//! Static files support. // //! TODO: needs to re-implement actual files handling, current impl blocks use std::{io, cmp}; use std::io::{Read, Seek}; use std::fmt::Write; use std::fs::{File, DirEntry, Metadata}; use std::path::{Path, PathBuf}; use std::ops::{Deref, DerefMut}; use std::time::{SystemTime, UNIX_EPOCH}; #[cfg(unix)] use std::os::unix::fs::MetadataExt; use bytes::{Bytes, BytesMut, BufMut}; use http::{Method, StatusCode}; use futures::{Async, Poll, Future, Stream}; use futures_cpupool::{CpuPool, CpuFuture}; use mime_guess::get_mime_type; use header; use error::Error; use param::FromParam; use handler::{Handler, RouteHandler, WrapHandler, Responder, Reply}; use httpmessage::HttpMessage; use httprequest::HttpRequest; use httpresponse::HttpResponse; use httpcodes::{HttpOk, HttpFound, HttpNotFound, HttpMethodNotAllowed}; /// A file with an associated name; responds with the Content-Type based on the /// file extension. #[derive(Debug)] pub struct NamedFile { path: PathBuf, file: File, md: Metadata, modified: Option, cpu_pool: Option, only_get: bool, } impl NamedFile { /// Attempts to open a file in read-only mode. /// /// # Examples /// /// ```rust /// use actix_web::fs::NamedFile; /// /// let file = NamedFile::open("foo.txt"); /// ``` pub fn open>(path: P) -> io::Result { let file = File::open(path.as_ref())?; let md = file.metadata()?; let path = path.as_ref().to_path_buf(); let modified = md.modified().ok(); let cpu_pool = None; Ok(NamedFile{path, file, md, modified, cpu_pool, only_get: false}) } /// Allow only GET and HEAD methods #[inline] pub fn only_get(mut self) -> Self { self.only_get = true; self } /// Returns reference to the underlying `File` object. #[inline] pub fn file(&self) -> &File { &self.file } /// Retrieve the path of this file. /// /// # Examples /// /// ```rust /// # use std::io; /// use actix_web::fs::NamedFile; /// /// # fn path() -> io::Result<()> { /// let file = NamedFile::open("test.txt")?; /// assert_eq!(file.path().as_os_str(), "foo.txt"); /// # Ok(()) /// # } /// ``` #[inline] pub fn path(&self) -> &Path { self.path.as_path() } /// Set `CpuPool` to use #[inline] pub fn set_cpu_pool(mut self, cpu_pool: CpuPool) -> Self { self.cpu_pool = Some(cpu_pool); self } fn etag(&self) -> Option { // This etag format is similar to Apache's. self.modified.as_ref().map(|mtime| { let ino = { #[cfg(unix)] { self.md.ino() } #[cfg(not(unix))] { 0 } }; let dur = mtime.duration_since(UNIX_EPOCH) .expect("modification time must be after epoch"); header::EntityTag::strong( format!("{:x}:{:x}:{:x}:{:x}", ino, self.md.len(), dur.as_secs(), dur.subsec_nanos())) }) } fn last_modified(&self) -> Option { self.modified.map(|mtime| mtime.into()) } } impl Deref for NamedFile { type Target = File; fn deref(&self) -> &File { &self.file } } impl DerefMut for NamedFile { fn deref_mut(&mut self) -> &mut File { &mut self.file } } /// Returns true if `req` has no `If-Match` header or one which matches `etag`. fn any_match(etag: Option<&header::EntityTag>, req: &HttpRequest) -> bool { match req.get_header::() { None | Some(header::IfMatch::Any) => true, Some(header::IfMatch::Items(ref items)) => { if let Some(some_etag) = etag { for item in items { if item.strong_eq(some_etag) { return true; } } } false } } } /// Returns true if `req` doesn't have an `If-None-Match` header matching `req`. fn none_match(etag: Option<&header::EntityTag>, req: &HttpRequest) -> bool { match req.get_header::() { Some(header::IfNoneMatch::Any) => false, Some(header::IfNoneMatch::Items(ref items)) => { if let Some(some_etag) = etag { for item in items { if item.weak_eq(some_etag) { return false; } } } true } None => true, } } impl Responder for NamedFile { type Item = HttpResponse; type Error = io::Error; fn respond_to(self, req: HttpRequest) -> Result { if self.only_get && *req.method() != Method::GET && *req.method() != Method::HEAD { return Ok(HttpMethodNotAllowed.build() .header(header::http::CONTENT_TYPE, "text/plain") .header(header::http::ALLOW, "GET, HEAD") .body("This resource only supports GET and HEAD.").unwrap()) } let etag = self.etag(); let last_modified = self.last_modified(); // check preconditions let precondition_failed = if !any_match(etag.as_ref(), &req) { true } else if let (Some(ref m), Some(header::IfUnmodifiedSince(ref since))) = (last_modified, req.get_header()) { m > since } else { false }; // check last modified let not_modified = if !none_match(etag.as_ref(), &req) { true } else if let (Some(ref m), Some(header::IfModifiedSince(ref since))) = (last_modified, req.get_header()) { m <= since } else { false }; let mut resp = HttpOk.build(); resp .if_some(self.path().extension(), |ext, resp| { resp.set(header::ContentType(get_mime_type(&ext.to_string_lossy()))); }) .if_some(last_modified, |lm, resp| {resp.set(header::LastModified(lm));}) .if_some(etag, |etag, resp| {resp.set(header::ETag(etag));}); if precondition_failed { return Ok(resp.status(StatusCode::PRECONDITION_FAILED).finish().unwrap()) } else if not_modified { return Ok(resp.status(StatusCode::NOT_MODIFIED).finish().unwrap()) } if *req.method() == Method::HEAD { Ok(resp.finish().unwrap()) } else { let reader = ChunkedReadFile { size: self.md.len(), offset: 0, cpu_pool: self.cpu_pool.unwrap_or_else(|| req.cpu_pool().clone()), file: Some(self.file), fut: None, }; Ok(resp.streaming(reader).unwrap()) } } } /// A helper created from a `std::fs::File` which reads the file /// chunk-by-chunk on a `CpuPool`. pub struct ChunkedReadFile { size: u64, offset: u64, cpu_pool: CpuPool, file: Option, fut: Option>, } 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()? { Async::Ready((file, bytes)) => { self.fut.take(); self.file = Some(file); self.offset += bytes.len() as u64; Ok(Async::Ready(Some(bytes))) }, Async::NotReady => Ok(Async::NotReady), }; } let size = self.size; let offset = self.offset; if size == offset { Ok(Async::Ready(None)) } else { let mut file = self.file.take().expect("Use after completion"); self.fut = Some(self.cpu_pool.spawn_fn(move || { let max_bytes = cmp::min(size.saturating_sub(offset), 65_536) as usize; let mut buf = BytesMut::with_capacity(max_bytes); file.seek(io::SeekFrom::Start(offset))?; let nbytes = file.read(unsafe{buf.bytes_mut()})?; if nbytes == 0 { return Err(io::ErrorKind::UnexpectedEof.into()) } unsafe{buf.advance_mut(nbytes)}; Ok((file, buf.freeze())) })); self.poll() } } } /// A directory; responds with the generated directory listing. #[derive(Debug)] pub struct Directory{ base: PathBuf, path: PathBuf } impl Directory { pub fn new(base: PathBuf, path: PathBuf) -> Directory { Directory { base, path } } fn can_list(&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 } } impl Responder for Directory { type Item = HttpResponse; type Error = io::Error; fn respond_to(self, 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 self.path.read_dir()? { if self.can_list(&entry) { let entry = entry.unwrap(); let p = match entry.path().strip_prefix(&self.path) { Ok(p) => base.join(p), Err(_) => continue }; // show file url as relative to static path let file_url = format!("{}", p.to_string_lossy()); // 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, "
  • {}/
  • ", file_url, entry.file_name().to_string_lossy()); } else { let _ = write!(body, "
  • {}
  • ", file_url, entry.file_name().to_string_lossy()); } } else { continue } } } let html = format!("\ {}\

    {}

    \
      \ {}\
    \n", index_of, index_of, body); Ok(HttpOk.build() .content_type("text/html; charset=utf-8") .body(html).unwrap()) } } /// Static files handling /// /// `StaticFile` handler must be registered with `Application::handler()` method, /// because `StaticFile` handler requires access sub-path information. /// /// ```rust /// # extern crate actix_web; /// use actix_web::{fs, Application}; /// /// fn main() { /// let app = Application::new() /// .handler("/static", fs::StaticFiles::new(".", true)) /// .finish(); /// } /// ``` pub struct StaticFiles { directory: PathBuf, accessible: bool, index: Option, show_index: bool, cpu_pool: CpuPool, default: Box>, _chunk_size: usize, _follow_symlinks: bool, } impl StaticFiles { /// Create new `StaticFiles` instance /// /// `dir` - base directory /// /// `index` - show index for directory pub fn new>(dir: T, index: bool) -> StaticFiles { let dir = dir.into(); let (dir, access) = match dir.canonicalize() { Ok(dir) => { if dir.is_dir() { (dir, true) } else { warn!("Is not directory `{:?}`", dir); (dir, false) } }, Err(err) => { warn!("Static files directory `{:?}` error: {}", dir, err); (dir, false) } }; StaticFiles { directory: dir, accessible: access, index: None, show_index: index, cpu_pool: CpuPool::new(40), default: Box::new(WrapHandler::new(|_| HttpNotFound)), _chunk_size: 0, _follow_symlinks: false, } } /// Set index file /// /// Redirects to specific index file for directory "/" instead of /// showing files listing. pub fn index_file>(mut self, index: T) -> StaticFiles { self.index = Some(index.into()); self } /// Sets default handler which is used when no matched file could be found. pub fn default_handler>(mut self, handler: H) -> StaticFiles { self.default = Box::new(WrapHandler::new(handler)); self } } impl Handler for StaticFiles { type Result = Result; fn handle(&mut self, req: HttpRequest) -> Self::Result { if !self.accessible { Ok(self.default.handle(req)) } else { let relpath = match req.match_info().get("tail").map(PathBuf::from_param) { Some(Ok(path)) => path, _ => return Ok(self.default.handle(req)) }; // full filepath let path = self.directory.join(&relpath).canonicalize()?; if path.is_dir() { if let Some(ref redir_index) = self.index { // TODO: Don't redirect, just return the index content. // TODO: It'd be nice if there were a good usable URL manipulation library let mut new_path: String = req.path().to_owned(); for el in relpath.iter() { new_path.push_str(&el.to_string_lossy()); new_path.push('/'); } new_path.push_str(redir_index); HttpFound.build() .header(header::http::LOCATION, new_path.as_str()) .finish().unwrap() .respond_to(req.without_state()) } else if self.show_index { Directory::new(self.directory.clone(), path) .respond_to(req.without_state())? .respond_to(req.without_state()) } else { Ok(self.default.handle(req)) } } else { NamedFile::open(path)?.set_cpu_pool(self.cpu_pool.clone()) .respond_to(req.without_state())? .respond_to(req.without_state()) } } } } #[cfg(test)] mod tests { use super::*; use test::TestRequest; use http::{header, Method, StatusCode}; #[test] fn test_named_file() { assert!(NamedFile::open("test--").is_err()); let mut file = NamedFile::open("Cargo.toml").unwrap() .set_cpu_pool(CpuPool::new(1)); { file.file(); let _f: &File = &file; } { let _f: &mut File = &mut file; } let resp = file.respond_to(HttpRequest::default()).unwrap(); assert_eq!(resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/x-toml") } #[test] fn test_named_file_not_allowed() { let req = TestRequest::default().method(Method::POST).finish(); let file = NamedFile::open("Cargo.toml").unwrap(); let resp = file.only_get().respond_to(req).unwrap(); assert_eq!(resp.status(), StatusCode::METHOD_NOT_ALLOWED); } #[test] fn test_named_file_any_method() { let req = TestRequest::default().method(Method::POST).finish(); 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 st = StaticFiles::new(".", true); st.accessible = false; let resp = st.handle(HttpRequest::default()).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.status(), StatusCode::NOT_FOUND); st.accessible = true; st.show_index = false; let resp = st.handle(HttpRequest::default()).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.status(), StatusCode::NOT_FOUND); let mut req = HttpRequest::default(); req.match_info_mut().add("tail", ""); st.show_index = true; let resp = st.handle(req).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.headers().get(header::CONTENT_TYPE).unwrap(), "text/html; charset=utf-8"); assert!(resp.body().is_binary()); assert!(format!("{:?}", resp.body()).contains("README.md")); } #[test] fn test_redirect_to_index() { let mut st = StaticFiles::new(".", false).index_file("index.html"); let mut req = HttpRequest::default(); req.match_info_mut().add("tail", "guide"); let resp = st.handle(req).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.status(), StatusCode::FOUND); assert_eq!(resp.headers().get(header::LOCATION).unwrap(), "/guide/index.html"); let mut req = HttpRequest::default(); req.match_info_mut().add("tail", "guide/"); let resp = st.handle(req).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.status(), StatusCode::FOUND); assert_eq!(resp.headers().get(header::LOCATION).unwrap(), "/guide/index.html"); } #[test] fn test_redirect_to_index_nested() { let mut st = StaticFiles::new(".", false).index_file("Cargo.toml"); let mut req = HttpRequest::default(); req.match_info_mut().add("tail", "examples/basics"); let resp = st.handle(req).respond_to(HttpRequest::default()).unwrap(); let resp = resp.as_response().expect("HTTP Response"); assert_eq!(resp.status(), StatusCode::FOUND); assert_eq!(resp.headers().get(header::LOCATION).unwrap(), "/examples/basics/Cargo.toml"); } }