#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
check_arp_ping.py — Nagios/Icinga plugin
RTT i utrata pakietów przez arping. Wyjście kompatybilne z check_ping.
"""

import argparse
import math
import re
import shutil
import subprocess
import sys
from typing import List, Tuple, Optional

OK, WARNING, CRITICAL, UNKNOWN = 0, 1, 2, 3
DEFAULT_LABEL = "ARPING"

TIME_RE = re.compile(
    r"""(?ix)
    (?:time[=\s])           # 'time=' lub 'time '
    (?P<val>\d+(?:\.\d+)?)  # liczba
    \s*(?P<unit>ms|usec|us|µs)
    """
)

HOST_LINE_RE = re.compile(
    r"""(?ix)
    (?:reply|response|bytes\s+from|Unicast\s+reply|Unicast\s+from)
    """
)

def run_arping(host: str, count: int, timeout: int, iface: Optional[str]) -> Tuple[int, str, str]:
    if not shutil.which("arping"):
        return (127, "", "arping not found")
    cmd = ["arping", "-c", str(count), "-w", str(timeout)]
    if iface:
        cmd += ["-I", iface]
    cmd += [host]
    try:
        p = subprocess.run(
            cmd, capture_output=True, text=True,
            timeout=timeout + 2, check=False
        )
        return (p.returncode, p.stdout or "", p.stderr or "")
    except subprocess.TimeoutExpired:
        return (124, "", "arping timed out")


def extract_timings(output: str, host: str) -> List[float]:
    timings: List[float] = []
    for line in output.splitlines():
        if host in line or HOST_LINE_RE.search(line):
            m = TIME_RE.search(line)
            if m:
                v = float(m.group("val"))
                u = m.group("unit").lower()
                if u in ("usec", "us", "µs"):
                    v /= 1000.0  # µs → ms
                timings.append(v)
    return timings


def compute_stats(samples: List[float]) -> Tuple[float, float, float]:
    if not samples:
        raise ValueError("no samples")
    mn = min(samples)
    mx = max(samples)
    avg = sum(samples) / len(samples)
    return (avg, mn, mx)


def fmt(x: float, d: int = 1) -> str:
    return f"{x:.{d}f}".replace(",", ".")


def status_from(avg_ms: Optional[float], pl_pct: int, warn_rta: float, crit_rta: float,
                warn_pl: int, crit_pl: int) -> int:
    # Najpierw RTA, potem PL
    if avg_ms is not None:
        if avg_ms >= crit_rta:
            return CRITICAL
        if avg_ms >= warn_rta:
            return WARNING
    if pl_pct >= crit_pl:
        return CRITICAL
    if pl_pct >= warn_pl:
        return WARNING
    return OK


def main():
    ap = argparse.ArgumentParser(description="Nagios/Icinga plugin: ARP ping (arping) z perfdata (rta, pl).")
    ap.add_argument("host")
    ap.add_argument("warn_rta", type=float, help="WARN RTT (ms)")
    ap.add_argument("crit_rta", type=float, help="CRIT RTT (ms)")
    ap.add_argument("--warn-pl", type=int, default=20, dest="warn_pl", help="WARN PL (%) [20]")
    ap.add_argument("--crit-pl", type=int, default=80, dest="crit_pl", help="CRIT PL (%) [80]")
    ap.add_argument("-c", "--count", type=int, default=5, help="Liczba prób [5]")
    ap.add_argument("-t", "--timeout", type=int, default=5, help="Timeout arping w s [5]")
    ap.add_argument("-I", "--interface", help="Interfejs (np. eth0)")
    ap.add_argument("--label", default=DEFAULT_LABEL, help="Etykieta [ARPING]")
    ap.add_argument("--version", action="version", version="check_arp_ping.py 2.1.0")
    args = ap.parse_args()

    if args.warn_rta >= args.crit_rta:
        print(f"{args.label} UNKNOWN - Złe progi RTA: warn >= crit")
        sys.exit(UNKNOWN)
    if args.warn_pl >= args.crit_pl:
        print(f"{args.label} UNKNOWN - Złe progi PL: warn >= crit")
        sys.exit(UNKNOWN)
    if args.count <= 0:
        print(f"{args.label} UNKNOWN - count musi być > 0")
        sys.exit(UNKNOWN)

    rc, out, err = run_arping(args.host, args.count, args.timeout, args.interface)

    # Domyślne: pełna utrata
    timings = extract_timings(out, args.host)
    received = len(timings)
    lost = max(0, args.count - received)
    pl_pct = int(round(100.0 * lost / args.count))

    # Brak arping / brak uprawnień / twardy timeout
    if rc not in (0, 1, 2):  # 0=ok, 1/2 bywa przy stratach
        perf = f"'rta'=-;{args.warn_rta};{args.crit_rta};; 'pl'={pl_pct}%;" \
               f"{args.warn_pl};{args.crit_pl};0;100"
        print(f"{args.label} CRITICAL - No response from host {args.host} | {perf}")
        sys.exit(CRITICAL)

    # Jeśli arping coś zwrócił, ale nie udało się sparsować timingów,
    # rozróżnij 100% PL od błędu parsowania.
    any_reply_line = any((args.host in ln) or HOST_LINE_RE.search(ln) for ln in out.splitlines())

    if not timings:
        if pl_pct == 100 and not any_reply_line:
            # faktycznie 100% PL
            perf = f"'rta'=-;{args.warn_rta};{args.crit_rta};; 'pl'={pl_pct}%;" \
                   f"{args.warn_pl};{args.crit_pl};0;100"
            print(f"{args.label} CRITICAL - Packet loss = {pl_pct}%, RTA = - ms | {perf}")
            sys.exit(CRITICAL)
        else:
            # mamy odpowiedzi, ale bez pola 'time' → błąd parsowania/formatu
            perf = f"'rta'=-;{args.warn_rta};{args.crit_rta};; 'pl'={pl_pct}%;" \
                   f"{args.warn_pl};{args.crit_pl};0;100"
            print(f"{args.label} UNKNOWN - Nie rozpoznano formatów czasu w wyjściu arping | {perf}")
            sys.exit(UNKNOWN)

    avg, mn, mx = compute_stats(timings)
    state = status_from(avg, pl_pct, args.warn_rta, args.crit_rta, args.warn_pl, args.crit_pl)
    state_str = {OK: "OK", WARNING: "WARNING", CRITICAL: "CRITICAL", UNKNOWN: "UNKNOWN"}[state]

    msg = f"Packet loss = {pl_pct}%, RTA = {fmt(avg)} ms"
    perf = (
        f"'rta'={fmt(avg)}ms;{args.warn_rta};{args.crit_rta};{fmt(mn)};{fmt(mx)} "
        f"'pl'={pl_pct}% ;{args.warn_pl};{args.crit_pl};0;100"
    )
    print(f"{args.label} {state_str} - {msg} | {perf}")
    sys.exit(state)


if __name__ == "__main__":
    try:
        main()
    except Exception as e:
        print(f"{DEFAULT_LABEL} UNKNOWN - {e}")
        sys.exit(UNKNOWN)
