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lib/livebook/hubs/personal.ex

defmodule Livebook.Hubs.Personal do
@moduledoc false
use Ecto.Schema
import Ecto.Changeset
alias Livebook.Hubs
@secret_key_size 64
@type t :: %__MODULE__{
id: String.t() | nil,
hub_name: String.t() | nil,
hub_emoji: String.t() | nil,
secret_key: String.t() | nil
}
embedded_schema do
field :hub_name, :string
field :hub_emoji, :string
field :secret_key, :string, redact: true
end
@fields ~w(hub_name hub_emoji secret_key)a
@doc """
The personal hub fixed id.
"""
@spec id() :: String.t()
def id, do: "personal-hub"
@doc """
Returns an `%Ecto.Changeset{}` for tracking hub changes.
"""
@spec change_hub(t(), map()) :: Ecto.Changeset.t()
def change_hub(%__MODULE__{} = personal, attrs \\ %{}) do
changeset(personal, attrs)
end
@doc """
Returns changeset with applied validations.
"""
@spec validate_hub(t(), map()) :: Ecto.Changeset.t()
def validate_hub(%__MODULE__{} = personal, attrs \\ %{}) do
personal
|> changeset(attrs)
|> Map.put(:action, :validate)
end
@doc """
Updates a Hub.
With success, notifies interested processes about hub metadatas data change.
Otherwise, it will return an error tuple with changeset.
"""
@spec update_hub(t(), map()) :: {:ok, t()} | {:error, Ecto.Changeset.t()}
def update_hub(%__MODULE__{} = personal, attrs) do
changeset = changeset(personal, attrs)
with {:ok, struct} <- apply_action(changeset, :update) do
Hubs.save_hub(struct)
{:ok, struct}
end
end
defp changeset(personal, attrs) do
personal
|> cast(attrs, @fields)
|> validate_required(@fields)
|> validate_change(:secret_key, fn :secret_key, secret_key ->
case Base.url_decode64(secret_key, padding: false) do
{:ok, binary} when byte_size(binary) == @secret_key_size -> []
_ -> [secret_key: "must be #{@secret_key_size} bytes in Base 64 URL alphabet"]
end
end)
|> put_change(:id, id())
end
@doc """
Generates a random secret key used for stamping the notebook.
"""
@spec generate_secret_key() :: String.t()
def generate_secret_key() do
:crypto.strong_rand_bytes(@secret_key_size) |> Base.url_encode64(padding: false)
end
end
defimpl Livebook.Hubs.Provider, for: Livebook.Hubs.Personal do
alias Livebook.Hubs.Broadcasts
alias Livebook.Secrets
def load(personal, fields) do
%{
personal
| id: fields.id,
hub_name: fields.hub_name,
hub_emoji: fields.hub_emoji,
secret_key: fields.secret_key
}
end
def to_metadata(personal) do
%Livebook.Hubs.Metadata{
id: personal.id,
name: personal.hub_name,
provider: personal,
emoji: personal.hub_emoji,
connected?: false
}
end
def type(_personal), do: "personal"
def connection_spec(_personal), do: nil
def disconnect(_personal), do: raise("not implemented")
def capabilities(_personal), do: ~w(list_secrets create_secret)a
def get_secrets(personal) do
Secrets.get_secrets(personal)
end
def create_secret(_personal, secret) do
Secrets.set_secret(secret)
:ok = Broadcasts.secret_created(secret)
end
def update_secret(_personal, secret) do
Secrets.set_secret(secret)
:ok = Broadcasts.secret_updated(secret)
end
def delete_secret(personal, secret) do
:ok = Secrets.unset_secret(personal, secret.name)
:ok = Broadcasts.secret_deleted(secret)
end
def connection_error(_personal), do: raise("not implemented")
def notebook_stamp(_hub, _notebook_source, metadata) when metadata == %{} do
:skip
end
def notebook_stamp(hub, notebook_source, metadata) do
# We use AES-GCM-128 to encrypt metadata and generate signature
# for both metadata and the notebook source. We make use of the
# implementation in MessageEncryptor, which conveniently returns
# a single token
{secret, sign_secret} = derive_keys(hub.secret_key)
payload = :erlang.term_to_binary(metadata)
token = Plug.Crypto.MessageEncryptor.encrypt(payload, notebook_source, secret, sign_secret)
stamp = %{"version" => 1, "token" => token}
{:ok, stamp}
end
def verify_notebook_stamp(hub, notebook_source, stamp) do
%{"version" => 1, "token" => token} = stamp
{secret, sign_secret} = derive_keys(hub.secret_key)
case Plug.Crypto.MessageEncryptor.decrypt(token, notebook_source, secret, sign_secret) do
{:ok, payload} ->
metadata = Plug.Crypto.non_executable_binary_to_term(payload)
{:ok, metadata}
:error ->
:error
end
end
defp derive_keys(secret_key) do
binary_key = Base.url_decode64!(secret_key, padding: false)
<<secret::16-bytes, sign_secret::16-bytes>> =
Plug.Crypto.KeyGenerator.generate(binary_key, "notebook signing",
length: 32,
cache: Plug.Crypto.Keys
)
{secret, sign_secret}
end
end