import random import time from typing import Any, Dict, List, Optional from bemani.client.base import BaseClient from bemani.protocol import Node class Museca1Client(BaseClient): NAME = 'TEST' def verify_eventlog_write(self, location: str) -> None: call = self.call_node() # Construct node eventlog = Node.void('eventlog') call.add_child(eventlog) eventlog.set_attribute('method', 'write') eventlog.add_child(Node.u32('retrycnt', 0)) data = Node.void('data') eventlog.add_child(data) data.add_child(Node.string('eventid', 'S_PWRON')) data.add_child(Node.s32('eventorder', 0)) data.add_child(Node.u64('pcbtime', int(time.time() * 1000))) data.add_child(Node.s64('gamesession', -1)) data.add_child(Node.string('strdata1', '2.4.0')) data.add_child(Node.string('strdata2', '')) data.add_child(Node.s64('numdata1', 1)) data.add_child(Node.s64('numdata2', 0)) data.add_child(Node.string('locationid', location)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/eventlog/gamesession") self.assert_path(resp, "response/eventlog/logsendflg") self.assert_path(resp, "response/eventlog/logerrlevel") self.assert_path(resp, "response/eventlog/evtidnosendflg") def verify_game_hiscore(self, location: str) -> None: call = self.call_node() game = Node.void('game_3') game.set_attribute('ver', '0') game.set_attribute('method', 'hiscore') game.add_child(Node.string('locid', location)) call.add_child(game) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/hitchart/info/id") self.assert_path(resp, "response/game_3/hitchart/info/cnt") self.assert_path(resp, "response/game_3/hiscore_allover/info/id") self.assert_path(resp, "response/game_3/hiscore_allover/info/type") self.assert_path(resp, "response/game_3/hiscore_allover/info/name") self.assert_path(resp, "response/game_3/hiscore_allover/info/seq") self.assert_path(resp, "response/game_3/hiscore_allover/info/score") self.assert_path(resp, "response/game_3/hiscore_location/info/id") self.assert_path(resp, "response/game_3/hiscore_location/info/type") self.assert_path(resp, "response/game_3/hiscore_location/info/name") self.assert_path(resp, "response/game_3/hiscore_location/info/seq") self.assert_path(resp, "response/game_3/hiscore_location/info/score") self.assert_path(resp, "response/game_3/clear_rate/d/id") self.assert_path(resp, "response/game_3/clear_rate/d/type") self.assert_path(resp, "response/game_3/clear_rate/d/cr") def verify_game_shop(self, location: str) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'shop') game.set_attribute('ver', '0') game.add_child(Node.string('locid', location)) game.add_child(Node.string('regcode', '.')) game.add_child(Node.string('locname', '')) game.add_child(Node.u8('loctype', 0)) game.add_child(Node.string('cstcode', '')) game.add_child(Node.string('cpycode', '')) game.add_child(Node.s32('latde', 0)) game.add_child(Node.s32('londe', 0)) game.add_child(Node.u8('accu', 0)) game.add_child(Node.string('linid', '.')) game.add_child(Node.u8('linclass', 0)) game.add_child(Node.ipv4('ipaddr', '0.0.0.0')) game.add_child(Node.string('hadid', '00010203040506070809')) game.add_child(Node.string('licid', '00010203040506070809')) game.add_child(Node.string('actid', self.pcbid)) game.add_child(Node.s8('appstate', 0)) game.add_child(Node.s8('c_need', 1)) game.add_child(Node.s8('c_credit', 2)) game.add_child(Node.s8('s_credit', 2)) game.add_child(Node.bool('free_p', True)) game.add_child(Node.bool('close', False)) game.add_child(Node.s32('close_t', 1380)) game.add_child(Node.u32('playc', 0)) game.add_child(Node.u32('playn', 0)) game.add_child(Node.u32('playe', 0)) game.add_child(Node.u32('test_m', 0)) game.add_child(Node.u32('service', 0)) game.add_child(Node.bool('paseli', True)) game.add_child(Node.u32('update', 0)) game.add_child(Node.string('shopname', '')) game.add_child(Node.bool('newpc', False)) game.add_child(Node.s32('s_paseli', 206)) game.add_child(Node.s32('monitor', 1)) game.add_child(Node.string('romnumber', '-')) game.add_child(Node.string('etc', 'TaxMode:1,BasicRate:100/1,FirstFree:0')) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/nxt_time") def verify_game_exception(self, location: str) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'exception') game.add_child(Node.string('text', '')) game.add_child(Node.string('lid', location)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/@status") def verify_game_new(self, location: str, refid: str) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'new') game.set_attribute('ver', '0') game.add_child(Node.string('dataid', refid)) game.add_child(Node.string('refid', refid)) game.add_child(Node.string('name', self.NAME)) game.add_child(Node.string('locid', location)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3") def verify_game_frozen(self, refid: str, time: int) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('ver', '0') game.set_attribute('method', 'frozen') game.add_child(Node.string('refid', refid)) game.add_child(Node.u32('sec', time)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/result") def verify_game_save(self, location: str, refid: str, packet: int, block: int, blaster_energy: int) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'save') game.set_attribute('ver', '0') game.add_child(Node.string('refid', refid)) game.add_child(Node.string('locid', location)) game.add_child(Node.u8('headphone', 0)) game.add_child(Node.u16('appeal_id', 1001)) game.add_child(Node.u16('comment_id', 0)) game.add_child(Node.s32('music_id', 29)) game.add_child(Node.u8('music_type', 1)) game.add_child(Node.u8('sort_type', 1)) game.add_child(Node.u8('narrow_down', 0)) game.add_child(Node.u8('gauge_option', 0)) game.add_child(Node.u32('earned_gamecoin_packet', packet)) game.add_child(Node.u32('earned_gamecoin_block', block)) item = Node.void('item') game.add_child(item) info = Node.void('info') item.add_child(info) info.add_child(Node.u32('id', 1)) info.add_child(Node.u32('type', 5)) info.add_child(Node.u32('param', 333333376)) info = Node.void('info') item.add_child(info) info.add_child(Node.u32('id', 1)) info.add_child(Node.u32('type', 7)) info.add_child(Node.u32('param', 1)) info.add_child(Node.s32('diff_param', 1)) game.add_child(Node.s32_array('hidden_param', [0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0])) game.add_child(Node.s16('skill_name_id', -1)) game.add_child(Node.s32('earned_blaster_energy', blaster_energy)) game.add_child(Node.u32('blaster_count', 0)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3") def verify_game_common(self) -> None: call = self.call_node() game = Node.void('game_3') game.set_attribute('ver', '0') game.set_attribute('method', 'common') call.add_child(game) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/music_limited") self.assert_path(resp, "response/game_3/event") def verify_game_load(self, cardid: str, refid: str, msg_type: str) -> Dict[str, Any]: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'load') game.set_attribute('ver', '0') game.add_child(Node.string('dataid', refid)) game.add_child(Node.string('cardid', cardid)) game.add_child(Node.string('refid', refid)) # Swap with server resp = self.exchange('', call) # Verify that response is correct if msg_type == "new": self.assert_path(resp, "response/game_3/result") if resp.child_value('game_3/result') != 1: raise Exception("Invalid result for new profile!") return None if msg_type == "existing": self.assert_path(resp, "response/game_3/name") self.assert_path(resp, "response/game_3/code") self.assert_path(resp, "response/game_3/gamecoin_packet") self.assert_path(resp, "response/game_3/gamecoin_block") self.assert_path(resp, "response/game_3/skill_name_id") self.assert_path(resp, "response/game_3/hidden_param") self.assert_path(resp, "response/game_3/blaster_energy") self.assert_path(resp, "response/game_3/blaster_count") self.assert_path(resp, "response/game_3/play_count") self.assert_path(resp, "response/game_3/daily_count") self.assert_path(resp, "response/game_3/play_chain") self.assert_path(resp, "response/game_3/item") items: Dict[int, Dict[int, int]] = {} for child in resp.child('game_3/item').children: if child.name != 'info': continue itype = child.child_value('type') iid = child.child_value('id') param = child.child_value('param') if itype not in items: items[itype] = {} items[itype][iid] = param return { 'name': resp.child_value('game_3/name'), 'packet': resp.child_value('game_3/gamecoin_packet'), 'block': resp.child_value('game_3/gamecoin_block'), 'blaster_energy': resp.child_value('game_3/blaster_energy'), 'items': items, } else: raise Exception("Invalid game load type {}".format(msg_type)) def verify_game_play_e(self, location: str, refid: str) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('ver', '0') game.set_attribute('method', 'play_e') game.add_child(Node.string('dataid', refid)) game.add_child(Node.s8('mode', 0)) game.add_child(Node.s16('track_num', 3)) game.add_child(Node.s32('s_coin', 0)) game.add_child(Node.s32('s_paseli', 0)) game.add_child(Node.s16('blaster_count', 0)) game.add_child(Node.s16('blaster_cartridge', 0)) game.add_child(Node.string('locid', location)) game.add_child(Node.u16('drop_frame', 396)) game.add_child(Node.u16('drop_frame_max', 396)) game.add_child(Node.u16('drop_count', 1)) game.add_child(Node.string('etc', 'StoryID:0,StoryPrg:0,PrgPrm:0')) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3") def verify_game_load_m(self, refid: str) -> List[Dict[str, int]]: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('method', 'load_m') game.set_attribute('ver', '0') game.add_child(Node.string('dataid', refid)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3/new") scores = [] for child in resp.child('game_3/new').children: if child.name != 'music': continue musicid = child.child_value('music_id') chart = child.child_value('music_type') clear_type = child.child_value('clear_type') score = child.child_value('score') grade = child.child_value('score_grade') scores.append({ 'id': musicid, 'chart': chart, 'clear_type': clear_type, 'score': score, 'grade': grade, }) return scores def verify_game_save_m(self, location: str, refid: str, score: Dict[str, int]) -> None: call = self.call_node() game = Node.void('game_3') call.add_child(game) game.set_attribute('ver', '0') game.set_attribute('method', 'save_m') game.add_child(Node.string('refid', refid)) game.add_child(Node.string('dataid', refid)) game.add_child(Node.u32('music_id', score['id'])) game.add_child(Node.u32('music_type', score['chart'])) game.add_child(Node.u32('score', score['score'])) game.add_child(Node.u32('clear_type', score['clear_type'])) game.add_child(Node.u32('score_grade', score['grade'])) game.add_child(Node.u32('max_chain', 0)) game.add_child(Node.u32('critical', 0)) game.add_child(Node.u32('near', 0)) game.add_child(Node.u32('error', 0)) game.add_child(Node.u32('effective_rate', 100)) game.add_child(Node.u32('btn_rate', 0)) game.add_child(Node.u32('long_rate', 0)) game.add_child(Node.u32('vol_rate', 0)) game.add_child(Node.u8('mode', 0)) game.add_child(Node.u8('gauge_type', 0)) game.add_child(Node.u16('online_num', 0)) game.add_child(Node.u16('local_num', 0)) game.add_child(Node.string('locid', location)) # Swap with server resp = self.exchange('', call) # Verify that response is correct self.assert_path(resp, "response/game_3") def verify(self, cardid: Optional[str]) -> None: # Verify boot sequence is okay self.verify_services_get( expected_services=[ 'pcbtracker', 'pcbevent', 'local', 'message', 'facility', 'cardmng', 'package', 'posevent', 'pkglist', 'dlstatus', 'eacoin', 'lobby', 'ntp', 'keepalive' ] ) paseli_enabled = self.verify_pcbtracker_alive() self.verify_message_get() self.verify_package_list() location = self.verify_facility_get() self.verify_pcbevent_put() self.verify_eventlog_write(location) self.verify_game_common() self.verify_game_shop(location) self.verify_game_exception(location) # Verify card registration and profile lookup if cardid is not None: card = cardid else: card = self.random_card() print("Generated random card ID {} for use.".format(card)) if cardid is None: self.verify_cardmng_inquire(card, msg_type='unregistered', paseli_enabled=paseli_enabled) ref_id = self.verify_cardmng_getrefid(card) if len(ref_id) != 16: raise Exception('Invalid refid \'{}\' returned when registering card'.format(ref_id)) if ref_id != self.verify_cardmng_inquire(card, msg_type='new', paseli_enabled=paseli_enabled): raise Exception('Invalid refid \'{}\' returned when querying card'.format(ref_id)) # Museca doesn't read the new profile, it asks for the profile itself after calling new self.verify_game_load(card, ref_id, msg_type='new') self.verify_game_new(location, ref_id) self.verify_game_load(card, ref_id, msg_type='existing') else: print("Skipping new card checks for existing card") ref_id = self.verify_cardmng_inquire(card, msg_type='query', paseli_enabled=paseli_enabled) # Verify pin handling and return card handling self.verify_cardmng_authpass(ref_id, correct=True) self.verify_cardmng_authpass(ref_id, correct=False) if ref_id != self.verify_cardmng_inquire(card, msg_type='query', paseli_enabled=paseli_enabled): raise Exception('Invalid refid \'{}\' returned when querying card'.format(ref_id)) # Verify account freezing self.verify_game_frozen(ref_id, 900) self.verify_game_frozen(ref_id, 0) self.verify_game_play_e(location, ref_id) if cardid is None: # Verify profile loading and saving profile = self.verify_game_load(card, ref_id, msg_type='existing') if profile['name'] != self.NAME: raise Exception('Profile has incorrect name {} associated with it!'.format(profile['name'])) if profile['packet'] != 0: raise Exception('Profile has nonzero blocks associated with it!') if profile['block'] != 0: raise Exception('Profile has nonzero packets associated with it!') if profile['blaster_energy'] != 0: raise Exception('Profile has nonzero blaster energy associated with it!') self.verify_game_save(location, ref_id, packet=123, block=234, blaster_energy=42) profile = self.verify_game_load(card, ref_id, msg_type='existing') if profile['name'] != self.NAME: raise Exception('Profile has incorrect name {} associated with it!'.format(profile['name'])) if profile['packet'] != 123: raise Exception('Profile has invalid blocks associated with it!') if profile['block'] != 234: raise Exception('Profile has invalid packets associated with it!') if profile['blaster_energy'] != 42: raise Exception('Profile has invalid blaster energy associated with it!') # Verify empty profile has no scores on it scores = self.verify_game_load_m(ref_id) if len(scores) > 0: raise Exception('Score on an empty profile!') # Verify score saving and updating for phase in [1, 2]: if phase == 1: dummyscores = [ # An okay score on a chart { 'id': 1, 'chart': 1, 'grade': 3, 'clear_type': 2, 'score': 765432, }, # A good score on an easier chart of the same song { 'id': 1, 'chart': 0, 'grade': 6, 'clear_type': 4, 'score': 7654321, }, # A bad score on a hard chart { 'id': 2, 'chart': 2, 'grade': 1, 'clear_type': 1, 'score': 12345, }, # A terrible score on an easy chart { 'id': 3, 'chart': 0, 'grade': 1, 'clear_type': 1, 'score': 123, }, ] if phase == 2: dummyscores = [ # A better score on the same chart { 'id': 1, 'chart': 1, 'grade': 5, 'clear_type': 4, 'score': 8765432, }, # A worse score on another same chart { 'id': 1, 'chart': 0, 'grade': 4, 'clear_type': 2, 'score': 6543210, 'expected_score': 7654321, 'expected_clear_type': 4, 'expected_grade': 6, }, ] for dummyscore in dummyscores: self.verify_game_save_m(location, ref_id, dummyscore) scores = self.verify_game_load_m(ref_id) for expected in dummyscores: actual = None for received in scores: if received['id'] == expected['id'] and received['chart'] == expected['chart']: actual = received break if actual is None: raise Exception("Didn't find song {} chart {} in response!".format(expected['id'], expected['chart'])) if 'expected_score' in expected: expected_score = expected['expected_score'] else: expected_score = expected['score'] if 'expected_grade' in expected: expected_grade = expected['expected_grade'] else: expected_grade = expected['grade'] if 'expected_clear_type' in expected: expected_clear_type = expected['expected_clear_type'] else: expected_clear_type = expected['clear_type'] if actual['score'] != expected_score: raise Exception('Expected a score of \'{}\' for song \'{}\' chart \'{}\' but got score \'{}\''.format( expected_score, expected['id'], expected['chart'], actual['score'], )) if actual['grade'] != expected_grade: raise Exception('Expected a grade of \'{}\' for song \'{}\' chart \'{}\' but got grade \'{}\''.format( expected_grade, expected['id'], expected['chart'], actual['grade'], )) if actual['clear_type'] != expected_clear_type: raise Exception('Expected a clear_type of \'{}\' for song \'{}\' chart \'{}\' but got clear_type \'{}\''.format( expected_clear_type, expected['id'], expected['chart'], actual['clear_type'], )) # Sleep so we don't end up putting in score history on the same second time.sleep(1) else: print("Skipping score checks for existing card") # Verify high score tables self.verify_game_hiscore(location) # Verify paseli handling if paseli_enabled: print("PASELI enabled for this PCBID, executing PASELI checks") else: print("PASELI disabled for this PCBID, skipping PASELI checks") return sessid, balance = self.verify_eacoin_checkin(card) if balance == 0: print("Skipping PASELI consume check because card has 0 balance") else: self.verify_eacoin_consume(sessid, balance, random.randint(0, balance)) self.verify_eacoin_checkout(sessid)