blakeblackshear.frigate/frigate/storage.py
Martin Weinelt ab50d0b006
Add isort and ruff linter (#6575)
* Add isort and ruff linter

Both linters are pretty common among modern python code bases.

The isort tool provides stable sorting and grouping, as well as pruning
of unused imports.

Ruff is a modern linter, that is very fast due to being written in rust.
It can detect many common issues in a python codebase.

Removes the pylint dev requirement, since ruff replaces it.

* treewide: fix issues detected by ruff

* treewide: fix bare except clauses

* .devcontainer: Set up isort

* treewide: optimize imports

* treewide: apply black

* treewide: make regex patterns raw strings

This is necessary for escape sequences to be properly recognized.
2023-05-29 05:31:17 -05:00

192 lines
7.2 KiB
Python

"""Handle storage retention and usage."""
import logging
import shutil
import threading
from pathlib import Path
from peewee import fn
from frigate.config import FrigateConfig
from frigate.const import RECORD_DIR
from frigate.models import Event, Recordings
logger = logging.getLogger(__name__)
bandwidth_equation = Recordings.segment_size / (
Recordings.end_time - Recordings.start_time
)
class StorageMaintainer(threading.Thread):
"""Maintain frigates recording storage."""
def __init__(self, config: FrigateConfig, stop_event) -> None:
threading.Thread.__init__(self)
self.name = "storage_maintainer"
self.config = config
self.stop_event = stop_event
self.camera_storage_stats: dict[str, dict] = {}
def calculate_camera_bandwidth(self) -> None:
"""Calculate an average MB/hr for each camera."""
for camera in self.config.cameras.keys():
# cameras with < 50 segments should be refreshed to keep size accurate
# when few segments are available
if self.camera_storage_stats.get(camera, {}).get("needs_refresh", True):
self.camera_storage_stats[camera] = {
"needs_refresh": (
Recordings.select(fn.COUNT(Recordings.id))
.where(
Recordings.camera == camera, Recordings.segment_size != 0
)
.scalar()
< 50
)
}
# calculate MB/hr
try:
bandwidth = round(
Recordings.select(fn.AVG(bandwidth_equation))
.where(Recordings.camera == camera, Recordings.segment_size != 0)
.limit(100)
.scalar()
* 3600,
2,
)
except TypeError:
bandwidth = 0
self.camera_storage_stats[camera]["bandwidth"] = bandwidth
logger.debug(f"{camera} has a bandwidth of {bandwidth} MB/hr.")
def calculate_camera_usages(self) -> dict[str, dict]:
"""Calculate the storage usage of each camera."""
usages: dict[str, dict] = {}
for camera in self.config.cameras.keys():
camera_storage = (
Recordings.select(fn.SUM(Recordings.segment_size))
.where(Recordings.camera == camera, Recordings.segment_size != 0)
.scalar()
)
usages[camera] = {
"usage": camera_storage,
"bandwidth": self.camera_storage_stats.get(camera, {}).get(
"bandwidth", 0
),
}
return usages
def check_storage_needs_cleanup(self) -> bool:
"""Return if storage needs cleanup."""
# currently runs cleanup if less than 1 hour of space is left
# disk_usage should not spin up disks
hourly_bandwidth = sum(
[b["bandwidth"] for b in self.camera_storage_stats.values()]
)
remaining_storage = round(shutil.disk_usage(RECORD_DIR).free / 1000000, 1)
logger.debug(
f"Storage cleanup check: {hourly_bandwidth} hourly with remaining storage: {remaining_storage}."
)
return remaining_storage < hourly_bandwidth
def reduce_storage_consumption(self) -> None:
"""Remove oldest hour of recordings."""
logger.debug("Starting storage cleanup.")
deleted_segments_size = 0
hourly_bandwidth = sum(
[b["bandwidth"] for b in self.camera_storage_stats.values()]
)
recordings: Recordings = Recordings.select().order_by(
Recordings.start_time.asc()
)
retained_events: Event = (
Event.select()
.where(
Event.retain_indefinitely is True,
Event.has_clip,
)
.order_by(Event.start_time.asc())
.objects()
)
event_start = 0
deleted_recordings = set()
for recording in recordings.objects().iterator():
# check if 1 hour of storage has been reclaimed
if deleted_segments_size > hourly_bandwidth:
break
keep = False
# Now look for a reason to keep this recording segment
for idx in range(event_start, len(retained_events)):
event = retained_events[idx]
# if the event starts in the future, stop checking events
# and let this recording segment expire
if event.start_time > recording.end_time:
keep = False
break
# if the event is in progress or ends after the recording starts, keep it
# and stop looking at events
if event.end_time is None or event.end_time >= recording.start_time:
keep = True
break
# if the event ends before this recording segment starts, skip
# this event and check the next event for an overlap.
# since the events and recordings are sorted, we can skip events
# that end before the previous recording segment started on future segments
if event.end_time < recording.start_time:
event_start = idx
# Delete recordings not retained indefinitely
if not keep:
deleted_segments_size += recording.segment_size
Path(recording.path).unlink(missing_ok=True)
deleted_recordings.add(recording.id)
# check if need to delete retained segments
if deleted_segments_size < hourly_bandwidth:
logger.error(
f"Could not clear {hourly_bandwidth} currently {deleted_segments_size}, retained recordings must be deleted."
)
recordings = Recordings.select().order_by(Recordings.start_time.asc())
for recording in recordings.objects().iterator():
if deleted_segments_size > hourly_bandwidth:
break
deleted_segments_size += recording.segment_size
Path(recording.path).unlink(missing_ok=True)
deleted_recordings.add(recording.id)
logger.debug(f"Expiring {len(deleted_recordings)} recordings")
# delete up to 100,000 at a time
max_deletes = 100000
deleted_recordings_list = list(deleted_recordings)
for i in range(0, len(deleted_recordings_list), max_deletes):
Recordings.delete().where(
Recordings.id << deleted_recordings_list[i : i + max_deletes]
).execute()
def run(self):
"""Check every 5 minutes if storage needs to be cleaned up."""
while not self.stop_event.wait(300):
if not self.camera_storage_stats or True in [
r["needs_refresh"] for r in self.camera_storage_stats.values()
]:
self.calculate_camera_bandwidth()
logger.debug(f"Default camera bandwidths: {self.camera_storage_stats}.")
if self.check_storage_needs_cleanup():
self.reduce_storage_consumption()
logger.info("Exiting storage maintainer...")