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@fluree/crypto

Cryptography library for Fluree

  • 3.0.0
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Cryptography Library for Fluree

A collection of Javascript cryptography functions for Fluree.

Utility Functions

Normalize String

  • Arguments: string
  • Returns: string

Normalizes string using the NKFC standard to ensure consistent hashing.

const normalApple = crypto.normalizeString("\u0041\u030apple")

For example, we can see that:

crypto.sha2_256("\u0041\u030apple") results in 6e9288599c1ff90127459f82285327c83fa0541d8b7cd215d0cd9e587150c15f.

While using the normalized version of the string

crypto.sha2_256_normalize(normalApple) results in 58acf888b520fe51ecc0e4e5eef46c3bea3ca7df4c11f6719a1c2471bbe478bf.

String to Byte Array

  • Arguments: string or byte-array
  • Returns: byte-array

This functions normalizes a string and returns a byte-array. If it is already a byte-array, it returns itself.

For example:

crypto.stringToByteArray("hi there") results in [104, 105, 32, 116, 104, 101, 114, 101].

Byte Array to String

  • Arguments: byte-array
  • Returns: byte-array

This functions takes a byte-array and returns a string.

crypto.byteArrayToString([104, 105, 32, 116, 104, 101, 114, 101]) results in hi there.

Public-key Cryptography

Generate Key Pair

  • Arguments: none or private-key-as-hex-string
  • Returns: { private: "private-key-as-hex-string", public: "public-key-as-hex-string" }

This function will return a map with a public and private key:

crypto.generateKeyPair(); will return a valid public-private key pair.

For example, this might return:

{ private: "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2", public: "02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391"}.

You can also call this function with a private key already provided.

crypto.generateKeyPair("6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2");

This will return:

{ private: "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2", public: "02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391"}.

Public Key from Private

  • Arguments: private-key-as-hex-string
  • Returns: public-key-as-hex-string

Given a private key, this returns a public key:

crypto.pubKeyFromPrivate("6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2");

This will return: 02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391;

Account Id from Private

  • Arguments: private-key-as-hex-string
  • Returns: account-id

Given a private key, this will return an account id:

crypto.accountIdFromPrivate("6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2");

This will return TfGvAdKH2nRdV4zP4yBz4kJ2R9WzYHDe2EV.

Account Id from Public

  • Arguments: public-key-as-hex-string
  • Returns: account-id

Given a public key, this will return an account id:

crypto.accountIdFromPublic("02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391");

This will return TfGvAdKH2nRdV4zP4yBz4kJ2R9WzYHDe2EV.

Sign Message

  • Arguments: message, private-key-as-hex-string
  • Returns: signature

Given a message and a private key, this will return a signature.

const message = "hi there";
const privateKey = "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2";

crypto.signMessage(message, privateKey);

This returns:

1b3046022100cbd32e463567fefc2f120425b0224d9d263008911653f50e83953f47cfbef3bc022100fcf81206277aa1b86d2667b4003f44643759b8f4684097efd92d56129cd89ea8

Verify Signature

  • Arguments: public-key-as-hex-string, message, signature
  • Returns: true or false

Given a public key, message, and a signature, this function will return true or false.

const message = "hi there";
const privateKey = "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2";
const publicKey = "02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391";
const signature = crypto.signMessage(message, privateKey);

crypto.verifySignature(publicKey, message, signature);

This returns true.

Public Key from Message

  • Arguments: message, signature
  • Returns: true or false
const message = "hi there";
const signature = crypto.signMessage(message, "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2");

crypto.pubKeyFromMessage(message, signature);

This returns 02991719b37817f6108fc8b0e824d3a9daa3d39bc97ecfd4f8bc7ef3b71d4c6391.

Account Id from Message

  • Arguments: message, signature
  • Returns: true or false
const message = "hi there";
const signature = crypto.signMessage(message, "6a5f415f49986006815ae7887016275aac8ffb239f9a2fa7172300578582b6c2");

crypto.accountIdFromMessage(message, signature);

This returns TfGvAdKH2nRdV4zP4yBz4kJ2R9WzYHDe2EV.

Hashing

SHA2 256

  • Arguments: string or byte-array or string or byte-array, output-format or input in input format, output-format, input-format
  • Returns: By default hex-string.

Valid input and output formats: hex, bytes, base64, base58, string.

This function: crypto.sha2_256("hi"); returns:

8f434346648f6b96df89dda901c5176b10a6d83961dd3c1ac88b59b2dc327aa4.

SHA2 256 Normalize

  • Arguments: string or string, output-format
  • Returns: By default hex-string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha2_256_normalize("hi") returns:

8f434346648f6b96df89dda901c5176b10a6d83961dd3c1ac88b59b2dc327aa4.

SHA2 512

  • Arguments: string or byte-array or string or byte-array, output-format or input in input format, output-format, input-format
  • Returns: By default hex-string.

Valid input and output formats: hex, bytes, base64, base58, string.

This function: crypto.sha2_512("hi"); returns:

150a14ed5bea6cc731cf86c41566ac427a8db48ef1b9fd626664b3bfbb99071fa4c922f33dde38719b8c8354e2b7ab9d77e0e67fc12843920a712e73d558e197.

SHA2 512 Normalize

  • Arguments: string or string, output-format
  • Returns: By default hex-string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha2_512_normalize("hi"); returns:

150a14ed5bea6cc731cf86c41566ac427a8db48ef1b9fd626664b3bfbb99071fa4c922f33dde38719b8c8354e2b7ab9d77e0e67fc12843920a712e73d558e197.

SHA3 256

  • Arguments: string or byte-array or string or byte-array, output-format
  • Returns: By default hex-string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha3_256("hi"); returns: crypto b39c14c8da3b23811f6415b7e0b33526d7e07a46f2cf0484179435767e4a8804.

SHA3 256 Normalize

  • Arguments: string or string, output-format
  • Returns: By default hex-string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha3_256_normalize("hi"); returns:

b39c14c8da3b23811f6415b7e0b33526d7e07a46f2cf0484179435767e4a8804.

SHA3 512

  • Arguments: string or byte-array or string or byte-array, output-format
  • Returns: By default hex-string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha3_512("hi"); returns:

154013cb8140c753f0ac358da6110fe237481b26c75c3ddc1b59eaf9dd7b46a0a3aeb2cef164b3c82d65b38a4e26ea9930b7b2cb3c01da4ba331c95e62ccb9c3.

SHA3 512 Normalize

  • Arguments: string or string, output-format
  • Returns: By default hex string.

Valid output formats: hex, bytes, base64, base58, string.

This function: crypto.sha3_512_normalize("hi"); returns:

154013cb8140c753f0ac358da6110fe237481b26c75c3ddc1b59eaf9dd7b46a0a3aeb2cef164b3c82d65b38a4e26ea9930b7b2cb3c01da4ba331c95e62ccb9c3.

RIPEMD-160

  • Arguments: string or string, output-format or string, output-format, input-format
  • Returns: By default hex-string.

Valid input or output formats: hex, bytes, base64, base58, string.

This function: crypto.ripemd_160("hi"); returns 242485ab6bfd3502bcb3442ea2e211687b8e4d89.

Encryption

AES Encrypt

  • Arguments: message, iv, key or message, iv, key, output-format
  • Returns: By default hex-string.

Valid output formats: hex, base64.

const initialization_vector = [6, 224, 71, 170, 241, 204, 115, 21, 30, 8, 46, 223, 106, 207, 55, 42];
const message = "hi";
const key = "there";

crypto.aesEncrypt(message, initialization_vector, key);

This returns: 668cd07d1a17cc7a8a0390cf017ac7ef.

AES Decrypt

  • Arguments: x, iv, key or x, iv, key, output-format or x, iv, key, output-format, input-format
  • Returns: By default hex-string.
const initialization_vector = [6, 224, 71, 170, 241, 204, 115, 21, 30, 8, 46, 223, 106, 207, 55, 42];
const message = "hi";
const key = "there";
const encrypted = crypto.aesEncrypt(message, initialization_vector, key);

crypto.aesDecrypt(encrypted, initialization_vector, key);

This returns: hi.

Scrypt Encrypt

  • Arguments: message or message, salt or message, salt, n or message, salt, n, r, p or message, salt, n, r, p, dk-len
  • Returns: hex-string.

The arguments by default:

  • salt: 16 random bytes
  • n: 32,768
  • r: 8
  • p: 1
  • dk-len: 32
const salt = [172, 28, 242, 108, 175, 130, 214, 6, 249, 61, 244, 178, 34, 8, 13, 178];

crypto.scryptEncrypt("hi", salt)

This results in 57f93bcf926c31a9e2d2129da84bfca51eb9447dfe1749b62598feacaad657d4.

Scrypt Check

  • Arguments: message, encrypted, salt or message, encrypted, salt, n, r, p
  • Returns: true or false

The arguments by default:

  • n: 32,768
  • r: 8
  • p: 1
const salt = [172, 28, 242, 108, 175, 130, 214, 6, 249, 61, 244, 178, 34, 8, 13, 178];

crypto.scryptEncrypt("hi", salt, 32768, 8, 1)

crypto.scryptCheck("hi", "57f93bcf926c31a9e2d2129da84bfca51eb9447dfe1749b62598feacaad657d4", salt, 32768, 8, 1)

Contributing

Clone this repo to your local machine and create a new branch for your work.

You'll need the Clojure CLI tools installed for development and testing of this library.

  • macOS
    • brew install clojure/tools/clojure

You will also need the NodeJS and NPM tools installed.

  • macOS
    • brew install node
    • brew install npm

Tests

You can run the CLJ and CLJS test suites like this: make test.

If you want to run one or the other you can do make cljtest or make cljstest.

Building

ClojureScript

Run make to build the CLJS library JAR. It will create or update target/fluree-crypto.jar.

To test this in another CLJS project, just point that project's deps.edn :deps entry at :local/root "../path/to/fluree.crypto".

Node

Run make node to build the NodeJS library in out/nodejs/fluree-crypto.js.

To test this in another Node project, run npm install --save ../path/to/fluree.crypto. That will point @fluree/crypto at this working directory.

Browser

Run make browser to build the browser library in out/browser/fluree-crypto.js.

To test this you can run npx shadow-cljs watch browser and then open http://localhost:8000/ in a web browser. You should see a byte array output on the web page.

Installing

You can install the JAR locally with:

make install

Deploying

You can deploy to Clojars with the following:

env CLOJARS_USERNAME=your-user CLOJARS_PASSWORD=your-deploy-token make deploy

You can deploy to npmjs.com with the following:

npm publish

CI/CD

The CI/CD pipeline is run inside a Docker container. You can run this locally if you have Docker installed via:

script/run-in-docker.sh make test

FAQs

Package last updated on 20 Mar 2024

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