from __future__ import annotations import sys from collections import deque from typing import Any import psutil import dask from distributed.compatibility import WINDOWS from distributed.diagnostics import nvml from distributed.metrics import monotonic, time class SystemMonitor: proc: psutil.Process maxlen: int | None count: int last_time: float quantities: dict[str, deque[float]] monitor_net_io: bool monitor_disk_io: bool monitor_host_cpu: bool _last_net_io_counters: Any # psutil namedtuple _last_disk_io_counters: Any # psutil namedtuple _last_host_cpu_counters: Any # dynamically-defined psutil namedtuple gpu_name: str | None gpu_memory_total: int # Defaults to 1h capture time assuming the default # distributed.admin.system_monitor.interval = 500ms def __init__( self, maxlen: int | None = 7200, monitor_disk_io: bool | None = None, monitor_host_cpu: bool | None = None, ): self.proc = psutil.Process() self.count = 0 self.maxlen = maxlen self.last_time = monotonic() self.quantities = { "cpu": deque(maxlen=maxlen), "memory": deque(maxlen=maxlen), "time": deque(maxlen=maxlen), } try: self._last_net_io_counters = psutil.net_io_counters() except Exception: # FIXME is this possible? self.monitor_net_io = False # pragma: nocover else: self.monitor_net_io = True self.quantities["host_net_io.read_bps"] = deque(maxlen=maxlen) self.quantities["host_net_io.write_bps"] = deque(maxlen=maxlen) if monitor_disk_io is None: monitor_disk_io = dask.config.get("distributed.admin.system-monitor.disk") if monitor_disk_io: try: disk_ioc = psutil.disk_io_counters() except Exception: # FIXME is this possible? monitor_disk_io = False # pragma: nocover else: if disk_ioc is None: # pragma: nocover # diskless machine monitor_disk_io = False else: self._last_disk_io_counters = disk_ioc self.quantities["host_disk_io.read_bps"] = deque(maxlen=maxlen) self.quantities["host_disk_io.write_bps"] = deque(maxlen=maxlen) self.monitor_disk_io = monitor_disk_io if monitor_host_cpu is None: monitor_host_cpu = dask.config.get( "distributed.admin.system-monitor.host-cpu" ) self.monitor_host_cpu = monitor_host_cpu if monitor_host_cpu: self._last_host_cpu_counters = hostcpu_c = psutil.cpu_times() # This is a namedtuple whose fields change based on OS and kernel version for k in hostcpu_c._fields: self.quantities["host_cpu." + k] = deque(maxlen=maxlen) if not WINDOWS: self.quantities["num_fds"] = deque(maxlen=maxlen) if nvml.device_get_count() > 0: gpu_extra = nvml.one_time() self.gpu_name = gpu_extra["name"] self.gpu_memory_total = gpu_extra["memory-total"] self.quantities["gpu_utilization"] = deque(maxlen=maxlen) self.quantities["gpu_memory_used"] = deque(maxlen=maxlen) else: self.gpu_name = None self.gpu_memory_total = -1 self.update() def recent(self) -> dict[str, Any]: return {k: v[-1] for k, v in self.quantities.items()} def get_process_memory(self) -> int: """Sample process memory, as reported by the OS. This one-liner function exists so that it can be easily mocked in unit tests, as the OS allocating and releasing memory is highly volatile and a constant source of flakiness. """ return self.proc.memory_info().rss def update(self) -> dict[str, Any]: now = time() now_mono = monotonic() duration = (now_mono - self.last_time) or 0.001 self.last_time = now_mono self.count += 1 with self.proc.oneshot(): result = { "cpu": self.proc.cpu_percent(), "memory": self.get_process_memory(), "time": now, } if self.monitor_net_io: net_ioc = psutil.net_io_counters() last = self._last_net_io_counters result["host_net_io.read_bps"] = ( net_ioc.bytes_recv - last.bytes_recv ) / duration result["host_net_io.write_bps"] = ( net_ioc.bytes_sent - last.bytes_sent ) / duration self._last_net_io_counters = net_ioc if self.monitor_disk_io: disk_ioc = psutil.disk_io_counters() assert disk_ioc is not None last_disk = self._last_disk_io_counters result["host_disk_io.read_bps"] = ( disk_ioc.read_bytes - last_disk.read_bytes ) / duration result["host_disk_io.write_bps"] = ( disk_ioc.write_bytes - last_disk.write_bytes ) / duration self._last_disk_io_counters = disk_ioc if self.monitor_host_cpu: host_cpu = psutil.cpu_times() last_cpu = self._last_host_cpu_counters for k in host_cpu._fields: delta = getattr(host_cpu, k) - getattr(last_cpu, k) # cpu_times() has a precision of 2 decimals; suppress noise result["host_cpu." + k] = round(delta / duration, 2) self._last_host_cpu_counters = host_cpu # Note: WINDOWS constant doesn't work with `mypy --platform win32` if sys.platform != "win32": result["num_fds"] = self.proc.num_fds() if self.gpu_name: gpu_metrics = nvml.real_time() result["gpu_utilization"] = gpu_metrics["utilization"] result["gpu_memory_used"] = gpu_metrics["memory-used"] for name, v in result.items(): if name != "count": self.quantities[name].append(v) return result def __repr__(self) -> str: return "" % ( self.quantities["cpu"][-1], self.quantities["memory"][-1] / 1e6, "N/A" if WINDOWS else self.quantities["num_fds"][-1], ) def range_query(self, start: int) -> dict[str, list]: if start >= self.count: return {k: [] for k in self.quantities} istart = min(-1, max(-len(self.quantities["cpu"]), start - self.count)) return { k: [v[i] if -i <= len(v) else None for i in range(istart, 0)] for k, v in self.quantities.items() }