Files
tactical-shooter/server/scripts/game_server.gd
T
shawn 194aad8f83 t_p2_bomb: Bomb/defuse objective system for search & destroy rounds
Adds:
- bomb_objective.gd: server-authoritative bomb state machine (IDLE→PLANTED→EXPLODED/DEFUSED)
  - plant_bomb(player_id, pos) - T-side only, LIVE phase, inside bombsite
  - defuse_bomb(player_id) - CT-side only, near bomb, 5s timer
  - cancel_defuse(player_id) - if defuser moves or is killed
  - bomb_explode() - configurable radius damage (10m lethal, 15m half)
  - 40s bomb timer (configurable)
  - Full query API: is_bomb_planted(), get_bomb_position(), get_bomb_timer()
  - Signals: bomb_planted, bomb_defused, bomb_exploded, defuse_started, defuse_cancelled
  - Connected to RoundManager via GameServer for round-end outcomes

- bomb_carrier.gd: client-side bomb carrier UI
  - Bomb status/defuse progress UI updates
  - Direction indicator to planted bomb
  - "Hold E to defuse" prompt for CT near bomb
  - "Hold E to plant" prompt for T with bomb in bombsite

- test_range.tscn: BombsiteA (south-west, -20,0,-5) and BombsiteB (north-east, 15,0,20)
  - 8x4m Area3D zones with BoxShape3D collision
  - PlantPosition Marker3D children
  - Group 'bomb_sites' for server discovery

- game_server.gd: BombObjective integration in _ready()
  - Creates and wires BombObjective to RoundManager, TeamManager, DamageProcessor
  - Registers bomb sites from scene tree
  - Connects bomb_exploded/bomb_defused → RoundManager.end_round()
  - Connects round_ended → bomb.reset()
2026-07-01 20:39:17 -04:00

437 lines
16 KiB
GDScript

## GameServer — drives the 128Hz simulation loop.
##
## Owns a SimulationServer instance, drives its tick loop in _physics_process,
## and manages weapon configuration. Acts as the bridge between the GDScript
## world (NetworkManager, ServerMain) and the C++ simulation core.
##
## Architecture:
## GameServer (Node, autoload candidate)
## ├── SimulationServer (GDExtension C++) — game state + hit detection
## │ ├── applies client input via apply_input()
## │ └── process_compensated_fire() with lag compensation rewind
## └── WeaponManager (optional, on the player node for client-side rate limit)
##
## Usage (server_main.gd):
## func _ready():
## var gs = GameServer.new()
## add_child(gs)
## gs.configure(ServerConfig.tick_rate, ServerConfig.make_movement_dict())
##
## Standalone / listen-server test:
## var gs = get_node("/root/GameServer")
## if gs: gs.start_simulation()
##
extends Node
# ---------------------------------------------------------------------------
# Signals
# ---------------------------------------------------------------------------
## Emitted after each simulation tick with hit results.
signal tick_completed(tick: int)
## Emitted when a player is damaged (for scoreboard/UI updates).
signal player_damaged(victim_entity_id: int, shooter_entity_id: int, damage: float, killed: bool)
# ---------------------------------------------------------------------------
# State
# ---------------------------------------------------------------------------
var simulation_server: Object = null
var is_running: bool = false
## WeaponServer — handles hit-scan raycasting and lag-compensated fire.
var weapon_server: WeaponServer = null
## LagCompensation — records player positions per tick for rewind raycasts.
var lag_compensation: LagCompensation = null
## DamageProcessor — applies hit results, tracks health and kills.
var damage_processor: DamageProcessor = null
## TeamManager — manages team assignment and scoring.
var team_manager: TeamManager = null
## RoundManager — match lifecycle (warmup → prep → live → post).
var round_manager: RoundManager = null
## EconomyManager — per-player money tracking and earnings.
var economy_manager: EconomyManager = null
## BuyMenuHandler — server-side buy request validation and processing.
var buy_menu_handler: BuyMenuHandler = null
## BombObjective — server-authoritative bomb plant/defuse logic.
var bomb_objective: BombObjective = null
## Current server tick counter, incremented each time tick() is called.
var _current_tick: int = 0
# Map entity_id → peer_id for broadcasting damage events
var entity_to_peer: Dictionary = {} # entity_id (int) → peer_id (int)
# Map peer_id → entity_id for backwards lookup
var peer_to_entity: Dictionary = {} # peer_id (int) → entity_id (int)
# ---------------------------------------------------------------------------
# Lifecycle
# ---------------------------------------------------------------------------
func _ready() -> void:
# Create the SimulationServer (stub if GDExtension not compiled)
var SimServerClass = load("res://server/scripts/simulation_server_stub.gd")
if ClassDB.class_exists(&"SimulationServer"):
SimServerClass = ClassDB.instantiate(&"SimulationServer").get_script()
simulation_server = SimServerClass.new()
simulation_server.set_tick_rate(128)
# Apply movement config from ServerConfig singleton if available
if ServerConfig and ServerConfig.has_method(&"make_movement_dict"):
simulation_server.set_movement_config(ServerConfig.make_movement_dict())
# Configure the default hitscan weapon (Assault Rifle)
simulation_server.set_weapon_config({
"base_damage": 30.0,
"head_multiplier": 4.0,
"body_multiplier": 1.0,
"arm_multiplier": 0.75,
"leg_multiplier": 0.6,
"max_range": 500.0,
"spread_degrees": 0.5,
"fire_rate_hz": 10.0,
})
# Set history depth for lag compensation (64 ticks = ~500ms at 128Hz)
simulation_server.set_history_depth(64)
# --- Combat subsystems (GDScript lag-compensated hit-scan) ---
# Create and wire the WeaponServer with LagCompensation and DamageProcessor.
# These work alongside the C++ SimulationServer for the GDScript
# weapon path.
weapon_server = WeaponServer.new()
weapon_server.physics_world = get_world_3d()
add_child(weapon_server)
lag_compensation = LagCompensation.new()
add_child(lag_compensation)
damage_processor = DamageProcessor.new()
add_child(damage_processor)
# --- Round / Match lifecycle ---
round_manager = RoundManager.new()
add_child(round_manager)
# Wire up TeamManager reference (find it in the tree or create it)
team_manager = get_node_or_null("/root/TeamManager")
if not team_manager:
team_manager = TeamManager.new()
add_child(team_manager)
round_manager.team_manager = team_manager
round_manager.damage_processor = damage_processor
# --- Economy system ---
economy_manager = EconomyManager.new()
add_child(economy_manager)
buy_menu_handler = BuyMenuHandler.new()
add_child(buy_menu_handler)
buy_menu_handler.initialise(economy_manager, weapon_server, team_manager)
# Wire kill rewards: when DamageProcessor detects a kill, award money to the shooter
# Note: shooter_id is an entity_id; we map it to peer_id for economy lookup.
damage_processor.player_killed.connect(_on_kill_for_economy)
# --- RCON command handling ---
var rcon_handler = get_node_or_null("/root/RconServer/RconCommandHandler")
if rcon_handler and rcon_handler.has_signal("rcon_command"):
rcon_handler.rcon_command.connect(_on_rcon_command)
print("[GameServer] Connected to RCON command handler")
else:
print("[GameServer] RCON handler not available — commands won't be routed")
# Wire lag compensation into WeaponServer
weapon_server.lag_compensation = lag_compensation
# Connect damage processor signals to GameServer signals for upstream relay
damage_processor.player_killed.connect(_on_player_killed)
# Connect damage processor kills to RoundManager for round tracking and elimination
damage_processor.player_killed.connect(_on_kill_for_round)
_current_tick = 0
print("[GameServer] Combat subsystems ready: WeaponServer + LagCompensation + DamageProcessor")
# Register as singleton so FPSCharacterController can find us
Engine.register_singleton("SimulationServer", simulation_server)
# --- Bomb / Defuse Objective ---
bomb_objective = BombObjective.new()
add_child(bomb_objective)
bomb_objective.round_manager = round_manager
bomb_objective.team_manager = team_manager
bomb_objective.damage_processor = damage_processor
bomb_objective.entity_to_peer = entity_to_peer
bomb_objective.peer_to_entity = peer_to_entity
# Register bomb sites from the scene tree
if is_inside_tree():
var bomb_sites: Array[Area3D] = get_tree().get_nodes_in_group("bomb_sites")
if bomb_sites.size() > 0:
bomb_objective.register_bomb_sites(bomb_sites)
print("[GameServer] Registered %d bomb sites with BombObjective" % bomb_sites.size())
else:
print("[GameServer] No bomb sites found in scene — bomb can't be planted")
else:
print("[GameServer] Not in scene tree yet — bomb sites will be registered later")
# Wire: bomb explosion/defuse → round end
bomb_objective.bomb_exploded.connect(func(_pos):
if round_manager:
round_manager.end_round(TeamData.Team.TERRORIST, "bomb_exploded")
)
bomb_objective.bomb_defused.connect(func(_player_id):
if round_manager:
round_manager.end_round(TeamData.Team.COUNTER_TERRORIST, "bomb_defused")
)
# Wire: round end → reset bomb
round_manager.round_ended.connect(func(_winning_team, _reason):
bomb_objective.reset()
)
print("[GameServer] BombObjective integrated — bomb/defuse ready")
print("[GameServer] SimulationServer created. Tick rate: %d Hz" % simulation_server.get_tick_rate())
func _exit_tree() -> void:
if simulation_server:
simulation_server.stop()
simulation_server = null
# ---------------------------------------------------------------------------
# Public API
# ---------------------------------------------------------------------------
## Start the simulation.
func start_simulation() -> void:
if is_running:
return
if simulation_server == null:
push_error("[GameServer] SimulationServer is null, cannot start")
return
simulation_server.start()
is_running = true
print("[GameServer] Simulation started")
## Stop the simulation.
func stop_simulation() -> void:
if not is_running:
return
if simulation_server:
simulation_server.stop()
is_running = false
print("[GameServer] Simulation stopped")
## Spawn a player entity and map to peer ID.
## Returns the entity ID assigned by the simulation server.
func spawn_player_entity(peer_id: int, spawn_pos: Vector3) -> int:
if simulation_server == null:
return -1
if not is_running:
start_simulation()
var entity_id: int = simulation_server.spawn_entity(spawn_pos)
if entity_id < 0 or entity_id >= 65535:
push_error("[GameServer] Failed to spawn entity for peer %d" % peer_id)
return -1
entity_to_peer[entity_id] = peer_id
peer_to_entity[peer_id] = entity_id
print("[GameServer] Spawned entity %d for peer %d at (%.1f, %.1f, %.1f)" % [entity_id, peer_id, spawn_pos.x, spawn_pos.y, spawn_pos.z])
return entity_id
## Despawn a player entity.
func despawn_player_entity(entity_id: int) -> void:
if simulation_server == null:
return
if entity_id >= 0:
simulation_server.despawn_entity(entity_id)
# Remove from mappings
if entity_id in entity_to_peer:
var pid: int = entity_to_peer[entity_id]
peer_to_entity.erase(pid)
entity_to_peer.erase(entity_id)
## Get the peer ID for a given entity ID.
func get_peer_for_entity(entity_id: int) -> int:
return entity_to_peer.get(entity_id, -1)
## Get the underlying SimulationServer reference.
func get_simulation_server() -> Object:
return simulation_server
## Get the current server tick counter.
func get_current_tick() -> int:
return _current_tick
## Configure weapon damage profile.
func set_weapon(config: Dictionary) -> void:
if simulation_server:
simulation_server.set_weapon_config(config)
# ---------------------------------------------------------------------------
# Combat subsystem — player registration
# ---------------------------------------------------------------------------
## Register a player node with LagCompensation and DamageProcessor.
## Call this after spawning a player entity and assigning its entity_id.
## entity_id: the simulation entity ID assigned by spawn_player_entity()
## node: the player's Node3D (CharacterBody3D) in the scene tree
## max_health: starting/maximum health for damage tracking
func register_player_node(entity_id: int, node: Node3D, max_health: float = 100.0) -> void:
if lag_compensation:
lag_compensation.register_player_node(entity_id, node)
if damage_processor:
damage_processor.register_player(entity_id, max_health)
# Register peer ID for economy tracking
var peer_id: int = entity_to_peer.get(entity_id, -1)
if peer_id >= 0 and economy_manager:
economy_manager.register_player(peer_id)
print("[GameServer] Registered player peer=%d with economy manager" % peer_id)
print("[GameServer] Registered player node entity=%d with lag compensation + damage processor" % entity_id)
## Unregister a player node from LagCompensation and DamageProcessor.
func unregister_player_node(entity_id: int) -> void:
if lag_compensation:
lag_compensation.unregister_player_node(entity_id)
if damage_processor:
damage_processor.unregister_player(entity_id)
# Unregister from economy tracking
var peer_id: int = entity_to_peer.get(entity_id, -1)
if peer_id >= 0 and economy_manager:
economy_manager.unregister_player(peer_id)
print("[GameServer] Unregistered player node entity=%d" % entity_id)
# ---------------------------------------------------------------------------
# Combat subsystem — kill handling
# ---------------------------------------------------------------------------
func _on_player_killed(victim_id: int, shooter_id: int) -> void:
# Relay the kill event upstream with the shooter's peer_id if available
var shooter_peer: int = entity_to_peer.get(shooter_id, -1)
player_damaged.emit(victim_id, shooter_id, 0.0, true)
print("[GameServer] Kill: victim_entity=%d, shooter_entity=%d (peer=%d)" % [victim_id, shooter_id, shooter_peer])
## Economy kill reward — award money to the shooter when they get a kill.
## Connected from DamageProcessor.player_killed in _ready().
func _on_kill_for_economy(victim_id: int, shooter_id: int) -> void:
if economy_manager == null:
return
# Map entity_id → peer_id for economy lookup
var shooter_peer: int = entity_to_peer.get(shooter_id, -1)
if shooter_peer < 0:
return
economy_manager.award_kill_reward(shooter_peer)
## Round-level kill handler — tracks kills for round stats and checks elimination.
## Connected from DamageProcessor.player_killed.
func _on_kill_for_round(victim_id: int, shooter_id: int) -> void:
# Forward to RoundManager for kill tracking
if round_manager:
round_manager.on_player_killed(victim_id, shooter_id)
# Check for team elimination using our entity→peer→team mapping
if not round_manager or not round_manager.team_manager:
return
# Get teams for victim and shooter
var victim_peer: int = entity_to_peer.get(victim_id, -1)
var shooter_peer: int = entity_to_peer.get(shooter_id, -1)
if victim_peer < 0 or shooter_peer < 0:
return
var victim_team: int = round_manager.team_manager.get_player_team(victim_peer)
var shooter_team: int = round_manager.team_manager.get_player_team(shooter_peer)
if victim_team < 0 or shooter_team < 0 or victim_team == shooter_team:
return
# Check if all players on victim's team are dead
var all_dead: bool = true
var team_player_ids: Array[int] = round_manager.team_manager.get_team_players(victim_team)
for pid in team_player_ids:
var eid: int = peer_to_entity.get(pid, -1)
if eid < 0:
continue
var health: float = damage_processor.get_health(eid) if damage_processor else -1.0
if health > 0.0:
all_dead = false
break
if all_dead and team_player_ids.size() > 0:
print("[GameServer] Team elimination detected! %s eliminated by %s" %
[TeamData.get_team_name(victim_team), TeamData.get_team_name(shooter_team)])
round_manager.end_round(shooter_team, "elimination")
# ---------------------------------------------------------------------------
# RCON command dispatch
# ---------------------------------------------------------------------------
## Handle RCON commands dispatched via rcon_command_handler.
func _on_rcon_command(command: String, args: PackedStringArray) -> void:
match command:
"start_match":
if round_manager:
round_manager.start_match()
print("[GameServer] RCON: match started")
"end_round":
# end_round [team_name] [reason]
var team_name: String = args[0] if args.size() > 0 else "ct"
var reason: String = args[1] if args.size() > 1 else "admin"
var team: int = TeamData.from_string(team_name)
if team == TeamData.Team.SPECTATOR:
# Default to CT
team = TeamData.Team.COUNTER_TERRORIST
if round_manager:
round_manager.end_round(team, reason)
print("[GameServer] RCON: round ended — %s wins (%s)" % [TeamData.get_team_name(team), reason])
# ---------------------------------------------------------------------------
# Main loop (128 Hz)
# ---------------------------------------------------------------------------
func _physics_process(delta: float) -> void:
if not is_running or simulation_server == null:
return
# Drive the fixed-timestep simulation loop
while simulation_server.can_tick(delta):
# Record positions for lag compensation BEFORE processing this tick's inputs.
# This captures the state at the start of the tick, so rewind_and_raycast
# can restore players to their pre-movement positions.
if lag_compensation:
lag_compensation.record_tick(_current_tick)
var snapshot: PackedByteArray = simulation_server.tick()
# snapshot is the serialized state — send to network layer in Phase 2
# For now, just emit the tick completed signal
tick_completed.emit(simulation_server.get_stats().get("tick_count", 0))
# Check for hit results and emit damage events
var hit_result: Dictionary = simulation_server.get_last_hit_result()
if hit_result.get("hit", false):
var victim_id: int = hit_result.get("entity_id", -1)
var damage: float = hit_result.get("damage", 0.0)
var killed: bool = hit_result.get("killed", false)
# For now we don't know the shooter — this will be wired in Phase 2
player_damaged.emit(victim_id, -1, damage, killed)
_current_tick += 1