use anyhow::{bail, format_err, Error};
use futures::future::{self, FutureExt, TryFutureExt};
use futures::stream::TryStreamExt;
-use hyper::header::{self, HeaderMap};
use hyper::body::HttpBody;
+use hyper::header::{self, HeaderMap};
use hyper::http::request::Parts;
use hyper::{Body, Request, Response, StatusCode};
use lazy_static::lazy_static;
+use regex::Regex;
use serde_json::{json, Value};
use tokio::fs::File;
use tokio::time::Instant;
-use percent_encoding::percent_decode_str;
use url::form_urlencoded;
-use regex::Regex;
-use proxmox::http_err;
-use proxmox::api::{
- ApiHandler,
- ApiMethod,
- HttpError,
+use proxmox::api::schema::{
+ parse_parameter_strings, parse_simple_value, verify_json_object, ObjectSchemaType,
ParameterSchema,
- Permission,
- RpcEnvironment,
- RpcEnvironmentType,
- check_api_permission,
};
-use proxmox::api::schema::{
- ObjectSchemaType,
- parse_parameter_strings,
- parse_simple_value,
- verify_json_object,
+use proxmox::api::{
+ check_api_permission, ApiHandler, ApiMethod, HttpError, Permission, RpcEnvironment,
+ RpcEnvironmentType,
};
+use proxmox::http_err;
+use pbs_tools::compression::{DeflateEncoder, Level};
+use pbs_tools::stream::AsyncReaderStream;
+
+use super::auth::AuthError;
use super::environment::RestEnvironment;
use super::formatter::*;
use super::ApiConfig;
-use crate::auth_helpers::*;
use crate::api2::types::{Authid, Userid};
+use crate::auth_helpers::*;
+use crate::config::cached_user_info::CachedUserInfo;
use crate::tools;
+use crate::tools::compression::CompressionMethod;
use crate::tools::FileLogger;
-use crate::tools::ticket::Ticket;
-use crate::config::cached_user_info::CachedUserInfo;
-extern "C" { fn tzset(); }
+extern "C" {
+ fn tzset();
+}
pub struct RestServer {
pub api_config: Arc<ApiConfig>,
}
const MAX_URI_QUERY_LENGTH: usize = 3072;
+const CHUNK_SIZE_LIMIT: u64 = 32 * 1024;
impl RestServer {
-
pub fn new(api_config: ApiConfig) -> Self {
- Self { api_config: Arc::new(api_config) }
+ Self {
+ api_config: Arc::new(api_config),
+ }
}
}
-impl tower_service::Service<&tokio_openssl::SslStream<tokio::net::TcpStream>> for RestServer {
+impl tower_service::Service<&Pin<Box<tokio_openssl::SslStream<tokio::net::TcpStream>>>>
+ for RestServer
+{
type Response = ApiService;
type Error = Error;
type Future = Pin<Box<dyn Future<Output = Result<ApiService, Error>> + Send>>;
Poll::Ready(Ok(()))
}
- fn call(&mut self, ctx: &tokio_openssl::SslStream<tokio::net::TcpStream>) -> Self::Future {
+ fn call(
+ &mut self,
+ ctx: &Pin<Box<tokio_openssl::SslStream<tokio::net::TcpStream>>>,
+ ) -> Self::Future {
match ctx.get_ref().peer_addr() {
- Err(err) => {
- future::err(format_err!("unable to get peer address - {}", err)).boxed()
- }
- Ok(peer) => {
- future::ok(ApiService { peer, api_config: self.api_config.clone() }).boxed()
- }
+ Err(err) => future::err(format_err!("unable to get peer address - {}", err)).boxed(),
+ Ok(peer) => future::ok(ApiService {
+ peer,
+ api_config: self.api_config.clone(),
+ })
+ .boxed(),
}
}
}
fn call(&mut self, ctx: &tokio::net::TcpStream) -> Self::Future {
match ctx.peer_addr() {
- Err(err) => {
- future::err(format_err!("unable to get peer address - {}", err)).boxed()
- }
- Ok(peer) => {
- future::ok(ApiService { peer, api_config: self.api_config.clone() }).boxed()
- }
+ Err(err) => future::err(format_err!("unable to get peer address - {}", err)).boxed(),
+ Ok(peer) => future::ok(ApiService {
+ peer,
+ api_config: self.api_config.clone(),
+ })
+ .boxed(),
}
}
}
+impl tower_service::Service<&tokio::net::UnixStream> for RestServer {
+ type Response = ApiService;
+ type Error = Error;
+ type Future = Pin<Box<dyn Future<Output = Result<ApiService, Error>> + Send>>;
+
+ fn poll_ready(&mut self, _cx: &mut Context) -> Poll<Result<(), Self::Error>> {
+ Poll::Ready(Ok(()))
+ }
+
+ fn call(&mut self, _ctx: &tokio::net::UnixStream) -> Self::Future {
+ // TODO: Find a way to actually represent the vsock peer in the ApiService struct - for now
+ // it doesn't really matter, so just use a fake IP address
+ let fake_peer = "0.0.0.0:807".parse().unwrap();
+ future::ok(ApiService {
+ peer: fake_peer,
+ api_config: self.api_config.clone(),
+ })
+ .boxed()
+ }
+}
+
pub struct ApiService {
pub peer: std::net::SocketAddr,
pub api_config: Arc<ApiConfig>,
resp: &Response<Body>,
user_agent: Option<String>,
) {
-
- if resp.extensions().get::<NoLogExtension>().is_some() { return; };
+ if resp.extensions().get::<NoLogExtension>().is_some() {
+ return;
+ };
// we also log URL-to-long requests, so avoid message bigger than PIPE_BUF (4k on Linux)
// to profit from atomicty guarantees for O_APPEND opened logfiles
let path = &path_query[..MAX_URI_QUERY_LENGTH.min(path_query.len())];
let status = resp.status();
-
if !(status.is_success() || status.is_informational()) {
let reason = status.canonical_reason().unwrap_or("unknown reason");
- let mut message = "request failed";
- if let Some(data) = resp.extensions().get::<ErrorMessageExtension>() {
- message = &data.0;
- }
+ let message = match resp.extensions().get::<ErrorMessageExtension>() {
+ Some(data) => &data.0,
+ None => "request failed",
+ };
- log::error!("{} {}: {} {}: [client {}] {}", method.as_str(), path, status.as_str(), reason, peer, message);
+ log::error!(
+ "{} {}: {} {}: [client {}] {}",
+ method.as_str(),
+ path,
+ status.as_str(),
+ reason,
+ peer,
+ message
+ );
}
if let Some(logfile) = logfile {
let auth_id = match resp.extensions().get::<Authid>() {
let now = proxmox::tools::time::epoch_i64();
// time format which apache/nginx use (by default), copied from pve-http-server
let datetime = proxmox::tools::time::strftime_local("%d/%m/%Y:%H:%M:%S %z", now)
- .unwrap_or("-".into());
-
- logfile
- .lock()
- .unwrap()
- .log(format!(
- "{} - {} [{}] \"{} {}\" {} {} {}",
- peer.ip(),
- auth_id,
- datetime,
- method.as_str(),
- path,
- status.as_str(),
- resp.body().size_hint().lower(),
- user_agent.unwrap_or("-".into()),
- ));
+ .unwrap_or_else(|_| "-".to_string());
+
+ logfile.lock().unwrap().log(format!(
+ "{} - {} [{}] \"{} {}\" {} {} {}",
+ peer.ip(),
+ auth_id,
+ datetime,
+ method.as_str(),
+ path,
+ status.as_str(),
+ resp.body().size_hint().lower(),
+ user_agent.unwrap_or_else(|| "-".to_string()),
+ ));
}
}
pub fn auth_logger() -> Result<FileLogger, Error> {
owned_by_backup: true,
..Default::default()
};
- FileLogger::new(crate::buildcfg::API_AUTH_LOG_FN, logger_options)
+ FileLogger::new(pbs_buildcfg::API_AUTH_LOG_FN, logger_options)
}
fn get_proxied_peer(headers: &HeaderMap) -> Option<std::net::SocketAddr> {
fn get_user_agent(headers: &HeaderMap) -> Option<String> {
let agent = headers.get(header::USER_AGENT)?.to_str();
- agent.map(|s| {
- let mut s = s.to_owned();
- s.truncate(128);
- s
- }).ok()
+ agent
+ .map(|s| {
+ let mut s = s.to_owned();
+ s.truncate(128);
+ s
+ })
+ .ok()
}
impl tower_service::Service<Request<Body>> for ApiService {
type Response = Response<Body>;
type Error = Error;
- type Future = Pin<Box<dyn Future<Output = Result<Response<Body>, Self::Error>> + Send>>;
+ #[allow(clippy::type_complexity)]
+ type Future = Pin<Box<dyn Future<Output = Result<Self::Response, Self::Error>> + Send>>;
fn poll_ready(&mut self, _cx: &mut Context) -> Poll<Result<(), Self::Error>> {
Poll::Ready(Ok(()))
Some(apierr) => (apierr.message.clone(), apierr.code),
_ => (err.to_string(), StatusCode::BAD_REQUEST),
};
- Response::builder().status(code).body(err.into())?
+ Response::builder()
+ .status(code)
+ .extension(ErrorMessageExtension(err.to_string()))
+ .body(err.into())?
}
};
let logger = config.get_file_log();
parts: &Parts,
uri_param: &HashMap<String, String, S>,
) -> Result<Value, Error> {
-
let mut param_list: Vec<(String, String)> = vec![];
if !form.is_empty() {
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
+ if k == "_dc" {
+ continue;
+ } // skip extjs "disable cache" parameter
param_list.push((k, v));
}
}
req_body: Body,
uri_param: HashMap<String, String, S>,
) -> Result<Value, Error> {
-
let mut is_json = false;
if let Some(value) = parts.headers.get(header::CONTENT_TYPE) {
}
}
- let body = req_body
- .map_err(|err| http_err!(BAD_REQUEST, "Promlems reading request body: {}", err))
- .try_fold(Vec::new(), |mut acc, chunk| async move {
- 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, "Request body too large"))
- }
- }).await?;
+ let body = TryStreamExt::map_err(req_body, |err| {
+ http_err!(BAD_REQUEST, "Problems reading request body: {}", err)
+ })
+ .try_fold(Vec::new(), |mut acc, chunk| async move {
+ // FIXME: max request body size?
+ if acc.len() + chunk.len() < 64 * 1024 {
+ acc.extend_from_slice(&*chunk);
+ Ok(acc)
+ } else {
+ Err(http_err!(BAD_REQUEST, "Request body too large"))
+ }
+ })
+ .await?;
- let utf8_data = std::str::from_utf8(&body)
- .map_err(|err| format_err!("Request body not uft8: {}", err))?;
+ let utf8_data =
+ std::str::from_utf8(&body).map_err(|err| format_err!("Request body not uft8: {}", err))?;
if is_json {
let mut params: Value = serde_json::from_str(utf8_data)?;
req_body: Body,
peer: &std::net::SocketAddr,
) -> Result<Response<Body>, Error> {
-
let mut uri_parts = parts.uri.clone().into_parts();
uri_parts.scheme = Some(http::uri::Scheme::HTTP);
parts.uri = new_uri;
let mut request = Request::from_parts(parts, req_body);
- request
- .headers_mut()
- .insert(header::FORWARDED, format!("for=\"{}\";", peer).parse().unwrap());
+ request.headers_mut().insert(
+ header::FORWARDED,
+ format!("for=\"{}\";", peer).parse().unwrap(),
+ );
let reload_timezone = info.reload_timezone;
})
.await?;
- if reload_timezone { unsafe { tzset(); } }
+ if reload_timezone {
+ unsafe {
+ tzset();
+ }
+ }
Ok(resp)
}
req_body: Body,
uri_param: HashMap<String, String, S>,
) -> Result<Response<Body>, Error> {
-
let delay_unauth_time = std::time::Instant::now() + std::time::Duration::from_millis(3000);
+ let compression = extract_compression_method(&parts.headers);
let result = match info.handler {
ApiHandler::AsyncHttp(handler) => {
(handler)(parts, req_body, params, info, Box::new(rpcenv)).await
}
ApiHandler::Sync(handler) => {
- let params = get_request_parameters(info.parameters, parts, req_body, uri_param).await?;
- (handler)(params, info, &mut rpcenv)
- .map(|data| (formatter.format_data)(data, &rpcenv))
+ let params =
+ get_request_parameters(info.parameters, parts, req_body, uri_param).await?;
+ (handler)(params, info, &mut rpcenv).map(|data| (formatter.format_data)(data, &rpcenv))
}
ApiHandler::Async(handler) => {
- let params = get_request_parameters(info.parameters, parts, req_body, uri_param).await?;
+ let params =
+ get_request_parameters(info.parameters, parts, req_body, uri_param).await?;
(handler)(params, info, &mut rpcenv)
.await
.map(|data| (formatter.format_data)(data, &rpcenv))
}
};
- let resp = match result {
+ let mut resp = match result {
Ok(resp) => resp,
Err(err) => {
if let Some(httperr) = err.downcast_ref::<HttpError>() {
if httperr.code == StatusCode::UNAUTHORIZED {
- tokio::time::delay_until(Instant::from_std(delay_unauth_time)).await;
+ tokio::time::sleep_until(Instant::from_std(delay_unauth_time)).await;
}
}
(formatter.format_error)(err)
}
};
- if info.reload_timezone { unsafe { tzset(); } }
+ let resp = match compression {
+ Some(CompressionMethod::Deflate) => {
+ resp.headers_mut().insert(
+ header::CONTENT_ENCODING,
+ CompressionMethod::Deflate.content_encoding(),
+ );
+ resp.map(|body| {
+ Body::wrap_stream(DeflateEncoder::with_quality(
+ TryStreamExt::map_err(body, |err| {
+ proxmox::io_format_err!("error during compression: {}", err)
+ }),
+ Level::Default,
+ ))
+ })
+ }
+ None => resp,
+ };
+
+ if info.reload_timezone {
+ unsafe {
+ tzset();
+ }
+ }
Ok(resp)
}
language: Option<String>,
api: &Arc<ApiConfig>,
parts: Parts,
-) -> Response<Body> {
-
+) -> Response<Body> {
let nodename = proxmox::tools::nodename();
let user = userid.as_ref().map(|u| u.as_str()).unwrap_or("");
let (ct, index) = match api.render_template(template_file, &data) {
Ok(index) => ("text/html", index),
- Err(err) => {
- ("text/plain", format!("Error rendering template: {}", err))
- }
+ Err(err) => ("text/plain", format!("Error rendering template: {}", err)),
};
let mut resp = Response::builder()
}
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),
("application/octet-stream", false)
}
-async fn simple_static_file_download(filename: PathBuf) -> Result<Response<Body>, Error> {
-
- let (content_type, _nocomp) = extension_to_content_type(&filename);
-
+async fn simple_static_file_download(
+ filename: PathBuf,
+ content_type: &'static str,
+ compression: Option<CompressionMethod>,
+) -> Result<Response<Body>, Error> {
use tokio::io::AsyncReadExt;
let mut file = File::open(filename)
.map_err(|err| http_err!(BAD_REQUEST, "File open failed: {}", err))?;
let mut data: Vec<u8> = Vec::new();
- file.read_to_end(&mut data)
- .await
- .map_err(|err| http_err!(BAD_REQUEST, "File read failed: {}", err))?;
- let mut response = Response::new(data.into());
+ let mut response = match compression {
+ Some(CompressionMethod::Deflate) => {
+ let mut enc = DeflateEncoder::with_quality(data, Level::Default);
+ enc.compress_vec(&mut file, CHUNK_SIZE_LIMIT as usize)
+ .await?;
+ let mut response = Response::new(enc.into_inner().into());
+ response.headers_mut().insert(
+ header::CONTENT_ENCODING,
+ CompressionMethod::Deflate.content_encoding(),
+ );
+ response
+ }
+ None => {
+ file.read_to_end(&mut data)
+ .await
+ .map_err(|err| http_err!(BAD_REQUEST, "File read failed: {}", err))?;
+ Response::new(data.into())
+ }
+ };
+
response.headers_mut().insert(
header::CONTENT_TYPE,
- header::HeaderValue::from_static(content_type));
+ header::HeaderValue::from_static(content_type),
+ );
+
Ok(response)
}
-async fn chuncked_static_file_download(filename: PathBuf) -> Result<Response<Body>, Error> {
- let (content_type, _nocomp) = extension_to_content_type(&filename);
+async fn chuncked_static_file_download(
+ filename: PathBuf,
+ content_type: &'static str,
+ compression: Option<CompressionMethod>,
+) -> Result<Response<Body>, Error> {
+ let mut resp = Response::builder()
+ .status(StatusCode::OK)
+ .header(header::CONTENT_TYPE, content_type);
let file = File::open(filename)
.await
.map_err(|err| http_err!(BAD_REQUEST, "File open failed: {}", err))?;
- let payload = tokio_util::codec::FramedRead::new(file, tokio_util::codec::BytesCodec::new())
- .map_ok(|bytes| hyper::body::Bytes::from(bytes.freeze()));
- 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()
- )
-}
+ let body = match compression {
+ Some(CompressionMethod::Deflate) => {
+ resp = resp.header(
+ header::CONTENT_ENCODING,
+ CompressionMethod::Deflate.content_encoding(),
+ );
+ Body::wrap_stream(DeflateEncoder::with_quality(
+ AsyncReaderStream::new(file),
+ Level::Default,
+ ))
+ }
+ None => Body::wrap_stream(AsyncReaderStream::new(file)),
+ };
-async fn handle_static_file_download(filename: PathBuf) -> Result<Response<Body>, Error> {
+ Ok(resp.body(body).unwrap())
+}
+async fn handle_static_file_download(
+ filename: PathBuf,
+ compression: Option<CompressionMethod>,
+) -> Result<Response<Body>, Error> {
let metadata = tokio::fs::metadata(filename.clone())
.map_err(|err| http_err!(BAD_REQUEST, "File access problems: {}", err))
.await?;
- if metadata.len() < 1024*32 {
- simple_static_file_download(filename).await
+ let (content_type, nocomp) = extension_to_content_type(&filename);
+ let compression = if nocomp { None } else { compression };
+
+ if metadata.len() < CHUNK_SIZE_LIMIT {
+ simple_static_file_download(filename, content_type, compression).await
} else {
- chuncked_static_file_download(filename).await
+ chuncked_static_file_download(filename, content_type, compression).await
}
}
fn extract_lang_header(headers: &http::HeaderMap) -> Option<String> {
- if let Some(raw_cookie) = headers.get("COOKIE") {
- if let Ok(cookie) = raw_cookie.to_str() {
- return tools::extract_cookie(cookie, "PBSLangCookie");
- }
+ if let Some(Ok(cookie)) = headers.get("COOKIE").map(|v| v.to_str()) {
+ return tools::extract_cookie(cookie, "PBSLangCookie");
}
-
None
}
-struct UserAuthData{
- ticket: String,
- csrf_token: Option<String>,
-}
-
-enum AuthData {
- User(UserAuthData),
- ApiToken(String),
-}
-
-fn extract_auth_data(headers: &http::HeaderMap) -> Option<AuthData> {
- if let Some(raw_cookie) = headers.get(header::COOKIE) {
- if let Ok(cookie) = raw_cookie.to_str() {
- if let Some(ticket) = tools::extract_cookie(cookie, "PBSAuthCookie") {
- let csrf_token = match headers.get("CSRFPreventionToken").map(|v| v.to_str()) {
- Some(Ok(v)) => Some(v.to_owned()),
- _ => None,
- };
- return Some(AuthData::User(UserAuthData {
- ticket,
- csrf_token,
- }));
- }
- }
- }
-
- match headers.get(header::AUTHORIZATION).map(|v| v.to_str()) {
- Some(Ok(v)) => {
- if v.starts_with("PBSAPIToken ") || v.starts_with("PBSAPIToken=") {
- Some(AuthData::ApiToken(v["PBSAPIToken ".len()..].to_owned()))
- } else {
- None
- }
- },
- _ => None,
- }
-}
-
-fn check_auth(
- method: &hyper::Method,
- auth_data: &AuthData,
- user_info: &CachedUserInfo,
-) -> Result<Authid, Error> {
- match auth_data {
- AuthData::User(user_auth_data) => {
- let ticket = user_auth_data.ticket.clone();
- let ticket_lifetime = tools::ticket::TICKET_LIFETIME;
-
- let userid: Userid = Ticket::<super::ticket::ApiTicket>::parse(&ticket)?
- .verify_with_time_frame(public_auth_key(), "PBS", None, -300..ticket_lifetime)?
- .require_full()?;
-
- let auth_id = Authid::from(userid.clone());
- if !user_info.is_active_auth_id(&auth_id) {
- bail!("user account disabled or expired.");
- }
-
- if method != hyper::Method::GET {
- if let Some(csrf_token) = &user_auth_data.csrf_token {
- verify_csrf_prevention_token(csrf_secret(), &userid, &csrf_token, -300, ticket_lifetime)?;
- } else {
- bail!("missing CSRF prevention token");
- }
- }
-
- Ok(auth_id)
- },
- AuthData::ApiToken(api_token) => {
- let mut parts = api_token.splitn(2, ':');
- let tokenid = parts.next()
- .ok_or_else(|| format_err!("failed to split API token header"))?;
- let tokenid: Authid = tokenid.parse()?;
-
- if !user_info.is_active_auth_id(&tokenid) {
- bail!("user account or token disabled or expired.");
+// FIXME: support handling multiple compression methods
+fn extract_compression_method(headers: &http::HeaderMap) -> Option<CompressionMethod> {
+ if let Some(Ok(encodings)) = headers.get(header::ACCEPT_ENCODING).map(|v| v.to_str()) {
+ for encoding in encodings.split(&[',', ' '][..]) {
+ if let Ok(method) = encoding.parse() {
+ return Some(method);
}
-
- let tokensecret = parts.next()
- .ok_or_else(|| format_err!("failed to split API token header"))?;
- let tokensecret = percent_decode_str(tokensecret)
- .decode_utf8()
- .map_err(|_| format_err!("failed to decode API token header"))?;
-
- crate::config::token_shadow::verify_secret(&tokenid, &tokensecret)?;
-
- Ok(tokenid)
}
}
+ None
}
async fn handle_request(
req: Request<Body>,
peer: &std::net::SocketAddr,
) -> Result<Response<Body>, Error> {
-
let (parts, body) = req.into_parts();
let method = parts.method.clone();
let (path, components) = tools::normalize_uri_path(parts.uri.path())?;
rpcenv.set_client_ip(Some(*peer));
let user_info = CachedUserInfo::new()?;
+ let auth = &api.api_auth;
let delay_unauth_time = std::time::Instant::now() + std::time::Duration::from_millis(3000);
let access_forbidden_time = std::time::Instant::now() + std::time::Duration::from_millis(500);
if comp_len >= 1 && components[0] == "api2" {
-
if comp_len >= 2 {
-
let format = components[1];
let formatter = match format {
"json" => &JSON_FORMATTER,
"extjs" => &EXTJS_FORMATTER,
- _ => bail!("Unsupported output format '{}'.", format),
+ _ => bail!("Unsupported output format '{}'.", format),
};
let mut uri_param = HashMap::new();
}
if auth_required {
- let auth_result = match extract_auth_data(&parts.headers) {
- Some(auth_data) => check_auth(&method, &auth_data, &user_info),
- None => Err(format_err!("no authentication credentials provided.")),
- };
- match auth_result {
+ match auth.check_auth(&parts.headers, &method, &user_info) {
Ok(authid) => rpcenv.set_auth_id(Some(authid.to_string())),
- Err(err) => {
+ Err(auth_err) => {
+ let err = match auth_err {
+ AuthError::Generic(err) => err,
+ AuthError::NoData => {
+ format_err!("no authentication credentials provided.")
+ }
+ };
let peer = peer.ip();
- auth_logger()?
- .log(format!("authentication failure; rhost={} msg={}", peer, err));
+ auth_logger()?.log(format!(
+ "authentication failure; rhost={} msg={}",
+ peer, err
+ ));
// always delay unauthorized calls by 3 seconds (from start of request)
let err = http_err!(UNAUTHORIZED, "authentication failed - {}", err);
- tokio::time::delay_until(Instant::from_std(delay_unauth_time)).await;
+ tokio::time::sleep_until(Instant::from_std(delay_unauth_time)).await;
return Ok((formatter.format_error)(err));
}
}
}
Some(api_method) => {
let auth_id = rpcenv.get_auth_id();
- if !check_api_permission(api_method.access.permission, auth_id.as_deref(), &uri_param, user_info.as_ref()) {
+ if !check_api_permission(
+ api_method.access.permission,
+ auth_id.as_deref(),
+ &uri_param,
+ user_info.as_ref(),
+ ) {
let err = http_err!(FORBIDDEN, "permission check failed");
- tokio::time::delay_until(Instant::from_std(access_forbidden_time)).await;
+ tokio::time::sleep_until(Instant::from_std(access_forbidden_time)).await;
return Ok((formatter.format_error)(err));
}
let result = if api_method.protected && env_type == RpcEnvironmentType::PUBLIC {
proxy_protected_request(api_method, parts, body, peer).await
} else {
- handle_api_request(rpcenv, api_method, formatter, parts, body, uri_param).await
+ handle_api_request(rpcenv, api_method, formatter, parts, body, uri_param)
+ .await
};
let mut response = match result {
return Ok(response);
}
}
-
}
- } else {
+ } else {
// not Auth required for accessing files!
if method != hyper::Method::GET {
if comp_len == 0 {
let language = extract_lang_header(&parts.headers);
- if let Some(auth_data) = extract_auth_data(&parts.headers) {
- match check_auth(&method, &auth_data, &user_info) {
- Ok(auth_id) if !auth_id.is_token() => {
+ match auth.check_auth(&parts.headers, &method, &user_info) {
+ Ok(auth_id) => {
+ if !auth_id.is_token() {
let userid = auth_id.user();
let new_csrf_token = assemble_csrf_prevention_token(csrf_secret(), userid);
- return Ok(get_index(Some(userid.clone()), Some(new_csrf_token), language, &api, parts));
- },
- _ => {
- tokio::time::delay_until(Instant::from_std(delay_unauth_time)).await;
- return Ok(get_index(None, None, language, &api, parts));
+ return Ok(get_index(
+ Some(userid.clone()),
+ Some(new_csrf_token),
+ language,
+ &api,
+ parts,
+ ));
}
}
- } else {
- return Ok(get_index(None, None, language, &api, parts));
+ Err(AuthError::Generic(_)) => {
+ tokio::time::sleep_until(Instant::from_std(delay_unauth_time)).await;
+ }
+ Err(AuthError::NoData) => {}
}
+ return Ok(get_index(None, None, language, &api, parts));
} else {
let filename = api.find_alias(&components);
- return handle_static_file_download(filename).await;
+ let compression = extract_compression_method(&parts.headers);
+ return handle_static_file_download(filename, compression).await;
}
}