use crate::utils::structs::{UpstreamsDashMap, UpstreamsIdMap}; use crate::utils::tools::*; use dashmap::DashMap; use log::{error, info, warn}; use reqwest::Client; use std::sync::atomic::AtomicUsize; use std::sync::Arc; use std::time::Duration; use tokio::time::interval; use tonic::transport::Endpoint; pub async fn hc2(upslist: Arc, fullist: Arc, idlist: Arc, params: (&str, u64)) { let mut period = interval(Duration::from_secs(params.1)); let mut first_run = 0; loop { tokio::select! { _ = period.tick() => { let totest : UpstreamsDashMap = DashMap::new(); let fclone : UpstreamsDashMap = clone_dashmap(&fullist); for val in fclone.iter() { let host = val.key(); let inner = DashMap::new(); for path_entry in val.value().iter() { // let inner = DashMap::new(); let path = path_entry.key(); let mut innervec= Vec::new(); for k in path_entry.value().0.iter().enumerate() { let (ip, port, ssl) = k.1; let mut _pref = ""; match ssl { true => _pref = "https://", false => _pref = "http://", } let link = format!("{}{}:{}{}", _pref, ip, port, path); let resp = http_request(link.as_str(), params.0, "").await; match resp { true => { innervec.push(k.1.clone()); } false => { warn!("Dead Upstream : {}", link); } } } inner.insert(path.clone().to_owned(), (innervec, AtomicUsize::new(0))); } totest.insert(host.clone(), inner); } if first_run == 1 { info!("Synchronising inner hashmaps"); clone_idmap_into(&totest, &idlist); } first_run+=1; if ! compare_dashmaps(&totest, &upslist){ clone_dashmap_into(&totest, &upslist); clone_idmap_into(&totest, &idlist); } // print!("{:?}", idlist); } } } } #[allow(dead_code)] async fn http_request(url: &str, method: &str, payload: &str) -> bool { let client = Client::builder().danger_accept_invalid_certs(true).build().unwrap(); let timeout = Duration::from_secs(1); if !["POST", "GET", "HEAD"].contains(&method) { error!("Method {} not supported. Only GET|POST|HEAD are supported ", method); return false; } async fn send_request(client: &Client, method: &str, url: &str, payload: &str, timeout: Duration) -> Option { match method { "POST" => client.post(url).body(payload.to_owned()).timeout(timeout).send().await.ok(), "GET" => client.get(url).timeout(timeout).send().await.ok(), "HEAD" => client.head(url).timeout(timeout).send().await.ok(), _ => None, } } match send_request(&client, method, url, payload, timeout).await { Some(response) => { let status = response.status().as_u16(); (99..499).contains(&status) } None => { let fallback_url = url.replace("https", "http"); ping_grpc(&fallback_url).await } } } pub async fn ping_grpc(addr: &str) -> bool { let endpoint_result = Endpoint::from_shared(addr.to_owned()); if let Ok(endpoint) = endpoint_result { let endpoint = endpoint.timeout(Duration::from_secs(2)); match tokio::time::timeout(Duration::from_secs(3), endpoint.connect()).await { Ok(Ok(_channel)) => true, _ => false, } } else { false } }