ArchiveBox/archivebox/machine/models.py

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__package__ = 'archivebox.machine'
import socket
from datetime import timedelta
from pathlib import Path
from django.db import models
from django.utils import timezone
from django.utils.functional import cached_property
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import abx
import archivebox
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from pydantic_pkgr import Binary, BinProvider
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from archivebox.abid_utils.models import ABIDModel, ABIDField, AutoDateTimeField, ModelWithHealthStats
from .detect import get_host_guid, get_os_info, get_vm_info, get_host_network, get_host_stats
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_CURRENT_MACHINE = None # global cache for the current machine
_CURRENT_INTERFACE = None # global cache for the current network interface
_CURRENT_BINARIES = {} # global cache for the currently installed binaries
MACHINE_RECHECK_INTERVAL = 7 * 24 * 60 * 60 # 1 week (how often should we check for OS/hardware changes?)
NETWORK_INTERFACE_RECHECK_INTERVAL = 1 * 60 * 60 # 1 hour (how often should we check for public IP/private IP/DNS changes?)
INSTALLED_BINARY_RECHECK_INTERVAL = 1 * 30 * 60 # 30min (how often should we check for changes to locally installed binaries?)
class MachineManager(models.Manager):
def current(self) -> 'Machine':
"""Get the current machine that ArchiveBox is running on."""
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global _CURRENT_MACHINE
if _CURRENT_MACHINE:
expires_at = _CURRENT_MACHINE.modified_at + timedelta(seconds=MACHINE_RECHECK_INTERVAL)
if timezone.now() < expires_at:
# assume current machine cant change *while archivebox is actively running on it*
# it's not strictly impossible to swap hardware while code is running,
# but its rare and unusual so we check only once per week
# (e.g. VMWare can live-migrate a VM to a new host while it's running)
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return _CURRENT_MACHINE
else:
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_CURRENT_MACHINE = None
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_CURRENT_MACHINE, _created = self.update_or_create(
guid=get_host_guid(),
defaults={
'hostname': socket.gethostname(),
**get_os_info(),
**get_vm_info(),
'stats': get_host_stats(),
},
)
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_CURRENT_MACHINE.save() # populate ABID
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return _CURRENT_MACHINE
class Machine(ABIDModel, ModelWithHealthStats):
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"""Audit log entry for a physical machine that was used to do archiving."""
abid_prefix = 'mxn_'
abid_ts_src = 'self.created_at'
abid_uri_src = 'self.guid'
abid_subtype_src = '"01"'
abid_rand_src = 'self.id'
abid_drift_allowed = False
id = models.UUIDField(primary_key=True, default=None, null=False, editable=False, unique=True, verbose_name='ID')
abid = ABIDField(prefix=abid_prefix)
created_at = AutoDateTimeField(default=None, null=False, db_index=True)
modified_at = models.DateTimeField(auto_now=True)
# IMMUTABLE PROPERTIES
guid = models.CharField(max_length=64, default=None, null=False, unique=True, editable=False) # 64char sha256 hash of machine's unique hardware ID
# MUTABLE PROPERTIES
hostname = models.CharField(max_length=63, default=None, null=False) # e.g. somehost.subdomain.example.com
hw_in_docker = models.BooleanField(default=False, null=False) # e.g. False
hw_in_vm = models.BooleanField(default=False, null=False) # e.g. False
hw_manufacturer = models.CharField(max_length=63, default=None, null=False) # e.g. Apple
hw_product = models.CharField(max_length=63, default=None, null=False) # e.g. Mac Studio Mac13,1
hw_uuid = models.CharField(max_length=255, default=None, null=False) # e.g. 39A12B50-...-...-...-...
os_arch = models.CharField(max_length=15, default=None, null=False) # e.g. arm64
os_family = models.CharField(max_length=15, default=None, null=False) # e.g. darwin
os_platform = models.CharField(max_length=63, default=None, null=False) # e.g. macOS-14.6.1-arm64-arm-64bit
os_release = models.CharField(max_length=63, default=None, null=False) # e.g. macOS 14.6.1
os_kernel = models.CharField(max_length=255, default=None, null=False) # e.g. Darwin Kernel Version 23.6.0: Mon Jul 29 21:14:30 PDT 2024; root:xnu-10063.141.2~1/RELEASE_ARM64_T6000
# STATS COUNTERS
stats = models.JSONField(default=dict, null=False) # e.g. {"cpu_load": [1.25, 2.4, 1.4], "mem_swap_used_pct": 56, ...}
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# num_uses_failed = models.PositiveIntegerField(default=0) # from ModelWithHealthStats
# num_uses_succeeded = models.PositiveIntegerField(default=0)
objects: MachineManager = MachineManager()
networkinterface_set: models.Manager['NetworkInterface']
class NetworkInterfaceManager(models.Manager):
def current(self) -> 'NetworkInterface':
"""Get the current network interface for the current machine."""
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global _CURRENT_INTERFACE
if _CURRENT_INTERFACE:
# assume the current network interface (public IP, DNS servers, etc.) wont change more than once per hour
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expires_at = _CURRENT_INTERFACE.modified_at + timedelta(seconds=NETWORK_INTERFACE_RECHECK_INTERVAL)
if timezone.now() < expires_at:
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return _CURRENT_INTERFACE
else:
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_CURRENT_INTERFACE = None
machine = Machine.objects.current()
net_info = get_host_network()
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_CURRENT_INTERFACE, _created = self.update_or_create(
machine=machine,
ip_public=net_info.pop('ip_public'),
ip_local=net_info.pop('ip_local'),
mac_address=net_info.pop('mac_address'),
dns_server=net_info.pop('dns_server'),
defaults=net_info,
)
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_CURRENT_INTERFACE.save() # populate ABID
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return _CURRENT_INTERFACE
class NetworkInterface(ABIDModel, ModelWithHealthStats):
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"""Audit log entry for a physical network interface / internet connection that was used to do archiving."""
abid_prefix = 'ixf_'
abid_ts_src = 'self.machine.created_at'
abid_uri_src = 'self.machine.guid'
abid_subtype_src = 'self.iface'
abid_rand_src = 'self.id'
abid_drift_allowed = False
id = models.UUIDField(primary_key=True, default=None, null=False, editable=False, unique=True, verbose_name='ID')
abid = ABIDField(prefix=abid_prefix)
created_at = AutoDateTimeField(default=None, null=False, db_index=True)
modified_at = models.DateTimeField(auto_now=True)
machine = models.ForeignKey(Machine, on_delete=models.CASCADE, default=None, null=False) # e.g. Machine(id=...)
# IMMUTABLE PROPERTIES
mac_address = models.CharField(max_length=17, default=None, null=False, editable=False) # e.g. ab:cd:ef:12:34:56
ip_public = models.GenericIPAddressField(default=None, null=False, editable=False) # e.g. 123.123.123.123 or 2001:0db8:85a3:0000:0000:8a2e:0370:7334
ip_local = models.GenericIPAddressField(default=None, null=False, editable=False) # e.g. 192.168.2.18 or 2001:0db8:85a3:0000:0000:8a2e:0370:7334
dns_server = models.GenericIPAddressField(default=None, null=False, editable=False) # e.g. 8.8.8.8 or 2001:0db8:85a3:0000:0000:8a2e:0370:7334
# MUTABLE PROPERTIES
hostname = models.CharField(max_length=63, default=None, null=False) # e.g. somehost.sub.example.com
iface = models.CharField(max_length=15, default=None, null=False) # e.g. en0
isp = models.CharField(max_length=63, default=None, null=False) # e.g. AS-SONICTELECOM
city = models.CharField(max_length=63, default=None, null=False) # e.g. Berkeley
region = models.CharField(max_length=63, default=None, null=False) # e.g. California
country = models.CharField(max_length=63, default=None, null=False) # e.g. United States
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# STATS COUNTERS (inherited from ModelWithHealthStats)
# num_uses_failed = models.PositiveIntegerField(default=0)
# num_uses_succeeded = models.PositiveIntegerField(default=0)
objects: NetworkInterfaceManager = NetworkInterfaceManager()
class Meta:
unique_together = (
# if *any* of these change, it's considered a different interface
# because we might get different downloaded content as a result,
# this forces us to store an audit trail whenever these things change
('machine', 'ip_public', 'ip_local', 'mac_address', 'dns_server'),
)
class InstalledBinaryManager(models.Manager):
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def get_from_db_or_cache(self, binary: Binary) -> 'InstalledBinary':
"""Get or create an InstalledBinary record for a Binary on the local machine"""
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global _CURRENT_BINARIES
cached_binary = _CURRENT_BINARIES.get(binary.name)
if cached_binary:
expires_at = cached_binary.modified_at + timedelta(seconds=INSTALLED_BINARY_RECHECK_INTERVAL)
if timezone.now() < expires_at:
is_loaded = binary.abspath and binary.version and binary.sha256
if is_loaded:
# if the caller took did the (expensive) job of loading the binary from the filesystem already
# then their in-memory version is certainly more up-to-date than any potential cached version
# use this opportunity to invalidate the cache in case if anything has changed
is_different_from_cache = (
binary.abspath != cached_binary.abspath
or binary.version != cached_binary.version
or binary.sha256 != cached_binary.sha256
)
if is_different_from_cache:
_CURRENT_BINARIES.pop(binary.name)
else:
return cached_binary
else:
# if they have not yet loaded the binary
# but our cache is recent enough and not expired, assume cached version is good enough
# it will automatically reload when the cache expires
# cached_binary will be stale/bad for up to 30min if binary was updated/removed on host system
return cached_binary
else:
# cached binary is too old, reload it from scratch
_CURRENT_BINARIES.pop(binary.name)
if not binary.abspath or not binary.version or not binary.sha256:
# if binary was not yet loaded from filesystem, do it now
# this is expensive, we have to find it's abspath, version, and sha256, but it's necessary
# to make sure we have a good, up-to-date record of it in the DB & in-memroy cache
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binary = archivebox.pm.hook.binary_load(binary=binary, fresh=True)
assert binary.loaded_binprovider and binary.loaded_abspath and binary.loaded_version and binary.loaded_sha256, f'Failed to load binary {binary.name} abspath, version, and sha256'
_CURRENT_BINARIES[binary.name], _created = self.update_or_create(
machine=Machine.objects.current(),
name=binary.name,
binprovider=binary.loaded_binprovider.name,
version=str(binary.loaded_version),
abspath=str(binary.loaded_abspath),
sha256=str(binary.loaded_sha256),
)
cached_binary = _CURRENT_BINARIES[binary.name]
cached_binary.save() # populate ABID
# if we get this far make sure DB record matches in-memroy cache
assert str(cached_binary.binprovider) == str(binary.loaded_binprovider.name)
assert str(cached_binary.abspath) == str(binary.loaded_abspath)
assert str(cached_binary.version) == str(binary.loaded_version)
assert str(cached_binary.sha256) == str(binary.loaded_sha256)
return cached_binary
class InstalledBinary(ABIDModel, ModelWithHealthStats):
abid_prefix = 'bin_'
abid_ts_src = 'self.machine.created_at'
abid_uri_src = 'self.machine.guid'
abid_subtype_src = 'self.binprovider'
abid_rand_src = 'self.id'
abid_drift_allowed = False
id = models.UUIDField(primary_key=True, default=None, null=False, editable=False, unique=True, verbose_name='ID')
abid = ABIDField(prefix=abid_prefix)
created_at = AutoDateTimeField(default=None, null=False, db_index=True)
modified_at = models.DateTimeField(auto_now=True)
# IMMUTABLE PROPERTIES
machine = models.ForeignKey(Machine, on_delete=models.CASCADE, default=None, null=False, blank=True)
name = models.CharField(max_length=63, default=None, null=False, blank=True)
binprovider = models.CharField(max_length=31, default=None, null=False, blank=True)
abspath = models.CharField(max_length=255, default=None, null=False, blank=True)
version = models.CharField(max_length=32, default=None, null=False, blank=True)
sha256 = models.CharField(max_length=64, default=None, null=False, blank=True)
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# MUTABLE PROPERTIES (TODO)
# is_pinned = models.BooleanField(default=False) # i.e. should this binary superceede other binaries with the same name on the host?
# is_valid = models.BooleanField(default=True) # i.e. is this binary still available on the host?
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# STATS COUNTERS (inherited from ModelWithHealthStats)
# num_uses_failed = models.PositiveIntegerField(default=0)
# num_uses_succeeded = models.PositiveIntegerField(default=0)
objects: InstalledBinaryManager = InstalledBinaryManager()
class Meta:
verbose_name = 'Installed Binary'
verbose_name_plural = 'Installed Binaries'
unique_together = (
('machine', 'name', 'binprovider', 'abspath', 'version', 'sha256'),
)
def __str__(self) -> str:
return f'{self.name}@{self.binprovider}+{self.abspath}@{self.version}'
def clean(self, *args, **kwargs) -> None:
assert self.name or self.abspath
self.name = str(self.name or self.abspath)
assert self.name
if not hasattr(self, 'machine'):
self.machine = Machine.objects.current()
if not self.binprovider:
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all_known_binproviders = list(abx.as_dict(archivebox.pm.hook.get_BINPROVIDERS()).values())
binary = archivebox.pm.hook.binary_load(binary=Binary(name=self.name, binproviders=all_known_binproviders), fresh=True)
self.binprovider = binary.loaded_binprovider.name if binary.loaded_binprovider else None
if not self.abspath:
self.abspath = self.BINPROVIDER.get_abspath(self.name)
if not self.version:
self.version = self.BINPROVIDER.get_version(self.name, abspath=self.abspath)
if not self.sha256:
self.sha256 = self.BINPROVIDER.get_sha256(self.name, abspath=self.abspath)
super().clean(*args, **kwargs)
@cached_property
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def BINARY(self) -> Binary:
for binary in abx.as_dict(archivebox.pm.hook.get_BINARIES()).values():
if binary.name == self.name:
return binary
raise Exception(f'Orphaned InstalledBinary {self.name} {self.binprovider} was found in DB, could not find any plugin that defines it')
# TODO: we could technically reconstruct it from scratch, but why would we ever want to do that?
@cached_property
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def BINPROVIDER(self) -> BinProvider:
for binprovider in abx.as_dict(archivebox.pm.hook.get_BINPROVIDERS()).values():
if binprovider.name == self.binprovider:
return binprovider
raise Exception(f'Orphaned InstalledBinary(name={self.name}) was found in DB, could not find any plugin that defines BinProvider(name={self.binprovider})')
# maybe not a good idea to provide this? Binary in DB is a record of the binary's config
# whereas a loaded binary is a not-yet saved instance that may not have the same config
# why would we want to load a binary record from the db when it could be freshly loaded?
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def load_from_db(self) -> Binary:
# TODO: implement defaults arg in pydantic_pkgr
# return self.BINARY.load(defaults={
# 'binprovider': self.BINPROVIDER,
# 'abspath': Path(self.abspath),
# 'version': self.version,
# 'sha256': self.sha256,
# })
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return Binary.model_validate({
**self.BINARY.model_dump(),
'abspath': self.abspath and Path(self.abspath),
'version': self.version,
'sha256': self.sha256,
'loaded_binprovider': self.BINPROVIDER,
'binproviders_supported': self.BINARY.binproviders_supported,
'overrides': self.BINARY.overrides,
})
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def load_fresh(self) -> Binary:
return archivebox.pm.hook.binary_load(binary=self.BINARY, fresh=True)