CHANGELOG | API | current Break Version:
[com.taoensso/nippy "3.1.1"] ; See CHANGELOG for details
See here if you're interested in helping support my open-source work, thanks! - Peter Taoussanis
Users of Nippy <= v2.15.0-RC1
should please upgrade ASAP due to a Remote Code Execution (RCE) vulnerability when deserializing data from an untrusted source.
See here for details, including upgrade instructions.
Clojure's rich data types are awesome. And its reader allows you to take your data just about anywhere. But the reader can be painfully slow when you've got a lot of data to crunch (like when you're serializing to a database).
Nippy is an attempt to provide a reliable, high-performance drop-in alternative to the reader. Used by the Carmine Redis client, the Faraday DynamoDB client, PigPen, Onyx and others.
- Small, uncomplicated all-Clojure library
- Terrific performance (the fastest for Clojure that I'm aware of)
- Comprehesive support for all standard data types
- Easily extendable to custom data types (v2.1+)
- Java's Serializable fallback when available (v2.5+)
- Reader-fallback for all other types (including Clojure 1.4+ tagged literals)
- Full test coverage for every supported type
- Fully pluggable compression, including built-in high-performance LZ4 compressor
- Fully pluggable encryption, including built-in high-strength AES128 enabled with a single
:password [:salted "my-password"]
option (v2+) - Utils for easy integration into 3rd-party tools/libraries (v2+)
Add the necessary dependency to your project:
Leiningen: [com.taoensso/nippy "3.1.1"] ; or
deps.edn: com.taoensso/nippy {:mvn/version "3.1.1"}
And setup your namespace imports:
(ns my-ns (:require [taoensso.nippy :as nippy]))
As an example of what it can do, let's take a look at Nippy's own reference stress data:
nippy/stress-data
=>
{:bytes (byte-array [(byte 1) (byte 2) (byte 3)])
:nil nil
:true true
:false false
:char \ಬ
:str-short "ಬಾ ಇಲ್ಲಿ ಸಂಭವಿಸ"
:str-long (apply str (range 1000))
:kw :keyword
:kw-ns ::keyword
:kw-long (keyword
(apply str "kw" (range 1000))
(apply str "kw" (range 1000)))
:sym 'foo
:sym-ns 'foo/bar
:sym-long (symbol
(apply str "sym" (range 1000))
(apply str "sym" (range 1000)))
:regex #"^(https?:)?//(www\?|\?)?"
:queue (-> (PersistentQueue/EMPTY) (conj :a :b :c :d :e :f :g))
:queue-empty (PersistentQueue/EMPTY)
:queue-empty (enc/queue)
:sorted-set (sorted-set 1 2 3 4 5)
:sorted-map (sorted-map :b 2 :a 1 :d 4 :c 3)
:list (list 1 2 3 4 5 (list 6 7 8 (list 9 10)))
:list-quoted '(1 2 3 4 5 (6 7 8 (9 10)))
:list-empty (list)
:vector [1 2 3 4 5 [6 7 8 [9 10]]]
:vector-empty []
:map {:a 1 :b 2 :c 3 :d {:e 4 :f {:g 5 :h 6 :i 7}}}
:map-empty {}
:set #{1 2 3 4 5 #{6 7 8 #{9 10}}}
:set-empty #{}
:meta (with-meta {:a :A} {:metakey :metaval})
:nested [#{{1 [:a :b] 2 [:c :d] 3 [:e :f]} [] #{:a :b}}
#{{1 [:a :b] 2 [:c :d] 3 [:e :f]} [] #{:a :b}}
[1 [1 2 [1 2 3 [1 2 3 4 [1 2 3 4 5]]]]]]
:lazy-seq (repeatedly 1000 rand)
:lazy-seq-empty (map identity '())
:byte (byte 16)
:short (short 42)
:integer (int 3)
:long (long 3)
:bigint (bigint 31415926535897932384626433832795)
:float (float 3.14)
:double (double 3.14)
:bigdec (bigdec 3.1415926535897932384626433832795)
:ratio 22/7
:uuid (java.util.UUID/randomUUID)
:date (java.util.Date.)
;;; JVM 8+
:time-instant (java.time.Instant/now)
:time-duration (java.time.Duration/ofSeconds 100 100)
:time-period (java.time.Period/of 1 1 1)
:objects (object-array [1 "two" {:data "data"}])
:stress-record (StressRecord. "data")
:stress-type (StressType. "data")
;; Serializable
:throwable (Throwable. "Yolo")
:exception (try (/ 1 0) (catch Exception e e))
:ex-info (ex-info "ExInfo" {:data "data"})}
Serialize it:
(def frozen-stress-data (nippy/freeze nippy/stress-data))
=> #<byte[] [B@3253bcf3>
Deserialize it:
(nippy/thaw frozen-stress-data)
=> {:bytes (byte-array [(byte 1) (byte 2) (byte 3)])
:nil nil
:boolean true
<...> }
Couldn't be simpler!
See also the lower-level freeze-to-out!
and thaw-from-in!
fns for operating on DataOutput
and DataInput
types directly.
Nippy also gives you dead simple data encryption. Add a single option to your usual freeze/thaw calls like so:
(nippy/freeze nippy/stress-data {:password [:salted "my-password"]}) ; Encrypt
(nippy/thaw <encrypted-data> {:password [:salted "my-password"]}) ; Decrypt
There's two default forms of encryption on offer: :salted
and :cached
. Each of these makes carefully-chosen trade-offs and is suited to one of two common use cases. See the aes128-encryptor
API docs for a detailed explanation of why/when you'd want one or the other.
(defrecord MyType [data])
(nippy/extend-freeze MyType :my-type/foo ; A unique (namespaced) type identifier
[x data-output]
(.writeUTF data-output (:data x)))
(nippy/extend-thaw :my-type/foo ; Same type id
[data-input]
(MyType. (.readUTF data-input)))
(nippy/thaw (nippy/freeze (MyType. "Joe"))) => #taoensso.nippy.MyType{:data "Joe"}
Nippy is currently the fastest serialization library for Clojure that I'm aware of, and offers roundtrip times between ~10x and ~15x faster than Clojure's tools.reader.edn
, with a ~40% smaller output size.
Detailed benchmark info is available on Google Docs.
Please use the project's GitHub issues page for all questions, ideas, etc. Pull requests welcome. See the project's GitHub contributors page for a list of contributors.
Otherwise, you can reach me at Taoensso.com. Happy hacking!
Distributed under the EPL v1.0 (same as Clojure).
Copyright © 2012-2020 Peter Taoussanis.