artemis/core/data/schema/arcade.py

272 lines
8.8 KiB
Python

from typing import Optional, Dict, List
from sqlalchemy import Table, Column, and_, or_
from sqlalchemy.sql.schema import ForeignKey, PrimaryKeyConstraint
from sqlalchemy.types import Integer, String, Boolean, JSON
from sqlalchemy.sql import func, select
from sqlalchemy.dialects.mysql import insert
from sqlalchemy.engine import Row
import re
from core.data.schema.base import BaseData, metadata
from core.const import *
arcade = Table(
"arcade",
metadata,
Column("id", Integer, primary_key=True, nullable=False),
Column("name", String(255)),
Column("nickname", String(255)),
Column("country", String(3)),
Column("country_id", Integer),
Column("state", String(255)),
Column("city", String(255)),
Column("region_id", Integer),
Column("timezone", String(255)),
Column("ip", String(39)),
mysql_charset="utf8mb4",
)
machine = Table(
"machine",
metadata,
Column("id", Integer, primary_key=True, nullable=False),
Column(
"arcade",
ForeignKey("arcade.id", ondelete="cascade", onupdate="cascade"),
nullable=False,
),
Column("serial", String(15), nullable=False),
Column("board", String(15)),
Column("game", String(4)),
Column("country", String(3)), # overwrites if not null
Column("timezone", String(255)),
Column("ota_enable", Boolean),
Column("memo", String(255)),
Column("is_cab", Boolean),
Column("data", JSON),
mysql_charset="utf8mb4",
)
arcade_owner = Table(
"arcade_owner",
metadata,
Column(
"user",
Integer,
ForeignKey("aime_user.id", ondelete="cascade", onupdate="cascade"),
nullable=False,
),
Column(
"arcade",
Integer,
ForeignKey("arcade.id", ondelete="cascade", onupdate="cascade"),
nullable=False,
),
Column("permissions", Integer, nullable=False),
PrimaryKeyConstraint("user", "arcade", name="arcade_owner_pk"),
mysql_charset="utf8mb4",
)
class ArcadeData(BaseData):
async def get_machine(self, serial: str = None, id: int = None) -> Optional[Row]:
if serial is not None:
serial = serial.replace("-", "")
if len(serial) == 11:
sql = machine.select(machine.c.serial.like(f"{serial}%"))
elif len(serial) == 15:
sql = machine.select(machine.c.serial == serial)
else:
self.logger.error(f"{__name__ }: Malformed serial {serial}")
return None
elif id is not None:
sql = machine.select(machine.c.id == id)
else:
self.logger.error(f"{__name__ }: Need either serial or ID to look up!")
return None
result = await self.execute(sql)
if result is None:
return None
return result.fetchone()
async def create_machine(
self,
arcade_id: int,
serial: str = "",
board: str = None,
game: str = None,
is_cab: bool = False,
) -> Optional[int]:
if not arcade_id:
self.logger.error(f"{__name__ }: Need arcade id!")
return None
sql = machine.insert().values(
arcade=arcade_id, serial=serial, board=board, game=game, is_cab=is_cab
)
result = await self.execute(sql)
if result is None:
return None
return result.lastrowid
async def set_machine_serial(self, machine_id: int, serial: str) -> None:
result = await self.execute(
machine.update(machine.c.id == machine_id).values(keychip=serial)
)
if result is None:
self.logger.error(
f"Failed to update serial for machine {machine_id} -> {serial}"
)
return result.lastrowid
async def set_machine_boardid(self, machine_id: int, boardid: str) -> None:
result = await self.execute(
machine.update(machine.c.id == machine_id).values(board=boardid)
)
if result is None:
self.logger.error(
f"Failed to update board id for machine {machine_id} -> {boardid}"
)
async def get_arcade(self, id: int) -> Optional[Row]:
sql = arcade.select(arcade.c.id == id)
result = await self.execute(sql)
if result is None:
return None
return result.fetchone()
async def get_arcade_machines(self, id: int) -> Optional[List[Row]]:
sql = machine.select(machine.c.arcade == id)
result = await self.execute(sql)
if result is None:
return None
return result.fetchall()
async def create_arcade(
self,
name: str = None,
nickname: str = None,
country: str = "JPN",
country_id: int = 1,
state: str = "",
city: str = "",
region_id: int = 1,
) -> Optional[int]:
if nickname is None:
nickname = name
sql = arcade.insert().values(
name=name,
nickname=nickname,
country=country,
country_id=country_id,
state=state,
city=city,
region_id=region_id,
)
result = await self.execute(sql)
if result is None:
return None
return result.lastrowid
async def get_arcades_managed_by_user(self, user_id: int) -> Optional[List[Row]]:
sql = select(arcade).join(arcade_owner, arcade_owner.c.arcade == arcade.c.id).where(arcade_owner.c.user == user_id)
result = await self.execute(sql)
if result is None:
return False
return result.fetchall()
async def get_manager_permissions(self, user_id: int, arcade_id: int) -> Optional[int]:
sql = select(arcade_owner.c.permissions).where(and_(arcade_owner.c.user == user_id, arcade_owner.c.arcade == arcade_id))
result = await self.execute(sql)
if result is None:
return False
return result.fetchone()
async def get_arcade_owners(self, arcade_id: int) -> Optional[Row]:
sql = select(arcade_owner).where(arcade_owner.c.arcade == arcade_id)
result = await self.execute(sql)
if result is None:
return None
return result.fetchall()
async def add_arcade_owner(self, arcade_id: int, user_id: int) -> None:
sql = insert(arcade_owner).values(arcade=arcade_id, user=user_id)
result = await self.execute(sql)
if result is None:
return None
return result.lastrowid
async def get_arcade_by_name(self, name: str) -> Optional[List[Row]]:
sql = arcade.select(or_(arcade.c.name.like(f"%{name}%"), arcade.c.nickname.like(f"%{name}%")))
result = await self.execute(sql)
if result is None:
return None
return result.fetchall()
async def get_arcades_by_ip(self, ip: str) -> Optional[List[Row]]:
sql = arcade.select().where(arcade.c.ip == ip)
result = await self.execute(sql)
if result is None:
return None
return result.fetchall()
async def get_num_generated_keychips(self) -> Optional[int]:
result = await self.execute(select(func.count("serial LIKE 'A69A%'")).select_from(machine))
if result:
return result.fetchone()['count_1']
self.logger.error("Failed to count machine serials that start with A69A!")
def format_serial(
self, platform_code: str, platform_rev: int, serial_letter: str, serial_num: int, append: int, dash: bool = False
) -> str:
return f"{platform_code}{'-' if dash else ''}{platform_rev:02d}{serial_letter}{serial_num:04d}{append:04d}"
def validate_keychip_format(self, serial: str) -> bool:
# For the 2nd letter, E and X are the only "real" values that have been observed
if re.fullmatch(r"^A[0-9]{2}[A-Z][-]?[0-9]{2}[A-HJ-NP-Z][0-9]{4}([0-9]{4})?$", serial) is None:
return False
return True
# Thanks bottersnike!
def get_keychip_suffix(self, year: int, month: int) -> str:
assert year > 1957
assert 1 <= month <= 12
year -= 1957
# Jan/Feb/Mar are from the previous tax year
if month < 4:
year -= 1
assert year >= 1 and year <= 99
month = ((month - 1) + 9) % 12 # Offset so April=0
return f"{year:02}{month // 6:01}{month % 6 + 1:01}"
def parse_keychip_suffix(self, suffix: str) -> tuple[int, int]:
year = int(suffix[0:2])
half = int(suffix[2])
assert half in (0, 1)
period = int(suffix[3])
assert period in (1, 2, 3, 4, 5, 6)
month = half * 6 + (period - 1)
month = ((month + 3) % 12) + 1 # Offset so Jan=1
# Jan/Feb/Mar are from the previous tax year
if month < 4:
year += 1
year += 1957
return (year, month)