mirror of
https://git.selfprivacy.org/SelfPrivacy/selfprivacy-rest-api.git
synced 2024-12-12 16:18:48 +00:00
809 lines
26 KiB
Python
809 lines
26 KiB
Python
"""
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This module contains the controller class for backups.
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"""
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from datetime import datetime, timedelta, timezone
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import time
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import os
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from os import statvfs
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from typing import Callable, List, Optional
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from os.path import exists
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from selfprivacy_api.services import ServiceManager
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from selfprivacy_api.services.service import (
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Service,
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ServiceStatus,
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StoppedService,
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)
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from selfprivacy_api.jobs import Jobs, JobStatus, Job
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from selfprivacy_api.graphql.queries.providers import (
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BackupProvider as BackupProviderEnum,
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)
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from selfprivacy_api.graphql.common_types.backup import (
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RestoreStrategy,
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BackupReason,
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AutobackupQuotas,
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)
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from selfprivacy_api.models.backup.snapshot import Snapshot
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from selfprivacy_api.utils.block_devices import BlockDevices
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from selfprivacy_api.backup.providers.provider import AbstractBackupProvider
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from selfprivacy_api.backup.providers import get_provider
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from selfprivacy_api.backup.storage import Storage
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from selfprivacy_api.backup.jobs import (
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get_backup_job,
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get_backup_fail,
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add_backup_job,
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get_restore_job,
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add_restore_job,
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)
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BACKUP_PROVIDER_ENVS = {
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"kind": "BACKUP_KIND",
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"login": "BACKUP_LOGIN",
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"key": "BACKUP_KEY",
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"location": "BACKUP_LOCATION",
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}
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AUTOBACKUP_JOB_EXPIRATION_SECONDS = 60 * 60 # one hour
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class NotDeadError(AssertionError):
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"""
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This error is raised when we try to back up a service that is not dead yet.
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"""
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def __init__(self, service: Service):
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self.service_name = service.get_id()
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super().__init__()
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def __str__(self):
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return f"""
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Service {self.service_name} should be either stopped or dead from
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an error before we back up.
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Normally, this error is unreachable because we do try ensure this.
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Apparently, not this time.
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"""
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class RotationBucket:
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"""
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Bucket object used for rotation.
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Has the following mutable fields:
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- the counter, int
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- the lambda function which takes datetime and the int and returns the int
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- the last, int
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"""
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def __init__(self, counter: int, last: int, rotation_lambda):
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self.counter: int = counter
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self.last: int = last
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self.rotation_lambda: Callable[[datetime, int], int] = rotation_lambda
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def __str__(self) -> str:
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return f"Bucket(counter={self.counter}, last={self.last})"
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class Backups:
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"""A stateless controller class for backups"""
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# Providers
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@staticmethod
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def provider() -> AbstractBackupProvider:
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"""
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Returns the current backup storage provider.
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"""
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return Backups._lookup_provider()
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@staticmethod
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def set_provider(
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kind: BackupProviderEnum,
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login: str,
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key: str,
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location: str,
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repo_id: str = "",
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) -> None:
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"""
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Sets the new configuration of the backup storage provider.
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In case of `BackupProviderEnum.BACKBLAZE`, the `login` is the key ID,
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the `key` is the key itself, and the `location` is the bucket name and
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the `repo_id` is the bucket ID.
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"""
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provider: AbstractBackupProvider = Backups._construct_provider(
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kind,
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login,
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key,
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location,
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repo_id,
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)
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Storage.store_provider(provider)
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@staticmethod
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def reset() -> None:
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"""
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Deletes all the data about the backup storage provider.
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"""
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Storage.reset()
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@staticmethod
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def _lookup_provider() -> AbstractBackupProvider:
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redis_provider = Backups._load_provider_redis()
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if redis_provider is not None:
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return redis_provider
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none_provider = Backups._construct_provider(
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BackupProviderEnum.NONE, login="", key="", location=""
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)
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Storage.store_provider(none_provider)
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return none_provider
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@staticmethod
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def set_provider_from_envs():
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for env in BACKUP_PROVIDER_ENVS.values():
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if env not in os.environ.keys():
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raise ValueError(
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f"Cannot set backup provider from envs, there is no {env} set"
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)
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kind_str = os.environ[BACKUP_PROVIDER_ENVS["kind"]]
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kind_enum = BackupProviderEnum[kind_str]
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provider = Backups._construct_provider(
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kind=kind_enum,
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login=os.environ[BACKUP_PROVIDER_ENVS["login"]],
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key=os.environ[BACKUP_PROVIDER_ENVS["key"]],
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location=os.environ[BACKUP_PROVIDER_ENVS["location"]],
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)
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Storage.store_provider(provider)
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@staticmethod
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def _construct_provider(
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kind: BackupProviderEnum,
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login: str,
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key: str,
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location: str,
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repo_id: str = "",
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) -> AbstractBackupProvider:
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provider_class = get_provider(kind)
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return provider_class(
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login=login,
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key=key,
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location=location,
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repo_id=repo_id,
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)
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@staticmethod
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def _load_provider_redis() -> Optional[AbstractBackupProvider]:
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provider_model = Storage.load_provider()
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if provider_model is None:
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return None
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return Backups._construct_provider(
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BackupProviderEnum[provider_model.kind],
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provider_model.login,
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provider_model.key,
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provider_model.location,
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provider_model.repo_id,
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)
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# Init
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@staticmethod
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def init_repo() -> None:
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"""
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Initializes the backup repository. This is required once per repo.
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"""
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Backups.provider().backupper.init()
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Storage.mark_as_init()
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@staticmethod
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def erase_repo() -> None:
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"""
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Completely empties the remote
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"""
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Backups.provider().backupper.erase_repo()
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Storage.mark_as_uninitted()
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@staticmethod
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def is_initted() -> bool:
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"""
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Returns whether the backup repository is initialized or not.
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If it is not initialized, we cannot back up and probably should
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call `init_repo` first.
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"""
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if Storage.has_init_mark():
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return True
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initted = Backups.provider().backupper.is_initted()
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if initted:
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Storage.mark_as_init()
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return True
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return False
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# Backup
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@staticmethod
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def back_up(
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service: Service, reason: BackupReason = BackupReason.EXPLICIT
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) -> Snapshot:
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"""The top-level function to back up a service
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If it fails for any reason at all, it should both mark job as
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errored and re-raise an error"""
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job = get_backup_job(service)
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if job is None:
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job = add_backup_job(service)
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Jobs.update(job, status=JobStatus.RUNNING)
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try:
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if service.can_be_backed_up() is False:
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raise ValueError("cannot backup a non-backuppable service")
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folders = service.get_folders()
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service_name = service.get_id()
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service.pre_backup()
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snapshot = Backups.provider().backupper.start_backup(
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folders,
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service_name,
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reason=reason,
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)
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Backups._on_new_snapshot_created(service_name, snapshot)
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if reason == BackupReason.AUTO:
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Backups._prune_auto_snaps(service)
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service.post_restore()
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except Exception as error:
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Jobs.update(job, status=JobStatus.ERROR, error=str(error))
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raise error
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Jobs.update(job, status=JobStatus.FINISHED)
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if reason in [BackupReason.AUTO, BackupReason.PRE_RESTORE]:
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Jobs.set_expiration(job, AUTOBACKUP_JOB_EXPIRATION_SECONDS)
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return Backups.sync_date_from_cache(snapshot)
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@staticmethod
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def sync_date_from_cache(snapshot: Snapshot) -> Snapshot:
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"""
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Our snapshot creation dates are different from those on server by a tiny amount.
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This is a convenience, maybe it is better to write a special comparison
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function for snapshots
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"""
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snap = Storage.get_cached_snapshot_by_id(snapshot.id)
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if snap is None:
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raise ValueError(
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f"snapshot {snapshot.id} date syncing failed, this should never happen normally"
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)
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return snap
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@staticmethod
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def _auto_snaps(service) -> List[Snapshot]:
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return [
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snap
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for snap in Backups.get_snapshots(service)
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if snap.reason == BackupReason.AUTO
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]
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@staticmethod
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def _prune_snaps_with_quotas(snapshots: List[Snapshot]) -> List[Snapshot]:
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# Function broken out for testability
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# Sorting newest first
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sorted_snaps = sorted(snapshots, key=lambda s: s.created_at, reverse=True)
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quotas: AutobackupQuotas = Backups.autobackup_quotas()
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buckets: list[RotationBucket] = [
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RotationBucket(
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quotas.last, # type: ignore
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-1,
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lambda _, index: index,
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),
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RotationBucket(
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quotas.daily, # type: ignore
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-1,
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lambda date, _: date.year * 10000 + date.month * 100 + date.day,
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),
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RotationBucket(
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quotas.weekly, # type: ignore
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-1,
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lambda date, _: date.year * 100 + date.isocalendar()[1],
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),
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RotationBucket(
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quotas.monthly, # type: ignore
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-1,
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lambda date, _: date.year * 100 + date.month,
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),
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RotationBucket(
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quotas.yearly, # type: ignore
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-1,
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lambda date, _: date.year,
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),
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]
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new_snaplist: List[Snapshot] = []
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for i, snap in enumerate(sorted_snaps):
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keep_snap = False
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for bucket in buckets:
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if (bucket.counter > 0) or (bucket.counter == -1):
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val = bucket.rotation_lambda(snap.created_at, i)
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if (val != bucket.last) or (i == len(sorted_snaps) - 1):
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bucket.last = val
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if bucket.counter > 0:
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bucket.counter -= 1
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if not keep_snap:
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new_snaplist.append(snap)
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keep_snap = True
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return new_snaplist
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@staticmethod
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def _prune_auto_snaps(service) -> None:
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# Not very testable by itself, so most testing is going on Backups._prune_snaps_with_quotas
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# We can still test total limits and, say, daily limits
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auto_snaps = Backups._auto_snaps(service)
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new_snaplist = Backups._prune_snaps_with_quotas(auto_snaps)
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deletable_snaps = [snap for snap in auto_snaps if snap not in new_snaplist]
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Backups.forget_snapshots(deletable_snaps)
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@staticmethod
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def _standardize_quotas(i: int) -> int:
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if i <= -1:
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i = -1
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return i
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@staticmethod
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def autobackup_quotas() -> AutobackupQuotas:
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"""0 means do not keep, -1 means unlimited"""
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return Storage.autobackup_quotas()
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@staticmethod
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def set_autobackup_quotas(quotas: AutobackupQuotas) -> None:
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"""0 means do not keep, -1 means unlimited"""
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Storage.set_autobackup_quotas(
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AutobackupQuotas(
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last=Backups._standardize_quotas(quotas.last), # type: ignore
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daily=Backups._standardize_quotas(quotas.daily), # type: ignore
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weekly=Backups._standardize_quotas(quotas.weekly), # type: ignore
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monthly=Backups._standardize_quotas(quotas.monthly), # type: ignore
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yearly=Backups._standardize_quotas(quotas.yearly), # type: ignore
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)
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)
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# do not prune all autosnaps right away, this will be done by an async task
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@staticmethod
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def prune_all_autosnaps() -> None:
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for service in ServiceManager.get_all_services():
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Backups._prune_auto_snaps(service)
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# Restoring
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@staticmethod
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def _ensure_queued_restore_job(service, snapshot) -> Job:
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job = get_restore_job(service)
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if job is None:
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job = add_restore_job(snapshot)
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Jobs.update(job, status=JobStatus.CREATED)
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return job
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@staticmethod
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def _inplace_restore(
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service: Service,
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snapshot: Snapshot,
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job: Job,
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) -> None:
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Jobs.update(
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job, status=JobStatus.CREATED, status_text="Waiting for pre-restore backup"
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)
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failsafe_snapshot = Backups.back_up(service, BackupReason.PRE_RESTORE)
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Jobs.update(
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job, status=JobStatus.RUNNING, status_text=f"Restoring from {snapshot.id}"
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)
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try:
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Backups._restore_service_from_snapshot(
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service,
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snapshot.id,
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verify=False,
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)
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except Exception as error:
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Jobs.update(
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job,
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status=JobStatus.ERROR,
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status_text=f"Restore failed with {str(error)}, reverting to {failsafe_snapshot.id}",
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)
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Backups._restore_service_from_snapshot(
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service, failsafe_snapshot.id, verify=False
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)
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Jobs.update(
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job,
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status=JobStatus.ERROR,
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status_text=f"Restore failed with {str(error)}, reverted to {failsafe_snapshot.id}",
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)
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raise error
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@staticmethod
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def restore_snapshot(
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snapshot: Snapshot, strategy=RestoreStrategy.DOWNLOAD_VERIFY_OVERWRITE
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) -> None:
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"""Restores a snapshot to its original service using the given strategy"""
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service = ServiceManager.get_service_by_id(snapshot.service_name)
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if service is None:
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raise ValueError(
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f"snapshot has a nonexistent service: {snapshot.service_name}"
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)
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job = Backups._ensure_queued_restore_job(service, snapshot)
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try:
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Backups._assert_restorable(snapshot)
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Jobs.update(
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job, status=JobStatus.RUNNING, status_text="Stopping the service"
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)
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with StoppedService(service):
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if not service.is_always_active():
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Backups.assert_dead(service)
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if strategy == RestoreStrategy.INPLACE:
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Backups._inplace_restore(service, snapshot, job)
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else: # verify_before_download is our default
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Jobs.update(
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job,
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status=JobStatus.RUNNING,
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status_text=f"Restoring from {snapshot.id}",
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)
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Backups._restore_service_from_snapshot(
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service, snapshot.id, verify=True
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)
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service.post_restore()
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Jobs.update(
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job,
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status=JobStatus.RUNNING,
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progress=90,
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status_text="Restarting the service",
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)
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except Exception as error:
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Jobs.update(job, status=JobStatus.ERROR, status_text=str(error))
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raise error
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Jobs.update(job, status=JobStatus.FINISHED)
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@staticmethod
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def _assert_restorable(
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snapshot: Snapshot, strategy=RestoreStrategy.DOWNLOAD_VERIFY_OVERWRITE
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) -> None:
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service = ServiceManager.get_service_by_id(snapshot.service_name)
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if service is None:
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raise ValueError(
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f"snapshot has a nonexistent service: {snapshot.service_name}"
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)
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restored_snap_size = Backups.snapshot_restored_size(snapshot.id)
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if strategy == RestoreStrategy.DOWNLOAD_VERIFY_OVERWRITE:
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needed_space = restored_snap_size
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elif strategy == RestoreStrategy.INPLACE:
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needed_space = restored_snap_size - service.get_storage_usage()
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else:
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raise NotImplementedError(
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"""
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We do not know if there is enough space for restoration because
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there is some novel restore strategy used!
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This is a developer's fault, open an issue please
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"""
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)
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available_space = Backups.space_usable_for_service(service)
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if needed_space > available_space:
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raise ValueError(
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f"we only have {available_space} bytes "
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f"but snapshot needs {needed_space}"
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)
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@staticmethod
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def _restore_service_from_snapshot(
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service: Service,
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snapshot_id: str,
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verify=True,
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) -> None:
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folders = service.get_folders()
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Backups.provider().backupper.restore_from_backup(
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snapshot_id,
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folders,
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verify=verify,
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)
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# Snapshots
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@staticmethod
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def get_snapshots(service: Service) -> List[Snapshot]:
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"""Returns all snapshots for a given service"""
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snapshots = Backups.get_all_snapshots()
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service_id = service.get_id()
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return list(
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filter(
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lambda snap: snap.service_name == service_id,
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snapshots,
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)
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)
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@staticmethod
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def get_all_snapshots() -> List[Snapshot]:
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"""Returns all snapshots"""
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# When we refresh our cache:
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# 1. Manually
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# 2. On timer
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# 3. On new snapshot
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# 4. On snapshot deletion
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return Storage.get_cached_snapshots()
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|
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@staticmethod
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|
def get_snapshot_by_id(snapshot_id: str) -> Optional[Snapshot]:
|
|
"""Returns a backup snapshot by its id"""
|
|
snap = Storage.get_cached_snapshot_by_id(snapshot_id)
|
|
if snap is not None:
|
|
return snap
|
|
|
|
# Possibly our cache entry got invalidated, let's try one more time
|
|
Backups.force_snapshot_cache_reload()
|
|
snap = Storage.get_cached_snapshot_by_id(snapshot_id)
|
|
|
|
return snap
|
|
|
|
@staticmethod
|
|
def forget_snapshots(snapshots: List[Snapshot]) -> None:
|
|
"""
|
|
Deletes a batch of snapshots from the repo and syncs cache
|
|
Optimized
|
|
"""
|
|
ids = [snapshot.id for snapshot in snapshots]
|
|
Backups.provider().backupper.forget_snapshots(ids)
|
|
|
|
Backups.force_snapshot_cache_reload()
|
|
|
|
@staticmethod
|
|
def forget_snapshot(snapshot: Snapshot) -> None:
|
|
"""Deletes a snapshot from the repo and from cache"""
|
|
Backups.forget_snapshots([snapshot])
|
|
|
|
@staticmethod
|
|
def forget_all_snapshots():
|
|
"""
|
|
Mark all snapshots we have made for deletion and make them inaccessible
|
|
(this is done by cloud, we only issue a command)
|
|
"""
|
|
Backups.forget_snapshots(Backups.get_all_snapshots())
|
|
|
|
@staticmethod
|
|
def force_snapshot_cache_reload() -> None:
|
|
"""
|
|
Forces a reload of the snapshot cache.
|
|
|
|
This may be an expensive operation, so use it wisely.
|
|
User pays for the API calls.
|
|
"""
|
|
upstream_snapshots = Backups.provider().backupper.get_snapshots()
|
|
Storage.invalidate_snapshot_storage()
|
|
for snapshot in upstream_snapshots:
|
|
Storage.cache_snapshot(snapshot)
|
|
|
|
@staticmethod
|
|
def snapshot_restored_size(snapshot_id: str) -> int:
|
|
"""Returns the size of the snapshot"""
|
|
return Backups.provider().backupper.restored_size(
|
|
snapshot_id,
|
|
)
|
|
|
|
@staticmethod
|
|
def _on_new_snapshot_created(service_id: str, snapshot: Snapshot) -> None:
|
|
"""What do we do with a snapshot that is just made?"""
|
|
# non-expiring timestamp of the last
|
|
Storage.store_last_timestamp(service_id, snapshot)
|
|
Backups.force_snapshot_cache_reload()
|
|
|
|
# Autobackup
|
|
|
|
@staticmethod
|
|
def autobackup_period_minutes() -> Optional[int]:
|
|
"""None means autobackup is disabled"""
|
|
return Storage.autobackup_period_minutes()
|
|
|
|
@staticmethod
|
|
def set_autobackup_period_minutes(minutes: int) -> None:
|
|
"""
|
|
0 and negative numbers are equivalent to disable.
|
|
Setting to a positive number may result in a backup very soon
|
|
if some services are not backed up.
|
|
"""
|
|
if minutes <= 0:
|
|
Backups.disable_all_autobackup()
|
|
return
|
|
Storage.store_autobackup_period_minutes(minutes)
|
|
|
|
@staticmethod
|
|
def disable_all_autobackup() -> None:
|
|
"""
|
|
Disables all automatic backing up,
|
|
but does not change per-service settings
|
|
"""
|
|
Storage.delete_backup_period()
|
|
|
|
@staticmethod
|
|
def is_time_to_backup(time: datetime) -> bool:
|
|
"""
|
|
Intended as a time validator for huey cron scheduler
|
|
of automatic backups
|
|
"""
|
|
|
|
return Backups.services_to_back_up(time) != []
|
|
|
|
@staticmethod
|
|
def services_to_back_up(time: datetime) -> List[Service]:
|
|
"""Returns a list of services that should be backed up at a given time"""
|
|
return [
|
|
service
|
|
for service in ServiceManager.get_all_services()
|
|
if Backups.is_time_to_backup_service(service, time)
|
|
]
|
|
|
|
@staticmethod
|
|
def get_last_backed_up(service: Service) -> Optional[datetime]:
|
|
"""Get a timezone-aware time of the last backup of a service"""
|
|
return Storage.get_last_backup_time(service.get_id())
|
|
|
|
@staticmethod
|
|
def get_last_backup_error_time(service: Service) -> Optional[datetime]:
|
|
"""Get a timezone-aware time of the last backup of a service"""
|
|
job = get_backup_fail(service)
|
|
if job is not None:
|
|
datetime_created = job.created_at
|
|
if datetime_created.tzinfo is None:
|
|
# assume it is in localtime
|
|
offset = timedelta(seconds=time.localtime().tm_gmtoff)
|
|
datetime_created = datetime_created - offset
|
|
return datetime.combine(
|
|
datetime_created.date(), datetime_created.time(), timezone.utc
|
|
)
|
|
return datetime_created
|
|
return None
|
|
|
|
@staticmethod
|
|
def is_time_to_backup_service(service: Service, time: datetime):
|
|
"""Returns True if it is time to back up a service"""
|
|
period = Backups.autobackup_period_minutes()
|
|
if period is None:
|
|
return False
|
|
|
|
if not service.is_enabled():
|
|
return False
|
|
if not service.can_be_backed_up():
|
|
return False
|
|
|
|
last_error = Backups.get_last_backup_error_time(service)
|
|
|
|
if last_error is not None:
|
|
if time < last_error + timedelta(seconds=AUTOBACKUP_JOB_EXPIRATION_SECONDS):
|
|
return False
|
|
|
|
last_backup = Backups.get_last_backed_up(service)
|
|
|
|
# Queue a backup immediately if there are no previous backups
|
|
if last_backup is None:
|
|
return True
|
|
|
|
if time > last_backup + timedelta(minutes=period):
|
|
return True
|
|
|
|
return False
|
|
|
|
# Helpers
|
|
|
|
@staticmethod
|
|
def space_usable_for_service(service: Service) -> int:
|
|
"""
|
|
Returns the amount of space available on the volume the given
|
|
service is located on.
|
|
"""
|
|
folders = service.get_folders()
|
|
if folders == []:
|
|
raise ValueError("unallocated service", service.get_id())
|
|
|
|
# We assume all folders of one service live at the same volume
|
|
example_folder = folders[0]
|
|
if exists(example_folder):
|
|
fs_info = statvfs(example_folder)
|
|
usable_bytes = fs_info.f_frsize * fs_info.f_bavail
|
|
else:
|
|
# Look at the block device as it is written in settings
|
|
label = service.get_drive()
|
|
device = BlockDevices().get_block_device(label)
|
|
if device is None:
|
|
raise ValueError("nonexistent drive ", label, " for ", service.get_id())
|
|
usable_bytes = int(device.fsavail)
|
|
|
|
return usable_bytes
|
|
|
|
@staticmethod
|
|
def set_localfile_repo(file_path: str):
|
|
"""Used by tests to set a local folder as a backup repo"""
|
|
# pylint: disable-next=invalid-name
|
|
ProviderClass = get_provider(BackupProviderEnum.FILE)
|
|
provider = ProviderClass(
|
|
login="",
|
|
key="",
|
|
location=file_path,
|
|
repo_id="",
|
|
)
|
|
Storage.store_provider(provider)
|
|
|
|
@staticmethod
|
|
def assert_dead(service: Service):
|
|
"""
|
|
Checks if a service is dead and can be safely restored from a snapshot.
|
|
"""
|
|
if service.get_status() not in [
|
|
ServiceStatus.INACTIVE,
|
|
ServiceStatus.FAILED,
|
|
]:
|
|
raise NotDeadError(service)
|
|
|
|
@staticmethod
|
|
def is_same_slice(snap1: Snapshot, snap2: Snapshot) -> bool:
|
|
# Determines if the snaps were made roughly in the same time period
|
|
|
|
period_minutes = Backups.autobackup_period_minutes()
|
|
# Autobackups are not guaranteed to be enabled during restore.
|
|
# If they are not, period will be none
|
|
# We ASSUME that picking latest snap of the same day is safe enough
|
|
# But it is potentlially problematic and is better done with metadata I think.
|
|
if period_minutes is None:
|
|
period_minutes = 24 * 60
|
|
|
|
if snap1.created_at > snap2.created_at + timedelta(minutes=period_minutes):
|
|
return False
|
|
if snap1.created_at < snap2.created_at - timedelta(minutes=period_minutes):
|
|
return False
|
|
return True
|
|
|
|
@staticmethod
|
|
def last_backup_slice() -> List[Snapshot]:
|
|
"""
|
|
Guarantees that the slice is valid, ie, it has an api snapshot too
|
|
Or empty
|
|
"""
|
|
slice: List[Snapshot] = []
|
|
|
|
# We need snapshots that were made around the same time.
|
|
# And we need to be sure that api snap is in there
|
|
# That's why we form the slice around api snap
|
|
api_snaps = Backups.get_snapshots(ServiceManager())
|
|
if api_snaps == []:
|
|
return []
|
|
|
|
api_snaps.sort(key=lambda x: x.created_at, reverse=True)
|
|
api_snap = api_snaps[0] # pick the latest one
|
|
|
|
for service in ServiceManager.get_all_services():
|
|
if isinstance(service, ServiceManager):
|
|
continue
|
|
snaps = Backups.get_snapshots(service)
|
|
snaps.sort(key=lambda x: x.created_at, reverse=True)
|
|
for snap in snaps:
|
|
if Backups.is_same_slice(snap, api_snap):
|
|
slice.append(snap)
|
|
break
|
|
slice.append(api_snap)
|
|
|
|
return slice
|