diff --git a/swh/objstorage/api/client.py b/swh/objstorage/api/client.py index a816493..c9bd50c 100644 --- a/swh/objstorage/api/client.py +++ b/swh/objstorage/api/client.py @@ -1,43 +1,43 @@ # Copyright (C) 2015-2022 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information from swh.core.api import RPCClient from swh.core.utils import iter_chunks from swh.model import hashutil from swh.objstorage.exc import Error, ObjNotFoundError, ObjStorageAPIError from swh.objstorage.interface import ObjStorageInterface from swh.objstorage.objstorage import DEFAULT_LIMIT, ID_DIGEST_LENGTH class RemoteObjStorage(RPCClient): """Proxy to a remote object storage. This class allows to connect to an object storage server via http protocol. Attributes: url (string): The url of the server to connect. Must end with a '/' session: The session to send requests. """ api_exception = ObjStorageAPIError reraise_exceptions = [ObjNotFoundError, Error] backend_class = ObjStorageInterface - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): return self.add(content, obj_id, check_presence=False) def __iter__(self): yield from self.list_content() def list_content(self, last_obj_id=None, limit=DEFAULT_LIMIT): params = {"limit": limit} if last_obj_id: params["last_obj_id"] = hashutil.hash_to_hex(last_obj_id) yield from iter_chunks( self._get_stream("content", params=params), chunk_size=ID_DIGEST_LENGTH ) diff --git a/swh/objstorage/backends/azure.py b/swh/objstorage/backends/azure.py index ca4b786..0479a7b 100644 --- a/swh/objstorage/backends/azure.py +++ b/swh/objstorage/backends/azure.py @@ -1,415 +1,411 @@ # Copyright (C) 2016-2021 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import asyncio import contextlib import datetime from itertools import product import string from typing import Dict, Optional, Union import warnings from azure.core.exceptions import ResourceExistsError, ResourceNotFoundError from azure.storage.blob import ( ContainerClient, ContainerSasPermissions, generate_container_sas, ) from azure.storage.blob.aio import ContainerClient as AsyncContainerClient from swh.model import hashutil from swh.objstorage.exc import Error, ObjNotFoundError from swh.objstorage.objstorage import ( ObjStorage, compressors, compute_hash, decompressors, ) from swh.objstorage.utils import call_async def get_container_url( account_name: str, account_key: str, container_name: str, access_policy: str = "read_only", expiry: datetime.timedelta = datetime.timedelta(days=365), **kwargs, ) -> str: """Get the full url, for the given container on the given account, with a Shared Access Signature granting the specified access policy. Args: account_name: name of the storage account for which to generate the URL account_key: shared account key of the storage account used to generate the SAS container_name: name of the container for which to grant access in the storage account access_policy: one of ``read_only``, ``append_only``, ``full`` expiry: the interval in the future with which the signature will expire Returns: the full URL of the container, with the shared access signature. """ access_policies = { "read_only": ContainerSasPermissions( read=True, list=True, delete=False, write=False ), "append_only": ContainerSasPermissions( read=True, list=True, delete=False, write=True ), "full": ContainerSasPermissions(read=True, list=True, delete=True, write=True), } current_time = datetime.datetime.utcnow() signature = generate_container_sas( account_name, container_name, account_key=account_key, permission=access_policies[access_policy], start=current_time + datetime.timedelta(minutes=-1), expiry=current_time + expiry, ) return f"https://{account_name}.blob.core.windows.net/{container_name}?{signature}" class AzureCloudObjStorage(ObjStorage): """ObjStorage backend for Azure blob storage accounts. Args: container_url: the URL of the container in which the objects are stored. account_name: (deprecated) the name of the storage account under which objects are stored api_secret_key: (deprecated) the shared account key container_name: (deprecated) the name of the container under which objects are stored compression: the compression algorithm used to compress objects in storage Notes: The container url should contain the credentials via a "Shared Access Signature". The :func:`get_container_url` helper can be used to generate such a URL from the account's access keys. The ``account_name``, ``api_secret_key`` and ``container_name`` arguments are deprecated. """ def __init__( self, container_url: Optional[str] = None, account_name: Optional[str] = None, api_secret_key: Optional[str] = None, container_name: Optional[str] = None, compression="gzip", **kwargs, ): if container_url is None: if account_name is None or api_secret_key is None or container_name is None: raise ValueError( "AzureCloudObjStorage must have a container_url or all three " "account_name, api_secret_key and container_name" ) else: warnings.warn( "The Azure objstorage account secret key parameters are " "deprecated, please use container URLs instead.", DeprecationWarning, ) container_url = get_container_url( account_name=account_name, account_key=api_secret_key, container_name=container_name, access_policy="full", ) super().__init__(**kwargs) self.container_url = container_url self.compression = compression def get_container_client(self, hex_obj_id): """Get the container client for the container that contains the object with internal id hex_obj_id This is used to allow the PrefixedAzureCloudObjStorage to dispatch the client according to the prefix of the object id. """ return ContainerClient.from_container_url(self.container_url) @contextlib.asynccontextmanager async def get_async_container_clients(self): """Returns a collection of container clients, to be passed to ``get_async_blob_client``. Each container may not be used in more than one asyncio loop.""" client = AsyncContainerClient.from_container_url(self.container_url) async with client: yield {"": client} def get_blob_client(self, hex_obj_id): """Get the azure blob client for the given hex obj id""" container_client = self.get_container_client(hex_obj_id) return container_client.get_blob_client(blob=hex_obj_id) def get_async_blob_client(self, hex_obj_id, container_clients): """Get the azure blob client for the given hex obj id and a collection yielded by ``get_async_container_clients``.""" return container_clients[""].get_blob_client(blob=hex_obj_id) def get_all_container_clients(self): """Get all active block_blob_services""" yield self.get_container_client("") def _internal_id(self, obj_id): """Internal id is the hex version in objstorage.""" return hashutil.hash_to_hex(obj_id) def check_config(self, *, check_write): """Check the configuration for this object storage""" for container_client in self.get_all_container_clients(): props = container_client.get_container_properties() # FIXME: check_write is ignored here if not props: return False return True def __contains__(self, obj_id): """Does the storage contains the obj_id.""" hex_obj_id = self._internal_id(obj_id) client = self.get_blob_client(hex_obj_id) try: client.get_blob_properties() except ResourceNotFoundError: return False else: return True def __iter__(self): """Iterate over the objects present in the storage.""" for client in self.get_all_container_clients(): for obj in client.list_blobs(): yield hashutil.hash_to_bytes(obj.name) def __len__(self): """Compute the number of objects in the current object storage. Returns: number of objects contained in the storage. """ return sum(1 for i in self) def add(self, content, obj_id, check_presence=True): """Add an obj in storage if it's not there already.""" if check_presence and obj_id in self: return obj_id hex_obj_id = self._internal_id(obj_id) # Send the compressed content compressor = compressors[self.compression]() data = compressor.compress(content) data += compressor.flush() client = self.get_blob_client(hex_obj_id) try: client.upload_blob(data=data, length=len(data)) except ResourceExistsError: # There's a race condition between check_presence and upload_blob, # that we can't get rid of as the azure api doesn't allow atomic # replaces or renaming a blob. As the restore operation explicitly # removes the blob, it should be safe to just ignore the error. pass return obj_id - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): """Restore a content.""" - if obj_id is None: - # Checksum is missing, compute it on the fly. - obj_id = compute_hash(content) - if obj_id in self: self.delete(obj_id) return self.add(content, obj_id, check_presence=False) def get(self, obj_id): """retrieve blob's content if found.""" return call_async(self._get_async, obj_id) async def _get_async(self, obj_id, container_clients=None): """Coroutine implementing ``get(obj_id)`` using azure-storage-blob's asynchronous implementation. While ``get(obj_id)`` does not need asynchronicity, this is useful to ``get_batch(obj_ids)``, as it can run multiple ``_get_async`` tasks concurrently.""" if container_clients is None: # If the container_clients argument is not passed, create a new # collection of container_clients and restart the function with it. async with self.get_async_container_clients() as container_clients: return await self._get_async(obj_id, container_clients) hex_obj_id = self._internal_id(obj_id) client = self.get_async_blob_client(hex_obj_id, container_clients) try: download = await client.download_blob() except ResourceNotFoundError: raise ObjNotFoundError(obj_id) from None else: data = await download.content_as_bytes() decompressor = decompressors[self.compression]() ret = decompressor.decompress(data) if decompressor.unused_data: raise Error("Corrupt object %s: trailing data found" % hex_obj_id) return ret async def _get_async_or_none(self, obj_id, container_clients): """Like ``get_async(obj_id)``, but returns None instead of raising ResourceNotFoundError. Used by ``get_batch`` so other blobs can be returned even if one is missing.""" try: return await self._get_async(obj_id, container_clients) except ObjNotFoundError: return None async def _get_batch_async(self, obj_ids): async with self.get_async_container_clients() as container_clients: return await asyncio.gather( *[ self._get_async_or_none(obj_id, container_clients) for obj_id in obj_ids ] ) def get_batch(self, obj_ids): """Retrieve objects' raw content in bulk from storage, concurrently.""" return call_async(self._get_batch_async, obj_ids) def check(self, obj_id): """Check the content integrity.""" obj_content = self.get(obj_id) content_obj_id = compute_hash(obj_content) if content_obj_id != obj_id: raise Error(obj_id) def delete(self, obj_id): """Delete an object.""" super().delete(obj_id) # Check delete permission hex_obj_id = self._internal_id(obj_id) client = self.get_blob_client(hex_obj_id) try: client.delete_blob() except ResourceNotFoundError: raise ObjNotFoundError(obj_id) from None return True class PrefixedAzureCloudObjStorage(AzureCloudObjStorage): """ObjStorage with azure capabilities, striped by prefix. accounts is a dict containing entries of the form: : """ def __init__( self, accounts: Dict[str, Union[str, Dict[str, str]]], compression="gzip", **kwargs, ): # shortcut AzureCloudObjStorage __init__ ObjStorage.__init__(self, **kwargs) self.compression = compression # Definition sanity check prefix_lengths = set(len(prefix) for prefix in accounts) if not len(prefix_lengths) == 1: raise ValueError( "Inconsistent prefixes, found lengths %s" % ", ".join(str(lst) for lst in sorted(prefix_lengths)) ) self.prefix_len = prefix_lengths.pop() expected_prefixes = set( "".join(letters) for letters in product( set(string.hexdigits.lower()), repeat=self.prefix_len ) ) missing_prefixes = expected_prefixes - set(accounts) if missing_prefixes: raise ValueError( "Missing prefixes %s" % ", ".join(sorted(missing_prefixes)) ) do_warning = False self.container_urls = {} for prefix, container_url in accounts.items(): if isinstance(container_url, dict): do_warning = True container_url = get_container_url( account_name=container_url["account_name"], account_key=container_url["api_secret_key"], container_name=container_url["container_name"], access_policy="full", ) self.container_urls[prefix] = container_url if do_warning: warnings.warn( "The Azure objstorage account secret key parameters are " "deprecated, please use container URLs instead.", DeprecationWarning, ) def get_container_client(self, hex_obj_id): """Get the block_blob_service and container that contains the object with internal id hex_obj_id """ prefix = hex_obj_id[: self.prefix_len] return ContainerClient.from_container_url(self.container_urls[prefix]) @contextlib.asynccontextmanager async def get_async_container_clients(self): # This is equivalent to: # client1 = AsyncContainerClient.from_container_url(url1) # ... # client16 = AsyncContainerClient.from_container_url(url16) # async with client1, ..., client16: # yield {prefix1: client1, ..., prefix16: client16} clients = { prefix: AsyncContainerClient.from_container_url(url) for (prefix, url) in self.container_urls.items() } async with contextlib.AsyncExitStack() as stack: for client in clients.values(): await stack.enter_async_context(client) yield clients def get_async_blob_client(self, hex_obj_id, container_clients): """Get the azure blob client for the given hex obj id and a collection yielded by ``get_async_container_clients``.""" prefix = hex_obj_id[: self.prefix_len] return container_clients[prefix].get_blob_client(blob=hex_obj_id) def get_all_container_clients(self): """Get all active container clients""" # iterate on items() to sort blob services; # needed to be able to paginate in the list_content() method yield from ( self.get_container_client(prefix) for prefix in sorted(self.container_urls) ) diff --git a/swh/objstorage/backends/http.py b/swh/objstorage/backends/http.py index 8bef36d..dd29920 100644 --- a/swh/objstorage/backends/http.py +++ b/swh/objstorage/backends/http.py @@ -1,92 +1,92 @@ # Copyright (C) 2021 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import logging from urllib.parse import urljoin import requests from swh.model import hashutil from swh.objstorage import exc from swh.objstorage.objstorage import ( DEFAULT_LIMIT, ObjStorage, compute_hash, decompressors, ) LOGGER = logging.getLogger(__name__) LOGGER.setLevel(logging.ERROR) class HTTPReadOnlyObjStorage(ObjStorage): """Simple ObjStorage retrieving objects from an HTTP server. For example, can be used to retrieve objects from S3: objstorage: cls: http url: https://softwareheritage.s3.amazonaws.com/content/ """ def __init__(self, url=None, compression=None, **kwargs): super().__init__(**kwargs) self.session = requests.sessions.Session() self.root_path = url if not self.root_path.endswith("/"): self.root_path += "/" self.compression = compression def check_config(self, *, check_write): """Check the configuration for this object storage""" return True def __contains__(self, obj_id): resp = self.session.head(self._path(obj_id)) return resp.status_code == 200 def __iter__(self): raise exc.NonIterableObjStorage("__iter__") def __len__(self): raise exc.NonIterableObjStorage("__len__") def add(self, content, obj_id, check_presence=True): raise exc.ReadOnlyObjStorage("add") def delete(self, obj_id): raise exc.ReadOnlyObjStorage("delete") - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): raise exc.ReadOnlyObjStorage("restore") def list_content(self, last_obj_id=None, limit=DEFAULT_LIMIT): raise exc.NonIterableObjStorage("__len__") def get(self, obj_id): try: resp = self.session.get(self._path(obj_id)) resp.raise_for_status() except Exception: raise exc.ObjNotFoundError(obj_id) ret: bytes = resp.content if self.compression: d = decompressors[self.compression]() ret = d.decompress(ret) if d.unused_data: hex_obj_id = hashutil.hash_to_hex(obj_id) raise exc.Error("Corrupt object %s: trailing data found" % hex_obj_id) return ret def check(self, obj_id): # Check the content integrity obj_content = self.get(obj_id) content_obj_id = compute_hash(obj_content) if content_obj_id != obj_id: raise exc.Error(obj_id) def _path(self, obj_id): return urljoin(self.root_path, hashutil.hash_to_hex(obj_id)) diff --git a/swh/objstorage/backends/libcloud.py b/swh/objstorage/backends/libcloud.py index 34ea172..2c28719 100644 --- a/swh/objstorage/backends/libcloud.py +++ b/swh/objstorage/backends/libcloud.py @@ -1,251 +1,251 @@ # Copyright (C) 2016-2017 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import abc from collections import OrderedDict from collections.abc import Iterator from typing import Optional from urllib.parse import urlencode from libcloud.storage import providers import libcloud.storage.drivers.s3 from libcloud.storage.types import ObjectDoesNotExistError, Provider from swh.model import hashutil from swh.objstorage.exc import Error, ObjNotFoundError from swh.objstorage.objstorage import ( ObjStorage, compressors, compute_hash, decompressors, ) def patch_libcloud_s3_urlencode(): """Patches libcloud's S3 backend to properly sign queries. Recent versions of libcloud are not affected (they use signature V4), but 1.5.0 (the one in Debian 9) is.""" def s3_urlencode(params): """Like urllib.parse.urlencode, but sorts the parameters first. This is required to properly compute the request signature, see https://docs.aws.amazon.com/AmazonS3/latest/dev/RESTAuthentication.html#ConstructingTheCanonicalizedResourceElement """ # noqa return urlencode(OrderedDict(sorted(params.items()))) libcloud.storage.drivers.s3.urlencode = s3_urlencode patch_libcloud_s3_urlencode() class CloudObjStorage(ObjStorage, metaclass=abc.ABCMeta): """Abstract ObjStorage that connect to a cloud using Libcloud Implementations of this class must redefine the _get_provider method to make it return a driver provider (i.e. object that supports `get_driver` method) which return a LibCloud driver (see https://libcloud.readthedocs.io/en/latest/storage/api.html). Args: container_name: Name of the base container path_prefix: prefix to prepend to object paths in the container, separated with a slash compression: compression algorithm to use for objects kwargs: extra arguments are passed through to the LibCloud driver """ def __init__( self, container_name: str, compression: Optional[str] = None, path_prefix: Optional[str] = None, **kwargs, ): super().__init__(**kwargs) self.driver = self._get_driver(**kwargs) self.container_name = container_name self.container = self.driver.get_container(container_name=container_name) self.compression = compression self.path_prefix = None if path_prefix: self.path_prefix = path_prefix.rstrip("/") + "/" def _get_driver(self, **kwargs): """Initialize a driver to communicate with the cloud Kwargs: arguments passed to the StorageDriver class, typically key: key to connect to the API. secret: secret key for authentication. secure: (bool) support HTTPS host: (str) port: (int) api_version: (str) region: (str) Returns: a Libcloud driver to a cloud storage. """ # Get the driver class from its description. cls = providers.get_driver(self._get_provider()) # Initialize the driver. return cls(**kwargs) @abc.abstractmethod def _get_provider(self): """Get a libcloud driver provider This method must be overridden by subclasses to specify which of the native libcloud driver the current storage should connect to. Alternatively, provider for a custom driver may be returned, in which case the provider will have to support `get_driver` method. """ raise NotImplementedError( "%s must implement `get_provider` method" % type(self) ) def check_config(self, *, check_write): """Check the configuration for this object storage""" # FIXME: hopefully this blew up during instantiation return True def __contains__(self, obj_id): try: self._get_object(obj_id) except ObjNotFoundError: return False else: return True def __iter__(self): """Iterate over the objects present in the storage Warning: Iteration over the contents of a cloud-based object storage may have bad efficiency: due to the very high amount of objects in it and the fact that it is remote, get all the contents of the current object storage may result in a lot of network requests. You almost certainly don't want to use this method in production. """ for obj in self.driver.iterate_container_objects(self.container): name = obj.name if self.path_prefix and not name.startswith(self.path_prefix): continue if self.path_prefix: name = name[len(self.path_prefix) :] yield hashutil.hash_to_bytes(name) def __len__(self): """Compute the number of objects in the current object storage. Warning: this currently uses `__iter__`, its warning about bad performance applies. Returns: number of objects contained in the storage. """ return sum(1 for i in self) def add(self, content, obj_id, check_presence=True): if check_presence and obj_id in self: return obj_id self._put_object(content, obj_id) return obj_id - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): return self.add(content, obj_id, check_presence=False) def get(self, obj_id): obj = b"".join(self._get_object(obj_id).as_stream()) d = decompressors[self.compression]() ret = d.decompress(obj) if d.unused_data: hex_obj_id = hashutil.hash_to_hex(obj_id) raise Error("Corrupt object %s: trailing data found" % hex_obj_id) return ret def check(self, obj_id): # Check that the file exists, as _get_object raises ObjNotFoundError self._get_object(obj_id) # Check the content integrity obj_content = self.get(obj_id) content_obj_id = compute_hash(obj_content) if content_obj_id != obj_id: raise Error(obj_id) def delete(self, obj_id): super().delete(obj_id) # Check delete permission obj = self._get_object(obj_id) return self.driver.delete_object(obj) def _object_path(self, obj_id): """Get the full path to an object""" hex_obj_id = hashutil.hash_to_hex(obj_id) if self.path_prefix: return self.path_prefix + hex_obj_id else: return hex_obj_id def _get_object(self, obj_id): """Get a Libcloud wrapper for an object pointer. This wrapper does not retrieve the content of the object directly. """ object_path = self._object_path(obj_id) try: return self.driver.get_object(self.container_name, object_path) except ObjectDoesNotExistError: raise ObjNotFoundError(obj_id) def _compressor(self, data): comp = compressors[self.compression]() for chunk in data: cchunk = comp.compress(chunk) if cchunk: yield cchunk trail = comp.flush() if trail: yield trail def _put_object(self, content, obj_id): """Create an object in the cloud storage. Created object will contain the content and be referenced by the given id. """ object_path = self._object_path(obj_id) if not isinstance(content, Iterator): content = (content,) self.driver.upload_object_via_stream( self._compressor(content), self.container, object_path ) class AwsCloudObjStorage(CloudObjStorage): """Amazon's S3 Cloud-based object storage""" def _get_provider(self): return Provider.S3 class OpenStackCloudObjStorage(CloudObjStorage): """OpenStack Swift Cloud based object storage""" def _get_provider(self): return Provider.OPENSTACK_SWIFT diff --git a/swh/objstorage/backends/seaweedfs/objstorage.py b/swh/objstorage/backends/seaweedfs/objstorage.py index 68480b4..a8bdf40 100644 --- a/swh/objstorage/backends/seaweedfs/objstorage.py +++ b/swh/objstorage/backends/seaweedfs/objstorage.py @@ -1,152 +1,152 @@ # Copyright (C) 2019-2021 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import io from itertools import islice import logging import os from swh.model import hashutil from swh.objstorage.exc import Error, ObjNotFoundError from swh.objstorage.objstorage import ( DEFAULT_LIMIT, ObjStorage, compressors, compute_hash, decompressors, ) from .http import HttpFiler LOGGER = logging.getLogger(__name__) class SeaweedFilerObjStorage(ObjStorage): """ObjStorage with seaweedfs abilities, using the Filer API. https://github.com/chrislusf/seaweedfs/wiki/Filer-Server-API """ def __init__(self, url, compression=None, **kwargs): super().__init__(**kwargs) self.wf = HttpFiler(url) self.compression = compression def check_config(self, *, check_write): """Check the configuration for this object storage""" # FIXME: hopefully this blew up during instantiation return True def __contains__(self, obj_id): return self.wf.exists(self._path(obj_id)) def __iter__(self): """Iterate over the objects present in the storage Warning: Iteration over the contents of a cloud-based object storage may have bad efficiency: due to the very high amount of objects in it and the fact that it is remote, get all the contents of the current object storage may result in a lot of network requests. You almost certainly don't want to use this method in production. """ obj_id = last_obj_id = None while True: for obj_id in self.list_content(last_obj_id=last_obj_id): yield obj_id if last_obj_id == obj_id: break last_obj_id = obj_id def __len__(self): """Compute the number of objects in the current object storage. Warning: this currently uses `__iter__`, its warning about bad performance applies. Returns: number of objects contained in the storage. """ return sum(1 for i in self) def add(self, content, obj_id, check_presence=True): if check_presence and obj_id in self: return obj_id def compressor(data): comp = compressors[self.compression]() for chunk in data: yield comp.compress(chunk) yield comp.flush() if isinstance(content, bytes): content = [content] # XXX should handle streaming correctly... self.wf.put(io.BytesIO(b"".join(compressor(content))), self._path(obj_id)) return obj_id - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): return self.add(content, obj_id, check_presence=False) def get(self, obj_id): try: obj = self.wf.get(self._path(obj_id)) except Exception: raise ObjNotFoundError(obj_id) d = decompressors[self.compression]() ret = d.decompress(obj) if d.unused_data: hex_obj_id = hashutil.hash_to_hex(obj_id) raise Error("Corrupt object %s: trailing data found" % hex_obj_id) return ret def check(self, obj_id): # Check the content integrity obj_content = self.get(obj_id) content_obj_id = compute_hash(obj_content) if content_obj_id != obj_id: raise Error(obj_id) def delete(self, obj_id): super().delete(obj_id) # Check delete permission if obj_id not in self: raise ObjNotFoundError(obj_id) self.wf.delete(self._path(obj_id)) return True def list_content(self, last_obj_id=None, limit=DEFAULT_LIMIT): if last_obj_id: objid = hashutil.hash_to_hex(last_obj_id) lastfilename = objid else: lastfilename = None for fname in islice(self.wf.iterfiles(last_file_name=lastfilename), limit): bytehex = fname.rsplit("/", 1)[-1] yield hashutil.bytehex_to_hash(bytehex.encode()) # internal methods def _put_object(self, content, obj_id): """Create an object in the cloud storage. Created object will contain the content and be referenced by the given id. """ def compressor(data): comp = compressors[self.compression]() for chunk in data: yield comp.compress(chunk) yield comp.flush() if isinstance(content, bytes): content = [content] self.wf.put(io.BytesIO(b"".join(compressor(content))), self._path(obj_id)) def _path(self, obj_id): return os.path.join(self.wf.basepath, hashutil.hash_to_hex(obj_id)) diff --git a/swh/objstorage/interface.py b/swh/objstorage/interface.py index 865fe04..2eb26cd 100644 --- a/swh/objstorage/interface.py +++ b/swh/objstorage/interface.py @@ -1,214 +1,214 @@ # Copyright (C) 2015-2022 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information from typing import Dict from typing_extensions import Protocol, runtime_checkable from swh.core.api import remote_api_endpoint from swh.objstorage.objstorage import DEFAULT_LIMIT @runtime_checkable class ObjStorageInterface(Protocol): """High-level API to manipulate the Software Heritage object storage. Conceptually, the object storage offers the following methods: - check_config() check if the object storage is properly configured - __contains__() check if an object is present, by object id - add() add a new object, returning an object id - restore() same as add() but erase an already existed content - get() retrieve the content of an object, by object id - check() check the integrity of an object, by object id - delete() remove an object And some management methods: - get_random() get random object id of existing contents (used for the content integrity checker). Each implementation of this interface can have a different behavior and its own way to store the contents. """ @remote_api_endpoint("check_config") def check_config(self, *, check_write): """Check whether the object storage is properly configured. Args: check_write (bool): if True, check if writes to the object storage can succeed. Returns: True if the configuration check worked, an exception if it didn't. """ ... @remote_api_endpoint("content/contains") def __contains__(self, obj_id): """Indicate if the given object is present in the storage. Args: obj_id (bytes): object identifier. Returns: True if and only if the object is present in the current object storage. """ ... @remote_api_endpoint("content/add") def add(self, content, obj_id, check_presence=True): """Add a new object to the object storage. Args: content (bytes): object's raw content to add in storage. obj_id (bytes): checksum of [bytes] using [ID_HASH_ALGO] algorithm. It is trusted to match the bytes. check_presence (bool): indicate if the presence of the content should be verified before adding the file. Returns: the id (bytes) of the object into the storage. """ ... @remote_api_endpoint("content/add/batch") def add_batch(self, contents, check_presence=True) -> Dict: """Add a batch of new objects to the object storage. Args: contents: mapping from obj_id to object contents Returns: the summary of objects added to the storage (count of object, count of bytes object) """ ... - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): """Restore a content that have been corrupted. This function is identical to add but does not check if the object id is already in the file system. The default implementation provided by the current class is suitable for most cases. Args: content (bytes): object's raw content to add in storage obj_id (bytes): checksum of `bytes` as computed by ID_HASH_ALGO. When given, obj_id will be trusted to match bytes. If missing, obj_id will be computed on the fly. """ ... @remote_api_endpoint("content/get") def get(self, obj_id): """Retrieve the content of a given object. Args: obj_id (bytes): object id. Returns: the content of the requested object as bytes. Raises: ObjNotFoundError: if the requested object is missing. """ ... @remote_api_endpoint("content/get/batch") def get_batch(self, obj_ids): """Retrieve objects' raw content in bulk from storage. Note: This function does have a default implementation in ObjStorage that is suitable for most cases. For object storages that needs to do the minimal number of requests possible (ex: remote object storages), that method can be overridden to perform a more efficient operation. Args: obj_ids ([bytes]: list of object ids. Returns: list of resulting contents, or None if the content could not be retrieved. Do not raise any exception as a fail for one content will not cancel the whole request. """ ... @remote_api_endpoint("content/check") def check(self, obj_id): """Perform an integrity check for a given object. Verify that the file object is in place and that the content matches the object id. Args: obj_id (bytes): object identifier. Raises: ObjNotFoundError: if the requested object is missing. Error: if the request object is corrupted. """ ... @remote_api_endpoint("content/delete") def delete(self, obj_id): """Delete an object. Args: obj_id (bytes): object identifier. Raises: ObjNotFoundError: if the requested object is missing. """ ... # Management methods @remote_api_endpoint("content/get/random") def get_random(self, batch_size): """Get random ids of existing contents. This method is used in order to get random ids to perform content integrity verifications on random contents. Args: batch_size (int): Number of ids that will be given Yields: An iterable of ids (bytes) of contents that are in the current object storage. """ ... def __iter__(self): ... def list_content(self, last_obj_id=None, limit=DEFAULT_LIMIT): """Generates known object ids. Args: last_obj_id (bytes): object id from which to iterate from (excluded). limit (int): max number of object ids to generate. Generates: obj_id (bytes): object ids. """ ... diff --git a/swh/objstorage/multiplexer/filter/filter.py b/swh/objstorage/multiplexer/filter/filter.py index dc13a2e..511da4d 100644 --- a/swh/objstorage/multiplexer/filter/filter.py +++ b/swh/objstorage/multiplexer/filter/filter.py @@ -1,77 +1,77 @@ # Copyright (C) 2015-2016 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information from swh.objstorage.objstorage import ObjStorage class ObjStorageFilter(ObjStorage): """Base implementation of a filter that allow inputs on ObjStorage or not. This class copy the API of ...objstorage in order to filter the inputs of this class. If the operation is allowed, return the result of this operation applied to the destination implementation. Otherwise, just return without any operation. This class is an abstract base class for a classic read/write storage. Filters can inherit from it and only redefine some methods in order to change behavior. """ def __init__(self, storage): self.storage = storage def check_config(self, *, check_write): """Check the object storage for proper configuration. Args: check_write: check whether writes to the objstorage will succeed Returns: True if the storage is properly configured """ return self.storage.check_config(check_write=check_write) def __contains__(self, *args, **kwargs): return self.storage.__contains__(*args, **kwargs) def __iter__(self): """Iterates over the content of each storages Warning: The `__iter__` methods frequently have bad performance. You almost certainly don't want to use this method in production as the wrapped storage may cause performance issues. """ return self.storage.__iter__() def __len__(self): """Compute the number of objects in the current object storage. Warning: performance issue in `__iter__` also applies here. Returns: number of objects contained in the storage. """ return self.storage.__len__() def add(self, content, obj_id, check_presence=True, *args, **kwargs): return self.storage.add(content, obj_id, check_presence, *args, **kwargs) - def restore(self, content, obj_id=None, *args, **kwargs): + def restore(self, content, obj_id, *args, **kwargs): return self.storage.restore(content, obj_id, *args, **kwargs) def get(self, obj_id, *args, **kwargs): return self.storage.get(obj_id, *args, **kwargs) def check(self, obj_id, *args, **kwargs): return self.storage.check(obj_id, *args, **kwargs) def delete(self, obj_id, *args, **kwargs): return self.storage.delete(obj_id, *args, **kwargs) def get_random(self, batch_size, *args, **kwargs): return self.storage.get_random(batch_size, *args, **kwargs) diff --git a/swh/objstorage/multiplexer/filter/id_filter.py b/swh/objstorage/multiplexer/filter/id_filter.py index 9619a32..77c9f21 100644 --- a/swh/objstorage/multiplexer/filter/id_filter.py +++ b/swh/objstorage/multiplexer/filter/id_filter.py @@ -1,87 +1,84 @@ # Copyright (C) 2015-2017 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import abc import re from swh.model import hashutil from swh.objstorage.exc import ObjNotFoundError from swh.objstorage.multiplexer.filter.filter import ObjStorageFilter -from swh.objstorage.objstorage import compute_hash class IdObjStorageFilter(ObjStorageFilter, metaclass=abc.ABCMeta): """Filter that only allow operations if the object id match a requirement. Even for read operations, check before if the id match the requirements. This may prevent for unnecessary disk access. """ @abc.abstractmethod def is_valid(self, obj_id): """Indicates if the given id is valid.""" raise NotImplementedError( "Implementations of an IdObjStorageFilter " 'must have a "is_valid" method' ) def __contains__(self, obj_id, *args, **kwargs): if self.is_valid(obj_id): return self.storage.__contains__(*args, obj_id=obj_id, **kwargs) return False def __len__(self): return sum(1 for i in [id for id in self.storage if self.is_valid(id)]) def __iter__(self): yield from filter(lambda id: self.is_valid(id), iter(self.storage)) def add(self, content, obj_id, check_presence=True, *args, **kwargs): if self.is_valid(obj_id): return self.storage.add(content, *args, obj_id=obj_id, **kwargs) - def restore(self, content, obj_id=None, *args, **kwargs): - if obj_id is None: - obj_id = compute_hash(content) + def restore(self, content, obj_id, *args, **kwargs): if self.is_valid(obj_id): return self.storage.restore(content, *args, obj_id=obj_id, **kwargs) def get(self, obj_id, *args, **kwargs): if self.is_valid(obj_id): return self.storage.get(*args, obj_id=obj_id, **kwargs) raise ObjNotFoundError(obj_id) def check(self, obj_id, *args, **kwargs): if self.is_valid(obj_id): return self.storage.check(*args, obj_id=obj_id, **kwargs) raise ObjNotFoundError(obj_id) def get_random(self, *args, **kwargs): yield from filter( lambda id: self.is_valid(id), self.storage.get_random(*args, **kwargs) ) class RegexIdObjStorageFilter(IdObjStorageFilter): """Filter that allow operations if the content's id as hex match a regex.""" def __init__(self, storage, regex): super().__init__(storage) self.regex = re.compile(regex) def is_valid(self, obj_id): hex_obj_id = hashutil.hash_to_hex(obj_id) return self.regex.match(hex_obj_id) is not None class PrefixIdObjStorageFilter(IdObjStorageFilter): """Filter that allow operations if the hexlified id have a given prefix.""" def __init__(self, storage, prefix): super().__init__(storage) self.prefix = str(prefix) def is_valid(self, obj_id): hex_obj_id = hashutil.hash_to_hex(obj_id) return str(hex_obj_id).startswith(self.prefix) diff --git a/swh/objstorage/multiplexer/multiplexer_objstorage.py b/swh/objstorage/multiplexer/multiplexer_objstorage.py index d6929f8..46cc9b9 100644 --- a/swh/objstorage/multiplexer/multiplexer_objstorage.py +++ b/swh/objstorage/multiplexer/multiplexer_objstorage.py @@ -1,330 +1,330 @@ # Copyright (C) 2015-2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import queue import random import threading from typing import Dict from swh.objstorage.exc import ObjNotFoundError from swh.objstorage.objstorage import ObjStorage class ObjStorageThread(threading.Thread): def __init__(self, storage): super().__init__(daemon=True) self.storage = storage self.commands = queue.Queue() def run(self): while True: try: mailbox, command, args, kwargs = self.commands.get(True, 0.05) except queue.Empty: continue try: ret = getattr(self.storage, command)(*args, **kwargs) except Exception as exc: self.queue_result(mailbox, "exception", exc) else: self.queue_result(mailbox, "result", ret) def queue_command(self, command, *args, mailbox=None, **kwargs): """Enqueue a new command to be processed by the thread. Args: command (str): one of the method names for the underlying storage. mailbox (queue.Queue): explicit mailbox if the calling thread wants to override it. args, kwargs: arguments for the command. Returns: queue.Queue: The mailbox you can read the response from """ if not mailbox: mailbox = queue.Queue() self.commands.put((mailbox, command, args, kwargs)) return mailbox def queue_result(self, mailbox, result_type, result): """Enqueue a new result in the mailbox This also provides a reference to the storage, which can be useful when an exceptional condition arises. Args: mailbox (queue.Queue): the mailbox to which we need to enqueue the result result_type (str): one of 'result', 'exception' result: the result to pass back to the calling thread """ mailbox.put( { "type": result_type, "result": result, } ) @staticmethod def get_result_from_mailbox(mailbox, *args, **kwargs): """Unpack the result from the mailbox. Args: mailbox (queue.Queue): A mailbox to unpack a result from args: positional arguments to :func:`mailbox.get` kwargs: keyword arguments to :func:`mailbox.get` Returns: the next result unpacked from the queue Raises: either the exception we got back from the underlying storage, or :exc:`queue.Empty` if :func:`mailbox.get` raises that. """ result = mailbox.get(*args, **kwargs) if result["type"] == "exception": raise result["result"] from None else: return result["result"] @staticmethod def collect_results(mailbox, num_results): """Collect num_results from the mailbox""" collected = 0 ret = [] while collected < num_results: try: ret.append( ObjStorageThread.get_result_from_mailbox(mailbox, True, 0.05) ) except queue.Empty: continue collected += 1 return ret def __getattr__(self, attr): def call(*args, **kwargs): mailbox = self.queue_command(attr, *args, **kwargs) return self.get_result_from_mailbox(mailbox) return call def __contains__(self, *args, **kwargs): mailbox = self.queue_command("__contains__", *args, **kwargs) return self.get_result_from_mailbox(mailbox) class MultiplexerObjStorage(ObjStorage): """Implementation of ObjStorage that distributes between multiple storages. The multiplexer object storage allows an input to be demultiplexed among multiple storages that will or will not accept it by themselves (see .filter package). As the ids can be different, no pre-computed ids should be submitted. Also, there are no guarantees that the returned ids can be used directly into the storages that the multiplexer manage. Use case examples follow. Example 1:: storage_v1 = filter.read_only(PathSlicingObjStorage('/dir1', '0:2/2:4/4:6')) storage_v2 = PathSlicingObjStorage('/dir2', '0:1/0:5') storage = MultiplexerObjStorage([storage_v1, storage_v2]) When using 'storage', all the new contents will only be added to the v2 storage, while it will be retrievable from both. Example 2:: storage_v1 = filter.id_regex( PathSlicingObjStorage('/dir1', '0:2/2:4/4:6'), r'[^012].*' ) storage_v2 = filter.if_regex( PathSlicingObjStorage('/dir2', '0:1/0:5'), r'[012]/*' ) storage = MultiplexerObjStorage([storage_v1, storage_v2]) When using this storage, the contents with a sha1 starting with 0, 1 or 2 will be redirected (read AND write) to the storage_v2, while the others will be redirected to the storage_v1. If a content starting with 0, 1 or 2 is present in the storage_v1, it would be ignored anyway. """ def __init__(self, storages, **kwargs): super().__init__(**kwargs) self.storages = storages self.storage_threads = [ObjStorageThread(storage) for storage in storages] for thread in self.storage_threads: thread.start() def wrap_call(self, threads, call, *args, **kwargs): threads = list(threads) mailbox = queue.Queue() for thread in threads: thread.queue_command(call, *args, mailbox=mailbox, **kwargs) return ObjStorageThread.collect_results(mailbox, len(threads)) def get_read_threads(self, obj_id=None): yield from self.storage_threads def get_write_threads(self, obj_id=None): yield from self.storage_threads def check_config(self, *, check_write): """Check whether the object storage is properly configured. Args: check_write (bool): if True, check if writes to the object storage can succeed. Returns: True if the configuration check worked, an exception if it didn't. """ return all( self.wrap_call( self.storage_threads, "check_config", check_write=check_write ) ) def __contains__(self, obj_id): """Indicate if the given object is present in the storage. Args: obj_id (bytes): object identifier. Returns: True if and only if the object is present in the current object storage. """ for storage in self.get_read_threads(obj_id): if obj_id in storage: return True return False def __iter__(self): def obj_iterator(): for storage in self.storages: yield from storage return obj_iterator() def add(self, content, obj_id, check_presence=True): """Add a new object to the object storage. If the adding step works in all the storages that accept this content, this is a success. Otherwise, the full adding step is an error even if it succeed in some of the storages. Args: content: content of the object to be added to the storage. obj_id: checksum of [bytes] using [ID_HASH_ALGO] algorithm. When given, obj_id will be trusted to match the bytes. If missing, obj_id will be computed on the fly. check_presence: indicate if the presence of the content should be verified before adding the file. Returns: an id of the object into the storage. As the write-storages are always readable as well, any id will be valid to retrieve a content. """ results = self.wrap_call( self.get_write_threads(obj_id), "add", content, obj_id=obj_id, check_presence=check_presence, ) for result in results: if not result: continue return result def add_batch(self, contents, check_presence=True) -> Dict: """Add a batch of new objects to the object storage.""" write_threads = list(self.get_write_threads()) results = self.wrap_call( write_threads, "add_batch", contents, check_presence=check_presence, ) summed = {"object:add": 0, "object:add:bytes": 0} for result in results: summed["object:add"] += result["object:add"] summed["object:add:bytes"] += result["object:add:bytes"] return { "object:add": summed["object:add"] // len(results), "object:add:bytes": summed["object:add:bytes"] // len(results), } - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): return self.wrap_call( self.get_write_threads(obj_id), "restore", content, obj_id=obj_id, ).pop() def get(self, obj_id): for storage in self.get_read_threads(obj_id): try: return storage.get(obj_id) except ObjNotFoundError: continue # If no storage contains this content, raise the error raise ObjNotFoundError(obj_id) def check(self, obj_id): nb_present = 0 for storage in self.get_read_threads(obj_id): try: storage.check(obj_id) except ObjNotFoundError: continue else: nb_present += 1 # If there is an Error because of a corrupted file, then let it pass. # Raise the ObjNotFoundError only if the content couldn't be found in # all the storages. if nb_present == 0: raise ObjNotFoundError(obj_id) def delete(self, obj_id): super().delete(obj_id) # Check delete permission return all(self.wrap_call(self.get_write_threads(obj_id), "delete", obj_id)) def get_random(self, batch_size): storages_set = [storage for storage in self.storages if len(storage) > 0] if len(storages_set) <= 0: return [] while storages_set: storage = random.choice(storages_set) try: return storage.get_random(batch_size) except NotImplementedError: storages_set.remove(storage) # There is no storage that allow the get_random operation raise NotImplementedError( "There is no storage implementation into the multiplexer that " "support the 'get_random' operation" ) diff --git a/swh/objstorage/objstorage.py b/swh/objstorage/objstorage.py index ae4cacd..d8d99d8 100644 --- a/swh/objstorage/objstorage.py +++ b/swh/objstorage/objstorage.py @@ -1,147 +1,147 @@ # Copyright (C) 2015-2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import abc import bz2 from itertools import dropwhile, islice import lzma from typing import Dict import zlib from swh.model import hashutil from .exc import ObjNotFoundError ID_HASH_ALGO = "sha1" ID_HEXDIGEST_LENGTH = 40 """Size in bytes of the hash hexadecimal representation.""" ID_DIGEST_LENGTH = 20 """Size in bytes of the hash""" DEFAULT_LIMIT = 10000 """Default number of results of ``list_content``.""" def compute_hash(content, algo=ID_HASH_ALGO): """Compute the content's hash. Args: content (bytes): The raw content to hash hash_name (str): Hash's name (default to ID_HASH_ALGO) Returns: The ID_HASH_ALGO for the content """ return ( hashutil.MultiHash.from_data( content, hash_names=[algo], ) .digest() .get(algo) ) class NullCompressor: def compress(self, data): return data def flush(self): return b"" class NullDecompressor: def decompress(self, data): return data @property def unused_data(self): return b"" decompressors = { "bz2": bz2.BZ2Decompressor, "lzma": lzma.LZMADecompressor, "gzip": lambda: zlib.decompressobj(wbits=31), "zlib": zlib.decompressobj, "none": NullDecompressor, } compressors = { "bz2": bz2.BZ2Compressor, "lzma": lzma.LZMACompressor, "gzip": lambda: zlib.compressobj(wbits=31), "zlib": zlib.compressobj, "none": NullCompressor, } class ObjStorage(metaclass=abc.ABCMeta): def __init__(self, *, allow_delete=False, **kwargs): # A more complete permission system could be used in place of that if # it becomes needed self.allow_delete = allow_delete @abc.abstractmethod def check_config(self, *, check_write): pass @abc.abstractmethod def __contains__(self, obj_id): pass @abc.abstractmethod def add(self, content, obj_id, check_presence=True): pass def add_batch(self, contents, check_presence=True) -> Dict: summary = {"object:add": 0, "object:add:bytes": 0} for obj_id, content in contents.items(): if check_presence and obj_id in self: continue self.add(content, obj_id, check_presence=False) summary["object:add"] += 1 summary["object:add:bytes"] += len(content) return summary - def restore(self, content, obj_id=None): + def restore(self, content, obj_id): # check_presence to false will erase the potential previous content. return self.add(content, obj_id, check_presence=False) @abc.abstractmethod def get(self, obj_id): pass def get_batch(self, obj_ids): for obj_id in obj_ids: try: yield self.get(obj_id) except ObjNotFoundError: yield None @abc.abstractmethod def check(self, obj_id): pass @abc.abstractmethod def delete(self, obj_id): if not self.allow_delete: raise PermissionError("Delete is not allowed.") # Management methods def get_random(self, batch_size): pass # Streaming methods def list_content(self, last_obj_id=None, limit=DEFAULT_LIMIT): it = iter(self) if last_obj_id: it = dropwhile(lambda x: x <= last_obj_id, it) return islice(it, limit) diff --git a/swh/objstorage/tests/test_multiplexer_filter.py b/swh/objstorage/tests/test_multiplexer_filter.py index 85070c9..7e66e7b 100644 --- a/swh/objstorage/tests/test_multiplexer_filter.py +++ b/swh/objstorage/tests/test_multiplexer_filter.py @@ -1,330 +1,330 @@ # Copyright (C) 2015-2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import random import shutil from string import ascii_lowercase import tempfile import unittest from swh.model import hashutil from swh.objstorage.exc import Error, ObjNotFoundError from swh.objstorage.factory import get_objstorage from swh.objstorage.multiplexer.filter import id_prefix, id_regex, read_only from swh.objstorage.objstorage import compute_hash def get_random_content(): return bytes("".join(random.sample(ascii_lowercase, 10)), "utf8") class MixinTestReadFilter(unittest.TestCase): # Read only filter should not allow writing def setUp(self): super().setUp() self.tmpdir = tempfile.mkdtemp() pstorage = { "cls": "pathslicing", "root": self.tmpdir, "slicing": "0:5", } base_storage = get_objstorage(**pstorage) self.storage = get_objstorage( "filtered", storage_conf=pstorage, filters_conf=[read_only()] ) self.valid_content = b"pre-existing content" self.invalid_content = b"invalid_content" self.true_invalid_content = b"Anything that is not correct" self.absent_content = b"non-existent content" # Create a valid content. self.valid_id = compute_hash(self.valid_content) base_storage.add(self.valid_content, obj_id=self.valid_id) # Create an invalid id and add a content with it. self.invalid_id = compute_hash(self.true_invalid_content) base_storage.add(self.invalid_content, obj_id=self.invalid_id) # Compute an id for a non-existing content. self.absent_id = compute_hash(self.absent_content) def tearDown(self): super().tearDown() shutil.rmtree(self.tmpdir) def test_can_contains(self): self.assertTrue(self.valid_id in self.storage) self.assertTrue(self.invalid_id in self.storage) self.assertFalse(self.absent_id in self.storage) def test_can_iter(self): self.assertIn(self.valid_id, iter(self.storage)) self.assertIn(self.invalid_id, iter(self.storage)) def test_can_len(self): self.assertEqual(2, len(self.storage)) def test_can_get(self): self.assertEqual(self.valid_content, self.storage.get(self.valid_id)) self.assertEqual(self.invalid_content, self.storage.get(self.invalid_id)) def test_can_check(self): with self.assertRaises(ObjNotFoundError): self.storage.check(self.absent_id) with self.assertRaises(Error): self.storage.check(self.invalid_id) self.storage.check(self.valid_id) def test_can_get_random(self): self.assertEqual(1, len(list(self.storage.get_random(1)))) self.assertEqual( len(list(self.storage)), len(set(self.storage.get_random(1000))) ) def test_cannot_add(self): new_id = self.storage.add(b"New content") result = self.storage.add(self.valid_content, self.valid_id) self.assertIsNone(new_id, self.storage) self.assertIsNone(result) def test_cannot_restore(self): result = self.storage.restore(self.valid_content, self.valid_id) self.assertIsNone(result) class MixinTestIdFilter: """Mixin class that tests the filters based on filter.IdFilter Methods "make_valid", "make_invalid" and "filter_storage" must be implemented by subclasses. """ def setUp(self): super().setUp() # Use a hack here : as the mock uses the content as id, it is easy to # create contents that are filtered or not. self.prefix = "71" self.tmpdir = tempfile.mkdtemp() # Make the storage filtered self.sconf = { "cls": "pathslicing", "args": {"root": self.tmpdir, "slicing": "0:5"}, } storage = get_objstorage(**self.sconf) self.base_storage = storage self.storage = self.filter_storage(self.sconf) # Present content with valid id self.present_valid_content = self.ensure_valid(b"yroqdtotji") self.present_valid_id = compute_hash(self.present_valid_content) # Present content with invalid id self.present_invalid_content = self.ensure_invalid(b"glxddlmmzb") self.present_invalid_id = compute_hash(self.present_invalid_content) # Missing content with valid id self.missing_valid_content = self.ensure_valid(b"rmzkdclkez") self.missing_valid_id = compute_hash(self.missing_valid_content) # Missing content with invalid id self.missing_invalid_content = self.ensure_invalid(b"hlejfuginh") self.missing_invalid_id = compute_hash(self.missing_invalid_content) # Present corrupted content with valid id self.present_corrupted_valid_content = self.ensure_valid(b"cdsjwnpaij") self.true_present_corrupted_valid_content = self.ensure_valid(b"mgsdpawcrr") self.present_corrupted_valid_id = compute_hash( self.true_present_corrupted_valid_content ) # Present corrupted content with invalid id self.present_corrupted_invalid_content = self.ensure_invalid(b"pspjljnrco") self.true_present_corrupted_invalid_content = self.ensure_invalid(b"rjocbnnbso") self.present_corrupted_invalid_id = compute_hash( self.true_present_corrupted_invalid_content ) # Missing (potentially) corrupted content with valid id self.missing_corrupted_valid_content = self.ensure_valid(b"zxkokfgtou") self.true_missing_corrupted_valid_content = self.ensure_valid(b"royoncooqa") self.missing_corrupted_valid_id = compute_hash( self.true_missing_corrupted_valid_content ) # Missing (potentially) corrupted content with invalid id self.missing_corrupted_invalid_content = self.ensure_invalid(b"hxaxnrmnyk") self.true_missing_corrupted_invalid_content = self.ensure_invalid(b"qhbolyuifr") self.missing_corrupted_invalid_id = compute_hash( self.true_missing_corrupted_invalid_content ) # Add the content that are supposed to be present self.storage.add(self.present_valid_content, obj_id=self.present_valid_id) self.storage.add(self.present_invalid_content, obj_id=self.present_invalid_id) self.storage.add( self.present_corrupted_valid_content, obj_id=self.present_corrupted_valid_id ) self.storage.add( self.present_corrupted_invalid_content, obj_id=self.present_corrupted_invalid_id, ) def tearDown(self): super().tearDown() shutil.rmtree(self.tmpdir) def filter_storage(self, sconf): raise NotImplementedError( "Id_filter test class must have a filter_storage method" ) def ensure_valid(self, content=None): if content is None: content = get_random_content() while not self.storage.is_valid(compute_hash(content)): content = get_random_content() return content def ensure_invalid(self, content=None): if content is None: content = get_random_content() while self.storage.is_valid(compute_hash(content)): content = get_random_content() return content def test_contains(self): # Both contents are present, but the invalid one should be ignored. self.assertTrue(self.present_valid_id in self.storage) self.assertFalse(self.present_invalid_id in self.storage) self.assertFalse(self.missing_valid_id in self.storage) self.assertFalse(self.missing_invalid_id in self.storage) self.assertTrue(self.present_corrupted_valid_id in self.storage) self.assertFalse(self.present_corrupted_invalid_id in self.storage) self.assertFalse(self.missing_corrupted_valid_id in self.storage) self.assertFalse(self.missing_corrupted_invalid_id in self.storage) def test_iter(self): self.assertIn(self.present_valid_id, iter(self.storage)) self.assertNotIn(self.present_invalid_id, iter(self.storage)) self.assertNotIn(self.missing_valid_id, iter(self.storage)) self.assertNotIn(self.missing_invalid_id, iter(self.storage)) self.assertIn(self.present_corrupted_valid_id, iter(self.storage)) self.assertNotIn(self.present_corrupted_invalid_id, iter(self.storage)) self.assertNotIn(self.missing_corrupted_valid_id, iter(self.storage)) self.assertNotIn(self.missing_corrupted_invalid_id, iter(self.storage)) def test_len(self): # Four contents are present, but only two should be valid. self.assertEqual(2, len(self.storage)) def test_get(self): self.assertEqual( self.present_valid_content, self.storage.get(self.present_valid_id) ) with self.assertRaises(ObjNotFoundError): self.storage.get(self.present_invalid_id) with self.assertRaises(ObjNotFoundError): self.storage.get(self.missing_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.get(self.missing_invalid_id) self.assertEqual( self.present_corrupted_valid_content, self.storage.get(self.present_corrupted_valid_id), ) with self.assertRaises(ObjNotFoundError): self.storage.get(self.present_corrupted_invalid_id) with self.assertRaises(ObjNotFoundError): self.storage.get(self.missing_corrupted_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.get(self.missing_corrupted_invalid_id) def test_check(self): self.storage.check(self.present_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.present_invalid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.missing_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.missing_invalid_id) with self.assertRaises(Error): self.storage.check(self.present_corrupted_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.present_corrupted_invalid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.missing_corrupted_valid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(self.missing_corrupted_invalid_id) def test_get_random(self): self.assertEqual(0, len(list(self.storage.get_random(0)))) random_content = list(self.storage.get_random(1000)) self.assertIn(self.present_valid_id, random_content) self.assertNotIn(self.present_invalid_id, random_content) self.assertNotIn(self.missing_valid_id, random_content) self.assertNotIn(self.missing_invalid_id, random_content) self.assertIn(self.present_corrupted_valid_id, random_content) self.assertNotIn(self.present_corrupted_invalid_id, random_content) self.assertNotIn(self.missing_corrupted_valid_id, random_content) self.assertNotIn(self.missing_corrupted_invalid_id, random_content) def test_add(self): # Add valid and invalid contents to the storage and check their # presence with the unfiltered storage. valid_content = self.ensure_valid(b"ulepsrjbgt") valid_id = compute_hash(valid_content) invalid_content = self.ensure_invalid(b"znvghkjked") invalid_id = compute_hash(invalid_content) self.storage.add(valid_content, obj_id=valid_id) self.storage.add(invalid_content, obj_id=invalid_id) self.assertTrue(valid_id in self.base_storage) self.assertFalse(invalid_id in self.base_storage) def test_restore(self): # Add corrupted content to the storage and the try to restore it valid_content = self.ensure_valid(b"ulepsrjbgt") valid_id = compute_hash(valid_content) corrupted_content = self.ensure_valid(b"ltjkjsloyb") corrupted_id = compute_hash(corrupted_content) self.storage.add(corrupted_content, obj_id=valid_id) with self.assertRaises(ObjNotFoundError): self.storage.check(corrupted_id) with self.assertRaises(Error): self.storage.check(valid_id) - self.storage.restore(valid_content) + self.storage.restore(valid_content, obj_id=valid_id) self.storage.check(valid_id) class TestPrefixFilter(MixinTestIdFilter, unittest.TestCase): def setUp(self): self.prefix = b"71" super().setUp() def ensure_valid(self, content): obj_id = compute_hash(content) hex_obj_id = hashutil.hash_to_hex(obj_id) self.assertTrue(hex_obj_id.startswith(self.prefix)) return content def ensure_invalid(self, content): obj_id = compute_hash(content) hex_obj_id = hashutil.hash_to_hex(obj_id) self.assertFalse(hex_obj_id.startswith(self.prefix)) return content def filter_storage(self, sconf): return get_objstorage( "filtered", {"storage_conf": sconf, "filters_conf": [id_prefix(self.prefix)]}, ) class TestRegexFilter(MixinTestIdFilter, unittest.TestCase): def setUp(self): self.regex = r"[a-f][0-9].*" super().setUp() def filter_storage(self, sconf): return get_objstorage( "filtered", {"storage_conf": sconf, "filters_conf": [id_regex(self.regex)]} ) diff --git a/swh/objstorage/tests/test_objstorage_http.py b/swh/objstorage/tests/test_objstorage_http.py index ab7d687..1e2e2a1 100644 --- a/swh/objstorage/tests/test_objstorage_http.py +++ b/swh/objstorage/tests/test_objstorage_http.py @@ -1,120 +1,120 @@ # Copyright (C) 2021 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import pytest import requests_mock from requests_mock.contrib import fixture from swh.objstorage import exc from swh.objstorage.factory import get_objstorage from swh.objstorage.objstorage import compute_hash def build_objstorage(): """Build an HTTPReadOnlyObjStorage suitable for tests this instancaite 2 ObjStorage, one HTTPReadOnlyObjStorage (the "front" one being under test), and one InMemoryObjStorage (which actually stores the test content), and install a request mock fixture to route HTTP requests from the HTTPReadOnlyObjStorage to query the InMemoryStorage. Also fills the backend storage with a 100 objects. """ sto_back = get_objstorage(cls="memory") objids = [] for i in range(100): content = f"some content {i}".encode() objids.append(sto_back.add(content, obj_id=compute_hash(content))) url = "http://127.0.0.1/content/" sto_front = get_objstorage(cls="http", url=url) mock = fixture.Fixture() mock.setUp() def get_cb(request, context): dirname, basename = request.path.rsplit("/", 1) objid = bytes.fromhex(basename) if dirname == "/content" and objid in sto_back: return sto_back.get(objid) context.status_code = 404 def head_cb(request, context): dirname, basename = request.path.rsplit("/", 1) objid = bytes.fromhex(basename) if dirname != "/content" or objid not in sto_back: context.status_code = 404 return b"Not Found" return b"Found" mock.register_uri(requests_mock.GET, requests_mock.ANY, content=get_cb) mock.register_uri(requests_mock.HEAD, requests_mock.ANY, content=head_cb) return sto_front, sto_back, objids def test_http_objstorage(): sto_front, sto_back, objids = build_objstorage() for objid in objids: assert objid in sto_front assert sto_front.get(objid) == sto_back.get(objid) assert sto_front.get(objid).decode().startswith("some content ") def test_http_objstorage_missing(): sto_front, sto_back, objids = build_objstorage() assert b"\x00" * 20 not in sto_front def test_http_objstorage_get_missing(): sto_front, sto_back, objids = build_objstorage() with pytest.raises(exc.ObjNotFoundError): sto_front.get(b"\x00" * 20) def test_http_objstorage_check(): sto_front, sto_back, objids = build_objstorage() for objid in objids: assert sto_front.check(objid) is None # no Exception means OK # create an invalid object in the in-memory objstorage invalid_content = b"p0wn3d content" fake_objid = "\x01" * 20 id_added = sto_back.add(invalid_content, fake_objid) assert id_added == fake_objid # the http objstorage should report it as invalid with pytest.raises(exc.Error): sto_front.check(id_added) def test_http_objstorage_read_only(): sto_front, sto_back, objids = build_objstorage() content = b"" obj_id = compute_hash(content) with pytest.raises(exc.ReadOnlyObjStorage): sto_front.add(content, obj_id=obj_id) with pytest.raises(exc.ReadOnlyObjStorage): - sto_front.restore(b"") + sto_front.restore(b"", obj_id=compute_hash(b"")) with pytest.raises(exc.ReadOnlyObjStorage): sto_front.delete(b"\x00" * 20) def test_http_objstorage_not_iterable(): sto_front, sto_back, objids = build_objstorage() with pytest.raises(exc.NonIterableObjStorage): len(sto_front) with pytest.raises(exc.NonIterableObjStorage): iter(sto_front) def test_http_cannonical_url(): url = "http://127.0.0.1/content" sto = get_objstorage(cls="http", url=url) assert sto.root_path == url + "/"