use failure::*; use lazy_static::lazy_static; use regex::Regex; use chrono::Local; use std::sync::atomic::{AtomicUsize, Ordering}; use crate::tools; /// Unique Process/Task Identifier /// /// We use this to uniquely identify worker task. UPIDs have a short /// string repesentaion, which gives additional information about the /// type of the task. for example: /// ```text /// UPID:{node}:{pid}:{pstart}:{task_id}:{starttime}:{worker_type}:{worker_id}:{username}: /// UPID:elsa:00004F37:0039E469:00000000:5CA78B83:garbage_collection::root@pam: /// ``` /// Please note that we use tokio, so a single thread can run multiple /// tasks. #[derive(Debug, Clone)] pub struct UPID { /// The Unix PID pub pid: libc::pid_t, /// The Unix process start time from `/proc/pid/stat` pub pstart: u64, /// The task start time (Epoch) pub starttime: i64, /// The task ID (inside the process/thread) pub task_id: usize, /// Worker type (arbitrary ASCII string) pub worker_type: String, /// Worker ID (arbitrary ASCII string) pub worker_id: Option, /// The user who started the task pub username: String, /// The node name. pub node: String, } impl UPID { /// Create a new UPID pub fn new(worker_type: &str, worker_id: Option, username: &str) -> Result { let pid = unsafe { libc::getpid() }; let bad: &[_] = &['/', ':', ' ']; if worker_type.contains(bad) { bail!("illegal characters in worker type '{}'", worker_type); } if let Some(ref worker_id) = worker_id { if worker_id.contains(bad) { bail!("illegal characters in worker id '{}'", worker_id); } } static WORKER_TASK_NEXT_ID: AtomicUsize = AtomicUsize::new(0); let task_id = WORKER_TASK_NEXT_ID.fetch_add(1, Ordering::SeqCst); Ok(UPID { pid, pstart: tools::procfs::read_proc_starttime(pid)?, starttime: Local::now().timestamp(), task_id, worker_type: worker_type.to_owned(), worker_id, username: username.to_owned(), node: tools::nodename().to_owned(), }) } /// Returns the absolute path to the task log file pub fn log_path(&self) -> std::path::PathBuf { let mut path = std::path::PathBuf::from(super::PROXMOX_BACKUP_TASK_DIR); path.push(format!("{:02X}", self.pstart % 256)); path.push(self.to_string()); path } } impl std::str::FromStr for UPID { type Err = Error; fn from_str(s: &str) -> Result { lazy_static! { static ref REGEX: Regex = Regex::new(concat!( r"^UPID:(?P[a-zA-Z0-9]([a-zA-Z0-9\-]*[a-zA-Z0-9])?):(?P[0-9A-Fa-f]{8}):", r"(?P[0-9A-Fa-f]{8,9}):(?P[0-9A-Fa-f]{8,16}):(?P[0-9A-Fa-f]{8}):", r"(?P[^:\s]+):(?P[^:\s]*):(?P[^:\s]+):$" )).unwrap(); } if let Some(cap) = REGEX.captures(s) { return Ok(UPID { pid: i32::from_str_radix(&cap["pid"], 16).unwrap(), pstart: u64::from_str_radix(&cap["pstart"], 16).unwrap(), starttime: i64::from_str_radix(&cap["starttime"], 16).unwrap(), task_id: usize::from_str_radix(&cap["task_id"], 16).unwrap(), worker_type: cap["wtype"].to_string(), worker_id: if cap["wid"].is_empty() { None } else { Some(cap["wid"].to_string()) }, username: cap["username"].to_string(), node: cap["node"].to_string(), }); } else { bail!("unable to parse UPID '{}'", s); } } } impl std::fmt::Display for UPID { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { let wid = if let Some(ref id) = self.worker_id { id } else { "" }; // Note: pstart can be > 32bit if uptime > 497 days, so this can result in // more that 8 characters for pstart write!(f, "UPID:{}:{:08X}:{:08X}:{:08X}:{:08X}:{}:{}:{}:", self.node, self.pid, self.pstart, self.task_id, self.starttime, self.worker_type, wid, self.username) } }