/*use cloudflare_old::{Instance, CloudflareDnsType};*/ use reqwest::blocking::get; use std::{thread::{sleep}}; use std::error::Error; use std::net::{Ipv4Addr, Ipv6Addr}; use std::str::FromStr; use chrono::{Utc, Duration}; use log::{info, warn, error, LevelFilter}; use reqwest::StatusCode; use systemd_journal_logger::{connected_to_journal, JournalLog}; use crate::cloudflare::{CloudflareZone, DnsRecordType}; use crate::config::{AppConfig, InterfaceConfig, ZoneConfig, ZoneEntry}; mod config; mod cloudflare; struct Addresses { ipv4_uri: String, ipv6_uri: String, ipv4: Ipv4Addr, ipv6: Ipv6Addr, } impl Addresses { fn new() -> Result> { let mut ret = Self { ipv4_uri: "https://am.i.mullvad.net/ip".to_owned(), ipv6_uri: "https://ipv6.am.i.mullvad.net/ip".to_owned(), ipv4: Ipv4Addr::new(0, 0, 0, 0), ipv6: Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 0) }; match ret.get_v4() { Ok(ip) => ret.ipv4 = ip, Err(_) => { let err_msg = format!("Unable to fetch IPv4 from '{}' during init. Aborting!", ret.ipv4_uri); match connected_to_journal() { true => error!("[ERROR] {err_msg}"), false => eprintln!("[ERROR] {err_msg}"), } panic!("{}", err_msg); } } match ret.get_v6() { Ok(ip) => ret.ipv6 = ip, Err(_) => { let err_msg = format!("Unable to fetch IPv6 from '{}' during init. Aborting!", ret.ipv6_uri); match connected_to_journal() { true => error!("[ERROR] {err_msg}"), false => eprintln!("[ERROR] {err_msg}"), } panic!("{}", err_msg); } } Ok(ret) } fn update(&mut self) { match self.get_v4() { Ok(ip) => { if ip != self.ipv4 { let info_msg = format!("IPv4 changed from '{}' to '{}'", self.ipv4, ip); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } self.ipv4 = ip; } } Err(e) => { let warn_msg = format!("Unable to fetch IPv4 from '{}'. Error: {}", self.ipv4_uri, e); match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } } } match self.get_v6() { Ok(ip) => { if ip != self.ipv6 { let info_msg = format!("IPv6 changed from '{}' to '{}'", self.ipv6, ip); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } self.ipv6 = ip; } } Err(e) => { let warn_msg = format!("Unable to fetch IPv6 from '{}'. Error: {}", self.ipv6_uri, e); match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } } } } fn get_v4(&self) -> Result { match get(&self.ipv4_uri) { Ok(res) => { match res.status() { StatusCode::OK => { let ip_string = res.text().expect("Returned data should always contain text").trim_end().to_owned(); Ok(Ipv4Addr::from_str(ip_string.as_str()).expect("Returned IP should always be parseable")) }, _ => { let warn_msg = format!("Unexpected HTTP status {}", res.status()); match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } Ok(Ipv4Addr::new(0, 0, 0, 0)) } } } Err(e) => Err(e), } } fn get_v6(&self) -> Result { match get(&self.ipv6_uri) { Ok(res) => { match res.status() { StatusCode::OK => { let ip_string = res.text().expect("Returned data should always contain text").trim_end().to_owned(); Ok(Ipv6Addr::from_str(ip_string.as_str()).expect("Returned IP should always be parseable")) }, _ => { let warn_msg = format!("Unexpected HTTP status {}", res.status()); match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } Ok(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 0)) } } }, Err(e) => Err(e), } } } fn compare_zones(old_zone: &ZoneConfig, new_zone: &ZoneConfig) -> Vec { let mut info_pieces = vec![]; if old_zone.id != new_zone.id || old_zone.email != new_zone.email { let msg = "changed id or email".to_owned(); info_pieces.push(msg); } if old_zone.entries != new_zone.entries { let mut added: Vec<&ZoneEntry> = vec![]; let mut modified: Vec<&ZoneEntry> = vec![]; new_zone.entries.iter().for_each(|entry| { let matches: Vec<&ZoneEntry> = old_zone.entries.iter().filter(|old_entry| { if old_entry.name == entry.name { if old_entry != &entry { modified.push(entry); } true } else { false } }).collect(); if matches.is_empty() { added.push(entry); } }); let deleted: Vec<&ZoneEntry> = old_zone.entries.iter().filter(|old_entry| { !new_zone.entries.contains(old_entry) && !new_zone.entries.iter().any(|changed_entry| { changed_entry.name == old_entry.name }) }).collect(); if !deleted.is_empty() { let mut deleted_entries_vec = vec![]; for entry in deleted { deleted_entries_vec.push(entry.name.clone()); } let deleted_entries = match deleted_entries_vec.len() { 1 => deleted_entries_vec[0].clone(), 2 => deleted_entries_vec.join(" & "), _ => deleted_entries_vec.join(", "), }; let msg = format!("deleted {deleted_entries}"); info_pieces.push(msg); } if !added.is_empty() { let mut added_entries_vec = vec![]; for entry in added { added_entries_vec.push(entry.name.clone()); } let added_entries = match added_entries_vec.len() { 1 => added_entries_vec[0].clone(), 2 => added_entries_vec.join(" & "), _ => added_entries_vec.join(", "), }; let msg = format!("added {added_entries}"); info_pieces.push(msg); } if !modified.is_empty() { let mut modified_entries_vec = vec![]; for entry in modified { modified_entries_vec.push(entry.name.clone()); } let modified_entries = match modified_entries_vec.len() { 1 => modified_entries_vec[0].clone(), 2 => modified_entries_vec.join(" & "), _ => modified_entries_vec.join(", "), }; let msg = format!("modified {modified_entries}"); info_pieces.push(msg); } } info_pieces } fn main() { JournalLog::new().expect("Systemd-Logger crate error").install().expect("Systemd-Logger crate error"); log::set_max_level(LevelFilter::Info); let mut config = AppConfig::load().unwrap(); let mut ifaces = InterfaceConfig::load().unwrap(); let mut zone_cfgs = ZoneConfig::load().unwrap(); let mut now = Utc::now() - Duration::seconds(59); let mut start = now; let mut ips = match Addresses::new() { Ok(ips) => ips, Err(e) => panic!("{}", e) }; let reload_interval = config.check_interval_seconds.unwrap_or_else(|| { let warn_msg = "Reload interval option not set, defaulting to 60"; match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } 60 }) as i64; loop { now = Utc::now(); if now >= start + Duration::seconds(reload_interval) { start = now; if let Some(uptime_url) = &config.uptime_url { let _ = get(uptime_url); } match InterfaceConfig::load() { Ok(new_cfg) => { if ifaces != new_cfg { if ifaces.host_address != new_cfg.host_address { let info_msg = format!("Host address in interfaces.toml changed from '{}' to '{}'", ifaces.host_address, new_cfg.host_address); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } if ifaces.interfaces != new_cfg.interfaces { let mut new: Vec<(&String, &Ipv6Addr)> = vec![]; let mut modified: Vec<(&String, &Ipv6Addr)> = vec![]; new_cfg.interfaces.iter().for_each(|(interface, address)| { if ifaces.interfaces.contains_key(interface) { if ifaces.interfaces.get(interface) != Some(address) { modified.push((interface, address)); } } else { let matches: Vec<&Ipv6Addr> = ifaces.interfaces.values().filter(|addr| { addr == &address }).collect(); if matches.is_empty() { new.push((interface, address)); } else { modified.push((interface, address)); } } }); let deleted: Vec<(&String, &Ipv6Addr)> = ifaces.interfaces.iter().filter(|(interface, address)| { !new_cfg.interfaces.contains_key(*interface) && !modified.iter().any(|(_, new_addr)| { new_addr == address }) }).collect(); for (name, addr) in deleted { let info_msg = format!("Deleted interface '{name}' with address '{addr}'"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } for (name, addr) in new { let info_msg = format!("Added interface '{name}' with address '{addr}'"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } for (name, addr) in modified { let info_msg= if ifaces.interfaces.contains_key(name) { let old_addr = ifaces.interfaces.get(name).expect("contains check on ifaces was successful"); format!("Changed interface address of '{name}' from '{old_addr}' to '{addr}'") } else { let old_name = ifaces.interfaces.iter() .find(|(_, old_addr)| { old_addr == &addr }) .expect("modified entry should not exist if this fails") .0; format!("Changed interface name for '{addr}' from '{old_name}' to '{name}'") }; match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } } ifaces = new_cfg } }, Err(e) => { let err_msg = format!("Unable to load ínterfaces.toml with error: {e}"); match connected_to_journal() { true => error!("[ERROR] {err_msg}"), false => eprintln!("[ERROR] {err_msg}"), } } } match ZoneConfig::load() { Ok(new_cfgs) => { if zone_cfgs != new_cfgs { if zone_cfgs.len() != new_cfgs.len() { let new_zones: Vec<&ZoneConfig> = new_cfgs.iter().filter(|zone_cfg| { !zone_cfgs.contains(zone_cfg) }).collect(); let deleted_zones: Vec<&ZoneConfig> = zone_cfgs.iter().filter(|zone_cfg| { !new_cfgs.contains(zone_cfg) }).collect(); for new_zone in new_zones { let name = new_zone.name.as_str(); let entry_count = new_zone.entries.len(); let info_msg = format!("Added Zone '{name}' with {entry_count} entries"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } for deleted_zone in deleted_zones { let name = deleted_zone.name.as_str(); let entry_count = deleted_zone.entries.len(); let info_msg = format!("Deleted Zone '{name}' with {entry_count} entries"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } } else { let changed_zones: Vec<&ZoneConfig> = new_cfgs.iter().filter(|new_cfg| { zone_cfgs.iter().any(|old_cfg| { old_cfg.name == new_cfg.name && &old_cfg != new_cfg }) }).collect(); let deleted_zones: Vec<&ZoneConfig> = zone_cfgs.iter().filter(|old_cfg| { !new_cfgs.iter().any(|new_cfg| { old_cfg.name == new_cfg.name }) }).collect(); let added_zones: Vec<&ZoneConfig> = new_cfgs.iter().filter(|new_cfg| { !zone_cfgs.iter().any(|old_cfg| { old_cfg.name == new_cfg.name }) }).collect(); if deleted_zones.len() == 1 && added_zones.len() == 1 { let new_zone = added_zones[0]; let old_zone = deleted_zones[0]; let mut info_pieces = vec![]; { let msg = format!("name from '{}' to '{}'", old_zone.name, new_zone.name); info_pieces.push(msg); } let info_pieces = [info_pieces, compare_zones(old_zone, new_zone)].concat(); println!("{}", info_pieces.join(", ")); } else { if !deleted_zones.is_empty() { let mut info_pieces = vec![]; for deleted_zone in deleted_zones { info_pieces.push(deleted_zone.name.clone()); } let deleted_info = match info_pieces.len() { 1 => info_pieces[0].clone(), 2 => info_pieces.join(" & "), _ => info_pieces.join(", "), }; let info_msg = format!("Deleted {deleted_info}"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } if !added_zones.is_empty() { let mut info_pieces = vec![]; for added_zone in added_zones { info_pieces.push(added_zone.name.clone()); } let added_info = match info_pieces.len() { 1 => info_pieces[0].clone(), 2 => info_pieces.join(" & "), _ => info_pieces.join(", "), }; let info_msg = format!("Added {added_info}"); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } } for changed_zone in changed_zones { // try find element where one of these is unchanged let old_zone = zone_cfgs.iter().find(|zone_cfg| { zone_cfg.name == changed_zone.name }).expect("This element should exist because it was added to the changed_zones vector"); let info_pieces = compare_zones(old_zone, changed_zone); let changed_info = match info_pieces.len() { 1 => info_pieces[0].clone(), 2 => info_pieces.join(" & "), _ => info_pieces.join(", "), }; let info_msg_raw = format!("{changed_info} for {}", changed_zone.name); let mut info_msg_chars = info_msg_raw.chars(); let info_msg = match info_msg_chars.next() { None => String::new(), Some(first) => first.to_uppercase().collect::() + info_msg_chars.as_str(), }; match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } } zone_cfgs = new_cfgs } } Err(e) => { let err_msg = format!("Unable to load from zones.d with error: {e}"); match connected_to_journal() { true => error!("[ERROR] {err_msg}"), false => eprintln!("[ERROR] {err_msg}"), } } } match AppConfig::load() { Ok(new_cfg) => { if config != new_cfg { if config.cloudflare_api_token != new_cfg.cloudflare_api_token { let info_msg = "API token in config.toml changed"; match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } if config.check_interval_seconds != new_cfg.check_interval_seconds { let info_msg = match config.check_interval_seconds { Some(old_interval) => { match new_cfg.check_interval_seconds { Some(new_interval) => format!("Check interval in config.toml changed from {old_interval}s to {new_interval}s"), None => format!("Check interval in config.toml changed from {old_interval}s to 60s"), } }, None => { match new_cfg.check_interval_seconds { Some(new_interval) => format!("Check interval in config.toml changed from 60s to {new_interval}s"), None => "This is a unicorn error, congratulations.".to_owned(), } } }; match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } if config.uptime_url != new_cfg.uptime_url { let info_msg = match &config.uptime_url { Some(old_url) => { match &new_cfg.uptime_url { Some(new_url) => format!("Uptime URL in config.toml changed from '{old_url}' to '{new_url}'"), None => "Uptime URL in config.toml was removed".to_owned(), } }, None => { match &new_cfg.uptime_url { Some(new_url) => format!("Uptime URL '{new_url}' was added to config.toml"), None => "This is a unicorn error, congratulations.".to_owned(), } } }; match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } config = new_cfg } } Err(e) => { let err_msg = format!("Unable to load config.toml with error: {e}"); match connected_to_journal() { true => error!("[ERROR] {err_msg}"), false => eprintln!("[ERROR] {err_msg}"), } } } ips.update(); for zone in &zone_cfgs { let cf_zone = CloudflareZone::new(zone, &config); let cf_entries = match cf_zone.get_entries() { Ok(entries) => entries, Err(_) => { continue } }; for entry in &zone.entries { let ipv6; let ipv4; match entry.r#type[..] { [DnsRecordType::AAAA, DnsRecordType::A] => { ipv6 = match ifaces.full_v6(&entry.interface, ips.ipv6) { Ok(ip) => Some(ip), Err(_) => { continue } }; ipv4 = Some(ips.ipv4); }, [DnsRecordType::A, DnsRecordType::AAAA] => { ipv6 = match ifaces.full_v6(&entry.interface, ips.ipv6) { Ok(ip) => Some(ip), Err(_) => { continue } }; ipv4 = Some(ips.ipv4); }, [DnsRecordType::AAAA] => { ipv6 = match ifaces.full_v6(&entry.interface, ips.ipv6) { Ok(ip) => Some(ip), Err(_) => { continue } }; ipv4 = None; }, [DnsRecordType::A] => { ipv6 = None; ipv4 = Some(ips.ipv4); }, _ => { let warn_msg = "Config contains unsupported type identifier"; match connected_to_journal() { true => warn!("[WARN] {warn_msg}"), false => println!("[WARN] {warn_msg}"), } continue } } for r#type in &entry.r#type { let cf_entry = cf_entries.iter().find(|cf_entry| { cf_entry.name == entry.name && &cf_entry.r#type == r#type }); if let Some(cf_entry) = cf_entry { match cf_entry.r#type { DnsRecordType::A => { let cf_ip = Ipv4Addr::from_str(cf_entry.content.as_str()).expect("Cloudflare return should always be valid IP"); if Some(cf_ip) == ipv4 { continue } }, DnsRecordType::AAAA => { let cf_ip = Ipv6Addr::from_str(cf_entry.content.as_str()).expect("Cloudflare return should always be valid IP"); if Some(cf_ip) == ipv6 { continue } }, _ => {}, } if cf_zone.update(entry, r#type, &cf_entry.id, ipv6, ipv4).is_ok() { let info_msg = format!("Updated {} DNS Record for entry '{}' in zone '{}'", r#type, entry.name, zone.name); match connected_to_journal() { true => warn!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), } } } else if cf_zone.create(entry, r#type, ipv6, ipv4).is_ok() { let info_msg = format!("Created {} DNS Record for entry '{}' in zone '{}'", r#type, entry.name, zone.name); match connected_to_journal() { true => info!("[INFO] {info_msg}"), false => println!("[INFO] {info_msg}"), }; } } // handle return values } } } else { sleep(std::time::Duration::from_millis(200)); } } }