use std::fs::{File, Metadata}; use std::io; use std::ops::{Deref, DerefMut}; use std::path::{Path, PathBuf}; use std::time::{SystemTime, UNIX_EPOCH}; #[cfg(unix)] use std::os::unix::fs::MetadataExt; use bitflags::bitflags; use mime; use mime_guess::guess_mime_type; use actix_http::body::SizedStream; use actix_web::http::header::{ self, ContentDisposition, DispositionParam, DispositionType, }; use actix_web::http::{ContentEncoding, Method, StatusCode}; use actix_web::middleware::BodyEncoding; use actix_web::{Error, HttpMessage, HttpRequest, HttpResponse, Responder}; use crate::range::HttpRange; use crate::ChunkedReadFile; bitflags! { pub(crate) struct Flags: u32 { const ETAG = 0b00000001; const LAST_MD = 0b00000010; } } impl Default for Flags { fn default() -> Self { Flags::all() } } /// A file with an associated name. #[derive(Debug)] pub struct NamedFile { path: PathBuf, file: File, pub(crate) content_type: mime::Mime, pub(crate) content_disposition: header::ContentDisposition, pub(crate) md: Metadata, modified: Option, pub(crate) encoding: Option, pub(crate) status_code: StatusCode, pub(crate) flags: Flags, } impl NamedFile { /// Creates an instance from a previously opened file. /// /// The given `path` need not exist and is only used to determine the `ContentType` and /// `ContentDisposition` headers. /// /// # Examples /// /// ```rust /// use actix_files::NamedFile; /// use std::io::{self, Write}; /// use std::env; /// use std::fs::File; /// /// fn main() -> io::Result<()> { /// let mut file = File::create("foo.txt")?; /// file.write_all(b"Hello, world!")?; /// let named_file = NamedFile::from_file(file, "bar.txt")?; /// # std::fs::remove_file("foo.txt"); /// Ok(()) /// } /// ``` pub fn from_file>(file: File, path: P) -> io::Result { let path = path.as_ref().to_path_buf(); // Get the name of the file and use it to construct default Content-Type // and Content-Disposition values let (content_type, content_disposition) = { let filename = match path.file_name() { Some(name) => name.to_string_lossy(), None => { return Err(io::Error::new( io::ErrorKind::InvalidInput, "Provided path has no filename", )); } }; let ct = guess_mime_type(&path); let disposition_type = match ct.type_() { mime::IMAGE | mime::TEXT | mime::VIDEO => DispositionType::Inline, _ => DispositionType::Attachment, }; let cd = ContentDisposition { disposition: disposition_type, parameters: vec![DispositionParam::Filename(filename.into_owned())], }; (ct, cd) }; let md = file.metadata()?; let modified = md.modified().ok(); let encoding = None; Ok(NamedFile { path, file, content_type, content_disposition, md, modified, encoding, status_code: StatusCode::OK, flags: Flags::default(), }) } /// Attempts to open a file in read-only mode. /// /// # Examples /// /// ```rust /// use actix_files::NamedFile; /// /// let file = NamedFile::open("foo.txt"); /// ``` pub fn open>(path: P) -> io::Result { Self::from_file(File::open(&path)?, path) } /// 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_files::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 response **Status Code** pub fn set_status_code(mut self, status: StatusCode) -> Self { self.status_code = status; self } /// Set the MIME Content-Type for serving this file. By default /// the Content-Type is inferred from the filename extension. #[inline] pub fn set_content_type(mut self, mime_type: mime::Mime) -> Self { self.content_type = mime_type; self } /// Set the Content-Disposition for serving this file. This allows /// changing the inline/attachment disposition as well as the filename /// sent to the peer. By default the disposition is `inline` for text, /// image, and video content types, and `attachment` otherwise, and /// the filename is taken from the path provided in the `open` method /// after converting it to UTF-8 using /// [to_string_lossy](https://doc.rust-lang.org/std/ffi/struct.OsStr.html#method.to_string_lossy). #[inline] pub fn set_content_disposition(mut self, cd: header::ContentDisposition) -> Self { self.content_disposition = cd; self } /// Set content encoding for serving this file #[inline] pub fn set_content_encoding(mut self, enc: ContentEncoding) -> Self { self.encoding = Some(enc); self } #[inline] ///Specifies whether to use ETag or not. /// ///Default is true. pub fn use_etag(mut self, value: bool) -> Self { self.flags.set(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.flags.set(Flags::LAST_MD, value); self } pub(crate) 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() )) }) } pub(crate) 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 Error = Error; type Future = Result; fn respond_to(self, req: &HttpRequest) -> Self::Future { if self.status_code != StatusCode::OK { let mut resp = HttpResponse::build(self.status_code); resp.set(header::ContentType(self.content_type.clone())) .header( header::CONTENT_DISPOSITION, self.content_disposition.to_string(), ); if let Some(current_encoding) = self.encoding { resp.encoding(current_encoding); } let reader = ChunkedReadFile { size: self.md.len(), offset: 0, file: Some(self.file), fut: None, counter: 0, }; return Ok(resp.streaming(reader)); } match req.method() { &Method::HEAD | &Method::GET => (), _ => { return Ok(HttpResponse::MethodNotAllowed() .header(header::CONTENT_TYPE, "text/plain") .header(header::ALLOW, "GET, HEAD") .body("This resource only supports GET and HEAD.")); } } let etag = if self.flags.contains(Flags::ETAG) { self.etag() } else { None }; let last_modified = if self.flags.contains(Flags::LAST_MD) { self.last_modified() } else { None }; // 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()) { let t1: SystemTime = m.clone().into(); let t2: SystemTime = since.clone().into(); match (t1.duration_since(UNIX_EPOCH), t2.duration_since(UNIX_EPOCH)) { (Ok(t1), Ok(t2)) => t1 > t2, _ => false, } } else { false }; // check last modified let not_modified = if !none_match(etag.as_ref(), req) { true } else if req.headers().contains_key(&header::IF_NONE_MATCH) { false } else if let (Some(ref m), Some(header::IfModifiedSince(ref since))) = (last_modified, req.get_header()) { let t1: SystemTime = m.clone().into(); let t2: SystemTime = since.clone().into(); match (t1.duration_since(UNIX_EPOCH), t2.duration_since(UNIX_EPOCH)) { (Ok(t1), Ok(t2)) => t1 <= t2, _ => false, } } else { false }; let mut resp = HttpResponse::build(self.status_code); resp.set(header::ContentType(self.content_type.clone())) .header( header::CONTENT_DISPOSITION, self.content_disposition.to_string(), ); // default compressing if let Some(current_encoding) = self.encoding { resp.encoding(current_encoding); } resp.if_some(last_modified, |lm, resp| { resp.set(header::LastModified(lm)); }) .if_some(etag, |etag, resp| { resp.set(header::ETag(etag)); }); resp.header(header::ACCEPT_RANGES, "bytes"); let mut length = self.md.len(); let mut offset = 0; // check for range header if let Some(ranges) = req.headers().get(&header::RANGE) { if let Ok(rangesheader) = ranges.to_str() { if let Ok(rangesvec) = HttpRange::parse(rangesheader, length) { length = rangesvec[0].length; offset = rangesvec[0].start; resp.encoding(ContentEncoding::Identity); resp.header( header::CONTENT_RANGE, format!( "bytes {}-{}/{}", offset, offset + length - 1, self.md.len() ), ); } else { resp.header(header::CONTENT_RANGE, format!("bytes */{}", length)); return Ok(resp.status(StatusCode::RANGE_NOT_SATISFIABLE).finish()); }; } else { return Ok(resp.status(StatusCode::BAD_REQUEST).finish()); }; }; if precondition_failed { return Ok(resp.status(StatusCode::PRECONDITION_FAILED).finish()); } else if not_modified { return Ok(resp.status(StatusCode::NOT_MODIFIED).finish()); } let reader = ChunkedReadFile { offset, size: length, file: Some(self.file), fut: None, counter: 0, }; if offset != 0 || length != self.md.len() { return Ok(resp.status(StatusCode::PARTIAL_CONTENT).streaming(reader)); }; Ok(resp.body(SizedStream::new(length, reader))) } }