chore: release version v0.10.2

chore: update contributors
fix: use regular protocol-buffers until protobufjs is fixed (#109 )
2025-07-18 00:32:12 +00:00 · 2017-09-06 08:30:10 +01:00 · 2017-09-06 08:30:09 +01:00 · 2017-09-06 08:29:45 +01:00 · 2017-09-05 15:28:43 +02:00 · 2017-09-05 11:08:46 +01:00
54 changed files with 1317 additions and 1050 deletions
--- a/.eslintignore
+++ b/.eslintignore
@@ -0,0 +1 @@
 src/keys/keys.proto.js
--- a/.gitignore
+++ b/.gitignore
@@ -1,6 +1,10 @@
 package-lock.json
 yarn.lock
 **/node_modules/
 **/*.log
 test/repo-tests*
 **/bundle.js
 # Logs
 logs
@@ -31,4 +35,12 @@ build
 # https://www.npmjs.org/doc/misc/npm-faq.html#should-i-check-my-node_modules-folder-into-git
 node_modules
 lib
 dist
 test/test-data/go-ipfs-repo/LOCK
 test/test-data/go-ipfs-repo/LOG
 test/test-data/go-ipfs-repo/LOG.old
 # while testing npm5
 package-lock.json
 yarn.lock
--- a/.travis.yml
+++ b/.travis.yml
@@ -3,32 +3,21 @@ language: node_js
 matrix:
  include:
  - node_js: 4
    env: CXX=g++-4.8
  - node_js: 6
    env:
      - SAUCE=true
      - CXX=g++-4.8
  - node_js: stable
    env: CXX=g++-4.8
-
+  - node_js: 8
-# Make sure we have new NPM.
+    env: CXX=g++-4.8
-before_install:
+    #  - node_js: stable
-  - npm install -g npm
+    #    env: CXX=g++-4.8
 script:
  - npm run lint
-  - npm test
+  - npm run test
  - npm run coverage
 before_script:
  - export DISPLAY=:99.0
  - sh -e /etc/init.d/xvfb start
 after_success:
  - npm run coverage-publish
 addons:
  firefox: 'latest'
  apt:
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -0,0 +1,96 @@
 <a name="0.10.2"></a>
 ## [0.10.2](https://github.com/libp2p/js-libp2p-crypto/compare/v0.10.1...v0.10.2) (2017-09-06)
 ### Bug Fixes
 * use regular protocol-buffers until protobufjs is fixed ([#109](https://github.com/libp2p/js-libp2p-crypto/issues/109)) ([957fdd3](https://github.com/libp2p/js-libp2p-crypto/commit/957fdd3))
 ### Features
 * **deps:** upgrade to aegir@12 and browserify-aes@1.0.8 ([83257bc](https://github.com/libp2p/js-libp2p-crypto/commit/83257bc))
 <a name="0.10.1"></a>
 ## [0.10.1](https://github.com/libp2p/js-libp2p-crypto/compare/v0.10.0...v0.10.1) (2017-09-05)
 ### Bug Fixes
 * switch to protobufjs ([#107](https://github.com/libp2p/js-libp2p-crypto/issues/107)) ([dc2793f](https://github.com/libp2p/js-libp2p-crypto/commit/dc2793f))
 <a name="0.10.0"></a>
 # [0.10.0](https://github.com/libp2p/js-libp2p-crypto/compare/v0.9.4...v0.10.0) (2017-09-03)
 ### Features
 * p2p addrs situation ([#106](https://github.com/libp2p/js-libp2p-crypto/issues/106)) ([9e977c7](https://github.com/libp2p/js-libp2p-crypto/commit/9e977c7))
 * skip nextTick in nodeify ([#103](https://github.com/libp2p/js-libp2p-crypto/issues/103)) ([f20267b](https://github.com/libp2p/js-libp2p-crypto/commit/f20267b))
 <a name="0.9.4"></a>
 ## [0.9.4](https://github.com/libp2p/js-libp2p-crypto/compare/v0.9.3...v0.9.4) (2017-07-22)
 ### Bug Fixes
 * circular circular dep -> DI ([bc554d1](https://github.com/libp2p/js-libp2p-crypto/commit/bc554d1))
 <a name="0.9.3"></a>
 ## [0.9.3](https://github.com/libp2p/js-libp2p-crypto/compare/v0.9.2...v0.9.3) (2017-07-22)
 <a name="0.9.2"></a>
 ## [0.9.2](https://github.com/libp2p/js-libp2p-crypto/compare/v0.9.1...v0.9.2) (2017-07-22)
 <a name="0.9.1"></a>
 ## [0.9.1](https://github.com/libp2p/js-libp2p-crypto/compare/v0.9.0...v0.9.1) (2017-07-22)
 <a name="0.9.0"></a>
 # [0.9.0](https://github.com/libp2p/js-libp2p-crypto/compare/v0.8.8...v0.9.0) (2017-07-22)
 <a name="0.8.8"></a>
 ## [0.8.8](https://github.com/libp2p/js-libp2p-crypto/compare/v0.8.7...v0.8.8) (2017-04-11)
 ### Bug Fixes
 * **ecdh:** allow base64 to be left-0-padded, needed for JWK format  ([be64372](https://github.com/libp2p/js-libp2p-crypto/commit/be64372)), closes [#97](https://github.com/libp2p/js-libp2p-crypto/issues/97)
 <a name="0.8.7"></a>
 ## [0.8.7](https://github.com/libp2p/js-libp2p-crypto/compare/v0.8.6...v0.8.7) (2017-03-21)
 <a name="0.8.6"></a>
 ## [0.8.6](https://github.com/libp2p/js-libp2p-crypto/compare/v0.8.5...v0.8.6) (2017-03-03)
 ### Bug Fixes
 * **package:** update tweetnacl to version 1.0.0-rc.1 ([4e56e17](https://github.com/libp2p/js-libp2p-crypto/commit/4e56e17))
 ### Features
 * **keys:** implement generateKeyPairFromSeed for ed25519  ([e5b7c1f](https://github.com/libp2p/js-libp2p-crypto/commit/e5b7c1f))
--- a/README.md
+++ b/README.md
@@ -10,38 +10,32 @@
 [![Dependency Status](https://david-dm.org/libp2p/js-libp2p-crypto.svg?style=flat-square)](https://david-dm.org/libp2p/js-libp2p-crypto)
 [![js-standard-style](https://img.shields.io/badge/code%20style-standard-brightgreen.svg?style=flat-square)](https://github.com/feross/standard)
 ![](https://img.shields.io/badge/npm-%3E%3D3.0.0-orange.svg?style=flat-square)
-![](https://img.shields.io/badge/Node.js-%3E%3D4.0.0-orange.svg?style=flat-square)
+![](https://img.shields.io/badge/Node.js-%3E%3D6.0.0-orange.svg?style=flat-square)
 [![Sauce Test Status](https://saucelabs.com/browser-matrix/ipfs-js-libp2p-crypto.svg)](https://saucelabs.com/u/ipfs-js-
 libp2p-crypto)
 > Crypto primitives for libp2p in JavaScript
-This repo contains the JavaScript implementation of the crypto primitives
+This repo contains the JavaScript implementation of the crypto primitives needed for libp2p. This is based on this [go implementation](https://github.com/libp2p/go-libp2p-crypto).
 needed for libp2p. This is based on this [go implementation](https://github.com/libp2p/go-libp2p-crypto).
 ## Table of Contents
 - [Install](#install)
 - [Usage](#usage)
  - [Example](#example)
 - [API](#api)
-  - [`hmac`](#hmac)
+  - [`crypto.hmac`](#hmac)
    - [`create(hash, secret, callback)`](#createhash-secret-callback)
      - [`digest(data, callback)`](#digestdata-callback)
-  - [`aes`](#aes)
+  - [`crypto.aes`](#aes)
    - [`create(key, iv, callback)`](#createkey-iv-callback)
      - [`encrypt(data, callback)`](#encryptdata-callback)
-      - [`encrypt(data, callback)`](#encryptdata-callback)
+      - [`decrypt(data, callback)`](#decryptdata-callback)
  - [`webcrypto`](#webcrypto)
  - [`keys`](#keys)
-  - [`generateKeyPair(type, bits, callback)`](#generatekeypairtype-bits-callback)
+    - [`generateKeyPair(type, bits, callback)`](#generatekeypairtype-bits-callback)
-  - [`generateEphemeralKeyPair(curve, callback)`](#generateephemeralkeypaircurve-callback)
+    - [`generateEphemeralKeyPair(curve, callback)`](#generateephemeralkeypaircurve-callback)
-  - [`keyStretcher(cipherType, hashType, secret, callback)`](#keystretcherciphertype-hashtype-secret-callback)
+    - [`keyStretcher(cipherType, hashType, secret, callback)`](#keystretcherciphertype-hashtype-secret-callback)
-  - [`marshalPublicKey(key[, type], callback)`](#marshalpublickeykey-type-callback)
+    - [`marshalPublicKey(key[, type], callback)`](#marshalpublickeykey-type-callback)
-  - [`unmarshalPublicKey(buf)`](#unmarshalpublickeybuf)
+    - [`unmarshalPublicKey(buf)`](#unmarshalpublickeybuf)
-  - [`marshalPrivateKey(key[, type])`](#marshalprivatekeykey-type)
+    - [`marshalPrivateKey(key[, type])`](#marshalprivatekeykey-type)
-  - [`unmarshalPrivateKey(buf, callback)`](#unmarshalprivatekeybuf-callback)
+    - [`unmarshalPrivateKey(buf, callback)`](#unmarshalprivatekeybuf-callback)
  - [`webcrypto`](#webcrypto)
 - [Contribute](#contribute)
 - [License](#license)
@@ -51,24 +45,39 @@ needed for libp2p. This is based on this [go implementation](https://github.com/
 npm install --save libp2p-crypto
 ```
 ## Usage
 ### Example
 ```js
 const crypto = require('libp2p-crypto')
 crypto.generateKeyPair('RSA', 2048, (err, key) => {
 })
 ```
 ## API
-### `hmac`
+### `crypto.aes`
 Expoes an interface to AES encryption (formerly Rijndael), as defined in U.S. Federal Information Processing Standards Publication 197.
 This uses `CTR` mode.
 #### `crypto.aes.create(key, iv, callback)`
 - `key: Buffer` The key, if length `16` then `AES 128` is used. For length `32`, `AES 256` is used.
 - `iv: Buffer` Must have length `16`.
 - `callback: Function` 
 ##### `decrypt(data, callback)`
 - `data: Buffer`
 - `callback: Function`
 ##### `encrypt(data, callback)`
 - `data: Buffer`
 - `callback: Function`
 ```
 TODO: Example of using aes
 ```
 ### `crypto.hmac`
 Exposes an interface to the Keyed-Hash Message Authentication Code (HMAC) as defined in U.S. Federal Information Processing Standards Publication 198. An HMAC is a cryptographic hash that uses a key to sign a message. The receiver verifies the hash by recomputing it using the same key.
-#### `create(hash, secret, callback)`
+#### `crypto.hmac.create(hash, secret, callback)`
 - `hash: String`
 - `secret: Buffer`
@@ -79,43 +88,31 @@ Exposes an interface to the Keyed-Hash Message Authentication Code (HMAC) as def
 - `data: Buffer`
 - `callback: Function`
-### `aes`
+Example:
 Expoes an interface to AES encryption (formerly Rijndael), as defined in U.S. Federal Information Processing Standards Publication 197.
-This uses `CTR` mode.
+```
 TODO: Example of using hmac
 ```
-#### `create(key, iv, callback)`
+### `crypto.keys`
- `key: Buffer` The key, if length `16` then `AES 128` is used. For length `32`, `AES 256` is used.
+**Supported Key Types**
 - `iv: Buffer` Must have length `16`.
 - `callback: Function`
-##### `encrypt(data, callback)`
+The [`generateKeyPair`](#generatekeypairtype-bits-callback), [`marshalPublicKey`](#marshalpublickeykey-type-callback), and [`marshalPrivateKey`](#marshalprivatekeykey-type) functions accept a string `type` argument.
- `data: Buffer`
+Currently the `'RSA'` and `'ed25519'` types are supported, although ed25519 keys support only signing and verification of messages.  For encryption / decryption support, RSA keys should be used.
 - `callback: Function`
-##### `encrypt(data, callback)`
+Installing the [libp2p-crypto-secp256k1](https://github.com/libp2p/js-libp2p-crypto-secp256k1) module adds support for the `'secp256k1'` type, which supports ECDSA signatures using the secp256k1 elliptic curve popularized by Bitcoin.  This module is not installed by default, and should be explicitly depended on if your project requires secp256k1 support.
- `data: Buffer`
+### `crypto.keys.generateKeyPair(type, bits, callback)`
 - `callback: Function`
-
+- `type: String`, see [Supported Key Types](#supported-key-types) above.
 ### `webcrypto`
 Depending on the environment this is either an instance of [node-webcrypto-ossl](https://github.com/PeculiarVentures/node-webcrypto-ossl) or the result of `window.crypto`.
 ### `keys`
 ### `generateKeyPair(type, bits, callback)`
 - `type: String`, only `'RSA'` is currently supported
 - `bits: Number` Minimum of 1024
 - `callback: Function`
 Generates a keypair of the given type and bitsize.
-### `generateEphemeralKeyPair(curve, callback)`
+### `crypto.keys.generateEphemeralKeyPair(curve, callback)`
 - `curve: String`, one of `'P-256'`, `'P-384'`, `'P-521'` is currently supported
 - `callback: Function`
@@ -133,7 +130,7 @@ Calls back with an object of the form
 }
 ```
-### `keyStretcher(cipherType, hashType, secret, callback)`
+### `crypto.keys.keyStretcher(cipherType, hashType, secret, callback)`
 - `cipherType: String`, one of `'AES-128'`, `'AES-256'`, `'Blowfish'`
 - `hashType: String`, one of `'SHA1'`, `SHA256`, `SHA512`
@@ -142,7 +139,8 @@ Calls back with an object of the form
 Generates a set of keys for each party by stretching the shared key.
-Calls back with an object of the form
+Calls back with an object of the form:
 ```js
 {
  k1: {
@@ -158,34 +156,34 @@ Calls back with an object of the form
 }
 ```
-### `marshalPublicKey(key[, type], callback)`
+### `crypto.keys.marshalPublicKey(key[, type], callback)`
- `key: crypto.rsa.RsaPublicKey`
+- `key: keys.rsa.RsaPublicKey | keys.ed25519.Ed25519PublicKey | require('libp2p-crypto-secp256k1').Secp256k1PublicKey`
- `type: String`, only `'RSA'` is currently supported
+- `type: String`, see [Supported Key Types](#supported-key-types) above.
 Converts a public key object into a protobuf serialized public key.
-### `unmarshalPublicKey(buf)`
+### `crypto.keys.unmarshalPublicKey(buf)`
 - `buf: Buffer`
 Converts a protobuf serialized public key into its  representative object.
-### `marshalPrivateKey(key[, type])`
+### `crypto.keys.marshalPrivateKey(key[, type])`
- `key: crypto.rsa.RsaPrivateKey`
+- `key: keys.rsa.RsaPrivateKey | keys.ed25519.Ed25519PrivateKey | require('libp2p-crypto-secp256k1').Secp256k1PrivateKey`
- `type: String`, only `'RSA'` is currently supported
+- `type: String`, see [Supported Key Types](#supported-key-types) above.
 Converts a private key object into a protobuf serialized private key.
-### `unmarshalPrivateKey(buf, callback)`
+### `crypto.keys.unmarshalPrivateKey(buf, callback)`
 - `buf: Buffer`
 - `callback: Function`
 Converts a protobuf serialized private key into its representative object.
-### `randomBytes(number)`
+### `crypto.randomBytes(number)`
 - `number: Number`
--- a/benchmarks/ephemeral-keys.js
+++ b/benchmarks/ephemeral-keys.js
@@ -10,28 +10,18 @@ const curves = ['P-256', 'P-384', 'P-521']
 curves.forEach((curve) => {
  suite.add(`ephemeral key with secrect ${curve}`, (d) => {
-    crypto.generateEphemeralKeyPair('P-256', (err, res) => {
+    crypto.keys.generateEphemeralKeyPair('P-256', (err, res) => {
-      if (err) {
+      if (err) { throw err }
        throw err
      }
      res.genSharedKey(res.key, (err, secret) => {
-        if (err) {
+        if (err) { throw err }
          throw err
        }
        secrets.push(secret)
        d.resolve()
      })
    })
-  }, {
+  }, { defer: true })
    defer: true
  })
 })
 suite
-  .on('cycle', (event) => {
+  .on('cycle', (event) => console.log(String(event.target)))
-    console.log(String(event.target))
+  .run({async: true})
  })
  .run({
    async: true
  })
--- a/benchmarks/key-stretcher.js
+++ b/benchmarks/key-stretcher.js
@@ -13,37 +13,27 @@ const ciphers = ['AES-128', 'AES-256', 'Blowfish']
 const hashes = ['SHA1', 'SHA256', 'SHA512']
 async.waterfall([
-  (cb) => crypto.generateEphemeralKeyPair('P-256', cb),
+  (cb) => crypto.keys.generateEphemeralKeyPair('P-256', cb),
  (res, cb) => res.genSharedKey(res.key, cb)
 ], (err, secret) => {
-  if (err) {
+  if (err) { throw err }
    throw err
  }
  ciphers.forEach((cipher) => hashes.forEach((hash) => {
    setup(cipher, hash, secret)
  }))
  suite
-    .on('cycle', (event) => {
+    .on('cycle', (event) => console.log(String(event.target)))
-      console.log(String(event.target))
+    .run({async: true})
    })
    .run({
      async: true
    })
 })
 function setup (cipher, hash, secret) {
  suite.add(`keyStretcher ${cipher} ${hash}`, (d) => {
-    crypto.keyStretcher(cipher, hash, secret, (err, k) => {
+    crypto.keys.keyStretcher(cipher, hash, secret, (err, k) => {
-      if (err) {
+      if (err) { throw err }
        throw err
      }
      keys.push(k)
      d.resolve()
    })
-  }, {
+  }, { defer: true })
    defer: true
  })
 }
--- a/benchmarks/rsa.js
+++ b/benchmarks/rsa.js
@@ -10,8 +10,8 @@ const bits = [1024, 2048, 4096]
 bits.forEach((bit) => {
  suite.add(`generateKeyPair ${bit}bits`, (d) => {
-    crypto.generateKeyPair('RSA', bit, (err, key) => {
+    crypto.keys.generateKeyPair('RSA', bit, (err, key) => {
-      if (err) throw err
+      if (err) { throw err }
      keys.push(key)
      d.resolve()
    })
@@ -25,17 +25,11 @@ suite.add('sign and verify', (d) => {
  const text = key.genSecret()
  key.sign(text, (err, sig) => {
-    if (err) {
+    if (err) { throw err }
      throw err
    }
    key.public.verify(text, sig, (err, res) => {
-      if (err) {
+      if (err) { throw err }
-        throw err
+      if (res !== true) { throw new Error('failed to verify') }
      }
      if (res !== true) {
        throw new Error('failed to verify')
      }
      d.resolve()
    })
  })
@@ -44,9 +38,5 @@ suite.add('sign and verify', (d) => {
 })
 suite
-  .on('cycle', (event) => {
+  .on('cycle', (event) => console.log(String(event.target)))
-    console.log(String(event.target))
+  .run({async: true})
  })
  .run({
    async: true
  })
--- a/circle.yml
+++ b/circle.yml
@@ -2,11 +2,17 @@ machine:
  node:
    version: stable
 post:
  test:
    - npm run coverage -- --upload
 dependencies:
  pre:
    - google-chrome --version
-    - wget -q -O - https://dl-ssl.google.com/linux/linux_signing_key.pub | sudo apt-key add -
+    - curl -L -o google-chrome.deb https://dl.google.com/linux/direct/google-chrome-stable_current_amd64.deb
-    - sudo sh -c 'echo "deb [arch=amd64] http://dl.google.com/linux/chrome/deb/ stable main" >> /etc/apt/sources.list.d/google.list'
+    - sudo dpkg -i google-chrome.deb || true
    - sudo apt-get update
-    - sudo apt-get --only-upgrade install google-chrome-stable
+    - sudo apt-get install -f
    - sudo apt-get install --only-upgrade lsb-base
    - sudo dpkg -i google-chrome.deb
    - google-chrome --version
--- a/package.json
+++ b/package.json
@@ -1,28 +1,25 @@
 {
  "name": "libp2p-crypto",
-  "version": "0.7.6",
+  "version": "0.10.2",
  "description": "Crypto primitives for libp2p",
  "main": "src/index.js",
  "browser": {
-    "node-webcrypto-ossl": false,
+    "./src/hmac/index.js": "./src/hmac/index-browser.js",
-    "./src/crypto/webcrypto.js": "./src/crypto/webcrypto-browser.js",
+    "./src/keys/ecdh.js": "./src/keys/ecdh-browser.js",
-    "./src/crypto/hmac.js": "./src/crypto/hmac-browser.js",
+    "./src/aes/ciphers.js": "./src/aes/ciphers-browser.js",
-    "./src/crypto/ecdh.js": "./src/crypto/ecdh-browser.js",
+    "./src/keys/rsa.js": "./src/keys/rsa-browser.js"
    "./src/crypto/ciphers.js": "./src/crypto/ciphers-browser.js",
    "./src/crypto/rsa.js": "./src/crypto/rsa-browser.js"
  },
  "scripts": {
-    "lint": "aegir-lint",
+    "lint": "aegir lint",
-    "build": "aegir-build",
+    "build": "aegir build",
-    "test": "npm run test:node && npm run test:no-webcrypto && npm run test:browser",
+    "build-proto": "pbjs --wrap commonjs --target static-module src/keys/keys.proto > src/keys/keys.proto.js",
-    "test:node": "aegir-test --env node",
+    "test": "aegir test",
-    "test:no-webcrypto": "NO_WEBCRYPTO=true aegir-test --env node",
+    "test:node": "aegir test -t node",
-    "test:browser": "aegir-test --env browser",
+    "test:browser": "aegir test -t browser -t webworker",
-    "release": "aegir-release",
+    "release": "aegir release",
-    "release-minor": "aegir-release --type minor",
+    "release-minor": "aegir release --type minor",
-    "release-major": "aegir-release --type major",
+    "release-major": "aegir release --type major",
-    "coverage": "aegir-coverage",
+    "coverage": "aegir coverage --ignore src/keys/keys.proto.js"
    "coverage-publish": "aegir-coverage publish"
  },
  "keywords": [
    "IPFS",
@@ -30,52 +27,54 @@
    "crypto",
    "rsa"
  ],
-  "author": "Friedel Ziegelmayer <dignifiedqurie@gmail.com>",
+  "author": "Friedel Ziegelmayer <dignifiedquire@gmail.com>",
  "license": "MIT",
  "dependencies": {
-    "asn1.js": "^4.8.1",
+    "asn1.js": "^4.9.1",
-    "async": "^2.1.2",
+    "async": "^2.5.0",
-    "browserify-aes": "^1.0.6",
+    "browserify-aes": "^1.0.8",
-    "keypair": "^1.0.0",
+    "keypair": "^1.0.1",
-    "multihashing-async": "^0.3.0",
+    "libp2p-crypto-secp256k1": "~0.2.2",
-    "nodeify": "^1.0.0",
+    "multihashing-async": "~0.4.6",
    "pem-jwk": "^1.5.1",
    "protocol-buffers": "^3.2.1",
    "rsa-pem-to-jwk": "^1.1.3",
-    "safe-buffer": "^5.0.1",
+    "tweetnacl": "^1.0.0",
    "tweetnacl": "^0.14.5",
    "webcrypto-shim": "github:dignifiedquire/webcrypto-shim#master"
  },
  "devDependencies": {
-    "aegir": "^9.2.1",
+    "aegir": "^12.0.5",
-    "benchmark": "^2.1.2",
+    "benchmark": "^2.1.4",
-    "chai": "^3.5.0",
+    "chai": "^4.1.2",
-    "pre-commit": "^1.1.3"
+    "dirty-chai": "^2.0.1",
-  },
+    "pre-commit": "^1.2.2"
  "optionalDependencies": {
    "node-webcrypto-ossl": "^1.0.15"
  },
  "pre-commit": [
    "lint",
    "test"
  ],
  "engines": {
-    "node": ">=4.0.0"
+    "node": ">=6.0.0",
    "npm": ">=3.0.0"
  },
  "repository": {
    "type": "git",
-    "url": "https://github.com/ipfs/js-libp2p-crypto.git"
+    "url": "https://github.com/libp2p/js-libp2p-crypto.git"
  },
  "bugs": {
-    "url": "https://github.com/ipfs/js-libp2p-crypto/issues"
+    "url": "https://github.com/libp2p/js-libp2p-crypto/issues"
  },
-  "homepage": "https://github.com/ipfs/js-libp2p-crypto",
+  "homepage": "https://github.com/libp2p/js-libp2p-crypto",
  "contributors": [
    "David Dias <daviddias.p@gmail.com>",
    "Dmitriy Ryajov <dryajov@gmail.com>",
    "Friedel Ziegelmayer <dignifiedquire@gmail.com>",
    "Greenkeeper <support@greenkeeper.io>",
    "Jack Kleeman <jackkleeman@gmail.com>",
    "Richard Littauer <richard.littauer@gmail.com>",
    "Tom Swindell <t.swindell@rubyx.co.uk>",
    "Yusef Napora <yusef@napora.org>",
    "greenkeeper[bot] <greenkeeper[bot]@users.noreply.github.com>",
    "nikuda <nikuda@gmail.com>"
  ]
-}
+}
--- a/src/crypto/ciphers-browser.js
+++ b/src/crypto/ciphers-browser.js
--- a/src/crypto/ciphers.js
+++ b/src/crypto/ciphers.js
--- a/src/aes/index-browser.js
+++ b/src/aes/index-browser.js
@@ -0,0 +1,55 @@
 'use strict'
 const asm = require('asmcrypto.js')
 const setImmediate = require('async/setImmediate')
 exports.create = function (key, iv, callback) {
  const done = (err, res) => setImmediate(() => callback(err, res))
  if (key.length !== 16 && key.length !== 32) {
    return done(new Error('Invalid key length'))
  }
  const enc = new asm.AES_CTR.Encrypt({
    key: key,
    nonce: iv
  })
  const dec = new asm.AES_CTR.Decrypt({
    key: key,
    nonce: iv
  })
  const res = {
    encrypt (data, cb) {
      const done = (err, res) => setImmediate(() => cb(err, res))
      let res
      try {
        res = Buffer.from(
          enc.process(data).result
        )
      } catch (err) {
        return done(err)
      }
      done(null, res)
    },
    decrypt (data, cb) {
      const done = (err, res) => setImmediate(() => cb(err, res))
      let res
      try {
        res = Buffer.from(
          dec.process(data).result
        )
      } catch (err) {
        return done(err)
      }
      done(null, res)
    }
  }
  done(null, res)
 }
--- a/src/crypto/aes.js
+++ b/src/crypto/aes.js
--- a/src/crypto.js
+++ b/src/crypto.js
@@ -1,8 +0,0 @@
 'use strict'
 exports.webcrypto = require('./crypto/webcrypto')()
 exports.hmac = require('./crypto/hmac')
 exports.ecdh = require('./crypto/ecdh')
 exports.aes = require('./crypto/aes')
 exports.rsa = require('./crypto/rsa')
 exports.ed25519 = require('./crypto/ed25519')
--- a/src/crypto/ed25519.js
+++ b/src/crypto/ed25519.js
@@ -1,35 +0,0 @@
 'use strict'
 const nacl = require('tweetnacl')
 const setImmediate = require('async/setImmediate')
 const Buffer = require('safe-buffer').Buffer
 exports.publicKeyLength = nacl.sign.publicKeyLength
 exports.privateKeyLength = nacl.sign.secretKeyLength
 exports.generateKey = function (callback) {
  const done = (err, res) => setImmediate(() => {
    callback(err, res)
  })
  let keys
  try {
    keys = nacl.sign.keyPair()
  } catch (err) {
    done(err)
    return
  }
  done(null, keys)
 }
 exports.hashAndSign = function (key, msg, callback) {
  setImmediate(() => {
    callback(null, Buffer.from(nacl.sign.detached(msg, key)))
  })
 }
 exports.hashAndVerify = function (key, sig, msg, callback) {
  setImmediate(() => {
    callback(null, nacl.sign.detached.verify(msg, sig, key))
  })
 }
--- a/src/crypto/rsa.js
+++ b/src/crypto/rsa.js
@@ -1,80 +0,0 @@
 'use strict'
 // Node.js land
 // First we look if node-webrypto-ossl is available
 // otherwise we fall back to using keypair + node core
 let webcrypto
 try {
  webcrypto = require('node-webcrypto-ossl')
 } catch (err) {
  // not available, use the code below
 }
 if (webcrypto && !process.env.NO_WEBCRYPTO) {
  module.exports = require('./rsa-browser')
 } else {
  const crypto = require('crypto')
  const keypair = require('keypair')
  const setImmediate = require('async/setImmediate')
  const pemToJwk = require('pem-jwk').pem2jwk
  const jwkToPem = require('pem-jwk').jwk2pem
  exports.utils = require('./rsa-utils')
  exports.generateKey = function (bits, callback) {
    const done = (err, res) => setImmediate(() => {
      callback(err, res)
    })
    let key
    try {
      key = keypair({
        bits: bits
      })
    } catch (err) {
      done(err)
      return
    }
    done(null, {
      privateKey: pemToJwk(key.private),
      publicKey: pemToJwk(key.public)
    })
  }
  // Takes a jwk key
  exports.unmarshalPrivateKey = function (key, callback) {
    callback(null, {
      privateKey: key,
      publicKey: {
        kty: key.kty,
        n: key.n,
        e: key.e
      }
    })
  }
  exports.getRandomValues = function (arr) {
    return crypto.randomBytes(arr.length)
  }
  exports.hashAndSign = function (key, msg, callback) {
    const sign = crypto.createSign('RSA-SHA256')
    sign.update(msg)
    setImmediate(() => {
      callback(null, sign.sign(jwkToPem(key)))
    })
  }
  exports.hashAndVerify = function (key, sig, msg, callback) {
    const verify = crypto.createVerify('RSA-SHA256')
    verify.update(msg)
    setImmediate(() => {
      callback(null, verify.verify(jwkToPem(key), sig))
    })
  }
 }
--- a/src/crypto/webcrypto-browser.js
+++ b/src/crypto/webcrypto-browser.js
@@ -1,14 +0,0 @@
 'use strict'
 module.exports = function getWebCrypto () {
  if (typeof window !== 'undefined') {
    // This is only a shim for interfaces, not for functionality
    require('webcrypto-shim')(window)
    if (window.crypto) {
      return window.crypto
    }
  }
  throw new Error('Please use an environment with crypto support')
 }
--- a/src/crypto/webcrypto.js
+++ b/src/crypto/webcrypto.js
@@ -1,11 +0,0 @@
 'use strict'
 module.exports = function getWebCrypto () {
  try {
    const WebCrypto = require('node-webcrypto-ossl')
    const webCrypto = new WebCrypto()
    return webCrypto
  } catch (err) {
    // fallback to other things
  }
 }
--- a/src/crypto/hmac-browser.js
+++ b/src/crypto/hmac-browser.js
@@ -1,10 +1,9 @@
 'use strict'
-const nodeify = require('nodeify')
+const nodeify = require('../nodeify')
 const Buffer = require('safe-buffer').Buffer
-const crypto = require('./webcrypto')()
+const crypto = require('../webcrypto.js')()
-const lengths = require('./hmac-lengths')
+const lengths = require('./lengths')
 const hashTypes = {
  SHA1: 'SHA-1',
@@ -12,6 +11,11 @@ const hashTypes = {
  SHA512: 'SHA-512'
 }
 const sign = (key, data, cb) => {
  nodeify(crypto.subtle.sign({name: 'HMAC'}, key, data)
    .then((raw) => Buffer.from(raw)), cb)
 }
 exports.create = function (hashType, secret, callback) {
  const hash = hashTypes[hashType]
@@ -27,11 +31,7 @@ exports.create = function (hashType, secret, callback) {
  ).then((key) => {
    return {
      digest (data, cb) {
-        nodeify(crypto.subtle.sign(
+        sign(key, data, cb)
          {name: 'HMAC'},
          key,
          data
        ).then((raw) => Buffer.from(raw)), cb)
      },
      length: lengths[hashType]
    }
--- a/src/crypto/hmac.js
+++ b/src/crypto/hmac.js
@@ -1,13 +1,13 @@
 'use strict'
 const crypto = require('crypto')
-
+const lengths = require('./lengths')
 const lengths = require('./hmac-lengths')
 exports.create = function (hash, secret, callback) {
  const res = {
    digest (data, cb) {
-      const hmac = genFresh()
+      const hmac = crypto.createHmac(hash.toLowerCase(), secret)
      hmac.update(data)
      setImmediate(() => {
@@ -17,8 +17,5 @@ exports.create = function (hash, secret, callback) {
    length: lengths[hash]
  }
  function genFresh () {
    return crypto.createHmac(hash.toLowerCase(), secret)
  }
  callback(null, res)
 }
--- a/src/crypto/hmac-lengths.js
+++ b/src/crypto/hmac-lengths.js
--- a/src/index.js
+++ b/src/index.js
@@ -1,84 +1,12 @@
 'use strict'
-const protobuf = require('protocol-buffers')
+const hmac = require('./hmac')
 const aes = require('./aes')
 const keys = require('./keys')
-const pbm = protobuf(require('./crypto.proto'))
+exports = module.exports
 const c = require('./crypto')
-exports.hmac = c.hmac
+exports.aes = aes
-exports.aes = c.aes
+exports.hmac = hmac
-exports.webcrypto = c.webcrypto
+exports.keys = keys
-
+exports.randomBytes = require('./random-bytes')
 const keys = exports.keys = require('./keys')
 const KEY_TYPES = ['rsa', 'ed25519']
 exports.keyStretcher = require('./key-stretcher')
 exports.generateEphemeralKeyPair = require('./ephemeral-keys')
 // Generates a keypair of the given type and bitsize
 exports.generateKeyPair = (type, bits, cb) => {
  let key = keys[type.toLowerCase()]
  if (!key) {
    return cb(new Error('invalid or unsupported key type'))
  }
  key.generateKeyPair(bits, cb)
 }
 // Converts a protobuf serialized public key into its
 // representative object
 exports.unmarshalPublicKey = (buf) => {
  const decoded = pbm.PublicKey.decode(buf)
  switch (decoded.Type) {
    case pbm.KeyType.RSA:
      return keys.rsa.unmarshalRsaPublicKey(decoded.Data)
    case pbm.KeyType.Ed25519:
      return keys.ed25519.unmarshalEd25519PublicKey(decoded.Data)
    default:
      throw new Error('invalid or unsupported key type')
  }
 }
 // Converts a public key object into a protobuf serialized public key
 exports.marshalPublicKey = (key, type) => {
  type = (type || 'rsa').toLowerCase()
  if (KEY_TYPES.indexOf(type) < 0) {
    throw new Error('invalid or unsupported key type')
  }
  return key.bytes
 }
 // Converts a protobuf serialized private key into its
 // representative object
 exports.unmarshalPrivateKey = (buf, callback) => {
  const decoded = pbm.PrivateKey.decode(buf)
  switch (decoded.Type) {
    case pbm.KeyType.RSA:
      return keys.rsa.unmarshalRsaPrivateKey(decoded.Data, callback)
    case pbm.KeyType.Ed25519:
      return keys.ed25519.unmarshalEd25519PrivateKey(decoded.Data, callback)
    default:
      callback(new Error('invalid or unsupported key type'))
  }
 }
 // Converts a private key object into a protobuf serialized private key
 exports.marshalPrivateKey = (key, type) => {
  type = (type || 'rsa').toLowerCase()
  if (KEY_TYPES.indexOf(type) < 0) {
    throw new Error('invalid or unsupported key type')
  }
  return key.bytes
 }
 exports.randomBytes = (number) => {
  if (!number || typeof number !== 'number') {
    throw new Error('first argument must be a Number bigger than 0')
  }
  return c.rsa.getRandomValues(new Uint8Array(number))
 }
--- a/src/crypto/ecdh-browser.js
+++ b/src/crypto/ecdh-browser.js
@@ -1,11 +1,10 @@
 'use strict'
-const crypto = require('./webcrypto')()
+const webcrypto = require('../webcrypto.js')()
-const nodeify = require('nodeify')
+const nodeify = require('../nodeify')
 const BN = require('asn1.js').bignum
 const Buffer = require('safe-buffer').Buffer
-const util = require('./util')
+const util = require('../util')
 const toBase64 = util.toBase64
 const toBn = util.toBn
@@ -16,7 +15,7 @@ const bits = {
 }
 exports.generateEphmeralKeyPair = function (curve, callback) {
-  nodeify(crypto.subtle.generateKey(
+  nodeify(webcrypto.subtle.generateKey(
    {
      name: 'ECDH',
      namedCurve: curve
@@ -34,7 +33,7 @@ exports.generateEphmeralKeyPair = function (curve, callback) {
      let privateKey
      if (forcePrivate) {
-        privateKey = crypto.subtle.importKey(
+        privateKey = webcrypto.subtle.importKey(
          'jwk',
          unmarshalPrivateKey(curve, forcePrivate),
          {
@@ -49,7 +48,7 @@ exports.generateEphmeralKeyPair = function (curve, callback) {
      }
      const keys = Promise.all([
-        crypto.subtle.importKey(
+        webcrypto.subtle.importKey(
          'jwk',
          unmarshalPublicKey(curve, theirPub),
          {
@@ -62,7 +61,7 @@ exports.generateEphmeralKeyPair = function (curve, callback) {
        privateKey
      ])
-      nodeify(keys.then((keys) => crypto.subtle.deriveBits(
+      nodeify(keys.then((keys) => webcrypto.subtle.deriveBits(
        {
          name: 'ECDH',
          namedCurve: curve,
@@ -73,15 +72,13 @@ exports.generateEphmeralKeyPair = function (curve, callback) {
      )).then((bits) => Buffer.from(bits)), cb)
    }
-    return crypto.subtle.exportKey(
+    return webcrypto.subtle.exportKey('jwk', pair.publicKey)
-      'jwk',
+      .then((publicKey) => {
-      pair.publicKey
+        return {
-    ).then((publicKey) => {
+          key: marshalPublicKey(publicKey),
-      return {
+          genSharedKey
-        key: marshalPublicKey(publicKey),
+        }
-        genSharedKey
+      })
      }
    })
  }), callback)
 }
@@ -117,8 +114,8 @@ function unmarshalPublicKey (curve, key) {
  return {
    kty: 'EC',
    crv: curve,
-    x: toBase64(x),
+    x: toBase64(x, byteLen),
-    y: toBase64(y),
+    y: toBase64(y, byteLen),
    ext: true
  }
 }
--- a/src/crypto/ecdh.js
+++ b/src/crypto/ecdh.js
--- a/src/keys/ed25519-class.js
+++ b/src/keys/ed25519-class.js
@@ -0,0 +1,163 @@
 'use strict'
 const multihashing = require('multihashing-async')
 const protobuf = require('protocol-buffers')
 const crypto = require('./ed25519')
 const pbm = protobuf(require('./keys.proto'))
 class Ed25519PublicKey {
  constructor (key) {
    this._key = ensureKey(key, crypto.publicKeyLength)
  }
  verify (data, sig, callback) {
    ensure(callback)
    crypto.hashAndVerify(this._key, sig, data, callback)
  }
  marshal () {
    return Buffer.from(this._key)
  }
  get bytes () {
    return pbm.PublicKey.encode({
      Type: pbm.KeyType.Ed25519,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 class Ed25519PrivateKey {
  // key       - 64 byte Uint8Array or Buffer containing private key
  // publicKey - 32 byte Uint8Array or Buffer containing public key
  constructor (key, publicKey) {
    this._key = ensureKey(key, crypto.privateKeyLength)
    this._publicKey = ensureKey(publicKey, crypto.publicKeyLength)
  }
  sign (message, callback) {
    ensure(callback)
    crypto.hashAndSign(this._key, message, callback)
  }
  get public () {
    if (!this._publicKey) {
      throw new Error('public key not provided')
    }
    return new Ed25519PublicKey(this._publicKey)
  }
  marshal () {
    return Buffer.concat([Buffer.from(this._key), Buffer.from(this._publicKey)])
  }
  get bytes () {
    return pbm.PrivateKey.encode({
      Type: pbm.KeyType.Ed25519,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 function unmarshalEd25519PrivateKey (bytes, callback) {
  try {
    bytes = ensureKey(bytes, crypto.privateKeyLength + crypto.publicKeyLength)
  } catch (err) {
    return callback(err)
  }
  const privateKeyBytes = bytes.slice(0, crypto.privateKeyLength)
  const publicKeyBytes = bytes.slice(crypto.privateKeyLength, bytes.length)
  callback(null, new Ed25519PrivateKey(privateKeyBytes, publicKeyBytes))
 }
 function unmarshalEd25519PublicKey (bytes) {
  bytes = ensureKey(bytes, crypto.publicKeyLength)
  return new Ed25519PublicKey(bytes)
 }
 function generateKeyPair (_bits, cb) {
  if (cb === undefined && typeof _bits === 'function') {
    cb = _bits
  }
  crypto.generateKey((err, keys) => {
    if (err) {
      return cb(err)
    }
    let privkey
    try {
      privkey = new Ed25519PrivateKey(keys.secretKey, keys.publicKey)
    } catch (err) {
      cb(err)
      return
    }
    cb(null, privkey)
  })
 }
 function generateKeyPairFromSeed (seed, _bits, cb) {
  if (cb === undefined && typeof _bits === 'function') {
    cb = _bits
  }
  crypto.generateKeyFromSeed(seed, (err, keys) => {
    if (err) {
      return cb(err)
    }
    let privkey
    try {
      privkey = new Ed25519PrivateKey(keys.secretKey, keys.publicKey)
    } catch (err) {
      cb(err)
      return
    }
    cb(null, privkey)
  })
 }
 function ensure (cb) {
  if (typeof cb !== 'function') {
    throw new Error('callback is required')
  }
 }
 function ensureKey (key, length) {
  if (Buffer.isBuffer(key)) {
    key = new Uint8Array(key)
  }
  if (!(key instanceof Uint8Array) || key.length !== length) {
    throw new Error('Key must be a Uint8Array or Buffer of length ' + length)
  }
  return key
 }
 module.exports = {
  Ed25519PublicKey,
  Ed25519PrivateKey,
  unmarshalEd25519PrivateKey,
  unmarshalEd25519PublicKey,
  generateKeyPair,
  generateKeyPairFromSeed
 }
--- a/src/keys/ed25519.js
+++ b/src/keys/ed25519.js
@@ -1,142 +1,46 @@
 'use strict'
-const multihashing = require('multihashing-async')
+const nacl = require('tweetnacl')
-const protobuf = require('protocol-buffers')
+const setImmediate = require('async/setImmediate')
 const Buffer = require('safe-buffer').Buffer
-const crypto = require('../crypto').ed25519
+exports.publicKeyLength = nacl.sign.publicKeyLength
-const pbm = protobuf(require('../crypto.proto'))
+exports.privateKeyLength = nacl.sign.secretKeyLength
-class Ed25519PublicKey {
+exports.generateKey = function (callback) {
-  constructor (key) {
+  const done = (err, res) => setImmediate(() => {
-    this._key = ensureKey(key, crypto.publicKeyLength)
+    callback(err, res)
-  }
+  })
-  verify (data, sig, callback) {
+  let keys
    ensure(callback)
    crypto.hashAndVerify(this._key, sig, data, callback)
  }
  marshal () {
    return Buffer.from(this._key)
  }
  get bytes () {
    return pbm.PublicKey.encode({
      Type: pbm.KeyType.Ed25519,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 class Ed25519PrivateKey {
  // key       - 64 byte Uint8Array or Buffer containing private key
  // publicKey - 32 byte Uint8Array or Buffer containing public key
  constructor (key, publicKey) {
    this._key = ensureKey(key, crypto.privateKeyLength)
    this._publicKey = ensureKey(publicKey, crypto.publicKeyLength)
  }
  sign (message, callback) {
    ensure(callback)
    crypto.hashAndSign(this._key, message, callback)
  }
  get public () {
    if (!this._publicKey) {
      throw new Error('public key not provided')
    }
    return new Ed25519PublicKey(this._publicKey)
  }
  marshal () {
    return Buffer.concat([Buffer.from(this._key), Buffer.from(this._publicKey)])
  }
  get bytes () {
    return pbm.PrivateKey.encode({
      Type: pbm.KeyType.Ed25519,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 function unmarshalEd25519PrivateKey (bytes, callback) {
  try {
-    bytes = ensureKey(bytes, crypto.privateKeyLength + crypto.publicKeyLength)
+    keys = nacl.sign.keyPair()
  } catch (err) {
-    return callback(err)
+    return done(err)
  }
-  const privateKeyBytes = bytes.slice(0, crypto.privateKeyLength)
+  done(null, keys)
  const publicKeyBytes = bytes.slice(crypto.privateKeyLength, bytes.length)
  callback(null, new Ed25519PrivateKey(privateKeyBytes, publicKeyBytes))
 }
-function unmarshalEd25519PublicKey (bytes) {
+// seed should be a 32 byte uint8array
-  bytes = ensureKey(bytes, crypto.publicKeyLength)
+exports.generateKeyFromSeed = function (seed, callback) {
-  return new Ed25519PublicKey(bytes)
+  const done = (err, res) => setImmediate(() => callback(err, res))
  let keys
  try {
    keys = nacl.sign.keyPair.fromSeed(seed)
  } catch (err) {
    return done(err)
  }
  done(null, keys)
 }
-function generateKeyPair (_bits, cb) {
+exports.hashAndSign = function (key, msg, callback) {
-  if (cb === undefined && typeof _bits === 'function') {
+  setImmediate(() => {
-    cb = _bits
+    callback(null, Buffer.from(nacl.sign.detached(msg, key)))
  }
  crypto.generateKey((err, keys) => {
    if (err) {
      return cb(err)
    }
    let privkey
    try {
      privkey = new Ed25519PrivateKey(keys.secretKey, keys.publicKey)
    } catch (err) {
      cb(err)
      return
    }
    cb(null, privkey)
  })
 }
-function ensure (cb) {
+exports.hashAndVerify = function (key, sig, msg, callback) {
-  if (typeof cb !== 'function') {
+  setImmediate(() => {
-    throw new Error('callback is required')
+    callback(null, nacl.sign.detached.verify(msg, sig, key))
-  }
+  })
 }
 function ensureKey (key, length) {
  if (Buffer.isBuffer(key)) {
    key = new Uint8Array(key)
  }
  if (!(key instanceof Uint8Array) || key.length !== length) {
    throw new Error('Key must be a Uint8Array or Buffer of length ' + length)
  }
  return key
 }
 module.exports = {
  Ed25519PublicKey,
  Ed25519PrivateKey,
  unmarshalEd25519PrivateKey,
  unmarshalEd25519PublicKey,
  generateKeyPair
 }
--- a/src/keys/ephemeral-keys.js
+++ b/src/keys/ephemeral-keys.js
@@ -1,11 +1,11 @@
 'use strict'
-const crypto = require('./crypto')
+const ecdh = require('./ecdh')
 // Generates an ephemeral public key and returns a function that will compute
 // the shared secret key.
 //
 // Focuses only on ECDH now, but can be made more general in the future.
 module.exports = (curve, callback) => {
-  crypto.ecdh.generateEphmeralKeyPair(curve, callback)
+  ecdh.generateEphmeralKeyPair(curve, callback)
 }
--- a/src/keys/index.js
+++ b/src/keys/index.js
@@ -1,6 +1,111 @@
 'use strict'
-module.exports = {
+const protobuf = require('protocol-buffers')
-  rsa: require('./rsa'),
+const keysPBM = protobuf(require('./keys.proto'))
-  ed25519: require('./ed25519')
+
 exports = module.exports
 const supportedKeys = {
  rsa: require('./rsa-class'),
  ed25519: require('./ed25519-class'),
  secp256k1: require('libp2p-crypto-secp256k1')(keysPBM, require('../random-bytes'))
 }
 exports.supportedKeys = supportedKeys
 exports.keysPBM = keysPBM
 function isValidKeyType (keyType) {
  const key = supportedKeys[keyType.toLowerCase()]
  return key !== undefined
 }
 exports.keyStretcher = require('./key-stretcher')
 exports.generateEphemeralKeyPair = require('./ephemeral-keys')
 // Generates a keypair of the given type and bitsize
 exports.generateKeyPair = (type, bits, cb) => {
  let key = supportedKeys[type.toLowerCase()]
  if (!key) {
    return cb(new Error('invalid or unsupported key type'))
  }
  key.generateKeyPair(bits, cb)
 }
 // Generates a keypair of the given type and bitsize
 // seed is a 32 byte uint8array
 exports.generateKeyPairFromSeed = (type, seed, bits, cb) => {
  let key = supportedKeys[type.toLowerCase()]
  if (!key) {
    return cb(new Error('invalid or unsupported key type'))
  }
  if (type.toLowerCase() !== 'ed25519') {
    return cb(new Error('Seed key derivation is unimplemented for RSA or secp256k1'))
  }
  key.generateKeyPairFromSeed(seed, bits, cb)
 }
 // Converts a protobuf serialized public key into its
 // representative object
 exports.unmarshalPublicKey = (buf) => {
  const decoded = keysPBM.PublicKey.decode(buf)
  const data = decoded.Data
  switch (decoded.Type) {
    case keysPBM.KeyType.RSA:
      return supportedKeys.rsa.unmarshalRsaPublicKey(data)
    case keysPBM.KeyType.Ed25519:
      return supportedKeys.ed25519.unmarshalEd25519PublicKey(data)
    case keysPBM.KeyType.Secp256k1:
      if (supportedKeys.secp256k1) {
        return supportedKeys.secp256k1.unmarshalSecp256k1PublicKey(data)
      } else {
        throw new Error('secp256k1 support requires libp2p-crypto-secp256k1 package')
      }
    default:
      throw new Error('invalid or unsupported key type')
  }
 }
 // Converts a public key object into a protobuf serialized public key
 exports.marshalPublicKey = (key, type) => {
  type = (type || 'rsa').toLowerCase()
  if (!isValidKeyType(type)) {
    throw new Error('invalid or unsupported key type')
  }
  return key.bytes
 }
 // Converts a protobuf serialized private key into its
 // representative object
 exports.unmarshalPrivateKey = (buf, callback) => {
  const decoded = keysPBM.PrivateKey.decode(buf)
  const data = decoded.Data
  switch (decoded.Type) {
    case keysPBM.KeyType.RSA:
      return supportedKeys.rsa.unmarshalRsaPrivateKey(data, callback)
    case keysPBM.KeyType.Ed25519:
      return supportedKeys.ed25519.unmarshalEd25519PrivateKey(data, callback)
    case keysPBM.KeyType.Secp256k1:
      if (supportedKeys.secp256k1) {
        return supportedKeys.secp256k1.unmarshalSecp256k1PrivateKey(data, callback)
      } else {
        return callback(new Error('secp256k1 support requires libp2p-crypto-secp256k1 package'))
      }
    default:
      callback(new Error('invalid or unsupported key type'))
  }
 }
 // Converts a private key object into a protobuf serialized private key
 exports.marshalPrivateKey = (key, type) => {
  type = (type || 'rsa').toLowerCase()
  if (!isValidKeyType(type)) {
    throw new Error('invalid or unsupported key type')
  }
  return key.bytes
 }
--- a/src/keys/key-stretcher.js
+++ b/src/keys/key-stretcher.js
@@ -1,8 +1,7 @@
 'use strict'
 const crypto = require('./crypto')
 const whilst = require('async/whilst')
-const Buffer = require('safe-buffer').Buffer
+const hmac = require('../hmac')
 const cipherMap = {
  'AES-128': {
@@ -38,7 +37,7 @@ module.exports = (cipherType, hash, secret, callback) => {
  const seed = Buffer.from('key expansion')
  const resultLength = 2 * (ivSize + cipherKeySize + hmacKeySize)
-  crypto.hmac.create(hash, secret, (err, m) => {
+  hmac.create(hash, secret, (err, m) => {
    if (err) {
      return callback(err)
    }
--- a/src/keys/keys.proto.js
+++ b/src/keys/keys.proto.js
@@ -3,14 +3,13 @@
 module.exports = `enum KeyType {
  RSA = 0;
  Ed25519 = 1;
  Secp256k1 = 2;
 }
 message PublicKey {
  required KeyType Type = 1;
  required bytes Data = 2;
 }
 message PrivateKey {
  required KeyType Type = 1;
  required bytes Data = 2;
-}`
+}`
--- a/src/crypto/rsa-browser.js
+++ b/src/crypto/rsa-browser.js
@@ -1,14 +1,13 @@
 'use strict'
-const nodeify = require('nodeify')
+const nodeify = require('../nodeify')
 const Buffer = require('safe-buffer').Buffer
-const crypto = require('./webcrypto')()
+const webcrypto = require('../webcrypto.js')()
 exports.utils = require('./rsa-utils')
 exports.generateKey = function (bits, callback) {
-  nodeify(crypto.subtle.generateKey(
+  nodeify(webcrypto.subtle.generateKey(
    {
      name: 'RSASSA-PKCS1-v1_5',
      modulusLength: bits,
@@ -18,16 +17,16 @@ exports.generateKey = function (bits, callback) {
    true,
    ['sign', 'verify']
  )
-  .then(exportKey)
+    .then(exportKey)
-  .then((keys) => ({
+    .then((keys) => ({
-    privateKey: keys[0],
+      privateKey: keys[0],
-    publicKey: keys[1]
+      publicKey: keys[1]
-  })), callback)
+    })), callback)
 }
 // Takes a jwk key
 exports.unmarshalPrivateKey = function (key, callback) {
-  const privateKey = crypto.subtle.importKey(
+  const privateKey = webcrypto.subtle.importKey(
    'jwk',
    key,
    {
@@ -51,11 +50,11 @@ exports.unmarshalPrivateKey = function (key, callback) {
 }
 exports.getRandomValues = function (arr) {
-  return Buffer.from(crypto.getRandomValues(arr))
+  return Buffer.from(webcrypto.getRandomValues(arr))
 }
 exports.hashAndSign = function (key, msg, callback) {
-  nodeify(crypto.subtle.importKey(
+  nodeify(webcrypto.subtle.importKey(
    'jwk',
    key,
    {
@@ -65,7 +64,7 @@ exports.hashAndSign = function (key, msg, callback) {
    false,
    ['sign']
  ).then((privateKey) => {
-    return crypto.subtle.sign(
+    return webcrypto.subtle.sign(
      {name: 'RSASSA-PKCS1-v1_5'},
      privateKey,
      Uint8Array.from(msg)
@@ -74,7 +73,7 @@ exports.hashAndSign = function (key, msg, callback) {
 }
 exports.hashAndVerify = function (key, sig, msg, callback) {
-  nodeify(crypto.subtle.importKey(
+  nodeify(webcrypto.subtle.importKey(
    'jwk',
    key,
    {
@@ -84,7 +83,7 @@ exports.hashAndVerify = function (key, sig, msg, callback) {
    false,
    ['verify']
  ).then((publicKey) => {
-    return crypto.subtle.verify(
+    return webcrypto.subtle.verify(
      {name: 'RSASSA-PKCS1-v1_5'},
      publicKey,
      sig,
@@ -95,13 +94,13 @@ exports.hashAndVerify = function (key, sig, msg, callback) {
 function exportKey (pair) {
  return Promise.all([
-    crypto.subtle.exportKey('jwk', pair.privateKey),
+    webcrypto.subtle.exportKey('jwk', pair.privateKey),
-    crypto.subtle.exportKey('jwk', pair.publicKey)
+    webcrypto.subtle.exportKey('jwk', pair.publicKey)
  ])
 }
 function derivePublicFromPrivate (jwKey) {
-  return crypto.subtle.importKey(
+  return webcrypto.subtle.importKey(
    'jwk',
    {
      kty: jwKey.kty,
--- a/src/keys/rsa-class.js
+++ b/src/keys/rsa-class.js
@@ -0,0 +1,133 @@
 'use strict'
 const multihashing = require('multihashing-async')
 const protobuf = require('protocol-buffers')
 const crypto = require('./rsa')
 const pbm = protobuf(require('./keys.proto'))
 class RsaPublicKey {
  constructor (key) {
    this._key = key
  }
  verify (data, sig, callback) {
    ensure(callback)
    crypto.hashAndVerify(this._key, sig, data, callback)
  }
  marshal () {
    return crypto.utils.jwkToPkix(this._key)
  }
  get bytes () {
    return pbm.PublicKey.encode({
      Type: pbm.KeyType.RSA,
      Data: this.marshal()
    })
  }
  encrypt (bytes) {
    return this._key.encrypt(bytes, 'RSAES-PKCS1-V1_5')
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 class RsaPrivateKey {
  // key       - Object of the jwk format
  // publicKey - Buffer of the spki format
  constructor (key, publicKey) {
    this._key = key
    this._publicKey = publicKey
  }
  genSecret () {
    return crypto.getRandomValues(new Uint8Array(16))
  }
  sign (message, callback) {
    ensure(callback)
    crypto.hashAndSign(this._key, message, callback)
  }
  get public () {
    if (!this._publicKey) {
      throw new Error('public key not provided')
    }
    return new RsaPublicKey(this._publicKey)
  }
  decrypt (msg, callback) {
    crypto.decrypt(this._key, msg, callback)
  }
  marshal () {
    return crypto.utils.jwkToPkcs1(this._key)
  }
  get bytes () {
    return pbm.PrivateKey.encode({
      Type: pbm.KeyType.RSA,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 function unmarshalRsaPrivateKey (bytes, callback) {
  const jwk = crypto.utils.pkcs1ToJwk(bytes)
  crypto.unmarshalPrivateKey(jwk, (err, keys) => {
    if (err) {
      return callback(err)
    }
    callback(null, new RsaPrivateKey(keys.privateKey, keys.publicKey))
  })
 }
 function unmarshalRsaPublicKey (bytes) {
  const jwk = crypto.utils.pkixToJwk(bytes)
  return new RsaPublicKey(jwk)
 }
 function generateKeyPair (bits, cb) {
  crypto.generateKey(bits, (err, keys) => {
    if (err) {
      return cb(err)
    }
    cb(null, new RsaPrivateKey(keys.privateKey, keys.publicKey))
  })
 }
 function ensure (cb) {
  if (typeof cb !== 'function') {
    throw new Error('callback is required')
  }
 }
 module.exports = {
  RsaPublicKey,
  RsaPrivateKey,
  unmarshalRsaPublicKey,
  unmarshalRsaPrivateKey,
  generateKeyPair
 }
--- a/src/crypto/rsa-utils.js
+++ b/src/crypto/rsa-utils.js
@@ -2,7 +2,7 @@
 const asn1 = require('asn1.js')
-const util = require('./util')
+const util = require('./../util')
 const toBase64 = util.toBase64
 const toBn = util.toBn
--- a/src/keys/rsa.js
+++ b/src/keys/rsa.js
@@ -1,133 +1,56 @@
 'use strict'
-const multihashing = require('multihashing-async')
+const crypto = require('crypto')
-const protobuf = require('protocol-buffers')
+const keypair = require('keypair')
 const setImmediate = require('async/setImmediate')
 const pemToJwk = require('pem-jwk').pem2jwk
 const jwkToPem = require('pem-jwk').jwk2pem
-const crypto = require('../crypto').rsa
+exports.utils = require('./rsa-utils')
 const pbm = protobuf(require('../crypto.proto'))
-class RsaPublicKey {
+exports.generateKey = function (bits, callback) {
-  constructor (key) {
+  const done = (err, res) => setImmediate(() => callback(err, res))
-    this._key = key
+
  let key
  try {
    key = keypair({ bits: bits })
  } catch (err) {
    return done(err)
  }
-  verify (data, sig, callback) {
+  done(null, {
-    ensure(callback)
+    privateKey: pemToJwk(key.private),
-    crypto.hashAndVerify(this._key, sig, data, callback)
+    publicKey: pemToJwk(key.public)
  }
  marshal () {
    return crypto.utils.jwkToPkix(this._key)
  }
  get bytes () {
    return pbm.PublicKey.encode({
      Type: pbm.KeyType.RSA,
      Data: this.marshal()
    })
  }
  encrypt (bytes) {
    return this._key.encrypt(bytes, 'RSAES-PKCS1-V1_5')
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 class RsaPrivateKey {
  // key       - Object of the jwk format
  // publicKey - Buffer of the spki format
  constructor (key, publicKey) {
    this._key = key
    this._publicKey = publicKey
  }
  genSecret () {
    return crypto.getRandomValues(new Uint8Array(16))
  }
  sign (message, callback) {
    ensure(callback)
    crypto.hashAndSign(this._key, message, callback)
  }
  get public () {
    if (!this._publicKey) {
      throw new Error('public key not provided')
    }
    return new RsaPublicKey(this._publicKey)
  }
  decrypt (msg, callback) {
    crypto.decrypt(this._key, msg, callback)
  }
  marshal () {
    return crypto.utils.jwkToPkcs1(this._key)
  }
  get bytes () {
    return pbm.PrivateKey.encode({
      Type: pbm.KeyType.RSA,
      Data: this.marshal()
    })
  }
  equals (key) {
    return this.bytes.equals(key.bytes)
  }
  hash (callback) {
    ensure(callback)
    multihashing(this.bytes, 'sha2-256', callback)
  }
 }
 function unmarshalRsaPrivateKey (bytes, callback) {
  const jwk = crypto.utils.pkcs1ToJwk(bytes)
  crypto.unmarshalPrivateKey(jwk, (err, keys) => {
    if (err) {
      return callback(err)
    }
    callback(null, new RsaPrivateKey(keys.privateKey, keys.publicKey))
  })
 }
-function unmarshalRsaPublicKey (bytes) {
+// Takes a jwk key
-  const jwk = crypto.utils.pkixToJwk(bytes)
+exports.unmarshalPrivateKey = function (key, callback) {
-
+  callback(null, {
-  return new RsaPublicKey(jwk)
+    privateKey: key,
-}
+    publicKey: {
-
+      kty: key.kty,
-function generateKeyPair (bits, cb) {
+      n: key.n,
-  crypto.generateKey(bits, (err, keys) => {
+      e: key.e
    if (err) {
      return cb(err)
    }
    cb(null, new RsaPrivateKey(keys.privateKey, keys.publicKey))
  })
 }
-function ensure (cb) {
+exports.getRandomValues = function (arr) {
-  if (typeof cb !== 'function') {
+  return crypto.randomBytes(arr.length)
    throw new Error('callback is required')
  }
 }
-module.exports = {
+exports.hashAndSign = function (key, msg, callback) {
-  RsaPublicKey,
+  const sign = crypto.createSign('RSA-SHA256')
-  RsaPrivateKey,
+
-  unmarshalRsaPublicKey,
+  sign.update(msg)
-  unmarshalRsaPrivateKey,
+  setImmediate(() => callback(null, sign.sign(jwkToPem(key))))
-  generateKeyPair
+}
 exports.hashAndVerify = function (key, sig, msg, callback) {
  const verify = crypto.createVerify('RSA-SHA256')
  verify.update(msg)
  setImmediate(() => callback(null, verify.verify(jwkToPem(key), sig)))
 }
--- a/src/nodeify.js
+++ b/src/nodeify.js
@@ -0,0 +1,11 @@
 'use strict'
 // Based on npmjs.com/nodeify but without additional `nextTick` calls
 // to keep the overhead low
 module.exports = function nodeify (promise, cb) {
  return promise.then((res) => {
    cb(null, res)
  }, (err) => {
    cb(err)
  })
 }
--- a/src/random-bytes.js
+++ b/src/random-bytes.js
@@ -0,0 +1,13 @@
 'use strict'
 const rsa = require('./keys/rsa')
 function randomBytes (number) {
  if (!number || typeof number !== 'number') {
    throw new Error('first argument must be a Number bigger than 0')
  }
  return rsa.getRandomValues(new Uint8Array(number))
 }
 module.exports = randomBytes
--- a/src/crypto/util.js
+++ b/src/crypto/util.js
@@ -1,17 +1,17 @@
 'use strict'
 const BN = require('asn1.js').bignum
 const Buffer = require('safe-buffer').Buffer
 // Convert a BN.js instance to a base64 encoded string without padding
 // Adapted from https://tools.ietf.org/html/draft-ietf-jose-json-web-signature-41#appendix-C
-exports.toBase64 = function toBase64 (bn) {
+exports.toBase64 = function toBase64 (bn, len) {
-  let s = bn.toArrayLike(Buffer, 'be').toString('base64')
+  // if len is defined then the bytes are leading-0 padded to the length
  let s = bn.toArrayLike(Buffer, 'be', len).toString('base64')
  return s
    .replace(/(=*)$/, '') // Remove any trailing '='s
-    .replace(/\+/g, '-')  // 62nd char of encoding
+    .replace(/\+/g, '-') // 62nd char of encoding
-    .replace(/\//g, '_')  // 63rd char of encoding
+    .replace(/\//g, '_') // 63rd char of encoding
 }
 // Convert a base64 encoded string to a BN.js instance
--- a/src/webcrypto.js
+++ b/src/webcrypto.js
@@ -0,0 +1,16 @@
 /* global self */
 'use strict'
 module.exports = () => {
  // This is only a shim for interfaces, not for functionality
  if (typeof self !== 'undefined') {
    require('webcrypto-shim')(self)
    if (self.crypto) {
      return self.crypto
    }
  }
  throw new Error('Please use an environment with crypto support')
 }
--- a/test/aes/aes.spec.js
+++ b/test/aes/aes.spec.js
@@ -2,13 +2,15 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
 const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const series = require('async/series')
 const Buffer = require('safe-buffer').Buffer
-const crypto = require('../src')
+const crypto = require('../../src')
-const fixtures = require('./fixtures/aes')
+const fixtures = require('./../fixtures/aes')
-const goFixtures = require('./fixtures/go-aes')
+const goFixtures = require('./../fixtures/go-aes')
 const bytes = {
  16: 'AES-128',
@@ -25,7 +27,7 @@ describe('AES-CTR', () => {
      iv.fill(1)
      crypto.aes.create(key, iv, (err, cipher) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        series([
          encryptAndDecrypt(cipher),
@@ -37,6 +39,7 @@ describe('AES-CTR', () => {
      })
    })
  })
  Object.keys(bytes).forEach((byte) => {
    it(`${bytes[byte]} - fixed - encrypt and decrypt`, (done) => {
      const key = Buffer.alloc(parseInt(byte, 10))
@@ -46,18 +49,18 @@ describe('AES-CTR', () => {
      iv.fill(1)
      crypto.aes.create(key, iv, (err, cipher) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        series(fixtures[byte].inputs.map((rawIn, i) => (cb) => {
          const input = Buffer.from(rawIn)
          const output = Buffer.from(fixtures[byte].outputs[i])
          cipher.encrypt(input, (err, res) => {
-            expect(err).to.not.exist
+            expect(err).to.not.exist()
            expect(res).to.have.length(output.length)
-            expect(res).to.be.eql(output)
+            expect(res).to.eql(output)
            cipher.decrypt(res, (err, res) => {
-              expect(err).to.not.exist
+              expect(err).to.not.exist()
-              expect(res).to.be.eql(input)
+              expect(res).to.eql(input)
              cb()
            })
          })
@@ -79,17 +82,17 @@ describe('AES-CTR', () => {
      iv.fill(1)
      crypto.aes.create(key, iv, (err, cipher) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        series(goFixtures[byte].inputs.map((rawIn, i) => (cb) => {
          const input = Buffer.from(rawIn)
          const output = Buffer.from(goFixtures[byte].outputs[i])
          cipher.encrypt(input, (err, res) => {
-            expect(err).to.not.exist
+            expect(err).to.not.exist()
            expect(res).to.have.length(output.length)
            expect(res).to.be.eql(output)
            cipher.decrypt(res, (err, res) => {
-              expect(err).to.not.exist
+              expect(err).to.not.exist()
              expect(res).to.be.eql(input)
              cb()
            })
@@ -105,9 +108,9 @@ function encryptAndDecrypt (cipher) {
  data.fill(Math.ceil(Math.random() * 100))
  return (cb) => {
    cipher.encrypt(data, (err, res) => {
-      expect(err).to.not.exist
+      expect(err).to.not.exist()
      cipher.decrypt(res, (err, res) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        expect(res).to.be.eql(data)
        cb()
      })
--- a/test/crypto.spec.js
+++ b/test/crypto.spec.js
@@ -2,15 +2,17 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
-
+const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const crypto = require('../src')
 const fixtures = require('./fixtures/go-key-rsa')
 describe('libp2p-crypto', () => {
  let key
  before((done) => {
-    crypto.generateKeyPair('RSA', 2048, (err, _key) => {
+    crypto.keys.generateKeyPair('RSA', 2048, (err, _key) => {
      if (err) {
        return done(err)
      }
@@ -20,13 +22,22 @@ describe('libp2p-crypto', () => {
  })
  it('marshalPublicKey and unmarshalPublicKey', () => {
-    const key2 = crypto.unmarshalPublicKey(crypto.marshalPublicKey(key.public))
+    const key2 = crypto.keys.unmarshalPublicKey(
      crypto.keys.marshalPublicKey(key.public))
    expect(key2.equals(key.public)).to.be.eql(true)
    expect(() => {
      crypto.keys.marshalPublicKey(key.public, 'invalid-key-type')
    }).to.throw()
  })
  it('marshalPrivateKey and unmarshalPrivateKey', (done) => {
-    crypto.unmarshalPrivateKey(crypto.marshalPrivateKey(key), (err, key2) => {
+    expect(() => {
      crypto.keys.marshalPrivateKey(key, 'invalid-key-type')
    }).to.throw()
    crypto.keys.unmarshalPrivateKey(crypto.keys.marshalPrivateKey(key), (err, key2) => {
      if (err) {
        return done(err)
      }
@@ -42,60 +53,56 @@ describe('libp2p-crypto', () => {
  // or a bug
  describe('go interop', () => {
    it('unmarshals private key', (done) => {
-      crypto.unmarshalPrivateKey(fixtures.private.key, (err, key) => {
+      crypto.keys.unmarshalPrivateKey(fixtures.private.key, (err, key) => {
        if (err) {
          return done(err)
        }
        const hash = fixtures.private.hash
-        expect(fixtures.private.key).to.be.eql(key.bytes)
+        expect(fixtures.private.key).to.eql(key.bytes)
        key.hash((err, digest) => {
          if (err) {
            return done(err)
          }
-          expect(digest).to.be.eql(hash)
+          expect(digest).to.eql(hash)
          done()
        })
      })
    })
    it('unmarshals public key', (done) => {
-      const key = crypto.unmarshalPublicKey(fixtures.public.key)
+      const key = crypto.keys.unmarshalPublicKey(fixtures.public.key)
      const hash = fixtures.public.hash
-      expect(crypto.marshalPublicKey(key)).to.be.eql(fixtures.public.key)
+      expect(crypto.keys.marshalPublicKey(key)).to.eql(fixtures.public.key)
      key.hash((err, digest) => {
        if (err) {
          return done(err)
        }
-        expect(digest).to.be.eql(hash)
+        expect(digest).to.eql(hash)
        done()
      })
    })
    it('unmarshal -> marshal, private key', (done) => {
-      crypto.unmarshalPrivateKey(fixtures.private.key, (err, key) => {
+      crypto.keys.unmarshalPrivateKey(fixtures.private.key, (err, key) => {
        if (err) {
          return done(err)
        }
-        const marshalled = crypto.marshalPrivateKey(key)
+        const marshalled = crypto.keys.marshalPrivateKey(key)
-        expect(marshalled).to.be.eql(fixtures.private.key)
+        expect(marshalled).to.eql(fixtures.private.key)
        done()
      })
    })
    it('unmarshal -> marshal, public key', () => {
-      const key = crypto.unmarshalPublicKey(fixtures.public.key)
+      const key = crypto.keys.unmarshalPublicKey(fixtures.public.key)
-      const marshalled = crypto.marshalPublicKey(key)
+      const marshalled = crypto.keys.marshalPublicKey(key)
-      expect(
+      expect(fixtures.public.key.equals(marshalled)).to.eql(true)
        fixtures.public.key.equals(marshalled)
      ).to.be.eql(
        true
      )
    })
  })
@@ -103,7 +110,7 @@ describe('libp2p-crypto', () => {
    it('throws with no number passed', () => {
      expect(() => {
        crypto.randomBytes()
-      }).to.throw
+      }).to.throw()
    })
    it('generates different random things', () => {
--- a/test/ed25519.spec.js
+++ b/test/ed25519.spec.js
@@ -1,195 +0,0 @@
 /* eslint-env mocha */
 'use strict'
 const expect = require('chai').expect
 const Buffer = require('safe-buffer').Buffer
 const crypto = require('../src')
 const ed25519 = crypto.keys.ed25519
 const fixtures = require('./fixtures/go-key-ed25519')
 describe('ed25519', () => {
  let key
  before((done) => {
    crypto.generateKeyPair('Ed25519', 512, (err, _key) => {
      if (err) return done(err)
      key = _key
      done()
    })
  })
  it('generates a valid key', (done) => {
    expect(
      key
    ).to.be.an.instanceof(
      ed25519.Ed25519PrivateKey
    )
    key.hash((err, digest) => {
      if (err) {
        return done(err)
      }
      expect(digest).to.have.length(34)
      done()
    })
  })
  it('signs', (done) => {
    const text = crypto.randomBytes(512)
    key.sign(text, (err, sig) => {
      if (err) {
        return done(err)
      }
      key.public.verify(text, sig, (err, res) => {
        if (err) {
          return done(err)
        }
        expect(res).to.be.eql(true)
        done()
      })
    })
  })
  it('encoding', (done) => {
    const keyMarshal = key.marshal()
    ed25519.unmarshalEd25519PrivateKey(keyMarshal, (err, key2) => {
      if (err) {
        return done(err)
      }
      const keyMarshal2 = key2.marshal()
      expect(
        keyMarshal
      ).to.be.eql(
        keyMarshal2
      )
      const pk = key.public
      const pkMarshal = pk.marshal()
      const pk2 = ed25519.unmarshalEd25519PublicKey(pkMarshal)
      const pkMarshal2 = pk2.marshal()
      expect(
        pkMarshal
      ).to.be.eql(
        pkMarshal2
      )
      done()
    })
  })
  describe('key equals', () => {
    it('equals itself', () => {
      expect(
        key.equals(key)
      ).to.be.eql(
        true
      )
      expect(
        key.public.equals(key.public)
      ).to.be.eql(
        true
      )
    })
    it('not equals other key', (done) => {
      crypto.generateKeyPair('Ed25519', 512, (err, key2) => {
        if (err) return done(err)
        expect(
          key.equals(key2)
        ).to.be.eql(
          false
        )
        expect(
          key2.equals(key)
        ).to.be.eql(
          false
        )
        expect(
          key.public.equals(key2.public)
        ).to.be.eql(
          false
        )
        expect(
          key2.public.equals(key.public)
        ).to.be.eql(
          false
        )
        done()
      })
    })
  })
  it('sign and verify', (done) => {
    const data = Buffer.from('hello world')
    key.sign(data, (err, sig) => {
      if (err) {
        return done(err)
      }
      key.public.verify(data, sig, (err, valid) => {
        if (err) {
          return done(err)
        }
        expect(valid).to.be.eql(true)
        done()
      })
    })
  })
  it('fails to verify for different data', (done) => {
    const data = Buffer.from('hello world')
    key.sign(data, (err, sig) => {
      if (err) {
        return done(err)
      }
      key.public.verify(Buffer.from('hello'), sig, (err, valid) => {
        if (err) {
          return done(err)
        }
        expect(valid).to.be.eql(false)
        done()
      })
    })
  })
  describe('go interop', () => {
    let privateKey
    before((done) => {
      crypto.unmarshalPrivateKey(fixtures.verify.privateKey, (err, key) => {
        expect(err).to.not.exist
        privateKey = key
        done()
      })
    })
    it('verifies with data from go', (done) => {
      const key = crypto.unmarshalPublicKey(fixtures.verify.publicKey)
      key.verify(fixtures.verify.data, fixtures.verify.signature, (err, ok) => {
        if (err) throw err
        expect(err).to.not.exist
        expect(ok).to.be.eql(true)
        done()
      })
    })
    it('generates the same signature as go', (done) => {
      privateKey.sign(fixtures.verify.data, (err, sig) => {
        expect(err).to.not.exist
        expect(sig).to.deep.equal(fixtures.verify.signature)
        done()
      })
    })
  })
 })
--- a/test/fixtures/go-elliptic-key.js
+++ b/test/fixtures/go-elliptic-key.js
@@ -1,7 +1,5 @@
 'use strict'
 const Buffer = require('safe-buffer').Buffer
 module.exports = {
  curve: 'P-256',
  bob: {
--- a/test/fixtures/go-key-ed25519.js
+++ b/test/fixtures/go-key-ed25519.js
@@ -1,7 +1,5 @@
 'use strict'
 const Buffer = require('safe-buffer').Buffer
 module.exports = {
  // These were generated in a gore (https://github.com/motemen/gore) repl session:
  //
--- a/test/fixtures/go-key-rsa.js
+++ b/test/fixtures/go-key-rsa.js
@@ -1,7 +1,5 @@
 'use strict'
 const Buffer = require('safe-buffer').Buffer
 module.exports = {
  private: {
    hash: Buffer.from([
--- a/test/fixtures/go-stretch-key.js
+++ b/test/fixtures/go-stretch-key.js
@@ -1,7 +1,5 @@
 'use strict'
 const Buffer = require('safe-buffer').Buffer
 module.exports = [{
  cipher: 'AES-256',
  hash: 'SHA256',
--- a/test/fixtures/secp256k1.js
+++ b/test/fixtures/secp256k1.js
@@ -0,0 +1,8 @@
 'use strict'
 module.exports = {
  // protobuf marshaled key pair generated with libp2p-crypto-secp256k1
  // and marshaled with libp2p-crypto.marshalPublicKey / marshalPrivateKey
  pbmPrivateKey: Buffer.from('08021220e0600103010000000100000000000000be1dc82c2e000000e8d6030301000000', 'hex'),
  pbmPublicKey: Buffer.from('0802122103a9a7272a726fa083abf31ba44037f8347fbc5e5d3113d62a7c6bc26752fd8ee1', 'hex')
 }
--- a/test/hmac/hmac.spec.js
+++ b/test/hmac/hmac.spec.js
@@ -2,10 +2,12 @@
 /* eslint-env mocha */
 'use strict'
-const Buffer = require('safe-buffer').Buffer
+const chai = require('chai')
-const expect = require('chai').expect
+const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
-const crypto = require('../src')
+const crypto = require('../../src')
 const hashes = ['SHA1', 'SHA256', 'SHA512']
@@ -13,10 +15,10 @@ describe('HMAC', () => {
  hashes.forEach((hash) => {
    it(`${hash} - sign and verify`, (done) => {
      crypto.hmac.create(hash, Buffer.from('secret'), (err, hmac) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        hmac.digest(Buffer.from('hello world'), (err, sig) => {
-          expect(err).to.not.exist
+          expect(err).to.not.exist()
          expect(sig).to.have.length(hmac.length)
          done()
        })
--- a/test/keys/ed25519.spec.js
+++ b/test/keys/ed25519.spec.js
@@ -0,0 +1,208 @@
 /* eslint-env mocha */
 'use strict'
 const chai = require('chai')
 const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const crypto = require('../../src')
 const ed25519 = crypto.keys.supportedKeys.ed25519
 const fixtures = require('../fixtures/go-key-ed25519')
 describe('ed25519', () => {
  let key
  before((done) => {
    crypto.keys.generateKeyPair('Ed25519', 512, (err, _key) => {
      if (err) return done(err)
      key = _key
      done()
    })
  })
  it('generates a valid key', (done) => {
    expect(key).to.be.an.instanceof(ed25519.Ed25519PrivateKey)
    key.hash((err, digest) => {
      if (err) {
        return done(err)
      }
      expect(digest).to.have.length(34)
      done()
    })
  })
  it('generates a valid key from seed', (done) => {
    var seed = crypto.randomBytes(32)
    crypto.keys.generateKeyPairFromSeed('Ed25519', seed, 512, (err, seededkey) => {
      if (err) return done(err)
      expect(seededkey).to.be.an.instanceof(ed25519.Ed25519PrivateKey)
      seededkey.hash((err, digest) => {
        if (err) {
          return done(err)
        }
        expect(digest).to.have.length(34)
        done()
      })
    })
  })
  it('generates the same key from the same seed', (done) => {
    var seed = crypto.randomBytes(32)
    crypto.keys.generateKeyPairFromSeed('Ed25519', seed, 512, (err, seededkey1) => {
      if (err) return done(err)
      crypto.keys.generateKeyPairFromSeed('Ed25519', seed, 512, (err, seededkey2) => {
        if (err) return done(err)
        expect(seededkey1.equals(seededkey2)).to.eql(true)
        expect(seededkey1.public.equals(seededkey2.public)).to.eql(true)
        done()
      })
    })
  })
  it('generates different keys for different seeds', (done) => {
    const seed1 = crypto.randomBytes(32)
    crypto.keys.generateKeyPairFromSeed('Ed25519', seed1, 512, (err, seededkey1) => {
      expect(err).to.not.exist()
      const seed2 = crypto.randomBytes(32)
      crypto.keys.generateKeyPairFromSeed('Ed25519', seed2, 512, (err, seededkey2) => {
        expect(err).to.not.exist()
        expect(seededkey1.equals(seededkey2)).to.eql(false)
        expect(seededkey1.public.equals(seededkey2.public))
          .to.eql(false)
        done()
      })
    })
  })
  it('signs', (done) => {
    const text = crypto.randomBytes(512)
    key.sign(text, (err, sig) => {
      expect(err).to.not.exist()
      key.public.verify(text, sig, (err, res) => {
        expect(err).to.not.exist()
        expect(res).to.be.eql(true)
        done()
      })
    })
  })
  it('encoding', (done) => {
    const keyMarshal = key.marshal()
    ed25519.unmarshalEd25519PrivateKey(keyMarshal, (err, key2) => {
      if (err) {
        return done(err)
      }
      const keyMarshal2 = key2.marshal()
      expect(keyMarshal).to.eql(keyMarshal2)
      const pk = key.public
      const pkMarshal = pk.marshal()
      const pk2 = ed25519.unmarshalEd25519PublicKey(pkMarshal)
      const pkMarshal2 = pk2.marshal()
      expect(pkMarshal).to.eql(pkMarshal2)
      done()
    })
  })
  describe('key equals', () => {
    it('equals itself', () => {
      expect(
        key.equals(key)
      ).to.eql(
        true
      )
      expect(
        key.public.equals(key.public)
      ).to.eql(
        true
      )
    })
    it('not equals other key', (done) => {
      crypto.keys.generateKeyPair('Ed25519', 512, (err, key2) => {
        if (err) return done(err)
        expect(key.equals(key2)).to.eql(false)
        expect(key2.equals(key)).to.eql(false)
        expect(key.public.equals(key2.public)).to.eql(false)
        expect(key2.public.equals(key.public)).to.eql(false)
        done()
      })
    })
  })
  it('sign and verify', (done) => {
    const data = Buffer.from('hello world')
    key.sign(data, (err, sig) => {
      if (err) {
        return done(err)
      }
      key.public.verify(data, sig, (err, valid) => {
        if (err) {
          return done(err)
        }
        expect(valid).to.eql(true)
        done()
      })
    })
  })
  it('fails to verify for different data', (done) => {
    const data = Buffer.from('hello world')
    key.sign(data, (err, sig) => {
      if (err) {
        return done(err)
      }
      key.public.verify(Buffer.from('hello'), sig, (err, valid) => {
        if (err) {
          return done(err)
        }
        expect(valid).to.be.eql(false)
        done()
      })
    })
  })
  describe('go interop', () => {
    let privateKey
    before((done) => {
      crypto.keys.unmarshalPrivateKey(fixtures.verify.privateKey, (err, key) => {
        expect(err).to.not.exist()
        privateKey = key
        done()
      })
    })
    it('verifies with data from go', (done) => {
      const key = crypto.keys.unmarshalPublicKey(fixtures.verify.publicKey)
      key.verify(fixtures.verify.data, fixtures.verify.signature, (err, ok) => {
        expect(err).to.not.exist()
        expect(ok).to.eql(true)
        done()
      })
    })
    it('generates the same signature as go', (done) => {
      privateKey.sign(fixtures.verify.data, (err, sig) => {
        expect(err).to.not.exist()
        expect(sig).to.eql(fixtures.verify.signature)
        done()
      })
    })
  })
 })
--- a/test/keys/ephemeral-keys.spec.js
+++ b/test/keys/ephemeral-keys.spec.js
@@ -2,11 +2,14 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
 const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const parallel = require('async/parallel')
-const fixtures = require('./fixtures/go-elliptic-key')
+const fixtures = require('../fixtures/go-elliptic-key')
-const crypto = require('../src')
+const crypto = require('../../src')
 const curves = ['P-256', 'P-384'] // 'P-521' fails in tests :( no clue why
 const lengths = {
@@ -24,15 +27,15 @@ describe('generateEphemeralKeyPair', () => {
  curves.forEach((curve) => {
    it(`generate and shared key ${curve}`, (done) => {
      parallel([
-        (cb) => crypto.generateEphemeralKeyPair(curve, cb),
+        (cb) => crypto.keys.generateEphemeralKeyPair(curve, cb),
-        (cb) => crypto.generateEphemeralKeyPair(curve, cb)
+        (cb) => crypto.keys.generateEphemeralKeyPair(curve, cb)
      ], (err, keys) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        expect(keys[0].key).to.have.length(lengths[curve])
        expect(keys[1].key).to.have.length(lengths[curve])
        keys[0].genSharedKey(keys[1].key, (err, shared) => {
-          expect(err).to.not.exist
+          expect(err).to.not.exist()
          expect(shared).to.have.length(secretLengths[curve])
          done()
        })
@@ -45,10 +48,10 @@ describe('generateEphemeralKeyPair', () => {
      const curve = fixtures.curve
      parallel([
-        (cb) => crypto.generateEphemeralKeyPair(curve, cb),
+        (cb) => crypto.keys.generateEphemeralKeyPair(curve, cb),
-        (cb) => crypto.generateEphemeralKeyPair(curve, cb)
+        (cb) => crypto.keys.generateEphemeralKeyPair(curve, cb)
      ], (err, res) => {
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
        const alice = res[0]
        const bob = res[1]
        bob.key = fixtures.bob.public
@@ -57,14 +60,9 @@ describe('generateEphemeralKeyPair', () => {
          (cb) => alice.genSharedKey(bob.key, cb),
          (cb) => bob.genSharedKey(alice.key, fixtures.bob, cb)
        ], (err, secrets) => {
-          expect(err).to.not.exist
+          expect(err).to.not.exist()
          expect(
            secrets[0]
          ).to.be.eql(
            secrets[1]
          )
          expect(secrets[0]).to.eql(secrets[1])
          expect(secrets[0]).to.have.length(32)
          done()
--- a/test/keys/key-stretcher.spec.js
+++ b/test/keys/key-stretcher.spec.js
@@ -2,10 +2,12 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
-
+const dirtyChai = require('dirty-chai')
-const crypto = require('../src')
+const expect = chai.expect
-const fixtures = require('./fixtures/go-stretch-key')
+chai.use(dirtyChai)
 const crypto = require('../../src')
 const fixtures = require('../fixtures/go-stretch-key')
 describe('keyStretcher', () => {
  describe('generate', () => {
@@ -15,7 +17,7 @@ describe('keyStretcher', () => {
    let secret
    before((done) => {
-      crypto.generateEphemeralKeyPair('P-256', (err, _res) => {
+      crypto.keys.generateEphemeralKeyPair('P-256', (err, _res) => {
        if (err) {
          return done(err)
        }
@@ -34,13 +36,13 @@ describe('keyStretcher', () => {
    ciphers.forEach((cipher) => {
      hashes.forEach((hash) => {
        it(`${cipher} - ${hash}`, (done) => {
-          crypto.keyStretcher(cipher, hash, secret, (err, keys) => {
+          crypto.keys.keyStretcher(cipher, hash, secret, (err, keys) => {
            if (err) {
              return done(err)
            }
-            expect(keys.k1).to.exist
+            expect(keys.k1).to.exist()
-            expect(keys.k2).to.exist
+            expect(keys.k2).to.exist()
            done()
          })
        })
@@ -54,7 +56,7 @@ describe('keyStretcher', () => {
        const cipher = test.cipher
        const hash = test.hash
        const secret = test.secret
-        crypto.keyStretcher(cipher, hash, secret, (err, keys) => {
+        crypto.keys.keyStretcher(cipher, hash, secret, (err, keys) => {
          if (err) {
            return done(err)
          }
--- a/test/keys/rsa.spec.js
+++ b/test/keys/rsa.spec.js
@@ -1,29 +1,30 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
-const Buffer = require('safe-buffer').Buffer
+const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
-const crypto = require('../src')
+const crypto = require('../../src')
-const rsa = crypto.keys.rsa
+const rsa = crypto.keys.supportedKeys.rsa
-const fixtures = require('./fixtures/go-key-rsa')
+const fixtures = require('../fixtures/go-key-rsa')
 describe('RSA', () => {
  let key
  before((done) => {
-    crypto.generateKeyPair('RSA', 2048, (err, _key) => {
+    crypto.keys.generateKeyPair('RSA', 2048, (err, _key) => {
-      if (err) return done(err)
+      if (err) {
        return done(err)
      }
      key = _key
      done()
    })
  })
  it('generates a valid key', (done) => {
-    expect(
+    expect(key).to.be.an.instanceof(rsa.RsaPrivateKey)
      key
    ).to.be.an.instanceof(
      rsa.RsaPrivateKey
    )
    key.hash((err, digest) => {
      if (err) {
@@ -62,68 +63,35 @@ describe('RSA', () => {
      }
      const keyMarshal2 = key2.marshal()
-      expect(
+      expect(keyMarshal).to.eql(keyMarshal2)
        keyMarshal
      ).to.be.eql(
        keyMarshal2
      )
      const pk = key.public
      const pkMarshal = pk.marshal()
      const pk2 = rsa.unmarshalRsaPublicKey(pkMarshal)
      const pkMarshal2 = pk2.marshal()
-      expect(
+      expect(pkMarshal).to.eql(pkMarshal2)
        pkMarshal
      ).to.be.eql(
        pkMarshal2
      )
      done()
    })
  })
  describe('key equals', () => {
    it('equals itself', () => {
-      expect(
+      expect(key.equals(key)).to.eql(true)
        key.equals(key)
      ).to.be.eql(
        true
      )
-      expect(
+      expect(key.public.equals(key.public)).to.eql(true)
        key.public.equals(key.public)
      ).to.be.eql(
        true
      )
    })
    it('not equals other key', (done) => {
-      crypto.generateKeyPair('RSA', 2048, (err, key2) => {
+      crypto.keys.generateKeyPair('RSA', 2048, (err, key2) => {
-        if (err) return done(err)
+        if (err) {
          return done(err)
        }
-        expect(
+        expect(key.equals(key2)).to.eql(false)
-          key.equals(key2)
+        expect(key2.equals(key)).to.eql(false)
-        ).to.be.eql(
+        expect(key.public.equals(key2.public)).to.eql(false)
-          false
+        expect(key2.public.equals(key.public)).to.eql(false)
        )
        expect(
          key2.equals(key)
        ).to.be.eql(
          false
        )
        expect(
          key.public.equals(key2.public)
        ).to.be.eql(
          false
        )
        expect(
          key2.public.equals(key.public)
        ).to.be.eql(
          false
        )
        done()
      })
    })
@@ -165,12 +133,12 @@ describe('RSA', () => {
  describe('go interop', () => {
    it('verifies with data from go', (done) => {
-      const key = crypto.unmarshalPublicKey(fixtures.verify.publicKey)
+      const key = crypto.keys.unmarshalPublicKey(fixtures.verify.publicKey)
      key.verify(fixtures.verify.data, fixtures.verify.signature, (err, ok) => {
        if (err) throw err
-        expect(err).to.not.exist
+        expect(err).to.not.exist()
-        expect(ok).to.be.eql(true)
+        expect(ok).to.equal(true)
        done()
      })
    })
--- a/test/keys/secp256k1.spec.js
+++ b/test/keys/secp256k1.spec.js
@@ -0,0 +1,99 @@
 /* eslint-env mocha */
 'use strict'
 const chai = require('chai')
 const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const fixtures = require('../fixtures/secp256k1')
 const crypto = require('../../src')
 const mockPublicKey = {
  bytes: fixtures.pbmPublicKey
 }
 const mockPrivateKey = {
  bytes: fixtures.pbmPrivateKey,
  public: mockPublicKey
 }
 const mockSecp256k1Module = {
  generateKeyPair (bits, callback) {
    callback(null, mockPrivateKey)
  },
  unmarshalSecp256k1PrivateKey (buf, callback) {
    callback(null, mockPrivateKey)
  },
  unmarshalSecp256k1PublicKey (buf) {
    return mockPublicKey
  }
 }
 describe('without libp2p-crypto-secp256k1 module present', () => {
  crypto.keys.supportedKeys['secp256k1'] = undefined
  it('fails to generate a secp256k1 key', (done) => {
    crypto.keys.generateKeyPair('secp256k1', 256, (err, key) => {
      expect(err).to.exist()
      expect(key).to.not.exist()
      done()
    })
  })
  it('fails to unmarshal a secp256k1 private key', (done) => {
    crypto.keys.unmarshalPrivateKey(fixtures.pbmPrivateKey, (err, key) => {
      expect(err).to.exist()
      expect(key).to.not.exist()
      done()
    })
  })
  it('fails to unmarshal a secp256k1 public key', () => {
    expect(() => {
      crypto.keys.unmarshalPublicKey(fixtures.pbmPublicKey)
    }).to.throw(Error)
  })
 })
 describe('with libp2p-crypto-secp256k1 module present', () => {
  let key
  before((done) => {
    crypto.keys.supportedKeys['secp256k1'] = mockSecp256k1Module
    crypto.keys.generateKeyPair('secp256k1', 256, (err, _key) => {
      if (err) return done(err)
      key = _key
      done()
    })
  })
  after((done) => {
    delete crypto.keys['secp256k1']
    done()
  })
  it('generates a valid key', (done) => {
    expect(key).to.exist()
    done()
  })
  it('protobuf encoding', (done) => {
    const keyMarshal = crypto.keys.marshalPrivateKey(key)
    crypto.keys.unmarshalPrivateKey(keyMarshal, (err, key2) => {
      if (err) return done(err)
      const keyMarshal2 = crypto.keys.marshalPrivateKey(key2)
      expect(keyMarshal).to.eql(keyMarshal2)
      const pk = key.public
      const pkMarshal = crypto.keys.marshalPublicKey(pk)
      const pk2 = crypto.keys.unmarshalPublicKey(pkMarshal)
      const pkMarshal2 = crypto.keys.marshalPublicKey(pk2)
      expect(pkMarshal).to.eql(pkMarshal2)
      done()
    })
  })
 })
--- a/test/util.spec.js
+++ b/test/util.spec.js
@@ -2,8 +2,12 @@
 /* eslint-env mocha */
 'use strict'
-const expect = require('chai').expect
+const chai = require('chai')
-const util = require('../src/crypto/util')
+const dirtyChai = require('dirty-chai')
 const expect = chai.expect
 chai.use(dirtyChai)
 const util = require('../src/util')
 const BN = require('bn.js')
 describe('Util', () => {
@@ -15,7 +19,13 @@ describe('Util', () => {
  })
  it('toBase64', (done) => {
-    expect(util.toBase64(bn)).to.be.eql('3q0')
+    expect(util.toBase64(bn)).to.eql('3q0')
    done()
  })
  it('toBase64 zero padding', (done) => {
    let bnpad = new BN('ff', 16)
    expect(util.toBase64(bnpad, 2)).to.eql('AP8')
    done()
  })
 })
Author	SHA1	Message	Date
David Dias	e7c11a8e01	chore: release version v0.10.2	2017-09-06 08:30:10 +01:00
David Dias	9bb96dc2bf	chore: update contributors	2017-09-06 08:30:09 +01:00
David Dias	957fdd37e9	fix: use regular protocol-buffers until protobufjs is fixed (#109 )	2017-09-06 08:29:45 +01:00
Friedel Ziegelmayer	83257bc4bd	feat(deps): upgrade to aegir@12 and browserify-aes@1.0.8	2017-09-05 15:28:43 +02:00
David Dias	cb7fae7fcc	chore: release version v0.10.1	2017-09-05 11:08:46 +01:00
David Dias	7669847c17	chore: update contributors	2017-09-05 11:08:46 +01:00
Friedel Ziegelmayer	dc2793f138	fix: switch to protobufjs (#107 ) rm unsafe-eval	2017-09-05 11:05:47 +01:00
David Dias	e0b916ace9	chore: release version v0.10.0	2017-09-03 12:19:51 +01:00
David Dias	0a71af7b89	chore: update contributors	2017-09-03 12:19:51 +01:00
David Dias	46adafb207	chore: update deps	2017-09-03 12:19:03 +01:00
David Dias	9e977c7d44	feat: p2p addrs situation (#106 ) * chore: update deps * chore: update gitignore * chore: update CI * chore: update deps	2017-09-03 12:18:18 +01:00
Friedel Ziegelmayer	f20267b962	feat: skip nextTick in nodeify (#103 )	2017-08-17 06:38:26 +02:00
David Dias	1b6a070fa8	chore: release version v0.9.4	2017-07-22 13:26:07 -07:00
David Dias	1471e07bf9	chore: update contributors	2017-07-22 13:26:06 -07:00
David Dias	bc554d1407	fix: circular circular dep -> DI	2017-07-22 13:25:15 -07:00
David Dias	83d2d52205	chore: release version v0.9.3	2017-07-22 12:36:06 -07:00
David Dias	301c779f49	chore: update contributors	2017-07-22 12:36:06 -07:00
David Dias	d552fd423a	chore: use ~ instead of ^	2017-07-22 12:33:24 -07:00
David Dias	306504c386	chore: release version v0.9.2	2017-07-22 12:23:30 -07:00
David Dias	bf80e8e511	chore: update contributors	2017-07-22 12:23:29 -07:00
David Dias	4e619e60f5	chore: update deps	2017-07-22 12:21:55 -07:00
David Dias	a958f52a5c	chore: release version v0.9.1	2017-07-22 11:37:45 -07:00
David Dias	dfc476c4f6	chore: update contributors	2017-07-22 11:37:45 -07:00
David Dias	71eb33a44f	chore: update deps	2017-07-22 11:34:27 -07:00
David Dias	310733726e	chore: update deps	2017-07-22 11:31:04 -07:00
David Dias	0efc94bd20	chore: release version v0.9.0	2017-07-22 11:02:48 -07:00
David Dias	68f4b5f496	chore: update contributors	2017-07-22 11:02:47 -07:00
David Dias	2f8e234044	refactor: the whole thing (#102 )	2017-07-22 10:57:27 -07:00
David Dias	c2c6fde394	chore: update deps	2017-07-20 20:13:52 -07:00
Greenkeeper	14dde32177	chore(package): update chai to version 4.0.1 (#100 ) https://greenkeeper.io/	2017-06-01 10:24:43 +01:00
Friedel Ziegelmayer	5bc30297de	chore: release version v0.8.8	2017-04-11 11:34:11 +02:00
Friedel Ziegelmayer	a5ad8cf444	chore: update contributors	2017-04-11 11:34:11 +02:00
Jack Kleeman	be64372a5e	fix(ecdh): allow base64 to be left-0-padded, needed for JWK format Fixes #97	2017-04-11 11:14:00 +02:00
David Dias	2b0b7abd78	chore: release version v0.8.7	2017-03-21 15:07:57 +00:00
David Dias	17f2065d21	chore: update contributors	2017-03-21 15:07:57 +00:00
David Dias	2f065167fa	chore: update aegir	2017-03-21 15:05:22 +00:00
Friedel Ziegelmayer	e0ecce18ce	chore: release version v0.8.6	2017-03-03 21:44:03 +01:00
Friedel Ziegelmayer	cea1140ec6	chore: update contributors	2017-03-03 21:44:03 +01:00
Jack Kleeman	e5b7c1f622	feat(keys): implement generateKeyPairFromSeed for ed25519 Implement generateKeyPairFromSeed for ed25519 - this will produce the same keypair for the same seed (or first 32 bytes of reader) as given to GenerateKeyPairWithReader in go-libp2p.	2017-03-03 21:38:51 +01:00
Friedel Ziegelmayer	20326199d9	Merge pull request #80 from libp2p/greenkeeper/tweetnacl-1.0.0-rc.1 Update tweetnacl to the latest version 🚀	2017-02-24 17:56:59 +01:00
greenkeeper[bot]	4e56e1724f	fix(package): update tweetnacl to version 1.0.0-rc.1 https://greenkeeper.io/	2017-02-22 11:39:32 +00:00
David Dias	7d63f698c0	chore: release version v0.8.5	2017-02-10 18:54:16 -08:00
David Dias	a49df7786c	chore: update contributors	2017-02-10 18:54:16 -08:00
David Dias	c73adb00cc	fix: add libp2p-crypto-secp256k1	2017-02-10 18:53:36 -08:00
David Dias	8a95de4700	chore: release version v0.8.4	2017-02-10 17:54:47 -08:00
David Dias	c35a65133f	chore: update contributors	2017-02-10 17:54:47 -08:00
David Dias	4eb4aa05de	fix: rm browserify-optional and transforms	2017-02-10 17:54:11 -08:00
David Dias	21f96a4eb7	chore: release version v0.8.3	2017-02-10 16:16:49 -08:00
David Dias	39b5124526	chore: update contributors	2017-02-10 16:16:49 -08:00
David Dias	93e50dde10	fix: browserify-optional needs to be dep	2017-02-10 16:16:11 -08:00
David Dias	e383da5d44	chore: release version v0.8.2	2017-02-10 10:28:44 -08:00
David Dias	9b687f380c	chore: update contributors	2017-02-10 10:28:44 -08:00
Friedel Ziegelmayer	82abede64a	fix: use browserify-optional (#72 ) This works around the issue that browserify throws on missing modules.	2017-02-10 10:21:56 -08:00
David Dias	a56ab406e4	chore: release version v0.8.1	2017-02-09 08:32:12 -08:00
David Dias	d753941c6e	chore: update contributors	2017-02-09 08:32:12 -08:00
David Dias	6022eb0838	chore: ^ to ~	2017-02-09 08:29:55 -08:00
Dmitriy Ryajov	1c6d0912cd	chore: removing --webworker from build steps	2017-02-09 12:14:26 +01:00
Friedel Ziegelmayer	e18804c31e	chore: release version v0.8.0	2017-02-07 21:03:56 +01:00
Friedel Ziegelmayer	133a2c8833	chore: update contributors	2017-02-07 21:03:55 +01:00
Friedel Ziegelmayer	fad0865b2b	chore: drop webworker flag	2017-02-07 20:46:58 +01:00
Friedel Ziegelmayer	4edef07182	Merge pull request #67 from libp2p/greenkeeper-aegir-10.0.0 Update aegir to version 10.0.0 🚀	2017-02-07 20:45:13 +01:00
Friedel Ziegelmayer	19c6ce7c06	Merge pull request #65 from dryajov/master feat: change window to self for webworker support	2017-02-07 20:45:01 +01:00
Friedel Ziegelmayer	3fa76a874f	Merge pull request #66 from libp2p/expose-proto feat: expose protobuf	2017-02-07 20:44:36 +01:00
greenkeeperio-bot	6e0fd6f257	chore(package): update aegir to version 10.0.0 https://greenkeeper.io/	2017-02-07 18:45:52 +01:00
Friedel Ziegelmayer	c91d9b61c8	feat: expose protobuf this allows other modules to reuse the protobuf definition	2017-02-07 17:51:43 +01:00
Yusef Napora	76eeb5aa18	feat: add support for secp256k1 keys through the `libp2p-crypto-secp256k1` module	2017-02-04 10:23:38 +01:00
dryajov	843b5e33d6	WIP: use self instead of window for WebWorker compatibility	2017-01-31 02:09:46 -08:00
Friedel Ziegelmayer	308ac7cd1a	chore: release version v0.7.7	2017-01-27 14:07:42 +01:00
Friedel Ziegelmayer	6c8f978ea4	chore: update contributors	2017-01-27 14:07:42 +01:00
Friedel Ziegelmayer	b93b410357	Merge pull request #63 from libp2p/dryajov-master Dryajov master	2017-01-27 13:53:26 +01:00
Friedel Ziegelmayer	99a5245fa3	update deps	2017-01-27 12:15:19 +01:00
dryajov	34856d58ab	removing contributors	2017-01-26 17:20:51 -08:00
dryajov	d59c6af7c0	Merge branch 'master' of https://github.com/libp2p/js-libp2p-crypto	2017-01-23 18:39:51 -08:00
dryajov	1683bf1dc8	reverting version	2017-01-23 18:32:52 -08:00
dryajov	a4edf8b99b	chore: release version v0.7.6	2017-01-23 18:30:30 -08:00
dryajov	27524354af	chore: update contributors	2017-01-23 18:30:30 -08:00
dryajov	a1f054ca8e	adding webworker test task	2017-01-22 19:39:58 -08:00
dryajov	5c61c89391	fixing lint issues with `self`	2017-01-20 16:20:23 -08:00
Tom Swindell	98bc0bbc5f	Support for WebWorker. Signed-off-by: Tom Swindell <t.swindell@rubyx.co.uk>	2017-01-14 12:45:52 +00:00