use crate::api::schema::*; use crate::api::router::*; use crate::api::config::*; use super::formatter::*; use std::fmt; use std::path::{Path, PathBuf}; use std::sync::Arc; use std::collections::HashMap; use failure::*; use serde_json::{json, Value}; use url::form_urlencoded; use futures::future::{self, Either}; //use tokio::prelude::*; //use tokio::timer::Delay; use tokio::fs::File; use tokio_codec; //use bytes::{BytesMut, BufMut}; //use hyper::body::Payload; use hyper::http::request::Parts; use hyper::{Body, Request, Response, StatusCode}; use hyper::service::{Service, NewService}; use hyper::rt::{Future, Stream}; use hyper::header; pub struct RestServer { pub api_config: Arc, } impl RestServer { pub fn new(api_config: ApiConfig) -> Self { Self { api_config: Arc::new(api_config) } } } impl NewService for RestServer { type ReqBody = Body; type ResBody = Body; type Error = hyper::Error; type InitError = hyper::Error; type Service = ApiService; type Future = Box + Send>; fn new_service(&self) -> Self::Future { Box::new(future::ok(ApiService { api_config: self.api_config.clone() })) } } pub struct ApiService { pub api_config: Arc, } impl Service for ApiService { type ReqBody = Body; type ResBody = Body; type Error = hyper::Error; type Future = Box, Error = Self::Error> + Send>; fn call(&mut self, req: Request) -> Self::Future { Box::new(handle_request(self.api_config.clone(), req).then(|result| { match result { Ok(res) => Ok::<_, hyper::Error>(res), Err(err) => { if let Some(apierr) = err.downcast_ref::() { let mut resp = Response::new(Body::from(apierr.message.clone())); *resp.status_mut() = apierr.code; Ok(resp) } else { let mut resp = Response::new(Body::from(err.to_string())); *resp.status_mut() = StatusCode::BAD_REQUEST; Ok(resp) } } } })) } } #[derive(Debug, Fail)] pub struct HttpError { pub code: StatusCode, pub message: String, } impl HttpError { pub fn new(code: StatusCode, message: String) -> Self { HttpError { code, message } } } impl fmt::Display for HttpError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "Error {}: {}", self.code, self.message) } } macro_rules! http_err { ($status:ident, $msg:expr) => {{ Error::from(HttpError::new(StatusCode::$status, $msg)) }} } fn get_request_parameters_async( info: &'static ApiMethod, parts: Parts, req_body: Body, uri_param: HashMap, ) -> Box + Send> { let resp = req_body .map_err(|err| http_err!(BAD_REQUEST, format!("Promlems reading request body: {}", err))) .fold(Vec::new(), |mut acc, chunk| { if acc.len() + chunk.len() < 64*1024 { //fimxe: max request body size? acc.extend_from_slice(&*chunk); Ok(acc) } else { Err(http_err!(BAD_REQUEST, format!("Request body too large"))) } }) .and_then(move |body| { let utf8 = std::str::from_utf8(&body)?; println!("GOT BODY {:?}", utf8); let mut param_list: Vec<(String, String)> = vec![]; if utf8.len() > 0 { for (k, v) in form_urlencoded::parse(utf8.as_bytes()).into_owned() { param_list.push((k, v)); } } if let Some(query_str) = parts.uri.query() { for (k, v) in form_urlencoded::parse(query_str.as_bytes()).into_owned() { if k == "_dc" { continue; } // skip extjs "disable cache" parameter param_list.push((k, v)); } } for (k, v) in uri_param { param_list.push((k.clone(), v.clone())); } let params = parse_parameter_strings(¶m_list, &info.parameters, true)?; println!("GOT PARAMS {}", params); Ok(params) }); Box::new(resp) } fn handle_sync_api_request( info: &'static ApiMethod, formatter: &'static OutputFormatter, parts: Parts, req_body: Body, uri_param: HashMap, ) -> BoxFut { let params = get_request_parameters_async(info, parts, req_body, uri_param); let resp = params .and_then(move |params| { let res = (info.handler)(params, info)?; Ok(res) }).then(move |result| { Ok((formatter.format_result)(result)) }); Box::new(resp) } fn handle_upload_api_request( info: &'static ApiUploadMethod, formatter: &'static OutputFormatter, parts: Parts, req_body: Body, uri_param: HashMap, ) -> BoxFut { // fixme: convert parameters to Json let mut param_list: Vec<(String, String)> = vec![]; if let Some(query_str) = parts.uri.query() { for (k, v) in form_urlencoded::parse(query_str.as_bytes()).into_owned() { if k == "_dc" { continue; } // skip extjs "disable cache" parameter param_list.push((k, v)); } } for (k, v) in uri_param { param_list.push((k.clone(), v.clone())); } let params = match parse_parameter_strings(¶m_list, &info.parameters, true) { Ok(v) => v, Err(err) => { let resp = (formatter.format_result)(Err(Error::from(err))); return Box::new(future::ok(resp)); } }; match (info.handler)(parts, req_body, params, info) { Ok(future) => future, Err(err) => { let resp = (formatter.format_result)(Err(Error::from(err))); Box::new(future::ok(resp)) } } } fn get_index() -> BoxFut { let nodename = "unknown"; let username = ""; let token = "abc"; let setup = json!({ "Setup": { "auth_cookie_name": "PBSAuthCookie" }, "NodeName": nodename, "UserName": username, "CSRFPreventionToken": token }); let index = format!(r###" Proxmox Backup Server
"###, setup.to_string()); Box::new(future::ok(Response::new(index.into()))) } fn extension_to_content_type(filename: &Path) -> (&'static str, bool) { if let Some(ext) = filename.extension().and_then(|osstr| osstr.to_str()) { return match ext { "css" => ("text/css", false), "html" => ("text/html", false), "js" => ("application/javascript", false), "json" => ("application/json", false), "map" => ("application/json", false), "png" => ("image/png", true), "ico" => ("image/x-icon", true), "gif" => ("image/gif", true), "svg" => ("image/svg+xml", false), "jar" => ("application/java-archive", true), "woff" => ("application/font-woff", true), "woff2" => ("application/font-woff2", true), "ttf" => ("application/font-snft", true), "pdf" => ("application/pdf", true), "epub" => ("application/epub+zip", true), "mp3" => ("audio/mpeg", true), "oga" => ("audio/ogg", true), "tgz" => ("application/x-compressed-tar", true), _ => ("application/octet-stream", false), }; } ("application/octet-stream", false) } fn simple_static_file_download(filename: PathBuf) -> BoxFut { let (content_type, _nocomp) = extension_to_content_type(&filename); Box::new(File::open(filename) .map_err(|err| http_err!(BAD_REQUEST, format!("File open failed: {}", err))) .and_then(move |file| { let buf: Vec = Vec::new(); tokio::io::read_to_end(file, buf) .map_err(|err| http_err!(BAD_REQUEST, format!("File read failed: {}", err))) .and_then(move |data| { let mut response = Response::new(data.1.into()); response.headers_mut().insert( header::CONTENT_TYPE, header::HeaderValue::from_static(content_type)); Ok(response) }) })) } fn chuncked_static_file_download(filename: PathBuf) -> BoxFut { let (content_type, _nocomp) = extension_to_content_type(&filename); Box::new(File::open(filename) .map_err(|err| http_err!(BAD_REQUEST, format!("File open failed: {}", err))) .and_then(move |file| { let payload = tokio_codec::FramedRead::new(file, tokio_codec::BytesCodec::new()). map(|bytes| { //sigh - howto avoid copy here? or the whole map() ?? hyper::Chunk::from(bytes.to_vec()) }); let body = Body::wrap_stream(payload); // fixme: set other headers ? Ok(Response::builder() .status(StatusCode::OK) .header(header::CONTENT_TYPE, content_type) .body(body) .unwrap()) })) } fn handle_static_file_download(filename: PathBuf) -> BoxFut { let response = tokio::fs::metadata(filename.clone()) .map_err(|err| http_err!(BAD_REQUEST, format!("File access problems: {}", err))) .and_then(|metadata| { if metadata.len() < 1024*32 { Either::A(simple_static_file_download(filename)) } else { Either::B(chuncked_static_file_download(filename)) } }); return Box::new(response); } pub fn handle_request(api: Arc, req: Request) -> BoxFut { let (parts, body) = req.into_parts(); let method = parts.method.clone(); let path = parts.uri.path(); // normalize path // do not allow ".", "..", or hidden files ".XXXX" // also remove empty path components let items = path.split('/'); let mut path = String::new(); let mut components = vec![]; for name in items { if name.is_empty() { continue; } if name.starts_with(".") { return Box::new(future::err(http_err!(BAD_REQUEST, "Path contains illegal components.".to_string()))); } path.push('/'); path.push_str(name); components.push(name); } let comp_len = components.len(); println!("REQUEST {} {}", method, path); println!("COMPO {:?}", components); if comp_len >= 1 && components[0] == "api3" { println!("GOT API REQUEST"); if comp_len >= 2 { let format = components[1]; let formatter = match format { "json" => &JSON_FORMATTER, "extjs" => &EXTJS_FORMATTER, _ => { return Box::new(future::err(http_err!(BAD_REQUEST, format!("Unsupported output format '{}'.", format)))); } }; let mut uri_param = HashMap::new(); // fixme: handle auth match api.find_method(&components[2..], method, &mut uri_param) { MethodDefinition::None => {} MethodDefinition::Simple(api_method) => { return handle_sync_api_request(api_method, formatter, parts, body, uri_param); } MethodDefinition::Upload(upload_method) => { return handle_upload_api_request(upload_method, formatter, parts, body, uri_param); } } } } else { // not Auth for accessing files! if comp_len == 0 { return get_index(); } else { let filename = api.find_alias(&components); return handle_static_file_download(filename); } } Box::new(future::err(http_err!(NOT_FOUND, "Path not found.".to_string()))) }