Version: 1.1.0
- Author: Dou Mok, Jing Tao, Matthew Brooke, Matthew B. Jones
- License: Apache 2
- Package source code on GitHub
- Submit Bugs and feature requests
- Contact us: [email protected]
- DataONE discussions
Cite this software as:
Dou Mok, Jing Tao, Matthew Brooke, Matthew B. Jones. 2024. HashStore-java: hash-based object storage for DataONE data packages. Arctic Data Center. doi:10.18739/A2QF8JM59
HashStore-java is a server-side java library that implements an object storage file system for storing and accessing data and metadata for DataONE services. The package is used in DataONE system components that need direct, filesystem-based access to data objects, their system metadata, and extended metadata about the objects. This package is a core component of the DataONE federation, and supports large-scale object storage for a variety of repositories, including the KNB Data Repository, the NSF Arctic Data Center, the DataONE search service, and other repositories.
DataONE in general, and HashStore in particular, are open source, community projects. We welcome contributions in many forms, including code, graphics, documentation, bug reports, testing, etc. Use the DataONE discussions to discuss these contributions with us.
Documentation is a work in progress, and can be found on the Metacat repository as part of the storage redesign planning. Future updates will include documentation here as the package matures.
HashStore is an object storage system that provides persistent file-based storage using content
hashes to de-duplicate data. The system stores both objects, references (refs) and metadata in its
respective directories and utilizes an identifier-based API for interacting with the store.
HashStore storage classes (like FileHashStore
) must implement the HashStore interface to ensure
the expected usage of HashStore.
- storeObject
- tagObject
- storeMetadata
- retrieveObject
- retrieveMetadata
- deleteObject
- deleteIfInvalidObject
- deleteMetadata
- getHexDigest
For details, please see the HashStore interface HashStore.java
To create or interact with a HashStore, instantiate a HashStore object with the following set of properties:
- storePath
- storeDepth
- storeWidth
- storeAlgorithm
- storeMetadataNamespace
String classPackage = "org.dataone.hashstore.filehashstore.FileHashStore";
Path rootDirectory = tempFolder.resolve("metacat");
Properties storeProperties = new Properties();
storeProperties.setProperty("storePath", rootDirectory.toString());
storeProperties.setProperty("storeDepth", "3");
storeProperties.setProperty("storeWidth", "2");
storeProperties.setProperty("storeAlgorithm", "SHA-256");
storeProperties.setProperty(
"storeMetadataNamespace", "https://ns.dataone.org/service/types/v2.0#SystemMetadata"
);
// Instantiate a HashStore
HashStore hashStore = HashStoreFactory.getHashStore(classPackage, storeProperties);
// Store an object
hashStore.storeObject(stream, pid);
// ...
# Example layout in HashStore with a single file stored along with its metadata and reference files.
# This uses a store depth of 3 (number of nested levels/directories - e.g. '/4d/19/81/' within
# 'objects', see below), with a width of 2 (number of characters used in directory name - e.g. "4d",
# "19" etc.) and "SHA-256" as its default store algorithm
## Notes:
## - Objects are stored using their content identifier as the file address
## - The reference file for each pid contains a single cid
## - The reference file for each cid contains multiple pids each on its own line
## - There are two metadata docs under the metadata directory for the pid (sysmeta, annotations)
.../metacat/hashstore
├── hashstore.yaml
└── objects
| └── 4d
| └── 19
| └── 81
| └── 71eef969d553d4c9537b1811a7b078f9a3804fc978a761bc014c05972c
└── metadata
| └── 0d
| └── 55
| └── 55
| └── 5ed77052d7e166017f779cbc193357c3a5006ee8b8457230bcf7abcef65e
| └── 323e0799524cec4c7e14d31289cefd884b563b5c052f154a066de5ec1e477da7
| └── sha256(pid+formatId_annotations)
└── refs
├── cids
| └── 4d
| └── 19
| └── 81
| └── 71eef969d553d4c9537b1811a7b078f9a3804fc978a761bc014c05972c
└── pids
└── 0d
└── 55
└── 55
└── 5ed77052d7e166017f779cbc193357c3a5006ee8b8457230bcf7abcef65e
In HashStore, objects are first saved as temporary files while their content identifiers are calculated. Once the default hash algorithm list and their hashes are generated, objects are stored in their permanent location using the store's algorithm's corresponding hash value, the store depth and the store width. Lastly, objects are 'tagged' with a given identifier (ex. persistent identifier (pid)). This process produces reference files, which allow objects to be found and retrieved with a given identifier.
- Note 1: An identifier can only be used once
- Note 2: Each object is stored once and only once using its content identifier (a checksum generated from using a hashing algorithm). Clients that attempt to store duplicate objects will receive the expected ObjectMetadata - with HashStore handling the de-duplication process under the hood.
By calling the various interface methods for storeObject
, the calling app/client can validate,
store and tag an object simultaneously if the relevant data is available. In the absence of an
identifier (ex. persistent identifier (pid)), storeObject
can be called to solely store an object.
The client is then expected to call deleteIfInvalidObject
when the relevant metadata is available to
confirm that the object is what is expected. And to finalize the process (to make the object
discoverable), the client calls `tagObject``. In summary, there are two expected paths to store an
object:
// All-in-one process which stores, validates and tags an object
objectMetadata objInfo = storeObject(InputStream, pid, additionalAlgorithm, checksum, checksumAlgorithm, objSize);
// Manual Process
// Store object
objectMetadata objInfo = storeObject(InputStream);
// Validate object, if the parameters do not match, the data object associated with the objInfo
// supplied will be deleted
deleteIfInvalidObject(objInfo, checksum, checksumAlgorithn, objSize);
// Tag object, makes the object discoverable (find, retrieve, delete)
tagObject(pid, cid);
How do I retrieve an object if I have the pid?
- To retrieve an object, call the Public API method
retrieveObject
which opens a stream to the object if it exists.
How do I delete an object if I have the pid?
- To delete an object and all its associated reference files, call the Public API
method
deleteObject()
. - Note,
deleteObject
andstoreObject
are synchronized processes based on a givenpid
. Additionally,deleteObject
further synchronizes withtagObject
based on acid
. Every object is stored once, is unique and shares one cid reference file.
HashStore's '/metadata' directory holds all metadata for objects stored in HashStore. All metadata
documents related to a 'pid' are stored in a directory determined by calculating the hash of the
pid (based on the store's algorithm). Each specific metadata document is then stored by calculating
the hash of its associated pid+formatId
. By default, calling storeMetadata
will use HashStore's
default metadata namespace as the 'formatId' when storing metadata. Should the calling app wish to
store multiple metadata files about an object, the client app is expected to provide a 'formatId'
that represents an object format for the metadata type (ex. storeMetadata(stream, pid, formatId)
).
How do I retrieve a metadata file?
- To find a metadata object, call the Public API method
retrieveMetadata
which returns a stream to the metadata file that's been stored with the default metadata namespace if it exists. - If there are multiple metadata objects, a 'formatId' must be specified when
calling
retrieveMetadata
(ex.retrieveMetadata(pid, formatId)
)
How do I delete a metadata file?
- Like
retrieveMetadata
, call the Public API methoddeleteMetadata(String pid, String formatId)
which will delete the metadata object associated with the given pid. - To delete all metadata objects related to a given 'pid', call
deleteMetadata(String pid)
HashStore assumes that every object to store has a respective identifier. This identifier is then used when storing, retrieving and deleting an object. In order to facilitate this process, we create two types of reference files:
- pid (persistent identifier) reference files
- cid (content identifier) reference files
These reference files are implemented in HashStore underneath the hood with no expectation for
modification from the calling app/client. The one and only exception to this process is when the
calling client/app does not have an identifier, and solely stores an objects raw bytes in
HashStore (calling storeObject(InputStream)
).
'pid' Reference Files
- Pid (persistent identifier) reference files are created when storing an object with an identifier.
- Pid reference files are located in HashStores '/refs/pid' directory
- If an identifier is not available at the time of storing an object, the calling app/client must
create this association between a pid and the object it represents by calling
tagObject
separately. - Each pid reference file contains a string that represents the content identifier of the object it references
- Like how objects are stored once and only once, there is also only one pid reference file for each object.
'cid' Reference Files
- Cid (content identifier) reference files are created at the same time as pid reference files when storing an object with an identifier.
- Cid reference files are located in HashStore's '/refs/cid' directory
- A cid reference file is a list of all the pids that reference a cid, delimited by a new line ("\n") character
HashStore is a Java package, and built using the Maven build tool.
To install HashStore-java
locally, install Java and Maven on your local machine,
and then install or build the package with mvn install
or mvn package
, respectively.
We also maintain a parallel Python-based version of HashStore.
# Step 1: Get HashStore Jar file
$ mvn clean package -Dmaven.test.skip=true
# Get help
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -h
# Step 2: Determine where your hashstore should live (ex. `/var/hashstore`)
## Create a HashStore (long option)
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient --createhashstore --storepath=/path/to/store --storedepth=3 --storewidth=2 --storealgo=SHA-256 --storenamespace=https://ns.dataone.org/service/types/v2.0#SystemMetadata
## Create a HashStore (short option)
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -chs -store /path/to/store -dp 3 -wp 2 -ap SHA-256 -nsp https://ns.dataone.org/service/types/v2.0#SystemMetadata
# Get the checksum of a data object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -getchecksum -pid testpid1 -algo SHA-256
# Store a data object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -storeobject -path /path/to/data.ext -pid testpid1
# Store a metadata object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -storemetadata -path /path/to/metadata.ext -pid testpid1 -format_id https://ns.dataone.org/service/types/v2.0#SystemMetadata
# Retrieve a data object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -retrieveobject -pid testpid1
# Retrieve a metadata object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -retrievemetadata -pid testpid1 -format_id https://ns.dataone.org/service/types/v2.0#SystemMetadata
# Delete a data object
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -deleteobject -pid testpid1
# Delete a metadata file
$ java -cp ./target/hashstore-1.1.0-shaded.jar org.dataone.hashstore.HashStoreClient -store /path/to/store -deletemetadata -pid testpid1 -format_id https://ns.dataone.org/service/types/v2.0#SystemMetadata
Copyright [2023] [Regents of the University of California]
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
Work on this package was supported by:
- DataONE Network
- Arctic Data Center: NSF-PLR grant #2042102 to M. B. Jones, A. Budden, M. Schildhauer, and J. Dozier
Additional support was provided for collaboration by the National Center for Ecological Analysis and Synthesis, a Center funded by the University of California, Santa Barbara, and the State of California.