv = test::init_service( App::new().service(Files::new("test", ".").index_file("tests/test.binary")), ); // Valid range header let request = TestRequest::get() .uri("/t%65st/tests/test.binary") .header(header::RANGE, "bytes=10-20") .to_request(); let response = test::call_service(&mut srv, request); let contentlength = response .headers() .get(header::CONTENT_LENGTH) .unwrap() .to_str() .unwrap(); assert_eq!(contentlength, "11"); // Invalid range header let request = TestRequest::get() .uri("/t%65st/tests/test.binary") .header(header::RANGE, "bytes=10-8") .to_request(); let response = test::call_service(&mut srv, request); assert_eq!(response.status(), StatusCode::RANGE_NOT_SATISFIABLE); // Without range header let request = TestRequest::get() .uri("/t%65st/tests/test.binary") // .no_default_headers() .to_request(); let response = test::call_service(&mut srv, request); let contentlength = response .headers() .get(header::CONTENT_LENGTH) .unwrap() .to_str() .unwrap(); assert_eq!(contentlength, "100"); // chunked let request = TestRequest::get() .uri("/t%65st/tests/test.binary") .to_request(); let mut response = test::call_service(&mut srv, request); // with enabled compression // { // let te = response // .headers() // .get(header::TRANSFER_ENCODING) // .unwrap() // .to_str() // .unwrap(); // assert_eq!(te, "chunked"); // } let bytes = test::block_on(response.take_body().fold(BytesMut::new(), |mut b, c| { b.extend(c); Ok::<_, Error>(b) })) .unwrap(); let data = Bytes::from(fs::read("tests/test.binary").unwrap()); assert_eq!(bytes.freeze(), data); } #[test] fn test_head_content_length_headers() { let mut srv = test::init_service( App::new().service(Files::new("test", ".").index_file("tests/test.binary")), ); // Valid range header let request = TestRequest::default() .method(Method::HEAD) .uri("/t%65st/tests/test.binary") .to_request(); let response = test::call_service(&mut srv, request); let contentlength = response .headers() .get(header::CONTENT_LENGTH) .unwrap() .to_str() .unwrap(); assert_eq!(contentlength, "100"); } #[test] fn test_static_files_with_spaces() { let mut srv = test::init_service( App::new().service(Files::new("/", ".").index_file("Cargo.toml")), ); let request = TestRequest::get() .uri("/tests/test%20space.binary") .to_request(); let mut response = test::call_service(&mut srv, request); assert_eq!(response.status(), StatusCode::OK); let bytes = test::block_on(response.take_body().fold(BytesMut::new(), |mut b, c| { b.extend(c); Ok::<_, Error>(b) })) .unwrap(); let data = Bytes::from(fs::read("tests/test space.binary").unwrap()); assert_eq!(bytes.freeze(), data); } #[test] fn test_named_file_not_allowed() { let file = NamedFile::open("Cargo.toml").unwrap(); let req = TestRequest::default() .method(Method::POST) .to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!(resp.status(), StatusCode::METHOD_NOT_ALLOWED); let file = NamedFile::open("Cargo.toml").unwrap(); let req = TestRequest::default().method(Method::PUT).to_http_request(); let resp = file.respond_to(&req).unwrap(); assert_eq!(resp.status(), StatusCode::METHOD_NOT_ALLOWED); } #[test] fn test_named_file_content_encoding() { let mut srv = test::init_service(App::new().wrap(Compress::default()).service( web::resource("/").to(|| { NamedFile::open("Cargo.toml") .unwrap() .set_content_encoding(header::ContentEncoding::Identity) }), )); let request = TestRequest::get() .uri("/") .header(header::ACCEPT_ENCODING, "gzip") .to_request(); let res = test::call_service(&mut srv, request); assert_eq!(res.status(), StatusCode::OK); assert!(!res.headers().contains_key(header::CONTENT_ENCODING)); } #[test] fn test_named_file_content_encoding_gzip() { let mut srv = test::init_service(App::new().wrap(Compress::default()).service( web::resource("/").to(|| { NamedFile::open("Cargo.toml") .unwrap() .set_content_encoding(header::ContentEncoding::Gzip) }), )); let request = TestRequest::get() .uri("/") .header(header::ACCEPT_ENCODING, "gzip") .to_request(); let res = test::call_service(&mut srv, request); assert_eq!(res.status(), StatusCode::OK); assert_eq!( res.headers() .get(header::CONTENT_ENCODING) .unwrap() .to_str() .unwrap(), "gzip" ); } #[test] fn test_named_file_allowed_method() { let req = TestRequest::default().method(Method::GET).to_http_request(); let file = NamedFile::open("Cargo.toml").unwrap(); let resp = file.respond_to(&req).unwrap(); assert_eq!(resp.status(), StatusCode::OK); } #[test] fn test_static_files() { let mut srv = test::init_service( App::new().service(Files::new("/", ".").show_files_listing()), ); let req = TestRequest::with_uri("/missing").to_request(); let resp = test::call_service(&mut srv, req); assert_eq!(resp.status(), StatusCode::NOT_FOUND); let mut srv = test::init_service(App::new().service(Files::new("/", "."))); let req = TestRequest::default().to_request(); let resp = test::call_service(&mut srv, req); assert_eq!(resp.status(), StatusCode::NOT_FOUND); let mut srv = test::init_service( App::new().service(Files::new("/", ".").show_files_listing()), ); let req = TestRequest::with_uri("/tests").to_request(); let mut resp = test::call_service(&mut srv, req); assert_eq!( resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/html; charset=utf-8" ); let bytes = test::block_on(resp.take_body().fold(BytesMut::new(), |mut b, c| { b.extend(c); Ok::<_, Error>(b) })) .unwrap(); assert!(format!("{:?}", bytes).contains("/tests/test.png")); } #[test] fn test_static_files_bad_directory() { let _st: Files = Files::new("/", "missing"); let _st: Files = Files::new("/", "Cargo.toml"); } #[test] fn test_default_handler_file_missing() { let mut st = test::block_on( Files::new("/", ".") .default_handler(|req: ServiceRequest| { Ok(req.into_response(HttpResponse::Ok().body("default content"))) }) .new_service(&()), ) .unwrap(); let req = TestRequest::with_uri("/missing").to_srv_request(); let mut resp = test::call_service(&mut st, req); assert_eq!(resp.status(), StatusCode::OK); let bytes = test::block_on(resp.take_body().fold(BytesMut::new(), |mut b, c| { b.extend(c); Ok::<_, Error>(b) })) .unwrap(); assert_eq!(bytes.freeze(), Bytes::from_static(b"default content")); } // #[test] // fn test_serve_index() { // let st = Files::new(".").index_file("test.binary"); // let req = TestRequest::default().uri("/tests").finish(); // let resp = st.handle(&req).respond_to(&req).unwrap(); // let resp = resp.as_msg(); // assert_eq!(resp.status(), StatusCode::OK); // assert_eq!( // resp.headers() // .get(header::CONTENT_TYPE) // .expect("content type"), // "application/octet-stream" // ); // assert_eq!( // resp.headers() // .get(header::CONTENT_DISPOSITION) // .expect("content disposition"), // "attachment; filename=\"test.binary\"" // ); // let req = TestRequest::default().uri("/tests/").finish(); // let resp = st.handle(&req).respond_to(&req).unwrap(); // let resp = resp.as_msg(); // assert_eq!(resp.status(), StatusCode::OK); // assert_eq!( // resp.headers().get(header::CONTENT_TYPE).unwrap(), // "application/octet-stream" // ); // assert_eq!( // resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), // "attachment; filename=\"test.binary\"" // ); // // nonexistent index file // let req = TestRequest::default().uri("/tests/unknown").finish(); // let resp = st.handle(&req).respond_to(&req).unwrap(); // let resp = resp.as_msg(); // assert_eq!(resp.status(), StatusCode::NOT_FOUND); // let req = TestRequest::default().uri("/tests/unknown/").finish(); // let resp = st.handle(&req).respond_to(&req).unwrap(); // let resp = resp.as_msg(); // assert_eq!(resp.status(), StatusCode::NOT_FOUND); // } // #[test] // fn test_serve_index_nested() { // let st = Files::new(".").index_file("mod.rs"); // let req = TestRequest::default().uri("/src/client").finish(); // let resp = st.handle(&req).respond_to(&req).unwrap(); // let resp = resp.as_msg(); // assert_eq!(resp.status(), StatusCode::OK); // assert_eq!( // resp.headers().get(header::CONTENT_TYPE).unwrap(), // "text/x-rust" // ); // assert_eq!( // resp.headers().get(header::CONTENT_DISPOSITION).unwrap(), // "inline; filename=\"mod.rs\"" // ); // } // #[test] // fn integration_serve_index() { // let mut srv = test::TestServer::with_factory(|| { // App::new().handler( // "test", // Files::new(".").index_file("Cargo.toml"), // ) // }); // let request = srv.get().uri(srv.url("/test")).finish().unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert_eq!(response.status(), StatusCode::OK); // let bytes = srv.execute(response.body()).unwrap(); // let data = Bytes::from(fs::read("Cargo.toml").unwrap()); // assert_eq!(bytes, data); // let request = srv.get().uri(srv.url("/test/")).finish().unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert_eq!(response.status(), StatusCode::OK); // let bytes = srv.execute(response.body()).unwrap(); // let data = Bytes::from(fs::read("Cargo.toml").unwrap()); // assert_eq!(bytes, data); // // nonexistent index file // let request = srv.get().uri(srv.url("/test/unknown")).finish().unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert_eq!(response.status(), StatusCode::NOT_FOUND); // let request = srv.get().uri(srv.url("/test/unknown/")).finish().unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert_eq!(response.status(), StatusCode::NOT_FOUND); // } // #[test] // fn integration_percent_encoded() { // let mut srv = test::TestServer::with_factory(|| { // App::new().handler( // "test", // Files::new(".").index_file("Cargo.toml"), // ) // }); // let request = srv // .get() // .uri(srv.url("/test/%43argo.toml")) // .finish() // .unwrap(); // let response = srv.execute(request.send()).unwrap(); // assert_eq!(response.status(), StatusCode::OK); // } #[test] fn test_path_buf() { assert_eq!( PathBufWrp::get_pathbuf("/test/.tt").map(|t| t.0), Err(UriSegmentError::BadStart('.')) ); assert_eq!( PathBufWrp::get_pathbuf("/test/*tt").map(|t| t.0), Err(UriSegmentError::BadStart('*')) ); assert_eq!( PathBufWrp::get_pathbuf("/test/tt:").map(|t| t.0), Err(UriSegmentError::BadEnd(':')) ); assert_eq!( PathBufWrp::get_pathbuf("/test/tt<").map(|t| t.0), Err(UriSegmentError::BadEnd('<')) ); assert_eq!( PathBufWrp::get_pathbuf("/test/tt>").map(|t| t.0), Err(UriSegmentError::BadEnd('>')) ); assert_eq!( PathBufWrp::get_pathbuf("/seg1/seg2/").unwrap().0, PathBuf::from_iter(vec!["seg1", "seg2"]) ); assert_eq!( PathBufWrp::get_pathbuf("/seg1/../seg2/").unwrap().0, PathBuf::from_iter(vec!["seg2"]) ); } }