Phoenix v1.5.3 Phoenix.Token View Source

Tokens provide a way to generate and verify bearer tokens for use in Channels or API authentication.

The data stored in the token is signed to prevent tampering but not encrypted. This means it is safe to store identification information (such as user IDs) but should not be used to store confidential information (such as credit card numbers).

Example

When generating a unique token for use in an API or Channel it is advised to use a unique identifier for the user, typically the id from a database. For example:

iex> user_id = 1
iex> token = Phoenix.Token.sign(MyApp.Endpoint, "user auth", user_id)
iex> Phoenix.Token.verify(MyApp.Endpoint, "user auth", token, max_age: 86400)
{:ok, 1}

In that example we have a user's id, we generate a token and verify it using the secret key base configured in the given endpoint. We guarantee the token will only be valid for one day by setting a max age (recommended).

The first argument to both sign/4 and verify/4 can be one of:

  • the module name of a Phoenix endpoint (shown above) - where the secret key base is extracted from the endpoint
  • Plug.Conn - where the secret key base is extracted from the endpoint stored in the connection
  • Phoenix.Socket - where the secret key base is extracted from the endpoint stored in the socket
  • a string, representing the secret key base itself. A key base with at least 20 randomly generated characters should be used to provide adequate entropy

The second argument is a cryptographic salt which must be the same in both calls to sign/4 and verify/4. For instance, it may be called "user auth" and treated as namespace when generating a token that will be used to authenticate users on channels or on your APIs.

The third argument can be any term (string, int, list, etc.) that you wish to codify into the token. Upon valid verification, this same term will be extracted from the token.

Usage

Once a token is signed, we can send it to the client in multiple ways.

One is via the meta tag:

<%= tag :meta, name: "channel_token",
               content: Phoenix.Token.sign(@conn, "user auth", @current_user.id) %>

Or an endpoint that returns it:

def create(conn, params) do
  user = User.create(params)
  render(conn, "user.json",
         %{token: Phoenix.Token.sign(conn, "user auth", user.id), user: user})
end

Once the token is sent, the client may now send it back to the server as an authentication mechanism. For example, we can use it to authenticate a user on a Phoenix channel:

defmodule MyApp.UserSocket do
  use Phoenix.Socket

  def connect(%{"token" => token}, socket, _connect_info) do
    case Phoenix.Token.verify(socket, "user auth", token, max_age: 86400) do
      {:ok, user_id} ->
        socket = assign(socket, :user, Repo.get!(User, user_id))
        {:ok, socket}
      {:error, _} ->
        :error
    end
  end

  def connect(_params, _socket, _connect_info), do: :error
end

In this example, the phoenix.js client will send the token in the connect command which is then validated by the server.

Phoenix.Token can also be used for validating APIs, handling password resets, e-mail confirmation and more.

Link to this section Summary

Functions

Decrypts the original data from the token and verifies its integrity.

Encodes, encrypts, and signs data into a token you can send to clients.

Encodes and signs data into a token you can send to clients.

Decodes the original data from the token and verifies its integrity.

Link to this section Functions

Link to this function

decrypt(context, secret, token, opts \\ [])

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Decrypts the original data from the token and verifies its integrity.

Options

  • :max_age - verifies the token only if it has been generated "max age" ago in seconds. A reasonable value is 1 day (86400 seconds)
  • :key_iterations - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 1000
  • :key_length - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 32
  • :key_digest - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to :sha256
Link to this function

encrypt(context, secret, data, opts \\ [])

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Encodes, encrypts, and signs data into a token you can send to clients.

Options

  • :key_iterations - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 1000
  • :key_length - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 32
  • :key_digest - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to :sha256
  • :signed_at - set the timestamp of the token in seconds. Defaults to System.system_time(:second)
Link to this function

sign(context, salt, data, opts \\ [])

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Encodes and signs data into a token you can send to clients.

Options

  • :key_iterations - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 1000
  • :key_length - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 32
  • :key_digest - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to :sha256
  • :signed_at - set the timestamp of the token in seconds. Defaults to System.system_time(:second)
Link to this function

verify(context, salt, token, opts \\ [])

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Decodes the original data from the token and verifies its integrity.

Examples

In this scenario we will create a token, sign it, then provide it to a client application. The client will then use this token to authenticate requests for resources from the server. See Phoenix.Token summary for more info about creating tokens.

iex> user_id    = 99
iex> secret     = "kjoy3o1zeidquwy1398juxzldjlksahdk3"
iex> namespace  = "user auth"
iex> token      = Phoenix.Token.sign(secret, namespace, user_id)

The mechanism for passing the token to the client is typically through a cookie, a JSON response body, or HTTP header. For now, assume the client has received a token it can use to validate requests for protected resources.

When the server receives a request, it can use verify/4 to determine if it should provide the requested resources to the client:

iex> Phoenix.Token.verify(secret, namespace, token, max_age: 86400)
{:ok, 99}

In this example, we know the client sent a valid token because verify/4 returned a tuple of type {:ok, user_id}. The server can now proceed with the request.

However, if the client had sent an expired or otherwise invalid token verify/4 would have returned an error instead:

iex> Phoenix.Token.verify(secret, namespace, expired, max_age: 86400)
{:error, :expired}

iex> Phoenix.Token.verify(secret, namespace, invalid, max_age: 86400)
{:error, :invalid}

Options

  • :max_age - verifies the token only if it has been generated "max age" ago in seconds. A reasonable value is 1 day (86400 seconds)
  • :key_iterations - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 1000
  • :key_length - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to 32
  • :key_digest - option passed to Plug.Crypto.KeyGenerator when generating the encryption and signing keys. Defaults to :sha256