livebook/lib/livebook_web/channels/js_view_channel.ex

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Elixir
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defmodule LivebookWeb.JSViewChannel do
use Phoenix.Channel
@impl true
def join("js_view", %{"session_id" => session_id, "client_id" => client_id}, socket) do
{:ok, assign(socket, session_id: session_id, client_id: client_id, ref_with_info: %{})}
end
@impl true
def handle_in("connect", %{"session_token" => session_token, "ref" => ref, "id" => id}, socket) do
{:ok, data} = Phoenix.Token.verify(LivebookWeb.Endpoint, "js view", session_token)
%{pid: pid} = data
send(pid, {:connect, self(), %{origin: socket.assigns.client_id, ref: ref}})
socket =
update_in(socket.assigns.ref_with_info[ref], fn
nil -> %{pid: pid, count: 1, connect_queue: [id]}
info -> %{info | count: info.count + 1, connect_queue: info.connect_queue ++ [id]}
end)
if socket.assigns.ref_with_info[ref].count == 1 do
Livebook.Session.subscribe_to_runtime_events(
socket.assigns.session_id,
"js_live",
ref,
&fastlane_encoder/1,
socket.transport_pid
)
end
{:noreply, socket}
end
def handle_in("event", raw, socket) do
{[event, ref], payload} = transport_decode!(raw)
pid = socket.assigns.ref_with_info[ref].pid
send(pid, {:event, event, payload, %{origin: socket.assigns.client_id, ref: ref}})
{:noreply, socket}
end
def handle_in("ping", %{"ref" => ref}, socket) do
pid = socket.assigns.ref_with_info[ref].pid
send(pid, {:ping, self(), nil, %{ref: ref}})
{:noreply, socket}
end
def handle_in("disconnect", %{"ref" => ref}, socket) do
socket =
if socket.assigns.ref_with_info[ref].count == 1 do
Livebook.Session.unsubscribe_from_runtime_events(
socket.assigns.session_id,
"js_live",
ref
)
{_, socket} = pop_in(socket.assigns.ref_with_info[ref])
socket
else
update_in(socket.assigns.ref_with_info[ref], &%{&1 | count: &1.count - 1})
end
{:noreply, socket}
end
@impl true
def handle_info({:connect_reply, payload, %{ref: ref}}, socket) do
# Multiple connections for the same reference may be establish,
# the replies come sequentially and we dispatch them according
# to the clients queue
{id, socket} =
get_and_update_in(socket.assigns.ref_with_info[ref].connect_queue, fn [id | queue] ->
{id, queue}
end)
with {:error, error} <- try_push(socket, "init:#{ref}:#{id}", nil, payload) do
message = "Failed to serialize initial widget data, " <> error
push(socket, "error:#{ref}", %{"message" => message, "init" => true})
end
{:noreply, socket}
end
def handle_info({:event, event, payload, %{ref: ref}}, socket) do
with {:error, error} <- try_push(socket, "event:#{ref}", [event], payload) do
message = "Failed to serialize widget data, " <> error
push(socket, "error:#{ref}", %{"message" => message})
end
{:noreply, socket}
end
def handle_info({:pong, _, %{ref: ref}}, socket) do
push(socket, "pong:#{ref}", %{})
{:noreply, socket}
end
def handle_info({:encoding_error, error, {:event, _event, _payload, %{ref: ref}}}, socket) do
message = "Failed to serialize widget data, " <> error
push(socket, "error:#{ref}", %{"message" => message})
{:noreply, socket}
end
defp try_push(socket, event, meta, payload) do
with {:ok, _} <-
run_safely(fn ->
push(socket, event, transport_encode!(meta, payload))
end),
do: :ok
end
# In case the payload fails to encode we catch the error
defp run_safely(fun) do
try do
{:ok, fun.()}
rescue
error ->
case error do
%Protocol.UndefinedError{protocol: Jason.Encoder, value: value} ->
{:error, "value #{inspect(value)} is not JSON-serializable, use another data type"}
error ->
{:error, Exception.message(error)}
end
end
end
defp fastlane_encoder({:event, event, payload, %{ref: ref}}) do
run_safely(fn ->
Phoenix.Socket.V2.JSONSerializer.fastlane!(%Phoenix.Socket.Broadcast{
topic: "js_view",
event: "event:#{ref}",
payload: transport_encode!([event], payload)
})
end)
end
# A user payload can be either a JSON-serializable term
# or a {:binary, info, binary} tuple, where info is a
# JSON-serializable term. The channel allows for sending
# either maps or binaries, so we need to translare the
# payload accordingly
defp transport_encode!(meta, {:binary, info, binary}) do
{:binary, encode!([meta, info], binary)}
end
defp transport_encode!(meta, payload) do
%{"root" => [meta, payload]}
end
defp transport_decode!({:binary, raw}) do
{[meta, info], binary} = decode!(raw)
{meta, {:binary, info, binary}}
end
defp transport_decode!(raw) do
%{"root" => [meta, payload]} = raw
{meta, payload}
end
defp encode!(meta, binary) do
meta = Jason.encode!(meta)
meta_size = byte_size(meta)
<<meta_size::size(32), meta::binary, binary::binary>>
end
defp decode!(raw) do
<<meta_size::size(32), meta::binary-size(meta_size), binary::binary>> = raw
meta = Jason.decode!(meta)
{meta, binary}
end
end