This library implements content-addressable storage types and protocols for Clojure. Content-addressable storage has several useful properties:
Library releases are published on Clojars. To use the latest version with Leiningen, add the following dependency to your project definition:
A block is a sequence of bytes identified by the cryptographic digest of its
content. All blocks have an :id
and :size
, and optionally a :stored-at
.
The block identifier is a multihash
value, and the size is the number of bytes in the block content. Blocks may also
have a :stored-at
value, which is the instant the backing store received the
block.
=> (require '[blocks.core :as block])
; Read a block into memory:
=> (def hello (block/read! "hello, blocks!"))
#'user/hello
=> hello
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:d2eef339d508c69fb6e3e99c11c11fc4fc8c035d028973057980d41c7d162684",
:size 14,
:stored-at #inst "2019-02-18T07:02:28.751Z"}
=> (:id hello)
#multi/hash "hash:sha2-256:d2eef339d508c69fb6e3e99c11c11fc4fc8c035d028973057980d41c7d162684",
=> (:size hello)
14
; Write a block to some output stream:
=> (let [baos (java.io.ByteArrayOutputStream.)]
(block/write! hello baos)
(String. (.toByteArray baos)))
"hello, blocks!"
Internally, blocks either have a buffer holding the data in memory, or a reader which can be invoked to create new input streams for the block content. A block with in-memory content is a loaded block while a block with a reader is a lazy block.
=> (block/loaded? hello)
true
; Create a block from a local file:
=> (def readme (block/from-file "README.md"))
#'user/readme
; Block is lazily backed by the file on disk:
=> (block/loaded? readme)
false
=> (block/lazy? readme)
true
To abstract over the loaded/lazy divide, you can create an input stream over a
block's content using open
:
=> (slurp (block/open hello))
"hello, blocks!"
; You can also provide a start/end index to get a range of bytes:
=> (with-open [content (block/open readme {:start 0, :end 32})]
(slurp content))
"Block Storage\n=============\n\n[!["
A block's properties and content cannot be changed after construction, but blocks do support metadata. In order to guard against the content changing in the underlying storage layer, blocks can be validated by re-reading their content:
; In-memory blocks will never change:
=> (block/validate! hello)
nil
; But if the README file backing the second block is changed:
=> (block/validate! readme)
; IllegalStateException Block hash:sha2-256:515c169aa0d95... has mismatched content
; blocks.core/validate! (core.clj:115)
; Metadata can be set and queried:
=> (meta (with-meta readme {:baz 123}))
{:baz 123}
A block store is a system which saves and retrieves block data. Block stores have a very simple interface: they must store, retrieve, and enumerate the contained blocks. The simplest type of block storage is a memory store, which is backed by a map in memory. Another basic example is a store backed by a local filesystem, where blocks are stored as files in a directory.
The block storage protocol is comprised of five methods:
list
- enumerate the stored blocks as a streamstat
- get metadata about a stored blockget
- retrieve a block from the storeput!
- add a block to the storedelete!
- remove a block from the store; Create a new memory store:
=> (def store (block/->store "mem:-"))
#'user/store
=> store
#blocks.store.memory.MemoryBlockStore {:memory #<Ref@2573332e {}>}
; Initially, the store is empty:
=> (block/list-seq store)
()
; Lets put our blocks in the store so they don't get lost:
=> @(block/put! store hello)
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:d2eef339d508c69fb6e3e99c11c11fc4fc8c035d028973057980d41c7d162684",
:size 14,
:stored-at #inst "2019-02-18T07:06:43.655Z"}
=> @(block/put! store readme)
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:94d0eb8d13137ebced045b1e7ef48540af81b2abaf2cce34e924ce2cde7cfbaa",
:size 8597,
:stored-at #inst "2019-02-18T07:07:06.458Z"}
; We can `stat` block ids to get metadata without content:
=> @(block/stat store (:id hello))
{:id #multi/hash "hash:sha2-256:94d0eb8d13137ebced045b1e7ef48540af81b2abaf2cce34e924ce2cde7cfbaa",
:size 14,
:stored-at #inst "2019-02-18T07:07:06.458Z"}
; `list` returns the blocks, and has some basic filtering options:
=> (block/list-seq store :algorithm :sha2-256)
(#blocks.data.Block
{:id #multi/hash "hash:sha2-256:94d0eb8d13137ebced045b1e7ef48540af81b2abaf2cce34e924ce2cde7cfbaa",
:size 8597,
:stored-at #inst "2019-02-18T07:07:06.458Z"}
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:d2eef339d508c69fb6e3e99c11c11fc4fc8c035d028973057980d41c7d162684",
:size 14,
:stored-at #inst "2019-02-18T07:06:43.655Z"})
; Use `get` to fetch blocks from the store:
=> @(block/get store (:id readme))
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:94d0eb8d13137ebced045b1e7ef48540af81b2abaf2cce34e924ce2cde7cfbaa",
:size 8597,
:stored-at #inst "2019-02-18T07:07:06.458Z"}
; You can also store them directly from a byte source like a file:
=> @(block/store! store (io/file "project.clj"))
#blocks.data.Block
{:id #multi/hash "hash:sha2-256:95344c6acadde09ecc03a7899231001455690f620f31cf8d5bbe330dcda19594",
:size 2013,
:stored-at #inst "2019-02-18T07:11:12.879Z"}
=> (def project-hash (:id *1))
#'user/project-hash
; Use `delete!` to remove blocks from a store:
=> @(block/delete! store project-hash)
true
; Checking with stat reveals the block is gone:
=> @(block/stat store project-hash)
nil
This library comes with a few block store implementations built in:
blocks.store.memory
provides an in-memory map of blocks for transient
block storage.blocks.store.file
provides a simple one-file-per-block store in a local
directory.blocks.store.buffer
holds blocks in one store, then flushes them to another.blocks.store.replica
stores blocks in multiple backing stores for
durability.blocks.store.cache
manages two backing stores to provide an LRU cache that
will stay under a certain size limit.Other storage backends are provided by separate libraries:
The blocks.meter
namespace provides instrumentation for block stores to
measure data flows, call latencies, and other metrics. These measurements are
built around the notion of a metric event and an associated recording
function on the store which the events are passed to. Each event has a
namespaced :type
keyword, a :label
associated with the store, and a numeric
:value
. The store currently measures the call latencies of the storage methods
as well as the flow of bytes into or out of a store's blocks.
To enable metering, set a ::meter/recorder
function on the store. The function
will be called with the store itself and each metric event. The :label
on each
event is derived from the store - it will use the store's class name or an
explicit ::meter/label
value if available.
This is free and unencumbered software released into the public domain. See the UNLICENSE file for more information.
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