use std::sync::Arc; use std::sync::atomic::{AtomicBool, Ordering}; use std::time::Duration; use serenity::async_trait; use serenity::model::gateway::{GatewayIntents, Ready}; use serenity::model::guild::Member; use serenity::model::id::GuildId; use serenity::prelude::*; use serenity::model::prelude::RoleId; struct Handler { is_loop_running: AtomicBool, } #[async_trait] impl EventHandler for Handler { async fn guild_member_addition(&self, ctx: Context, mut new_member: Member) { let config = Config { server: GuildId(957961810147938334), member_role_current: RoleId::from(1144760670995370094), member_role_past: RoleId::from(1144760548072886353), }; let members_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected Members in TypeMap.").clone() }; let members = members_lock.read().await; if members.contains(&new_member.user.name) { let mut roles = vec![]; if !new_member.roles.contains(&config.member_role_past){ roles.push(config.member_role_past); } if !new_member.roles.contains(&config.member_role_current){ roles.push(config.member_role_current); } if let Err(e) = new_member.add_roles(&ctx, &roles).await { println!("{:?}", e); } } } async fn ready(&self, ctx: Context, ready: Ready) { let ctx = Arc::new(ctx); println!("{} is connected!", ready.user.name); let config = Config { server: GuildId(957961810147938334), member_role_current: RoleId::from(1144760670995370094), member_role_past: RoleId::from(1144760548072886353), }; if !self.is_loop_running.load(Ordering::Relaxed) { // We have to clone the Arc, as it gets moved into the new thread. let ctx1 = Arc::clone(&ctx); // tokio::spawn creates a new green thread that can run in parallel with the rest of // the application. tokio::spawn(async move { loop { // We clone Context again here, because Arc is owned, so it moves to the // new function. bulk_check(Arc::clone(&ctx1), &config).await; tokio::time::sleep(Duration::from_secs(30)).await; } }); // And of course, we can run more than one thread at different timings. let ctx2 = Arc::clone(&ctx); tokio::spawn(async move { loop { bulk_check2(Arc::clone(&ctx2)).await; tokio::time::sleep(Duration::from_secs(15)).await; } }); let ctx3 = Arc::clone(&ctx); tokio::spawn(async move { loop { fetch_accounts(Arc::clone(&ctx3)).await; tokio::time::sleep(Duration::from_secs(50)).await; } }); // fetch_accounts // Now that the loop is running, we set the bool to true self.is_loop_running.swap(true, Ordering::Relaxed); } } } struct Config { server: GuildId, member_role_current: RoleId, member_role_past: RoleId, } #[derive(Default, Debug)] struct MembersCount { members: i32, members_current: i32, } struct MemberCounter; impl TypeMapKey for MemberCounter { type Value = Arc>; } struct Members; impl TypeMapKey for Members { type Value = Arc>>; } async fn bulk_check(ctx: Arc, config: &Config){ let members_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected Members in TypeMap.").clone() }; let mut roles_set = [0,0,0]; let mut res = MembersCount { members: 0, members_current: 0, }; if let Ok(x) = config.server.members(&ctx, None, None).await { for mut member in x { if members_lock.read().await.contains(&member.user.name) { let mut roles = vec![]; if !member.roles.contains(&config.member_role_past){ roles_set[0] += 1; roles.push(config.member_role_past); } if !member.roles.contains(&config.member_role_current){ roles_set[1] += 1; roles.push(config.member_role_current); } if let Err(e) = member.add_roles(&ctx, &roles).await { println!("{:?}", e); } } else if member.roles.contains(&config.member_role_current) { roles_set[2] += 1; // if theya re not a current member and have the role then remove it if let Err(e) = member.remove_role(&ctx, &config.member_role_current).await { println!("{:?}", e); } } if member.roles.contains(&config.member_role_past){ res.members += 1; } if member.roles.contains(&config.member_role_current){ res.members_current += 1; } } } // small bit of logging to note changes over time println!("Changes: New: +{}, Current: +{}/-{}", roles_set[0], roles_set[1], roles_set[2]); let counter_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected MemberCounter in TypeMap.").clone() }; { // The HashMap of CommandCounter is wrapped in an RwLock; since we want to write to it, we will // open the lock in write mode. let mut counter = counter_lock.write().await; // And we write the amount of times the command has been called to it. counter.members_current = res.members_current; counter.members = res.members; } } async fn fetch_accounts(ctx: Arc){ let auth = "abcdef"; let url = format!("http://127.0.0.1:8087/ldap/discord?auth={}", auth); if let Ok(result) = surf::get(url).recv_json::>().await { let members_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected Members in TypeMap.").clone() }; let mut accounts = members_lock.write().await; *accounts = result; } } async fn bulk_check2(ctx: Arc){ let counter_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected MemberCounter in TypeMap.").clone() }; { // The HashMap of CommandCounter is wrapped in an RwLock; since we want to write to it, we will // open the lock in write mode. let counter = counter_lock.read().await; println!("Members: {:?}", counter); } let members_lock = { let data_read = ctx.data.read().await; data_read.get::().expect("Expected Members in TypeMap.").clone() }; { // The HashMap of CommandCounter is wrapped in an RwLock; since we want to write to it, we will // open the lock in write mode. let counter = members_lock.read().await; println!("Members: {:?}", counter); } } #[tokio::main] async fn main() { // Configure the client with your Discord bot token in the environment. //let token = env::var("DISCORD_TOKEN").expect("Expected a token in the environment"); let token = String::from(""); // Intents are a bitflag, bitwise operations can be used to dictate which intents to use let intents = GatewayIntents::GUILDS | GatewayIntents::GUILD_MESSAGES | GatewayIntents::MESSAGE_CONTENT | GatewayIntents::GUILD_MEMBERS; // Build our client. let mut client = Client::builder(token, intents) .event_handler(Handler { is_loop_running: AtomicBool::new(false)}) .await .expect("Error creating client"); { let mut data = client.data.write().await; // will keep track of how many past and current members we have data.insert::(Arc::new(RwLock::new(MembersCount::default()))); // a list of all current members data.insert::(Arc::new(RwLock::new(vec![]))); } // Finally, start a single shard, and start listening to events. // // Shards will automatically attempt to reconnect, and will perform // exponential backoff until it reconnects. if let Err(why) = client.start().await { println!("Client error: {:?}", why); } }