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defmodule SApp.Identity do
use GenServer
require Logger
defmodule Manifest do
defstruct [:pk]
end
defmodule State do
defstruct [:info, :rev, :signed]
end
defimpl Shard.Manifest, for: Manifest do
def start(m) do
DynamicSupervisor.start_child(Shard.DynamicSupervisor, {SApp.Identity, m.pk})
end
end
def start_link(pk) do
GenServer.start_link(__MODULE__, pk)
end
def init(pk) do
manifest = %Manifest{pk: pk}
id = SData.term_hash manifest
case Shard.Manager.register(id, manifest, self()) do
:ok ->
Shard.Manager.dispatch_to(id, nil, self())
state = case Shard.Manager.load_state(id) do
nil ->
info = %{nick: default_nick(pk)}
SData.SignRev.new info
st ->
st
end
netgroup = %SNet.PubShardGroup{id: id}
SNet.Group.init_lookup(netgroup, self())
if Shard.Keys.have_sk? pk do
GenServer.cast(self(), :update_peer_info)
end
{:ok, %{pk: pk, id: id, state: state, netgroup: netgroup}}
:redundant ->
exit(:redundant)
end
end
def default_nick(pk) do
nick_suffix = Shard.Keys.pk_display pk
"Anon" <> nick_suffix
end
def find_proc(pk) do
manifest = %Manifest{pk: pk}
id = SData.term_hash manifest
case Shard.Manager.find_proc id do
nil ->
{:ok, pid} = Shard.Manifest.start manifest
pid
pid -> pid
end
end
def get_nick(pk) do
pid = find_proc pk
info = GenServer.call(pid, :get_info)
info.nick
end
def handle_call(:manifest, _from, state) do
{:reply, state.manifest, state}
end
def handle_call(:get_info, _from, state) do
{:reply, SData.SignRev.get(state.state), state}
end
def handle_call({:set_info, new_info}, _from, state) do
if Shard.Keys.have_sk?(state.pk) do
{:ok, st2} = SData.SignRev.set(state.state, new_info, state.pk)
Shard.Manager.save_state(state.id, st2)
state = put_in(state.state, st2)
bcast_state(state)
{:reply, :ok, state}
else
{:reply, :impossible, state}
end
end
def handle_cast({:peer_connected, peer_pid}, state) do
GenServer.cast(peer_pid, {:send_msg, {:interested, [state.id]}})
{:noreply, state}
end
def handle_cast({:interested, peer_pid, _auth}, state) do
SNet.Manager.send_pid(peer_pid, {state.id, nil, {:update, SData.SignRev.signed(state.state), true}})
{:noreply, state}
end
def handle_cast({:msg, conn_pid, _auth, _shard_id, nil, msg}, state) do
state = case msg do
{:update, signed, ask_reply} when signed != nil ->
state = case SData.SignRev.merge(state.state, signed, state.pk) do
{true, st2} ->
Shard.Manager.save_state(state.id, st2)
state = put_in(state.state, st2)
bcast_state(state, [conn_pid])
state
{false, _} ->
state
end
if ask_reply do
SNet.Manager.send_pid(conn_pid, {state.id, nil, {:update, SData.SignRev.signed(state.state), false}})
end
state
_ -> state
end
{:noreply, state}
end
def handle_cast(:update_peer_info, state) do
peer_info = SNet.Addr.get_all_inet4()
|> Enum.map(&({:inet, &1, Application.get_env(:shard, :port)}))
prev_info = SData.SignRev.get(state.state)
# TODO multi peer info
new_info = Map.put(prev_info, :peer_info, peer_info)
{:ok, st2} = SData.SignRev.set(state.state, new_info, state.pk)
Shard.Manager.save_state(state.id, st2)
state = put_in(state.state, st2)
bcast_state(state)
{:noreply, state}
end
def bcast_state(state, _exclude \\ []) do
# TODO: effectively apply exclude list
SNet.Group.broadcast(state.netgroup, {state.id, nil, {:update, SData.SignRev.signed(state.state), false}})
end
end
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