use crate::{config, mime_relations}; use actix_multipart::{Field, Multipart}; use actix_web::{error, http::header::DispositionParam, Error}; use futures_util::{StreamExt, TryStreamExt}; use mime::{Mime, APPLICATION_OCTET_STREAM, TEXT_PLAIN}; use std::path::Path; use time::{Duration, OffsetDateTime}; use tokio::{fs::File, io::AsyncWriteExt}; const MAX_UPLOAD_DURATION: Duration = Duration::days(31); const DEFAULT_UPLOAD_DURATION: Duration = Duration::minutes(30); pub(crate) struct UploadConfig { pub original_name: Option, pub content_type: Mime, pub valid_till: OffsetDateTime, pub delete_on_download: bool, } pub(crate) async fn parse_multipart( mut payload: Multipart, file_path: &Path, config: &config::Config, ) -> Result { let mut original_name: Option = None; let mut content_type: Option = None; let mut keep_for_seconds: Option = None; let mut delete_on_download = false; let mut password = None; let mut size = 0; while let Ok(Some(field)) = payload.try_next().await { let name = get_field_name(&field)?; let name = name.as_str(); match name { "keep_for" => { keep_for_seconds = Some(parse_string(name, field).await?); } "file" => { let (mime, uploaded_name) = get_file_metadata(&field); if uploaded_name == None || uploaded_name.as_deref() == Some("") { continue; } original_name = uploaded_name; size = create_file(file_path, field, config.max_file_size).await?; println!("mime: {}", mime); content_type = Some(if mime == APPLICATION_OCTET_STREAM { get_content_type(file_path) } else { mime.clone() }); } "text" => { if original_name.is_some() { continue; } size = create_file(file_path, field, config.max_file_size).await?; content_type = Some(get_content_type(file_path)); } "delete_on_download" => { delete_on_download = parse_string(name, field).await? != "false"; } "password" => { password = Some(parse_string(name, field).await?); } _ => {} }; } let content_type = content_type.ok_or_else(|| error::ErrorBadRequest("no content type found"))?; let content_type = mime_relations::get_alias(content_type); let keep_for = keep_for_seconds .map(|k| k.parse()) .transpose() .map_err(|e| error::ErrorBadRequest(format!("field keep_for is not a number: {}", e)))? .map(Duration::seconds) .unwrap_or(DEFAULT_UPLOAD_DURATION); let valid_till = OffsetDateTime::now_utc() + keep_for; let upload_config = UploadConfig { original_name, content_type, valid_till, delete_on_download, }; check_requirements(&upload_config, size, password, &keep_for, config)?; Ok(upload_config) } fn check_requirements( upload_config: &UploadConfig, size: u64, password: Option, keep_for: &Duration, config: &config::Config, ) -> Result<(), error::Error> { if let Some(original_name) = upload_config.original_name.as_ref() { if original_name.len() > 255 { return Err(error::ErrorBadRequest("filename is too long")); } } if *keep_for > MAX_UPLOAD_DURATION { return Err(error::ErrorBadRequest(format!( "maximum allowed validity is {}, but you specified {}", MAX_UPLOAD_DURATION, keep_for ))); } if let Some(no_auth_limits) = &config.no_auth_limits { let requires_auth = *keep_for > no_auth_limits.max_time || *keep_for > no_auth_limits.large_file_max_time && size > no_auth_limits.large_file_size; // hIGh sECUriTy paSsWoRD CHEck if requires_auth && password.as_ref() != Some(&no_auth_limits.auth_password) { return Err(error::ErrorBadRequest( "upload requires authentication, but authentication was incorrect", )); } } Ok(()) } fn get_field_name(field: &Field) -> Result { Ok(field .content_disposition() .get_name() .map(|s| s.to_owned()) .ok_or(error::ParseError::Incomplete)?) } async fn parse_string(name: &str, field: actix_multipart::Field) -> Result { let data = read_content(field).await?; String::from_utf8(data) .map_err(|_| error::ErrorBadRequest(format!("could not parse field {} as utf-8", name))) } async fn read_content(mut field: actix_multipart::Field) -> Result, error::Error> { let mut data = Vec::new(); while let Some(chunk) = field.try_next().await.map_err(error::ErrorBadRequest)? { data.extend(chunk); } Ok(data) } async fn create_file( filename: &Path, field: Field, max_file_size: Option, ) -> Result { let mut file = File::create(&filename).await.map_err(|file_err| { log::error!("could not create file {:?}", file_err); error::ErrorInternalServerError("could not create file") })?; let written_bytes = write_to_file(&mut file, field, max_file_size).await?; Ok(written_bytes) } async fn write_to_file( file: &mut File, mut field: Field, max_size: Option, ) -> Result { let mut written_bytes: u64 = 0; while let Some(chunk) = field.next().await { let chunk = chunk.map_err(error::ErrorBadRequest)?; written_bytes += chunk.len() as u64; if let Some(max_size) = max_size { if written_bytes > max_size { return Err(error::ErrorBadRequest(format!( "exceeded maximum file size of {} bytes", max_size ))); } } file.write_all(&chunk).await.map_err(|write_err| { log::error!("could not write file {:?}", write_err); error::ErrorInternalServerError("could not write file") })?; } Ok(written_bytes) } fn get_file_metadata(field: &actix_multipart::Field) -> (Mime, Option) { let mime = field.content_type().clone(); let filename = field .content_disposition() .parameters .iter() .find_map(|param| match param { DispositionParam::Filename(filename) => Some(filename.clone()), _ => None, }); (mime, filename) } fn get_content_type(path: &Path) -> Mime { let std_path = std::path::Path::new(path.as_os_str()); tree_magic_mini::from_filepath(std_path) .and_then(|mime| mime.parse().ok()) .unwrap_or(TEXT_PLAIN) }