// Copyright 2019-2024 Tauri Programme within The Commons Conservancy // SPDX-License-Identifier: Apache-2.0 // SPDX-License-Identifier: MIT #![cfg_attr(not(debug_assertions), windows_subsystem = "windows")] use http::{header::*, response::Builder as ResponseBuilder, status::StatusCode}; use http_range::HttpRange; use std::sync::{Arc, Mutex}; use std::{ io::{Read, Seek, SeekFrom, Write}, path::PathBuf, process::{Command, Stdio}, }; fn main() { let video_file = PathBuf::from("test_video.mp4"); let video_url = "http://commondatastorage.googleapis.com/gtv-videos-bucket/sample/BigBuckBunny.mp4"; if !video_file.exists() { // Downloading with curl this saves us from adding // a Rust HTTP client dependency. println!("Downloading {video_url}"); let status = Command::new("curl") .arg("-L") .arg("-o") .arg(&video_file) .arg(video_url) .stdout(Stdio::inherit()) .stderr(Stdio::inherit()) .output() .unwrap(); assert!(status.status.success()); assert!(video_file.exists()); } // NOTE: for production use `rand` crate to generate a random boundary let boundary_id = Arc::new(Mutex::new(0)); tauri::Builder::default() .invoke_handler(tauri::generate_handler![video_uri]) .register_asynchronous_uri_scheme_protocol("stream", move |_app, request, responder| { match get_stream_response(request, &boundary_id) { Ok(http_response) => responder.respond(http_response), Err(e) => responder.respond( ResponseBuilder::new() .status(StatusCode::BAD_REQUEST) .header(CONTENT_TYPE, "text/plain") .body(e.to_string().as_bytes().to_vec()) .unwrap(), ), } }) .run(tauri::generate_context!( "../../examples/streaming/tauri.conf.json" )) .expect("error while running tauri application"); } // returns the scheme and the path of the video file // we're using this just to allow using the custom `stream` protocol or tauri built-in `asset` protocol #[tauri::command] fn video_uri() -> (&'static str, std::path::PathBuf) { #[cfg(feature = "protocol-asset")] { let mut path = std::env::current_dir().unwrap(); path.push("test_video.mp4"); ("asset", path) } #[cfg(not(feature = "protocol-asset"))] ("stream", "test_video.mp4".into()) } fn get_stream_response( request: http::Request>, boundary_id: &Arc>, ) -> Result>, Box> { // skip leading `/` let path = percent_encoding::percent_decode(request.uri().path()[1..].as_bytes()) .decode_utf8_lossy() .to_string(); if path != "test_video.mp4" { // return error 404 if it's not our video return Ok(ResponseBuilder::new().status(404).body(Vec::new())?); } let mut file = std::fs::File::open(&path)?; // get file length let len = { let old_pos = file.stream_position()?; let len = file.seek(SeekFrom::End(0))?; file.seek(SeekFrom::Start(old_pos))?; len }; let mut resp = ResponseBuilder::new().header(CONTENT_TYPE, "video/mp4"); // if the webview sent a range header, we need to send a 206 in return // Actually only macOS and Windows are supported. Linux will ALWAYS return empty headers. let http_response = if let Some(range_header) = request.headers().get("range") { let not_satisfiable = || { ResponseBuilder::new() .status(StatusCode::RANGE_NOT_SATISFIABLE) .header(CONTENT_RANGE, format!("bytes */{len}")) .body(vec![]) }; // parse range header let ranges = if let Ok(ranges) = HttpRange::parse(range_header.to_str()?, len) { ranges .iter() // map the output back to spec range , example: 0-499 .map(|r| (r.start, r.start + r.length - 1)) .collect::>() } else { return Ok(not_satisfiable()?); }; /// The Maximum bytes we send in one range const MAX_LEN: u64 = 1000 * 1024; if ranges.len() == 1 { let &(start, mut end) = ranges.first().unwrap(); // check if a range is not satisfiable // // this should be already taken care of by HttpRange::parse // but checking here again for extra assurance if start >= len || end >= len || end < start { return Ok(not_satisfiable()?); } // adjust end byte for MAX_LEN end = start + (end - start).min(len - start).min(MAX_LEN - 1); // calculate number of bytes needed to be read let bytes_to_read = end + 1 - start; // allocate a buf with a suitable capacity let mut buf = Vec::with_capacity(bytes_to_read as usize); // seek the file to the starting byte file.seek(SeekFrom::Start(start))?; // read the needed bytes file.take(bytes_to_read).read_to_end(&mut buf)?; resp = resp.header(CONTENT_RANGE, format!("bytes {start}-{end}/{len}")); resp = resp.header(CONTENT_LENGTH, end + 1 - start); resp = resp.status(StatusCode::PARTIAL_CONTENT); resp.body(buf) } else { let mut buf = Vec::new(); let ranges = ranges .iter() .filter_map(|&(start, mut end)| { // filter out unsatisfiable ranges // // this should be already taken care of by HttpRange::parse // but checking here again for extra assurance if start >= len || end >= len || end < start { None } else { // adjust end byte for MAX_LEN end = start + (end - start).min(len - start).min(MAX_LEN - 1); Some((start, end)) } }) .collect::>(); let mut id = boundary_id.lock().unwrap(); *id += 1; let boundary = format!("sadasq2e{id}"); let boundary_sep = format!("\r\n--{boundary}\r\n"); let boundary_closer = format!("\r\n--{boundary}\r\n"); resp = resp.header( CONTENT_TYPE, format!("multipart/byteranges; boundary={boundary}"), ); for (end, start) in ranges { // a new range is being written, write the range boundary buf.write_all(boundary_sep.as_bytes())?; // write the needed headers `Content-Type` and `Content-Range` buf.write_all(format!("{CONTENT_TYPE}: video/mp4\r\n").as_bytes())?; buf.write_all(format!("{CONTENT_RANGE}: bytes {start}-{end}/{len}\r\n").as_bytes())?; // write the separator to indicate the start of the range body buf.write_all("\r\n".as_bytes())?; // calculate number of bytes needed to be read let bytes_to_read = end + 1 - start; let mut local_buf = vec![0_u8; bytes_to_read as usize]; file.seek(SeekFrom::Start(start))?; file.read_exact(&mut local_buf)?; buf.extend_from_slice(&local_buf); } // all ranges have been written, write the closing boundary buf.write_all(boundary_closer.as_bytes())?; resp.body(buf) } } else { resp = resp.header(CONTENT_LENGTH, len); let mut buf = Vec::with_capacity(len as usize); file.read_to_end(&mut buf)?; resp.body(buf) }; http_response.map_err(Into::into) }