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|
use std::{collections::HashMap, str::FromStr, sync::Arc, time::Duration};
use tokio::{
sync::{mpsc::{channel, Sender}, RwLock},
time::sleep,
};
use twilight_http::request::channel::reaction::RequestReactionType;
use twilight_model::{channel::message::ReactionType, id::{marker::UserMarker, Id}};
use twilight_model::util::Timestamp;
use crate::config::{AutoproxyConfig, AutoproxyLatchScope, Member};
mod aggregator;
mod bot;
mod types;
mod message_parser;
use message_parser::MessageParser;
use aggregator::MessageAggregator;
use bot::Bot;
pub use types::*;
use self::message_parser::Command;
pub struct Manager {
pub name: String,
pub config: crate::config::System,
pub bots: HashMap<MemberId, Bot>,
pub latch_state: Option<(MemberId, Timestamp)>,
pub system_sender: Option<Sender<SystemEvent>>,
pub aggregator: MessageAggregator,
pub reference_user_id: UserId,
}
impl Manager {
pub fn new(system_name: String, system_config: crate::config::System) -> Self {
Self {
reference_user_id: Id::from_str(&system_config.reference_user_id.as_str())
.expect(format!("Invalid user id for system {}", &system_name).as_str()),
name: system_name,
config: system_config,
bots: HashMap::new(),
latch_state: None,
system_sender: None,
aggregator: MessageAggregator::new(),
}
}
pub fn find_member_by_name<'a>(
&'a self,
name: &String,
) -> Option<(MemberId, &'a crate::config::Member)> {
self.config
.members
.iter()
.enumerate()
.find(|(_member_id, member)| member.name == *name)
}
pub fn find_member_by_id<'a>(&'a self, id: MemberId) -> Option<&'a Member> {
self.config
.members
.iter()
.enumerate()
.find(|(member_id, _)| *member_id == id)
.map_or(None, |(_member_id, member)| Some(member))
}
pub async fn start_clients(&mut self) {
println!("Starting clients for system {}", self.name);
let (system_sender, mut system_receiver) = channel::<SystemEvent>(100);
self.system_sender = Some(system_sender.clone());
self.aggregator.set_system_handler(system_sender.clone()).await;
self.aggregator.start();
for member_id in 0..self.config.members.len() {
self.start_bot(member_id).await;
}
loop {
match system_receiver.recv().await {
Some(SystemEvent::GatewayConnected(member_id)) => {
let member = self.find_member_by_id(member_id).unwrap();
println!("Gateway client {} ({}) connected", member.name, member_id);
}
Some(SystemEvent::GatewayError(member_id, message)) => {
let member = self.find_member_by_id(member_id).unwrap();
println!("Gateway client {} ran into error {}", member.name, message);
}
Some(SystemEvent::GatewayClosed(member_id)) => {
let member = self.find_member_by_id(member_id).unwrap();
println!("Gateway client {} closed", member.name);
self.start_bot(member_id).await;
}
Some(SystemEvent::NewMessage(event_time, message)) => {
self.handle_message(message, event_time).await;
}
Some(SystemEvent::RefetchMessage(member_id, message_id, channel_id)) => {
let bot = self.bots.get(&member_id).unwrap();
bot.refetch_message(message_id, channel_id).await;
}
Some(SystemEvent::AutoproxyTimeout(time_scheduled)) => {
if let Some((_member, current_last_message)) = self.latch_state.clone() {
if current_last_message == time_scheduled {
println!("Autoproxy timeout has expired: {} (last sent), {} (timeout scheduled)", current_last_message.as_secs(), time_scheduled.as_secs());
self.latch_state = None;
self.update_status_of_system().await;
}
}
},
Some(SystemEvent::UpdateClientStatus(member_id)) => {
let bot = self.bots.get(&member_id).unwrap();
// TODO: handle other presence modes
if let Some((latched_id, _)) = self.latch_state {
if latched_id == member_id {
bot.set_status(Status::Online).await;
continue
}
}
bot.set_status(Status::Invisible).await;
}
_ => continue,
}
}
}
async fn start_bot(&mut self, member_id: MemberId) {
let member = self.find_member_by_id(member_id).unwrap();
// Create gateway listener
let mut bot = Bot::new(member_id, &member, self.reference_user_id);
bot.set_message_handler(self.aggregator.get_sender().await).await;
bot.set_system_handler(self.system_sender.as_ref().unwrap().clone()).await;
// Start gateway listener
bot.start();
self.bots.insert(member_id, bot);
// Schedule status update after a few seconds
let rx = self.system_sender.as_ref().unwrap().clone();
tokio::spawn(async move {
sleep(Duration::from_secs(10)).await;
let _ = rx.send(SystemEvent::UpdateClientStatus(member_id)).await;
});
}
async fn handle_message(&mut self, message: TwiMessage, timestamp: Timestamp) {
let parsed_message = MessageParser::parse(&message, None, &self.config, self.latch_state);
match parsed_message {
message_parser::ParsedMessage::UnproxiedMessage => (),
message_parser::ParsedMessage::LatchClear(member_id) => {
let _ = self.bots.get(&member_id).unwrap().delete_message(message.channel_id, message.id).await;
self.latch_state = None;
},
message_parser::ParsedMessage::ProxiedMessage { member_id, message_content, latch } => {
if let Ok(_) = self.proxy_message(&message, member_id, message_content.as_str()).await {
if latch {
self.update_autoproxy_state_after_message(member_id, timestamp);
self.update_status_of_system().await;
}
}
},
message_parser::ParsedMessage::Command(Command::UnknownCommand) => {
let member_id = if let Some((member_id, _)) = self.latch_state {
member_id
} else {
0
};
let _ = self.bots.get(&member_id).unwrap().react_message(message.channel_id, message.id, &RequestReactionType::Unicode { name: "⁉️" }).await;
},
message_parser::ParsedMessage::Command(_) => todo!(),
message_parser::ParsedMessage::EmoteAdd(_, _, _) => todo!(),
message_parser::ParsedMessage::EmoteRemove(_, _, _) => todo!(),
}
}
async fn proxy_message(&self, message: &TwiMessage, member: MemberId, content: &str) -> Result<(), ()> {
let bot = self.bots.get(&member).expect("No client for member");
let duplicate_result = bot.duplicate_message(message, content).await;
if duplicate_result.is_err() {
println!("Could not copy message: {:?}", duplicate_result);
return Err(())
}
// Try to delete message first as that fails more often
let delete_result = bot.delete_message(message.channel_id, message.id).await;
if delete_result.is_err() {
println!("Could not delete message: {:?}", delete_result);
// Delete the duplicated message if that failed
let _ = bot.delete_message(message.channel_id, duplicate_result.unwrap().id).await;
return Err(())
}
Ok(())
}
fn update_autoproxy_state_after_message(&mut self, member: MemberId, timestamp: Timestamp) {
match &self.config.autoproxy {
None => (),
Some(AutoproxyConfig::Member { name: _ }) => (),
Some(AutoproxyConfig::Latch {
scope,
timeout_seconds,
presence_indicator: _,
}) => {
self.latch_state = Some((member, timestamp));
if let Some(channel) = self.system_sender.clone() {
let last_message = timestamp.clone();
let timeout_seconds = timeout_seconds.clone();
tokio::spawn(async move {
sleep(Duration::from_secs(timeout_seconds.into())).await;
channel
.send(SystemEvent::AutoproxyTimeout(last_message))
.await
.expect("Channel has closed");
});
}
}
}
}
async fn update_status_of_system(&mut self) {
let member_states: Vec<(MemberId, Status)> = self
.config
.members
.iter()
.enumerate()
.map(|(member_id, member)| {
(
member_id,
match &self.config.autoproxy {
None => Status::Invisible,
Some(AutoproxyConfig::Member { name }) => {
if member.name == *name {
Status::Online
} else {
Status::Invisible
}
}
Some(AutoproxyConfig::Latch {
scope,
timeout_seconds: _,
presence_indicator,
}) => {
if let AutoproxyLatchScope::Server = scope {
Status::Invisible
} else if !presence_indicator {
Status::Invisible
} else {
match &self.latch_state {
Some((latch_member, _last_timestamp)) => {
if member_id == *latch_member {
Status::Online
} else {
Status::Invisible
}
}
None => Status::Invisible,
}
}
}
},
)
})
.collect();
for (member, status) in member_states {
self.update_status_of_member(member, status).await;
}
}
async fn update_status_of_member(&mut self, member: MemberId, status: Status) {
let bot = self.bots.get(&member).expect("No client for member");
bot.set_status(status).await;
}
}
|
