const std = @import("std"); const builtin = @import("builtin"); const Message = @import("./message_parser.zig").Message; pub const ServerInfo = Message.ServerInfo; const Client = @import("./client.zig"); const Server = @This(); const Subscription = struct { subject: []const u8, client_id: usize, sid: []const u8, }; info: ServerInfo, clients: std.AutoHashMapUnmanaged(usize, *Client) = .empty, subs_lock: std.Io.Mutex = .init, subscriptions: std.ArrayList(Subscription) = .empty, var keep_running = std.atomic.Value(bool).init(true); fn handleSigInt(sig: std.os.linux.SIG) callconv(.c) void { _ = sig; keep_running.store(false, .monotonic); } pub fn main(gpa: std.mem.Allocator, server_config: ServerInfo) !void { // Configure the signal action // const act = std.posix.Sigaction{ // .handler = .{ .handler = handleSigInt }, // .mask = std.posix.sigemptyset(), // .flags = 0, // }; // // Register the handler for SIGINT (Ctrl+C) // std.posix.sigaction(std.posix.SIG.INT, &act, null); var server: Server = .{ .info = server_config, }; var threaded: std.Io.Threaded = .init(gpa, .{}); defer threaded.deinit(); const io = threaded.io(); var tcp_server = try std.Io.net.IpAddress.listen(try std.Io.net.IpAddress.parse( server.info.host, server.info.port, ), io, .{ .reuse_address = true }); defer tcp_server.deinit(io); var id: usize = 0; // Run until SIGINT is handled, then exit gracefully while (keep_running.load(.monotonic)) : (id +%= 1) { std.debug.print("in server loop\n", .{}); if (server.clients.contains(id)) continue; const stream = try tcp_server.accept(io); std.debug.print("accepted connection\n", .{}); _ = io.concurrent(handleConnection, .{ &server, gpa, io, id, stream }) catch { std.debug.print("could not start concurrent handler for {d}\n", .{id}); stream.close(io); }; } std.debug.print("Exiting gracefully\n", .{}); } fn processMsgs(server: *Server, io: std.Io, alloc: std.mem.Allocator) void { while (true) { const msg = server.msg_queue.getOne(io) catch break; defer msg.deinit(alloc); for (server.subscriptions.items) |subscription| { if (subjectMatches(subscription.subject, msg.subject)) { const client = server.clients.get(subscription.client_id) orelse { std.debug.print("trying to publish to a client that no longer exists: {d}", .{subscription.client_id}); continue; }; client.send(io, .{ .msg = .{ .subject = msg.subject, .sid = subscription.sid, .reply_to = msg.reply_to, .payload = msg.payload, } }) catch continue; } } } } fn addClient(server: *Server, allocator: std.mem.Allocator, id: usize, client: *Client) !void { // server.clients.lockPointers(); try server.clients.put(allocator, id, client); // server.clients.unlockPointers(); } fn removeClient(server: *Server, io: std.Io, allocator: std.mem.Allocator, id: usize) void { server.subs_lock.lockUncancelable(io); defer server.subs_lock.unlock(io); if (server.clients.remove(id)) { const len = server.subscriptions.items.len; for (0..len) |from_end| { const i = len - from_end - 1; const sub = server.subscriptions.items[i]; if (sub.client_id == id) { allocator.free(sub.sid); allocator.free(sub.subject); _ = server.subscriptions.swapRemove(i); } } } } fn handleConnection( server: *Server, server_allocator: std.mem.Allocator, io: std.Io, id: usize, stream: std.Io.net.Stream, ) !void { defer stream.close(io); var client_allocator: std.heap.DebugAllocator(.{}) = .init; client_allocator.backing_allocator = server_allocator; defer _ = client_allocator.deinit(); const allocator = if (builtin.mode == .Debug or builtin.mode == .ReleaseSafe) client_allocator.allocator() else server_allocator; // Set up client writer var w_buffer: [256]u8 = undefined; var writer = stream.writer(io, &w_buffer); const out = &writer.interface; // Set up client reader var r_buffer: [256]u8 = undefined; var reader = stream.reader(io, &r_buffer); const in = &reader.interface; // Create client var client: Client = .init(null, in, out); try server.addClient(server_allocator, id, &client); defer server.removeClient(io, server_allocator, id); var qbuf: [16]Message = undefined; var queue: std.Io.Queue(Message) = .init(&qbuf); var client_task = try io.concurrent(Client.start, .{ &client, io, server_allocator, &queue }); defer client_task.cancel(io) catch {}; try io.sleep(std.Io.Duration.fromMilliseconds(5), .real); // Do initial handshake with client try client.send(io, .{ .info = server.info }); var connect_arena: std.heap.ArenaAllocator = .init(allocator); defer connect_arena.deinit(); client.connect = (Message.next(connect_arena.allocator(), in) catch return).connect; // Messages are owned by the server after they are received from the client while (client.next(server_allocator)) |msg| { switch (msg) { .ping => { // Respond to ping with pong. try client.send(io, .pong); }, .@"pub" => |pb| { try server.publishMessage(io, server_allocator, &client, pb); }, .sub => |sub| { try server.subscribe(io, server_allocator, id, sub); }, .unsub => |unsub| { try server.unsubscribe(io, server_allocator, id, unsub); }, else => |e| { std.debug.panic("Unimplemented message: {any}\n", .{e}); }, } } else |err| switch (err) { error.EndOfStream => { std.debug.print("Client {d} disconnected\n", .{id}); }, else => { return err; }, } } // // Result is owned by the caller // fn subscribers(server: *Server, gpa: std.mem.Allocator, subject: []const u8) []ClientState { // var acc: std.ArrayList(ClientState) = .empty; // return acc.toOwnedSlice(); // } fn subjectMatches(expected: []const u8, actual: []const u8) bool { return std.mem.eql(u8, expected, actual); } fn publishMessage(server: *Server, io: std.Io, alloc: std.mem.Allocator, source_client: *Client, msg: Message.Pub) !void { errdefer { if (source_client.connect) |c| { if (c.verbose) { source_client.send(io, .@"-err") catch {}; } } } defer msg.deinit(alloc); try server.subs_lock.lock(io); defer server.subs_lock.unlock(io); for (server.subscriptions.items) |subscription| { if (subjectMatches(subscription.subject, msg.subject)) { const client = server.clients.get(subscription.client_id) orelse { std.debug.print("trying to publish to a client that no longer exists: {d}\n", .{subscription.client_id}); continue; }; client.send(io, .{ .msg = .{ .subject = try alloc.dupe(u8, msg.subject), .sid = try alloc.dupe(u8, subscription.sid), .reply_to = if (msg.reply_to) |r| try alloc.dupe(u8, r) else null, .payload = try alloc.dupe(u8, msg.payload), } }) catch continue; } } if (source_client.connect) |c| { if (c.verbose) { source_client.send(io, .@"+ok") catch {}; } } } fn subscribe(server: *Server, io: std.Io, gpa: std.mem.Allocator, id: usize, msg: Message.Sub) !void { try server.subs_lock.lock(io); defer server.subs_lock.unlock(io); try server.subscriptions.append(gpa, .{ .subject = msg.subject, .client_id = id, .sid = msg.sid, }); } fn unsubscribe(server: *Server, io: std.Io, gpa: std.mem.Allocator, id: usize, msg: Message.Unsub) !void { try server.subs_lock.lock(io); defer server.subs_lock.unlock(io); const len = server.subscriptions.items.len; for (0..len) |i| { const sub = server.subscriptions.items[len - i - 1]; if (sub.client_id == id and std.mem.eql(u8, sub.sid, msg.sid)) { gpa.free(sub.sid); gpa.free(sub.subject); _ = server.subscriptions.swapRemove(i); } } } pub fn createId() []const u8 { return "SERVERID"; } pub fn createName() []const u8 { return "SERVERNAME"; } // TESTING // fn initTestServer() Server { // return .{ // .info = .{ // .server_id = "ABCD", // .server_name = "test server", // .version = "0.1.2", // .max_payload = 1234, // }, // }; // } // fn initTestClient( // io: std.Io, // allocator: std.mem.Allocator, // id: usize, // data_from: []const u8, // ) !struct { // Client, // *std.Io.Reader, // *std.Io.Writer, // } { // return .init(io, allocator, id, .{}, in, out); // } // test { // const gpa = std.testing.allocator; // const io = std.testing.io; // const server = initTestServer(); // const client: Client = .init( // io, // gpa, // 1, // .{}, // ); // }