quay/test/test_gc.py

import unittest
import time
import hashlib

from contextlib import contextmanager
from playhouse.test_utils import assert_query_count

from app import app, storage
from initdb import setup_database_for_testing, finished_database_for_testing
from data import model, database
from data.database import Image, ImageStorage, DerivedStorageForImage, Label, TagManifestLabel, Blob


ADMIN_ACCESS_USER = 'devtable'
PUBLIC_USER = 'public'

REPO = 'somerepo'


class TestGarbageCollection(unittest.TestCase):
  @staticmethod
  def _set_tag_expiration_policy(namespace, expiration_s):
    namespace_user = model.user.get_user(namespace)
    model.user.change_user_tag_expiration(namespace_user, expiration_s)

  def setUp(self):
    setup_database_for_testing(self)

    self._set_tag_expiration_policy(ADMIN_ACCESS_USER, 0)
    self._set_tag_expiration_policy(PUBLIC_USER, 0)

    self.app = app.test_client()
    self.ctx = app.test_request_context()
    self.ctx.__enter__()

  def tearDown(self):
    finished_database_for_testing(self)
    self.ctx.__exit__(True, None, None)

  @staticmethod
  def createImage(docker_image_id, repository_obj, username):
    preferred = storage.preferred_locations[0]
    image = model.image.find_create_or_link_image(docker_image_id, repository_obj, username, {},
                                                  preferred)
    image.storage.uploading = False
    image.storage.save()

    # Create derived images as well.
    model.image.find_or_create_derived_storage(image, 'squash', preferred)
    model.image.find_or_create_derived_storage(image, 'aci', preferred)

    # Add some torrent info.
    try:
      database.TorrentInfo.get(storage=image.storage)
    except database.TorrentInfo.DoesNotExist:
      model.storage.save_torrent_info(image.storage, 1, 'helloworld')

    # Add some additional placements to the image.
    for location_name in ['local_eu']:
      location = database.ImageStorageLocation.get(name=location_name)

      try:
        database.ImageStoragePlacement.get(location=location, storage=image.storage)
      except:
        continue

      database.ImageStoragePlacement.create(location=location, storage=image.storage)

    return image.storage

  def createRepository(self, namespace=ADMIN_ACCESS_USER, name=REPO, **kwargs):
    user = model.user.get_user(namespace)
    repo = model.repository.create_repository(namespace, name, user)

    # Populate the repository with the tags.
    image_map = {}
    for tag_name in kwargs:
      image_ids = kwargs[tag_name]
      parent = None

      for image_id in image_ids:
        if not image_id in image_map:
          image_map[image_id] = self.createImage(image_id, repo, namespace)

        v1_metadata = {
          'id': image_id,
        }
        if parent is not None:
          v1_metadata['parent'] = parent.docker_image_id

        # Set the ancestors for the image.
        parent = model.image.set_image_metadata(image_id, namespace, name, '', '', '', v1_metadata,
                                                parent=parent)

      # Set the tag for the image.
      tag_manifest, _ = model.tag.store_tag_manifest(namespace, name, tag_name, image_ids[-1],
                                                     'sha:someshahere', '{}')

      # Add some labels to the tag.
      model.label.create_manifest_label(tag_manifest, 'foo', 'bar', 'manifest')
      model.label.create_manifest_label(tag_manifest, 'meh', 'grah', 'manifest')

    return repo

  def gcNow(self, repository):
    self.assertTrue(model.repository.garbage_collect_repo(repository))

  def deleteTag(self, repository, tag, perform_gc=True):
    model.tag.delete_tag(repository.namespace_user.username, repository.name, tag)
    if perform_gc:
      self.assertTrue(model.repository.garbage_collect_repo(repository))

  def moveTag(self, repository, tag, docker_image_id):
    model.tag.create_or_update_tag(repository.namespace_user.username, repository.name, tag,
                                   docker_image_id)
    self.assertTrue(model.repository.garbage_collect_repo(repository))

  def assertNotDeleted(self, repository, *args):
    for docker_image_id in args:
      self.assertTrue(bool(model.image.get_image_by_id(repository.namespace_user.username,
                                                       repository.name, docker_image_id)))

  def assertDeleted(self, repository, *args):
    for docker_image_id in args:
      try:
        # Verify the image is missing when accessed by the repository.
        model.image.get_image_by_id(repository.namespace_user.username, repository.name,
                                    docker_image_id)
      except model.DataModelException:
        return

      self.fail('Expected image %s to be deleted' % docker_image_id)

  @staticmethod
  def _get_dangling_storage_count():
    storage_ids = set([current.id for current in ImageStorage.select()])
    referenced_by_image = set([image.storage_id for image in Image.select()])
    referenced_by_derived = set([derived.derivative_id
                                 for derived in DerivedStorageForImage.select()])

    return len(storage_ids - referenced_by_image - referenced_by_derived)

  @staticmethod
  def _get_dangling_label_count():
    label_ids = set([current.id for current in Label.select()])
    referenced_by_manifest = set([mlabel.label_id for mlabel in TagManifestLabel.select()])
    return len(label_ids - referenced_by_manifest)

  @contextmanager
  def assert_gc_integrity(self, expect_storage_removed=True):
    """ Specialized assertion for ensuring that GC cleans up all dangling storages
        and labels, invokes the callback for images removed and doesn't invoke the
        callback for images *not* removed.
    """
    # TODO: Consider also asserting the number of DB queries being performed.

    # Add a callback for when images are removed.
    removed_image_storages = []
    model.config.register_image_cleanup_callback(removed_image_storages.extend)

    # Store the number of dangling storages and labels.
    existing_storage_count = self._get_dangling_storage_count()
    existing_label_count = self._get_dangling_label_count()
    yield

    # Ensure the number of dangling storages and labels has not changed.
    updated_storage_count = self._get_dangling_storage_count()
    self.assertEqual(updated_storage_count, existing_storage_count)

    updated_label_count = self._get_dangling_label_count()
    self.assertEqual(updated_label_count, existing_label_count)

    # Ensure that for each call to the image+storage cleanup callback, the image and its
    # storage is not found *anywhere* in the database.
    for removed_image_and_storage in removed_image_storages:
      with self.assertRaises(Image.DoesNotExist):
        Image.get(id=removed_image_and_storage.id)

      with self.assertRaises(ImageStorage.DoesNotExist):
        ImageStorage.get(id=removed_image_and_storage.storage_id)

      with self.assertRaises(ImageStorage.DoesNotExist):
        ImageStorage.get(uuid=removed_image_and_storage.storage.uuid)

    self.assertEquals(expect_storage_removed, bool(removed_image_storages))

    # Ensure all CAS storage is in the storage engine.
    preferred = storage.preferred_locations[0]
    for storage_row in ImageStorage.select():
      if storage_row.cas_path:
        storage.get_content({preferred}, storage.blob_path(storage_row.content_checksum))

    for blob_row in Blob.select():
        storage.get_content({preferred}, storage.blob_path(blob_row.digest))

  def test_has_garbage(self):
    """ Remove all existing repositories, then add one without garbage, check, then add one with
        garbage, and check again.
    """
    # Delete all existing repos.
    for repo in database.Repository.select().order_by(database.Repository.id):
      self.assertTrue(model.repository.purge_repository(repo.namespace_user.username, repo.name))

    # Change the time machine expiration on the namespace.
    (database.User
     .update(removed_tag_expiration_s=1000000000)
     .where(database.User.username == ADMIN_ACCESS_USER)
     .execute())

    # Create a repository without any garbage.
    repository = self.createRepository(latest=['i1', 'i2', 'i3'])

    # Ensure that no repositories are returned by the has garbage check.
    self.assertIsNone(model.repository.find_repository_with_garbage(1000000000))

    # Delete a tag.
    self.deleteTag(repository, 'latest', perform_gc=False)

    # There should still not be any repositories with garbage, due to time machine.
    self.assertIsNone(model.repository.find_repository_with_garbage(1000000000))

    # Change the time machine expiration on the namespace.
    (database.User
     .update(removed_tag_expiration_s=0)
     .where(database.User.username == ADMIN_ACCESS_USER)
     .execute())

    # Now we should find the repository for GC.
    repository = model.repository.find_repository_with_garbage(0)
    self.assertIsNotNone(repository)
    self.assertEquals(REPO, repository.name)

    # GC the repository.
    self.assertTrue(model.repository.garbage_collect_repo(repository))

    # There should now be no repositories with garbage.
    self.assertIsNone(model.repository.find_repository_with_garbage(0))

  def test_find_garbage_policy_functions(self):
    with assert_query_count(1):
      one_policy = model.repository.get_random_gc_policy()
      all_policies = model.repository._get_gc_expiration_policies()
    self.assertIn(one_policy, all_policies)

  def test_one_tag(self):
    """ Create a repository with a single tag, then remove that tag and verify that the repository
        is now empty. """
    with self.assert_gc_integrity():
      repository = self.createRepository(latest=['i1', 'i2', 'i3'])
      self.deleteTag(repository, 'latest')
      self.assertDeleted(repository, 'i1', 'i2', 'i3')

  def test_two_tags_unshared_images(self):
    """ Repository has two tags with no shared images between them. """
    with self.assert_gc_integrity():
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['f1', 'f2'])
      self.deleteTag(repository, 'latest')
      self.assertDeleted(repository, 'i1', 'i2', 'i3')
      self.assertNotDeleted(repository, 'f1', 'f2')

  def test_two_tags_shared_images(self):
    """ Repository has two tags with shared images. Deleting the tag should only remove the
        unshared images.
    """
    with self.assert_gc_integrity():
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['i1', 'f1'])
      self.deleteTag(repository, 'latest')
      self.assertDeleted(repository, 'i2', 'i3')
      self.assertNotDeleted(repository, 'i1', 'f1')

  def test_unrelated_repositories(self):
    """ Two repositories with different images. Removing the tag from one leaves the other's
        images intact.
    """
    with self.assert_gc_integrity():
      repository1 = self.createRepository(latest=['i1', 'i2', 'i3'], name='repo1')
      repository2 = self.createRepository(latest=['j1', 'j2', 'j3'], name='repo2')

      self.deleteTag(repository1, 'latest')

      self.assertDeleted(repository1, 'i1', 'i2', 'i3')
      self.assertNotDeleted(repository2, 'j1', 'j2', 'j3')

  def test_related_repositories(self):
    """ Two repositories with shared images. Removing the tag from one leaves the other's
        images intact.
    """
    with self.assert_gc_integrity():
      repository1 = self.createRepository(latest=['i1', 'i2', 'i3'], name='repo1')
      repository2 = self.createRepository(latest=['i1', 'i2', 'j1'], name='repo2')

      self.deleteTag(repository1, 'latest')

      self.assertDeleted(repository1, 'i3')
      self.assertNotDeleted(repository2, 'i1', 'i2', 'j1')

  def test_inaccessible_repositories(self):
    """ Two repositories under different namespaces should result in the images being deleted
        but not completely removed from the database.
    """
    with self.assert_gc_integrity():
      repository1 = self.createRepository(namespace=ADMIN_ACCESS_USER, latest=['i1', 'i2', 'i3'])
      repository2 = self.createRepository(namespace=PUBLIC_USER, latest=['i1', 'i2', 'i3'])

      self.deleteTag(repository1, 'latest')
      self.assertDeleted(repository1, 'i1', 'i2', 'i3')
      self.assertNotDeleted(repository2, 'i1', 'i2', 'i3')

  def test_multiple_shared_images(self):
    """ Repository has multiple tags with shared images. Selectively deleting the tags, and
        verifying at each step.
    """
    with self.assert_gc_integrity():
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['i1', 'f1', 'f2'],
                                         third=['t1', 't2', 't3'], fourth=['i1', 'f1'])

      # Current state:
      # latest -> i3->i2->i1
      # other -> f2->f1->i1
      # third -> t3->t2->t1
      # fourth -> f1->i1

      # Delete tag other. Should delete f2, since it is not shared.
      self.deleteTag(repository, 'other')
      self.assertDeleted(repository, 'f2')
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3', 't1', 't2', 't3', 'f1')

      # Current state:
      # latest -> i3->i2->i1
      # third -> t3->t2->t1
      # fourth -> f1->i1

      # Move tag fourth to i3. This should remove f1 since it is no longer referenced.
      self.moveTag(repository, 'fourth', 'i3')
      self.assertDeleted(repository, 'f1')
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3', 't1', 't2', 't3')

      # Current state:
      # latest -> i3->i2->i1
      # third -> t3->t2->t1
      # fourth -> i3->i2->i1

      # Delete tag 'latest'. This should do nothing since fourth is on the same branch.
      self.deleteTag(repository, 'latest')
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3', 't1', 't2', 't3')

      # Current state:
      # third -> t3->t2->t1
      # fourth -> i3->i2->i1

      # Delete tag 'third'. This should remove t1->t3.
      self.deleteTag(repository, 'third')
      self.assertDeleted(repository, 't1', 't2', 't3')
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3')

      # Current state:
      # fourth -> i3->i2->i1

      # Add tag to i1.
      self.moveTag(repository, 'newtag', 'i1')
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3')

      # Current state:
      # fourth -> i3->i2->i1
      # newtag -> i1

      # Delete tag 'fourth'. This should remove i2 and i3.
      self.deleteTag(repository, 'fourth')
      self.assertDeleted(repository, 'i2', 'i3')
      self.assertNotDeleted(repository, 'i1')

      # Current state:
      # newtag -> i1

      # Delete tag 'newtag'. This should remove the remaining image.
      self.deleteTag(repository, 'newtag')
      self.assertDeleted(repository, 'i1')

      # Current state:
      # (Empty)

  def test_empty_gc(self):
    with self.assert_gc_integrity(expect_storage_removed=False):
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['i1', 'f1', 'f2'],
                                         third=['t1', 't2', 't3'], fourth=['i1', 'f1'])

      self.gcNow(repository)
      self.assertNotDeleted(repository, 'i1', 'i2', 'i3', 't1', 't2', 't3', 'f1', 'f2')

  def test_time_machine_no_gc(self):
    """ Repository has two tags with shared images. Deleting the tag should not remove any images
    """
    with self.assert_gc_integrity(expect_storage_removed=False):
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['i1', 'f1'])
      self._set_tag_expiration_policy(repository.namespace_user.username, 60*60*24)

      self.deleteTag(repository, 'latest')
      self.assertNotDeleted(repository, 'i2', 'i3')
      self.assertNotDeleted(repository, 'i1', 'f1')

  def test_time_machine_gc(self):
    """ Repository has two tags with shared images. Deleting the second tag should cause the images
        for the first deleted tag to gc.
    """
    with self.assert_gc_integrity():
      repository = self.createRepository(latest=['i1', 'i2', 'i3'], other=['i1', 'f1'])

      self._set_tag_expiration_policy(repository.namespace_user.username, 1)

      self.deleteTag(repository, 'latest')
      self.assertNotDeleted(repository, 'i2', 'i3')
      self.assertNotDeleted(repository, 'i1', 'f1')

      time.sleep(2)

      self.deleteTag(repository, 'other')  # This will cause the images associated with latest to gc
      self.assertDeleted(repository, 'i2', 'i3')
      self.assertNotDeleted(repository, 'i1', 'f1')

  def test_images_shared_storage(self):
    """ Repository with two tags, both with the same shared storage. Deleting the first
        tag should delete the first image, but *not* its storage.
    """
    with self.assert_gc_integrity(expect_storage_removed=False):
      repository = self.createRepository()

      # Add two tags, each with their own image, but with the same storage.
      image_storage = model.storage.create_v1_storage(storage.preferred_locations[0])

      first_image = Image.create(docker_image_id='i1',
                                 repository=repository, storage=image_storage,
                                 ancestors='/')

      second_image = Image.create(docker_image_id='i2',
                                  repository=repository, storage=image_storage,
                                  ancestors='/')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'first', first_image.docker_image_id,
                                   'sha:someshahere', '{}')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'second', second_image.docker_image_id,
                                   'sha:someshahere', '{}')

      # Delete the first tag.
      self.deleteTag(repository, 'first')
      self.assertDeleted(repository, 'i1')
      self.assertNotDeleted(repository, 'i2')

  def test_image_with_cas(self):
    """ A repository with a tag pointing to an image backed by CAS. Deleting and GCing the tag
        should result in the storage and its CAS data being removed.
    """
    with self.assert_gc_integrity(expect_storage_removed=True):
      repository = self.createRepository()

      # Create an image storage record under CAS.
      content = 'hello world'
      digest = 'sha256:' + hashlib.sha256(content).hexdigest()
      preferred = storage.preferred_locations[0]
      storage.put_content({preferred}, storage.blob_path(digest), content)

      image_storage = database.ImageStorage.create(content_checksum=digest, uploading=False)
      location = database.ImageStorageLocation.get(name=preferred)
      database.ImageStoragePlacement.create(location=location, storage=image_storage)

      # Ensure the CAS path exists.
      self.assertTrue(storage.exists({preferred}, storage.blob_path(digest)))

      # Create the image and the tag.
      first_image = Image.create(docker_image_id='i1',
                                 repository=repository, storage=image_storage,
                                 ancestors='/')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'first', first_image.docker_image_id,
                                   'sha:someshahere1', '{}')

      self.assertNotDeleted(repository, 'i1')

      # Delete the tag.
      self.deleteTag(repository, 'first')
      self.assertDeleted(repository, 'i1')

      # Ensure the CAS path is gone.
      self.assertFalse(storage.exists({preferred}, storage.blob_path(digest)))

  def test_images_shared_cas(self):
    """ A repository, each two tags, pointing to the same image, which has image storage
        with the same *CAS path*, but *distinct records*. Deleting the first tag should delete the
        first image, and its storage, but not the file in storage, as it shares its CAS path.
    """
    with self.assert_gc_integrity(expect_storage_removed=True):
      repository = self.createRepository()

      # Create two image storage records with the same content checksum.
      content = 'hello world'
      digest = 'sha256:' + hashlib.sha256(content).hexdigest()
      preferred = storage.preferred_locations[0]
      storage.put_content({preferred}, storage.blob_path(digest), content)

      is1 = database.ImageStorage.create(content_checksum=digest, uploading=False)
      is2 = database.ImageStorage.create(content_checksum=digest, uploading=False)

      location = database.ImageStorageLocation.get(name=preferred)

      database.ImageStoragePlacement.create(location=location, storage=is1)
      database.ImageStoragePlacement.create(location=location, storage=is2)

      # Ensure the CAS path exists.
      self.assertTrue(storage.exists({preferred}, storage.blob_path(digest)))

      # Create two images in the repository, and two tags, each pointing to one of the storages.
      first_image = Image.create(docker_image_id='i1',
                                 repository=repository, storage=is1,
                                 ancestors='/')

      second_image = Image.create(docker_image_id='i2',
                                  repository=repository, storage=is2,
                                  ancestors='/')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'first', first_image.docker_image_id,
                                   'sha:someshahere1', '{}')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'second', second_image.docker_image_id,
                                   'sha:someshahere2', '{}')

      self.assertNotDeleted(repository, 'i1', 'i2')

      # Delete the first tag.
      self.deleteTag(repository, 'first')
      self.assertDeleted(repository, 'i1')
      self.assertNotDeleted(repository, 'i2')

      # Ensure the CAS path still exists.
      self.assertTrue(storage.exists({preferred}, storage.blob_path(digest)))

  def test_images_shared_cas_with_new_blob_table(self):
    """ A repository with a tag and image that shares its CAS path with a record in the new Blob
        table. Deleting the first tag should delete the first image, and its storage, but not the
        file in storage, as it shares its CAS path with the blob row.
    """
    with self.assert_gc_integrity(expect_storage_removed=True):
      repository = self.createRepository()

      # Create two image storage records with the same content checksum.
      content = 'hello world'
      digest = 'sha256:' + hashlib.sha256(content).hexdigest()
      preferred = storage.preferred_locations[0]
      storage.put_content({preferred}, storage.blob_path(digest), content)

      media_type = database.MediaType.get(name='text/plain')

      is1 = database.ImageStorage.create(content_checksum=digest, uploading=False)
      is2 = database.Blob.create(digest=digest, size=0, media_type=media_type)

      location = database.ImageStorageLocation.get(name=preferred)
      database.ImageStoragePlacement.create(location=location, storage=is1)

      # Ensure the CAS path exists.
      self.assertTrue(storage.exists({preferred}, storage.blob_path(digest)))

      # Create the image in the repository, and the tag.
      first_image = Image.create(docker_image_id='i1',
                                 repository=repository, storage=is1,
                                 ancestors='/')

      model.tag.store_tag_manifest(repository.namespace_user.username, repository.name,
                                   'first', first_image.docker_image_id,
                                   'sha:someshahere1', '{}')

      self.assertNotDeleted(repository, 'i1')

      # Delete the tag.
      self.deleteTag(repository, 'first')
      self.assertDeleted(repository, 'i1')

      # Ensure the CAS path still exists, as it is referenced by the Blob table.
      self.assertTrue(storage.exists({preferred}, storage.blob_path(digest)))

if __name__ == '__main__':
  unittest.main()