Grinch-AP/worlds/grinch/Client.py

import asyncio
from os import write
from typing import TYPE_CHECKING

import NetUtils
from .Locations import grinch_locations, GrinchLocation
from .Items import ALL_ITEMS_TABLE
import worlds._bizhawk as bizhawk
from worlds._bizhawk.client import BizHawkClient
from worlds.Files import APDeltaPatch

if TYPE_CHECKING:
    from worlds._bizhawk.context import BizHawkClientContext
    from CommonClient import logger


class GrinchClient(BizHawkClient):
    game = "The Grinch"
    system = "PSX"
    patch_suffix = ".apgrinch"
    items_handling = 0b111

    def __init__(self):
        super().__init__()
        self.last_received_index = 0
        self.loading_bios_msg = False
        self.loc_unlimited_eggs = False

    async def validate_rom(self, ctx: "BizHawkClientContext") -> bool:
        from CommonClient import logger

        # TODO Check the ROM data to see if it matches against bytes expected
        grinch_identifier_ram_address: int = 0x00928C
        bios_identifier_ram_address: int = 0x097F30
        try:
            bytes_actual: bytes = (await bizhawk.read(ctx.bizhawk_ctx, [(
                grinch_identifier_ram_address, 11, "MainRAM")]))[0]

            psx_rom_name = bytes_actual.decode("ascii")
            if psx_rom_name != "SLUS_011.97":
                bios_bytes_check: bytes = (await bizhawk.read(ctx.bizhawk_ctx, [(
                    bios_identifier_ram_address, 24, "MainRAM")]))[0]
                if "System ROM Version" in bios_bytes_check.decode("ascii"):
                    if not self.loading_bios_msg:
                        self.loading_bios_msg = True
                        logger.error("BIOS is currently loading. Will wait up to 5 seconds before retrying.")
                    return False

                logger.error("Invalid rom detected. You are not playing Grinch USA Version.")
                raise Exception("Invalid rom detected. You are not playing Grinch USA Version.")
        except Exception:
            return False

        ctx.game = self.game
        ctx.items_handling = self.items_handling
        ctx.want_slot_data = True
        ctx.watcher_timeout = 0.125
        self.loading_bios_msg = False

        return True

    async def on_package(self, ctx: "BizHawkClientContext", cmd: str, args: dict) -> None:
        self.loc_unlimited_eggs = bool(ctx.slot_data["give_unlimited_eggs"])

    async def set_auth(self, ctx: "BizHawkClientContext") -> None:
        await ctx.get_username()

    async def game_watcher(self, ctx: "BizHawkClientContext") -> None:
        #If the player is not connected to an AP Server, or their connection was disconnected.
        if ctx.server is None or ctx.server.socket.closed or ctx.slot_data is None:
            return

        try:
            if not self.ingame_checker(ctx):
                return
            # # Read save data
            # save_data = await bizhawk.read(
            #     ctx.bizhawk_ctx,
            #     [(0x3000100, 20, "System Bus")]
            # )[0]
            #
            # # Check locations
            # if save_data[2] & 0x04:
            #     await ctx.send_msgs([{
            #         "cmd": "LocationChecks",
            #         "locations": [23]
            #     }])
            #
            # # Send game clear
            # if not ctx.finished_game and (save_data[5] & 0x01):
            #     await ctx.send_msgs([{
            #         "cmd": "StatusUpdate",
            #         "status": ClientStatus.CLIENT_GOAL
            #     }])
            await self.location_checker(ctx)
            await self.receiving_items_handler(ctx)
            await self.goal_checker(ctx)
            await self.constant_address_update(ctx)

        except bizhawk.RequestFailedError:
            # The connector didn't respond. Exit handler and return to main loop to reconnect
            pass

    async def location_checker(self, ctx: "BizHawkClientContext"):
        # Update the AP Server to know what locations are not checked yet.
        local_locations_checked: list[int] = []
        for missing_location in grinch_locations.keys():
            # local_location = ctx.location_names.lookup_in_game(missing_location)
            # Missing location is the AP ID & we need to convert it back to a location name within our game.
            # Using the location name, we can then get the Grinch ram data from there.
            grinch_loc_ram_data = grinch_locations[missing_location]
            if not GrinchLocation.get_apid(grinch_loc_ram_data.id) in ctx.missing_locations:
                continue

            # Grinch ram data may have more than one address to update, so we are going to loop through all addresses in a location
            for addr_to_update in grinch_loc_ram_data.update_ram_addr:
                is_binary = True if not addr_to_update.binary_bit_pos is None else False
                current_ram_address_value = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(
                    addr_to_update.ram_address, addr_to_update.bit_size, "MainRAM")]))[0], "little")
                if is_binary:
                    if (current_ram_address_value & (1 << addr_to_update.binary_bit_pos)) > 0:
                        local_locations_checked.append(missing_location)
                else:
                    expected_int_value = addr_to_update.value
                    if expected_int_value == current_ram_address_value:
                        local_locations_checked.append(missing_location)

        # Update the AP server with the locally checked list of locations (In other words, locations I found in Grinch)
        await ctx.check_locations(local_locations_checked)
        ctx.locations_checked = set(local_locations_checked)

    async def receiving_items_handler(self, ctx: "BizHawkClientContext"):
        # Len will give us the size of the items received list & we will track that against how many items we received already
        # If the list says that we have 3 items and we already received items, we will ignore and continue.
        # Otherwise, we will get the new items and give them to the player.
        if len(ctx.items_received) == self.last_received_index:
            return

        # Ensures we only get the new items that we want to give the player
        new_items_only = ctx.items_received[self.last_received_index:]

        for item_received in new_items_only:
            local_item = ctx.item_names.lookup_in_game(item_received.item)
            grinch_item_ram_data = ALL_ITEMS_TABLE[local_item]

            for addr_to_update in grinch_item_ram_data.update_ram_addr:
                is_binary = True if not addr_to_update.binary_bit_pos is None else False
                current_ram_address_value = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(
                    addr_to_update.ram_address, addr_to_update.bit_size, "MainRAM")]))[0], "little")
                if is_binary:
                    current_ram_address_value = (current_ram_address_value | (1 << addr_to_update.binary_bit_pos))
                elif addr_to_update.update_existing_value:
                    # Grabs minimum value of a list of numbers and makes sure it does not go above max count possible
                    current_ram_address_value += addr_to_update.value
                    current_ram_address_value = min(current_ram_address_value, addr_to_update.max_count)
                else:
                    current_ram_address_value = addr_to_update.value

                # Write the updated value back into RAM
                await self.update_and_validate_address(ctx, addr_to_update.ram_address, current_ram_address_value, addr_to_update.bit_size)
                # await bizhawk.write(ctx.bizhawk_ctx, [(addr_to_update.ram_address,
                #     current_ram_address_value.to_bytes(addr_to_update.bit_size, "little"), "MainRAM")])

            self.last_received_index += 1

    async def goal_checker(self, ctx: "BizHawkClientContext"):
        if not ctx.finished_game:
            goal_loc = grinch_locations["Neutralizing Santa"]
            goal_ram_address = goal_loc.update_ram_addr[0]
            current_ram_address_value = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(
                goal_ram_address.ram_address, goal_ram_address.bit_size, "MainRAM")]))[0], "little")
            if (current_ram_address_value & (1 << goal_ram_address.binary_bit_pos)) > 0:
                ctx.finished_game = True
                await ctx.send_msgs([{
                    "cmd": "StatusUpdate",
                    "status": NetUtils.ClientStatus.CLIENT_GOAL,
                }])

    async def constant_address_update(self, ctx: "BizHawkClientContext"):
        list_recv_itemids: list[int] = [netItem.item for netItem in ctx.items_received]
        if 42369 in list_recv_itemids and 42371 in list_recv_itemids and 42372 in list_recv_itemids and 42373 in list_recv_itemids:
            await bizhawk.write(ctx.bizhawk_ctx, [(0x010200, (99).to_bytes(1, "little"), "MainRAM")])

    async def ingame_checker(self, ctx: "BizHawkClientContext"):
        demo_mode = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(
            0x01008A, 1, "MainRAM")]))[0], "little")
        if demo_mode == 1:
            return False

        is_not_ingame = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(
            0x010000, 1, "MainRAM")]))[0], "little")
        if is_not_ingame <= 0x04 or is_not_ingame >= 0x35:
            return False
        return True

    async def option_handler(self, ctx: "BizHawkClientContext"):
        if self.loc_unlimited_eggs:
            max_eggs: int = 200
            await bizhawk.write(ctx.bizhawk_ctx, [(0x010058, max_eggs.to_bytes(1,"little"), "MainRAM")])

    async def update_and_validate_address(self, ctx: "BizHawkClientContext", address_to_validate: int, expected_value: int, byte_size: int):
        await bizhawk.write(ctx.bizhawk_ctx, [(address_to_validate, expected_value.to_bytes(byte_size, "little"), "MainRAM")])
        current_value = int.from_bytes((await bizhawk.read(ctx.bizhawk_ctx, [(address_to_validate, byte_size, "MainRAM")]))[0], "little")
        if not current_value == expected_value:
            raise Exception("Unable to update address as expected. Address: "+ str(address_to_validate)+"; Expected Value: "+str(expected_value))