aiocraft/compiler/proto.py

253 lines
7.2 KiB
Python

#!/usr/bin/env python
import os
import json
import keyword
import logging
from pathlib import Path
from typing import List, Dict, Union
from aiocraft.mc.mctypes import *
DIR_MAP = {"toClient": "clientbound", "toServer": "serverbound"}
PREFACE = """\"\"\"[!] This file is autogenerated\"\"\"\n\n"""
IMPORTS = """from typing import Tuple, List, Dict
from ....packet import Packet
from ....mctypes import *\n"""
IMPORT_ALL = """__all__ = [\n\t{all}\n]\n"""
REGISTRY_ENTRY = """
REGISTRY = {entries}\n"""
OBJECT = """
class {name}(Packet):
{fields}
_state : int = {state}
_ids : Dict[int, int] = {ids}
_definitions : Dict[int, List[Tuple[str, Type]]] = {slots}
"""
TYPE_MAP = {
"varint": VarInt,
"u8": Byte,
"i8": Byte,
"u16": UnsignedShort,
"u32": UnsignedInt,
"u64": UnsignedLong,
"i16": Short,
"i32": Int,
"i64": Long,
"f32": Float,
"f64": Double,
"bool": Boolean,
"UUID": UUID,
"string": String,
"nbt": NBTTag,
"slot": Slot,
"position": Position,
"entityMetadataItem": EntityMetadataItem,
"entityMetadata": EntityMetadata,
}
def mctype(slot_type:Any) -> Type:
if isinstance(slot_type, str) and slot_type in TYPE_MAP:
return TYPE_MAP[slot_type]
if isinstance(slot_type, list):
name = slot_type[0]
if name == "buffer":
return ByteArray
# TODO composite data types
return TrailingByteArray
def snake_to_camel(name:str) -> str:
return "".join(x.capitalize() for x in name.split("_"))
def parse_slot(slot: dict) -> str:
name = slot["name"] if "name" in slot else "anon"
if keyword.iskeyword(name):
name = "is_" + name
t = mctype(slot["type"] if "type" in slot else "restBuffer")
return f"(\"{name}\", {t.__name__})"
def parse_field(slot: dict) -> str:
name = slot["name"] if "name" in slot else "anon"
if keyword.iskeyword(name):
name = "is_" + name
t = mctype(slot["type"] if "type" in slot else "restBuffer")
return f"{name} : {t._pytype.__name__}"
class PacketClassWriter:
title : str
ids : str
slots : str
fields: str
state : int
def __init__(self, title:str, ids:str, slots:str, fields:str, state:int):
self.title = title
self.ids = ids
self.slots = slots
self.fields = fields
self.state = state
def compile(self) -> str:
return PREFACE + \
IMPORTS + \
OBJECT.format(
name=self.title,
ids='{\n\t\t' + ',\n\t\t'.join(self.ids) + '\n\t}\n',
slots=self.slots,
fields=self.fields,
state=self.state,
)
def _make_module(path:Path, contents:dict):
os.mkdir(path)
imports = ""
for key in contents:
imports += f"from .{key} import {contents[key]}\n"
with open(path / "__init__.py", "w") as f:
f.write(PREFACE + imports)
def compile():
import shutil
import zipfile
from urllib.request import urlretrieve
base_path = Path(os.getcwd())
mc_path = base_path / 'aiocraft' / 'mc'
# Retrieve proto definitions from PrismarineJS/minecraft-data
urlretrieve("https://github.com/PrismarineJS/minecraft-data/zipball/master", mc_path / "minecraft-data.zip")
with zipfile.ZipFile(mc_path / 'minecraft-data.zip', 'r') as f:
f.extractall(mc_path)
# First folder starting with PrismarineJS
folder_name = next(folder for folder in os.listdir(mc_path) if folder.startswith("PrismarineJS"))
shutil.rmtree(mc_path / 'proto')
PACKETS = {
"handshaking": {
"clientbound": {},
"serverbound": {},
},
"status": {
"clientbound": {},
"serverbound": {},
},
"login": {
"clientbound": {},
"serverbound": {},
},
"play": {
"clientbound": {},
"serverbound": {},
}
}
# TODO load all versions!
all_versions = os.listdir(mc_path / f'{folder_name}/data/pc/')
all_versions.remove("common")
all_proto_numbers = []
# _make_module(mc_path / 'proto', { f"v{v.replace('.', '_').replace('-', '_')}":"*" for v in all_versions })
for v in all_versions:
if v == "0.30c":
continue # Proto just too antique!
if not os.path.isfile(mc_path / f'{folder_name}/data/pc/{v}/protocol.json') \
or not os.path.isfile(mc_path / f'{folder_name}/data/pc/{v}/version.json'):
continue
with open(mc_path / f'{folder_name}/data/pc/{v}/version.json') as f:
proto_version = json.load(f)['version']
all_proto_numbers.append(proto_version)
with open(mc_path / f'{folder_name}/data/pc/{v}/protocol.json') as f:
data = json.load(f)
for state in ("handshaking", "status", "login", "play"):
for _direction in ("toClient", "toServer"):
direction = DIR_MAP[_direction]
try:
buf = data[state][_direction]["types"]["packet"][1][0]["type"][1]["mappings"]
except KeyError:
logging.exception("Exception building %s|%s|%s definitions", v, state, direction)
print("Exception building %s|%s|%s definitions" % (v, state, direction))
# _make_module(mc_path / f"proto/{version}/{state}/{direction}", {})
continue
registry = { f"packet_{value}" : int(key, 16) for (key, value) in buf.items() }
for p_name in data[state][_direction]["types"].keys():
if p_name == "packet":
continue # it's the registry entry
if p_name not in registry:
logging.warning("Trying to make definitions for packet '%s'", p_name)
continue # wtf!
packet = data[state][_direction]["types"][p_name]
pid = registry[p_name]
class_name = snake_to_camel(p_name)
if p_name not in PACKETS[state][direction]:
PACKETS[state][direction][p_name] = {
"name" : class_name,
"definitions" : {},
}
PACKETS[state][direction][p_name]["definitions"][proto_version] = {
"id": pid,
"slots" : packet[1],
}
_STATE_MAP = {"handshaking": 0, "status":1, "login":2, "play":3}
_make_module(mc_path / 'proto', { k:"*" for k in PACKETS.keys() })
for state in PACKETS.keys():
_make_module(mc_path / f"proto/{state}", { k:"*" for k in PACKETS[state].keys() })
for direction in PACKETS[state].keys():
registry = {}
_make_module(mc_path / f"proto/{state}/{direction}", { k:snake_to_camel(k) for k in PACKETS[state][direction].keys() })
for packet in PACKETS[state][direction].keys():
pkt = PACKETS[state][direction][packet]
slots = []
fields = set()
ids = []
for v in sorted(PACKETS[state][direction][packet]["definitions"].keys()):
defn = pkt["definitions"][v]
if v not in registry:
registry[v] = {}
registry[v][defn['id']] = snake_to_camel(packet)
ids.append(f"{v} : 0x{defn['id']:02X}")
v_slots = []
v_fields = []
for slot in defn["slots"]:
v_slots.append(parse_slot(slot))
fields.add(parse_field(slot))
slots.append(f"{v} : [ {','.join(v_slots)} ],")
with open(mc_path / f"proto/{state}/{direction}/{packet}.py", "w") as f:
f.write(
PacketClassWriter(
pkt["name"],
ids,
'{\n\t\t' + '\n\t\t'.join(slots) + '\n\t}\n',
'\n\t'.join(fields),
_STATE_MAP[state]
).compile()
)
with open(mc_path / f"proto/{state}/{direction}/__init__.py", "a") as f, open("/home/alemi/REGISTRY", "a") as fdbg:
buf = ( # TODO make this thing actually readable, maybe not using nested joins and generators
REGISTRY_ENTRY.format(
entries='{\n\t' + ",\n\t".join((
str(v) + " : { " + ", ".join(
f"{pid}:{clazz}" for (pid, clazz) in registry[v].items()
) + ' }' ) for v in registry.keys()
) + '\n}'
)
)
f.write(buf)
fdbg.write(buf)