implement planetwars, for the most part

This commit is contained in:
ajuvercr 2019-09-14 18:15:19 +02:00
parent 9c696fa89b
commit 0e9e36c0c8
9 changed files with 170 additions and 512 deletions

View file

@ -11,3 +11,6 @@ mozaic = { git = "https://github.com/ajuvercr/MOZAIC" }
tokio = "0.1.22" tokio = "0.1.22"
rand = { version = "0.6.5", default-features = true } rand = { version = "0.6.5", default-features = true }
futures = "0.1.28" futures = "0.1.28"
serde = "1.0.100"
serde_derive = "1.0.100"
serde_json = "1.0"

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@ -1,3 +1,7 @@
extern crate serde;
#[macro_use]
extern crate serde_derive;
extern crate serde_json;
extern crate tokio; extern crate tokio;
extern crate futures; extern crate futures;
@ -11,6 +15,9 @@ use mozaic::errors;
use mozaic::modules::{Aggregator, Steplock, game}; use mozaic::modules::{Aggregator, Steplock, game};
mod planetwars;
// Load the config and start the game. // Load the config and start the game.
fn main() { fn main() {
run(env::args().collect()); run(env::args().collect());

View file

@ -0,0 +1,124 @@
use mozaic::modules::game;
use serde_json;
use std::collections::HashMap;
use std::convert::TryInto;
mod pw_config;
mod pw_serializer;
mod pw_rules;
mod pw_protocol;
use pw_protocol::{ self as proto, CommandError };
use pw_rules::Dispatch;
pub struct PlanetWarsGame {
state: pw_rules::PlanetWars,
planet_map: HashMap<String, usize>,
}
impl PlanetWarsGame {
fn dispatch_state(&self, updates: &mut Vec<game::Update>, ) {
let state = pw_serializer::serialize(&self.state);
println!("{}", serde_json::to_string(&state).unwrap());
for player in self.state.players.iter() {
let state = pw_serializer::serialize_rotated(&self.state, player.id);
let state = if player.alive {
proto::ServerMessage::GameState(state)
} else {
proto::ServerMessage::FinalState(state)
};
updates.push(
game::Update::Player((player.id as u64).into(), serde_json::to_vec(&state).unwrap())
);
}
}
fn execute_commands<'a>(&mut self, turns: Vec<game::PlayerTurn<'a>>, updates: &mut Vec<game::Update>) {
for (player_id, command) in turns.into_iter() {
let player_num: usize = (*player_id).try_into().unwrap();
let action = proto::ServerMessage::PlayerAction(self.execute_action(player_num, command));
let serialized_action = serde_json::to_vec(&action).unwrap();
updates.push(game::Update::Player(player_id, serialized_action));
}
}
fn execute_action<'a>(&mut self, player_num: usize, turn: game::Turn<'a>) -> proto::PlayerAction {
let turn = match turn {
game::Turn::Timeout => return proto::PlayerAction::Timeout,
game::Turn::Action(bytes) => bytes,
};
let action: proto::Action = match serde_json::from_slice(&turn) {
Err(err) => return proto::PlayerAction::ParseError(err.to_string()),
Ok(action) => action,
};
let commands = action.commands.into_iter().map(|command| {
match self.check_valid_command(player_num, &command) {
Ok(dispatch) => {
self.state.dispatch(&dispatch);
proto::PlayerCommand {
command,
error: None,
}
},
Err(error) => {
proto::PlayerCommand {
command,
error: Some(error),
}
}
}
}).collect();
return proto::PlayerAction::Commands(commands);
}
fn check_valid_command(&self, player_num: usize, mv: &proto::Command) -> Result<Dispatch, CommandError> {
let origin_id = *self.planet_map
.get(&mv.origin)
.ok_or(CommandError::OriginDoesNotExist)?;
let target_id = *self.planet_map
.get(&mv.destination)
.ok_or(CommandError::DestinationDoesNotExist)?;
if self.state.planets[origin_id].owner() != Some(player_num) {
return Err(CommandError::OriginNotOwned);
}
if self.state.planets[origin_id].ship_count() < mv.ship_count {
return Err(CommandError::NotEnoughShips);
}
if mv.ship_count == 0 {
return Err(CommandError::ZeroShipMove);
}
Ok(Dispatch {
origin: origin_id,
target: target_id,
ship_count: mv.ship_count,
})
}
}
impl game::GameController for PlanetWarsGame {
fn step<'a>(&mut self, turns: Vec<game::PlayerTurn<'a>>) -> Vec<game::Update> {
let mut updates = Vec::new();
self.state.repopulate();
self.execute_commands(turns, &mut updates);
self.state.step();
self.dispatch_state(&mut updates);
updates
}
}

View file

@ -7,10 +7,6 @@ use serde_json;
use super::pw_protocol as proto; use super::pw_protocol as proto;
use super::pw_rules::*; use super::pw_rules::*;
// TODO
use server::ClientId;
#[derive(Debug, Clone, Serialize, Deserialize)] #[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Config { pub struct Config {
pub map_file: String, pub map_file: String,
@ -18,7 +14,7 @@ pub struct Config {
} }
impl Config { impl Config {
pub fn create_game(&self, clients: Vec<ClientId>) -> PlanetWars { pub fn create_game(&self, clients: Vec<usize>) -> PlanetWars {
let planets = self.load_map(clients.len()); let planets = self.load_map(clients.len());
let players = clients.into_iter() let players = clients.into_iter()
.map(|client_id| Player { id: client_id, alive: true }) .map(|client_id| Player { id: client_id, alive: true })
@ -45,7 +41,7 @@ impl Config {
let owner = planet.owner.and_then(|owner_num| { let owner = planet.owner.and_then(|owner_num| {
// in the current map format, player numbers start at 1. // in the current map format, player numbers start at 1.
// TODO: we might want to change this. // TODO: we might want to change this.
let player_num = owner_num as usize - 1; let player_num = owner_num - 1;
// ignore players that are not in the game // ignore players that are not in the game
if player_num < num_players { if player_num < num_players {
Some(player_num) Some(player_num)
@ -69,7 +65,7 @@ impl Config {
}).collect(); }).collect();
} }
fn read_map(&self) -> io::Result<proto::Map> { fn read_map(&self) -> io::Result<Map> {
let mut file = File::open(&self.map_file)?; let mut file = File::open(&self.map_file)?;
let mut buf = String::new(); let mut buf = String::new();
file.read_to_string(&mut buf)?; file.read_to_string(&mut buf)?;
@ -77,3 +73,8 @@ impl Config {
return Ok(map); return Ok(map);
} }
} }
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Map {
pub planets: Vec<proto::Planet>,
}

View file

@ -4,7 +4,7 @@ pub struct Expedition {
pub ship_count: u64, pub ship_count: u64,
pub origin: String, pub origin: String,
pub destination: String, pub destination: String,
pub owner: u32, pub owner: usize,
pub turns_remaining: u64, pub turns_remaining: u64,
} }
@ -13,7 +13,7 @@ pub struct Planet {
pub ship_count: u64, pub ship_count: u64,
pub x: f64, pub x: f64,
pub y: f64, pub y: f64,
pub owner: Option<u32>, pub owner: Option<usize>,
pub name: String, pub name: String,
} }
@ -30,11 +30,6 @@ pub struct Command {
pub ship_count: u64, pub ship_count: u64,
} }
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Map {
pub planets: Vec<Planet>,
}
#[derive(Debug, Clone, Serialize, Deserialize)] #[derive(Debug, Clone, Serialize, Deserialize)]
pub struct State { pub struct State {
pub planets: Vec<Planet>, pub planets: Vec<Planet>,
@ -82,24 +77,3 @@ pub enum ServerMessage {
/// The game is over, and this is the concluding state. /// The game is over, and this is the concluding state.
FinalState(State), FinalState(State),
} }
// lobby messages
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "snake_case")]
#[serde(tag = "type", content = "content")]
pub enum ControlMessage {
PlayerConnected {
player_id: u64,
},
PlayerDisconnected {
player_id: u64,
},
GameState(State),
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(rename_all = "snake_case")]
#[serde(tag = "type", content = "content")]
pub enum LobbyCommand {
StartMatch,
}

View file

@ -1,4 +1,3 @@
use server::ClientId;
/// The planet wars game rules. /// The planet wars game rules.
pub struct PlanetWars { pub struct PlanetWars {
@ -14,7 +13,7 @@ pub struct PlanetWars {
#[derive(Debug)] #[derive(Debug)]
pub struct Player { pub struct Player {
pub id: ClientId, pub id: usize,
pub alive: bool, pub alive: bool,
} }
@ -136,7 +135,7 @@ impl PlanetWars {
return remaining < 2 || self.turn_num >= self.max_turns; return remaining < 2 || self.turn_num >= self.max_turns;
} }
pub fn living_players(&self) -> Vec<ClientId> { pub fn living_players(&self) -> Vec<usize> {
self.players.iter().filter_map(|p| { self.players.iter().filter_map(|p| {
if p.alive { if p.alive {
Some(p.id) Some(p.id)

View file

@ -1,20 +1,28 @@
use super::pw_rules::{PlanetWars, Planet, Expedition}; use super::pw_rules::{PlanetWars, Planet, Expedition};
use super::pw_protocol as proto; use super::pw_protocol as proto;
/// Serialize given gamestate /// Serialize given gamestate
pub fn serialize_state(state: &PlanetWars) -> proto::State { pub fn serialize(state: &PlanetWars) -> proto::State {
let serializer = Serializer::new(state); serialize_rotated(state, 0)
}
/// Serialize given gamestate with player numbers rotated by given offset.
pub fn serialize_rotated(state: &PlanetWars, offset: usize) -> proto::State {
let serializer = Serializer::new(state, offset);
serializer.serialize_state() serializer.serialize_state()
} }
struct Serializer<'a> { struct Serializer<'a> {
state: &'a PlanetWars, state: &'a PlanetWars,
player_num_offset: usize,
} }
impl<'a> Serializer<'a> { impl<'a> Serializer<'a> {
fn new(state: &'a PlanetWars) -> Self { fn new(state: &'a PlanetWars, offset: usize) -> Self {
Serializer { Serializer {
state: state, state: state,
player_num_offset: offset,
} }
} }
@ -33,9 +41,14 @@ impl<'a> Serializer<'a> {
} }
} }
// gets the client id for a player number /// Gets the player number for given player id.
fn player_client_id(&self, player_num: usize) -> u32 { /// Player numbers are 1-based (as opposed to player ids), They will also be
self.state.players[player_num].id.as_u32() /// rotated based on the number offset for this serializer.
fn player_num(&self, player_id: usize) -> usize {
let num_players = self.state.players.len();
let rotated_id = (player_id + self.player_num_offset) % num_players;
// protocol player ids start at 1
return rotated_id + 1;
} }
fn serialize_planet(&self, planet: &Planet) -> proto::Planet { fn serialize_planet(&self, planet: &Planet) -> proto::Planet {
@ -43,7 +56,7 @@ impl<'a> Serializer<'a> {
name: planet.name.clone(), name: planet.name.clone(),
x: planet.x, x: planet.x,
y: planet.y, y: planet.y,
owner: planet.owner().map(|num| self.player_client_id(num)), owner: planet.owner().map(|id| self.player_num(id)),
ship_count: planet.ship_count(), ship_count: planet.ship_count(),
} }
} }
@ -51,10 +64,10 @@ impl<'a> Serializer<'a> {
fn serialize_expedition(&self, exp: &Expedition) -> proto::Expedition { fn serialize_expedition(&self, exp: &Expedition) -> proto::Expedition {
proto::Expedition { proto::Expedition {
id: exp.id, id: exp.id,
owner: self.player_client_id(exp.fleet.owner.unwrap()), owner: self.player_num(exp.fleet.owner.unwrap()),
ship_count: exp.fleet.ship_count, ship_count: exp.fleet.ship_count,
origin: self.state.planets[exp.origin].name.clone(), origin: self.state.planets[exp.origin as usize].name.clone(),
destination: self.state.planets[exp.target].name.clone(), destination: self.state.planets[exp.target as usize].name.clone(),
turns_remaining: exp.turns_remaining, turns_remaining: exp.turns_remaining,
} }
} }

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@ -1,11 +0,0 @@
pub mod pw_protocol;
mod pw_controller;
mod pw_rules;
mod pw_config;
mod pw_serializer;
pub use self::pw_controller::PwMatch;
pub use self::pw_rules::PlanetWars;
pub use self::pw_config::Config;
pub use self::pw_protocol::Map;

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@ -1,452 +0,0 @@
use std::collections::{HashMap, HashSet};
use std::time::{Duration, Instant};
use std::mem;
use std::io;
use events;
use network::server::RegisteredHandle;
use reactors::reactor::ReactorHandle;
use reactors::{WireEvent, RequestHandler};
use server::{ClientId, ConnectionManager};
use sodiumoxide::crypto::sign::PublicKey;
use super::Config;
use super::pw_rules::{PlanetWars, Dispatch};
use super::pw_serializer::serialize_state;
use super::pw_protocol::{
self as proto,
PlayerAction,
PlayerCommand,
CommandError,
};
use serde_json;
pub struct Player {
id: ClientId,
num: usize,
handle: RegisteredHandle,
}
pub struct ClientHandler {
client_id: u32,
reactor_handle: ReactorHandle,
}
impl ClientHandler {
pub fn new(client_id: u32, reactor_handle: ReactorHandle) -> Self {
ClientHandler {
client_id,
reactor_handle,
}
}
pub fn on_connect(&mut self, _event: &events::Connected)
-> io::Result<WireEvent>
{
self.reactor_handle.dispatch(events::ClientConnected {
client_id: self.client_id,
});
Ok(WireEvent::null())
}
pub fn on_disconnect(&mut self, _event: &events::Disconnected)
-> io::Result<WireEvent>
{
self.reactor_handle.dispatch(events::ClientDisconnected {
client_id: self.client_id,
});
Ok(WireEvent::null())
}
pub fn on_message(&mut self, event: &events::ClientSend)
-> io::Result<WireEvent>
{
self.reactor_handle.dispatch(events::ClientMessage {
client_id: self.client_id,
data: event.data.clone(),
});
Ok(WireEvent::null())
}
}
pub struct PwMatch {
state: PwMatchState,
}
enum PwMatchState {
Lobby(Lobby),
Playing(PwController),
Finished,
}
impl PwMatch {
pub fn new(match_uuid: Vec<u8>,
reactor_handle: ReactorHandle,
connection_manager: ConnectionManager)
-> Self
{
let lobby = Lobby::new(
match_uuid,
connection_manager,
reactor_handle
);
return PwMatch {
state: PwMatchState::Lobby(lobby),
}
}
fn take_state(&mut self) -> PwMatchState {
mem::replace(&mut self.state, PwMatchState::Finished)
}
pub fn register_client(&mut self, event: &events::RegisterClient) {
if let &mut PwMatchState::Lobby(ref mut lobby) = &mut self.state {
let client_id = ClientId::new(event.client_id);
let key = PublicKey::from_slice(&event.public_key).unwrap();
lobby.add_player(client_id, key);
}
}
pub fn remove_client(&mut self, event: &events::RemoveClient) {
if let PwMatchState::Lobby(ref mut lobby) = self.state {
let client_id = ClientId::new(event.client_id);
lobby.remove_player(client_id);
}
}
pub fn start_game(&mut self, event: &events::StartGame) {
let state = self.take_state();
if let PwMatchState::Lobby(lobby) = state {
let config = Config {
map_file: event.map_path.clone(),
max_turns: event.max_turns as u64,
};
self.state = PwMatchState::Playing(PwController::new(
config,
lobby.reactor_handle,
lobby.connection_manager,
lobby.players,
));
} else {
self.state = state;
}
}
pub fn game_step(&mut self, event: &events::GameStep) {
if let PwMatchState::Playing(ref mut controller) = self.state {
controller.on_step(event);
}
}
pub fn client_message(&mut self, event: &events::ClientMessage) {
if let PwMatchState::Playing(ref mut controller) = self.state {
controller.on_client_message(event);
}
}
pub fn game_finished(&mut self, event: &events::GameFinished) {
let state = self.take_state();
if let PwMatchState::Playing(mut controller) = state {
controller.on_finished(event);
}
self.state = PwMatchState::Finished;
}
pub fn timeout(&mut self, event: &events::TurnTimeout) {
if let PwMatchState::Playing(ref mut controller) = self.state {
controller.on_timeout(event);
}
}
}
pub struct Lobby {
match_uuid: Vec<u8>,
connection_manager: ConnectionManager,
reactor_handle: ReactorHandle,
players: HashMap<ClientId, RegisteredHandle>,
}
impl Lobby {
fn new(match_uuid: Vec<u8>,
connection_manager: ConnectionManager,
reactor_handle: ReactorHandle)
-> Self
{
return Lobby {
match_uuid,
connection_manager,
reactor_handle,
players: HashMap::new(),
// start counter at 1, because 0 is the control client
}
}
fn add_player(&mut self, client_id: ClientId, public_key: PublicKey) {
let mut core = RequestHandler::new(
ClientHandler::new(
client_id.as_u32(),
self.reactor_handle.clone(),
),
);
core.add_handler(ClientHandler::on_connect);
core.add_handler(ClientHandler::on_disconnect);
core.add_handler(ClientHandler::on_message);
let handle = self.connection_manager.create_client(
self.match_uuid.clone(),
client_id.as_u32(),
public_key,
core
);
self.players.insert(client_id, handle);
}
fn remove_player(&mut self, client_id: ClientId) {
self.players.remove(&client_id);
}
}
pub struct PwController {
state: PlanetWars,
planet_map: HashMap<String, usize>,
reactor_handle: ReactorHandle,
connection_manager: ConnectionManager,
client_player: HashMap<ClientId, usize>,
players: HashMap<ClientId, Player>,
waiting_for: HashSet<ClientId>,
commands: HashMap<ClientId, String>,
}
impl PwController {
pub fn new(config: Config,
reactor_handle: ReactorHandle,
connection_manager: ConnectionManager,
clients: HashMap<ClientId, RegisteredHandle>)
-> Self
{
// TODO: we probably want a way to fixate player order
let client_ids = clients.keys().cloned().collect();
let state = config.create_game(client_ids);
let planet_map = state.planets.iter().map(|planet| {
(planet.name.clone(), planet.id)
}).collect();
let mut client_player = HashMap::new();
let mut players = HashMap::new();
let clients_iter = clients.into_iter().enumerate();
for (player_num, (client_id, client_handle)) in clients_iter {
client_player.insert(client_id, player_num);
players.insert(client_id, Player {
id: client_id,
num: player_num,
handle: client_handle,
});
}
let mut controller = PwController {
state,
planet_map,
players,
client_player,
reactor_handle,
connection_manager,
waiting_for: HashSet::new(),
commands: HashMap::new(),
};
// this initial dispatch starts the game
controller.dispatch_state();
return controller;
}
/// Advance the game by one turn.
fn step(&mut self) {
self.state.repopulate();
self.execute_commands();
self.state.step();
self.dispatch_state();
}
fn dispatch_state(&mut self) {
let turn_num = self.state.turn_num;
// TODO: fix this
let state = serde_json::to_string(&serialize_state(&self.state)).unwrap();
if self.state.is_finished() {
let event = events::GameFinished { turn_num, state };
self.reactor_handle.dispatch(event);
} else {
let event = events::GameStep { turn_num, state };
self.reactor_handle.dispatch(event);
}
}
fn on_step(&mut self, step: &events::GameStep) {
let state = &self.state;
let waiting_for = &mut self.waiting_for;
self.players.retain(|_, player| {
if state.players[player.num].alive {
waiting_for.insert(player.id);
player.handle.dispatch(events::GameStep {
turn_num: step.turn_num,
state: step.state.clone(),
});
// keep this player in the game
return true;
} else {
player.handle.dispatch(events::GameFinished {
turn_num: step.turn_num,
state: step.state.clone(),
});
// this player is dead, kick him!
// TODO: shutdown the reactor
// TODO: todo
return false;
}
});
let deadline = Instant::now() + Duration::from_secs(1);
self.reactor_handle.dispatch_at(deadline, events::TurnTimeout {
turn_num: state.turn_num,
});
}
fn on_client_message(&mut self, event: &events::ClientMessage) {
let client_id = ClientId::new(event.client_id);
self.waiting_for.remove(&client_id);
self.commands.insert(client_id, event.data.clone());
if self.waiting_for.is_empty() {
self.step();
}
}
fn on_finished(&mut self, event: &events::GameFinished) {
self.players.retain(|_player_id, player| {
player.handle.dispatch(events::GameFinished {
turn_num: event.turn_num,
state: event.state.clone(),
});
// game is over, kick everyone.
false
});
println!("everybody has been kicked");
self.reactor_handle.quit();
}
fn on_timeout(&mut self, event: &events::TurnTimeout) {
if self.state.turn_num == event.turn_num {
self.step();
}
}
fn player_commands(&mut self) -> HashMap<ClientId, Option<String>> {
let commands = &mut self.commands;
return self.players.values().map(|player| {
let command = commands.remove(&player.id);
return (player.id, command);
}).collect();
}
fn execute_commands(&mut self) {
let mut commands = self.player_commands();
for (player_id, command) in commands.drain() {
let player_num = self.players[&player_id].num;
let action = self.execute_action(player_num, command);
let serialized_action = serde_json::to_string(&action).unwrap();
self.reactor_handle.dispatch(events::PlayerAction {
client_id: player_id.as_u32(),
action: serialized_action.clone(),
});
self.players
.get_mut(&player_id)
.unwrap()
.handle
.dispatch(events::PlayerAction {
client_id: player_id.as_u32(),
action: serialized_action,
});
}
}
fn execute_action(&mut self, player_num: usize, response: Option<String>)
-> PlayerAction
{
// TODO: it would be cool if this could be done with error_chain.
let message = match response {
None => return PlayerAction::Timeout,
Some(message) => message,
};
let action: proto::Action = match serde_json::from_str(&message) {
Err(err) => return PlayerAction::ParseError(err.to_string()),
Ok(action) => action,
};
let commands = action.commands.into_iter().map(|command| {
match self.parse_command(player_num, &command) {
Ok(dispatch) => {
self.state.dispatch(&dispatch);
PlayerCommand {
command,
error: None,
}
},
Err(error) => {
PlayerCommand {
command,
error: Some(error),
}
}
}
}).collect();
return PlayerAction::Commands(commands);
}
fn parse_command(&self, player_num: usize, mv: &proto::Command)
-> Result<Dispatch, CommandError>
{
let origin_id = *self.planet_map
.get(&mv.origin)
.ok_or(CommandError::OriginDoesNotExist)?;
let target_id = *self.planet_map
.get(&mv.destination)
.ok_or(CommandError::DestinationDoesNotExist)?;
if self.state.planets[origin_id].owner() != Some(player_num) {
return Err(CommandError::OriginNotOwned);
}
if self.state.planets[origin_id].ship_count() < mv.ship_count {
return Err(CommandError::NotEnoughShips);
}
if mv.ship_count == 0 {
return Err(CommandError::ZeroShipMove);
}
Ok(Dispatch {
origin: origin_id,
target: target_id,
ship_count: mv.ship_count,
})
}
}