# JOSE
[![Build Status](https://travis-ci.org/potatosalad/erlang-jose.png?branch=master)](https://travis-ci.org/potatosalad/erlang-jose) [![Hex.pm](https://img.shields.io/hexpm/v/jose.svg)](https://hex.pm/packages/jose)
JSON Object Signing and Encryption (JOSE) for Erlang and Elixir.
## Installation
Add `jose` to your project's dependencies in `mix.exs`
```elixir
defp deps do
[
{:jose, "~> 1.0"}
]
end
```
Add `jose` to your project's dependencies in your `Makefile` for [`erlang.mk`](https://github.com/ninenines/erlang.mk) or the following to your `rebar.config`
```erlang
{deps, [
{jose, ".*", {git, "git://github.com/potatosalad/erlang-jose.git", {branch, "master"}}}
]}.
```
## Usage
##### JSON Web Signature (JWS) of JSON Web Token (JWT) using HMAC using SHA-256 (HS256) with JSON Web Key (JWK)
_Elixir_
```elixir
# JSON Web Key (JWK)
jwk = %{
"kty" => "oct",
"k" => :base64url.encode("symmetric key")
}
# JSON Web Signature (JWS)
jws = %{
"alg" => "HS256"
}
# JSON Web Token (JWT)
jwt = %{
"iss" => "joe",
"exp" => 1300819380,
"http://example.com/is_root" => true
}
signed = JOSE.JWT.sign(jwk, jws, jwt)
# {%{alg: :jose_jws_alg_hmac},
# %{"payload" => "eyJleHAiOjEzMDA4MTkzODAsImh0dHA6Ly9leGFtcGxlLmNvbS9pc19yb290Ijp0cnVlLCJpc3MiOiJqb2UifQ",
# "protected" => "eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9",
# "signature" => "shLcxOl_HBBsOTvPnskfIlxHUibPN7Y9T4LhPB-iBwM"}}
compact_signed = JOSE.JWS.compact(signed)
# {%{alg: :jose_jws_alg_hmac},
# "eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJleHAiOjEzMDA4MTkzODAsImh0dHA6Ly9leGFtcGxlLmNvbS9pc19yb290Ijp0cnVlLCJpc3MiOiJqb2UifQ.shLcxOl_HBBsOTvPnskfIlxHUibPN7Y9T4LhPB-iBwM"}
verified = JOSE.JWT.verify(jwk, compact_signed)
# {true,
# %JOSE.JWT{fields: %{"exp" => 1300819380, "http://example.com/is_root" => true,
# "iss" => "joe"}},
# %JOSE.JWS{alg: {:jose_jws_alg_hmac, {:jose_jws_alg_hmac, :sha256}},
# b64: :undefined, fields: %{"typ" => "JWT"}, sph: :undefined}}
verified == JOSE.JWT.verify(jwk, signed)
# true
```
_Erlang_
```erlang
% JSON Web Key (JWK)
JWK = #{
<<"kty">> => <<"oct">>,
<<"k">> => base64url:encode(<<"symmetric key">>)
}.
% JSON Web Signature (JWS)
JWS = #{
<<"alg">> => <<"HS256">>
}.
% JSON Web Token (JWT)
JWT = #{
<<"iss">> => <<"joe">>,
<<"exp">> => 1300819380,
<<"http://example.com/is_root">> => true
}.
Signed = jose_jwt:sign(JWK, JWS, JWT).
% {#{alg => jose_jws_alg_hmac},
% #{<<"payload">> => <<"eyJleHAiOjEzMDA4MTkzODAsImh0dHA6Ly9leGFtcGxlLmNvbS9pc19yb290Ijp0cnVlLCJpc3MiOiJqb2UifQ">>,
% <<"protected">> => <<"eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9">>,
% <<"signature">> => <<"shLcxOl_HBBsOTvPnskfIlxHUibPN7Y9T4LhPB-iBwM">>}}
CompactSigned = jose_jws:compact(Signed).
% {#{alg => jose_jws_alg_hmac},
% <<"eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJleHAiOjEzMDA4MTkzODAsImh0dHA6Ly9leGFtcGxlLmNvbS9pc19yb290Ijp0cnVlLCJpc3MiOiJqb2UifQ.shLcxOl_HBBsOTvPnskfIlxHUibPN7Y9T4LhPB-iBwM">>}
Verified = jose_jwt:verify(JWK, CompactSigned).
% {true,
% #jose_jwt{
% fields =
% #{<<"exp">> => 1300819380,
% <<"http://example.com/is_root">> => true,
% <<"iss">> => <<"joe">>}},
% #jose_jws{
% alg = {jose_jws_alg_hmac,{jose_jws_alg_hmac,sha256}},
% b64 = undefined,sph = undefined,
% fields = #{<<"typ">> => <<"JWT">>}}}
Verified =:= jose_jwt:verify(JWK, Signed).
% true
```
##### Reading JSON Web Keys (JWK) from PEM files
The examples below use three keys created with `openssl`:
```bash
# RSA Private Key
openssl genrsa -out rsa-2048.pem 2048
# EC Private Key (Alice)
openssl ecparam -name secp256r1 -genkey -noout -out ec-secp256r1-alice.pem
# EC Private Key (Bob)
openssl ecparam -name secp256r1 -genkey -noout -out ec-secp256r1-bob.pem
```
_Elixir_
```elixir
# RSA examples
rsa_private_jwk = JOSE.JWK.from_pem_file("rsa-2048.pem")
rsa_public_jwk = JOSE.JWK.to_public(rsa_private_jwk)
## Sign and Verify (defaults to PS256)
message = "my message"
signed = JOSE.JWK.sign(message, rsa_private_jwk)
{true, ^message, _} = JOSE.JWK.verify(signed, rsa_public_jwk)
## Sign and Verify (specify RS256)
signed = JOSE.JWK.sign(message, %{ "alg" => "RS256" }, rsa_private_jwk)
{true, ^message, _} = JOSE.JWK.verify(signed, rsa_public_jwk)
## Encrypt and Decrypt (defaults to RSA-OAEP with A128CBC-HS256)
plain_text = "my plain text"
encrypted = JOSE.JWK.block_encrypt(plain_text, rsa_public_jwk)
{^plain_text, _} = JOSE.JWK.block_decrypt(encrypted, rsa_private_jwk)
## Encrypt and Decrypt (specify RSA-OAEP-256 with A128GCM)
encrypted = JOSE.JWK.block_encrypt(plain_text, %{ "alg" => "RSA-OAEP-256", "enc" => "A128GCM" }, rsa_public_jwk)
{^plain_text, _} = JOSE.JWK.block_decrypt(encrypted, rsa_private_jwk)
# EC examples
alice_private_jwk = JOSE.JWK.from_pem_file("ec-secp256r1-alice.pem")
alice_public_jwk = JOSE.JWK.to_public(alice_private_jwk)
bob_private_jwk = JOSE.JWK.from_pem_file("ec-secp256r1-bob.pem")
bob_public_jwk = JOSE.JWK.to_public(bob_private_jwk)
## Sign and Verify (defaults to ES256)
message = "my message"
signed = JOSE.JWK.sign(message, alice_private_jwk)
{true, ^message, _} = JOSE.JWK.verify(signed, alice_public_jwk)
## Encrypt and Decrypt (defaults to ECDH-ES with A128GCM)
### Alice sends Bob a secret message using Bob's public key and Alice's private key
alice_to_bob = "For Bob's eyes only."
encrypted = JOSE.JWK.box_encrypt(alice_to_bob, bob_public_jwk, alice_private_jwk)
### Only Bob can decrypt the message using his private key (Alice's public key is embedded in the JWE header)
{^alice_to_bob, _} = JOSE.JWK.box_decrypt(encrypted, bob_private_jwk)
```
_Erlang_
```erlang
% RSA examples
RSAPrivateJWK = jose_jwk:from_pem_file("rsa-2048.pem"),
RSAPublicJWK = jose_jwk:to_public(RSAPrivateJWK).
%% Sign and Verify (defaults to PS256)
Message = <<"my message">>,
SignedPS256 = jose_jwk:sign(Message, RSAPrivateJWK),
{true, Message, _} = jose_jwk:verify(SignedPS256, RSAPublicJWK).
%% Sign and Verify (specify RS256)
SignedRS256 = jose_jwk:sign(Message, #{ <<"alg">> => <<"RS256">> }, RSAPrivateJWK),
{true, Message, _} = jose_jwk:verify(SignedRS256, RSAPublicJWK).
%% Encrypt and Decrypt (defaults to RSA-OAEP with A128CBC-HS256)
PlainText = <<"my plain text">>,
EncryptedRSAOAEP = jose_jwk:block_encrypt(PlainText, RSAPublicJWK),
{PlainText, _} = jose_jwk:block_decrypt(EncryptedRSAOAEP, RSAPrivateJWK).
%% Encrypt and Decrypt (specify RSA-OAEP-256 with A128GCM)
EncryptedRSAOAEP256 = jose_jwk:block_encrypt(PlainText, #{ <<"alg">> => <<"RSA-OAEP-256">>, <<"enc">> => <<"A128GCM">> }, RSAPublicJWK),
{PlainText, _} = jose_jwk:block_decrypt(EncryptedRSAOAEP256, RSAPrivateJWK).
% EC examples
AlicePrivateJWK = jose_jwk:from_pem_file("ec-secp256r1-alice.pem"),
AlicePublicJWK = jose_jwk:to_public(AlicePrivateJWK),
BobPrivateJWK = jose_jwk:from_pem_file("ec-secp256r1-bob.pem"),
BobPublicJWK = jose_jwk:to_public(BobPrivateJWK).
%% Sign and Verify (defaults to ES256)
Message = <<"my message">>,
SignedES256 = jose_jwk:sign(Message, AlicePrivateJWK),
{true, Message, _} = jose_jwk:verify(SignedES256, AlicePublicJWK).
%% Encrypt and Decrypt (defaults to ECDH-ES with A128GCM)
%%% Alice sends Bob a secret message using Bob's public key and Alice's private key
AliceToBob = <<"For Bob's eyes only.">>,
EncryptedECDHES = jose_jwk:box_encrypt(AliceToBob, BobPublicJWK, AlicePrivateJWK),
%%% Only Bob can decrypt the message using his private key (Alice's public key is embedded in the JWE header)
{AliceToBob, _} = jose_jwk:box_decrypt(EncryptedECDHES, BobPrivateJWK).
```
## Algorithm Support
### JSON Web Encryption (JWE) [RFC 7516](https://tools.ietf.org/html/rfc7516)
#### `"alg"` [RFC 7518 Section 4](https://tools.ietf.org/html/rfc7518#section-4)
- [X] `RSA1_5`
- [X] `RSA-OAEP`
- [X] `RSA-OAEP-256` <sup>[1](#footnote-1)</sup>
- [X] `A128KW`
- [X] `A192KW` <sup>[2](#footnote-2)</sup>
- [X] `A256KW`
- [X] `dir`
- [X] `ECDH-ES`
- [X] `ECDH-ES+A128KW`
- [X] `ECDH-ES+A192KW` <sup>[2](#footnote-2)</sup>
- [X] `ECDH-ES+A256KW`
- [X] `A128GCMKW`
- [X] `A192GCMKW`
- [X] `A256GCMKW`
- [X] `PBES2-HS256+A128KW`
- [X] `PBES2-HS384+A192KW` <sup>[2](#footnote-2)</sup>
- [X] `PBES2-HS512+A256KW`
#### `"enc"` [RFC 7518 Section 5](https://tools.ietf.org/html/rfc7518#section-5)
- [X] `A128CBC-HS256`
- [X] `A192CBC-HS384` <sup>[2](#footnote-2)</sup>
- [X] `A256CBC-HS512`
- [X] `A128GCM`
- [X] `A192GCM`
- [X] `A256GCM`
#### `"zip"` [RFC 7518 Section 7.3](https://tools.ietf.org/html/rfc7518#section-7.3)
- [X] `DEF`
### JSON Web Key (JWK) [RFC 7517](https://tools.ietf.org/html/rfc7517)
#### `"alg"` [RFC 7518 Section 6](https://tools.ietf.org/html/rfc7518#section-6)
- [X] `EC`
- [X] `RSA`
- [X] `oct`
### JSON Web Signature (JWS) [RFC 7515](https://tools.ietf.org/html/rfc7515)
#### `"alg"` [RFC 7518 Section 3](https://tools.ietf.org/html/rfc7518#section-3)
- [X] `HS256`
- [X] `HS384`
- [X] `HS512`
- [X] `RS256`
- [X] `RS384`
- [X] `RS512`
- [X] `ES256`
- [X] `ES384`
- [X] `ES512`
- [X] `PS256` <sup>[3](#footnote-3)</sup>
- [X] `PS384` <sup>[3](#footnote-3)</sup>
- [X] `PS512` <sup>[3](#footnote-3)</sup>
- [X] `none`
<a name="footnote-1">1</a>: Implemented mostly in pure Erlang. May be less performant than other supported encryption algorithms. See [`jose_jwa_pkcs1.erl`](https://github.com/potatosalad/erlang-jose/blob/master/src/jose_jwa_pkcs1.erl) for implementation details.
<a name="footnote-2">2</a>: Implemented in pure Erlang. May be less performant than other supported encryption algorithms. See [`jose_jwa_aes.erl`](https://github.com/potatosalad/erlang-jose/blob/master/src/jose_jwa_aes.erl) for implementation details.
<a name="footnote-3">3</a>: Implemented mostly in pure Erlang. May be less performant than other supported signature algorithms. See [`jose_jwa_pkcs1.erl`](https://github.com/potatosalad/erlang-jose/blob/master/src/jose_jwa_pkcs1.erl) for implementation details.