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bemaniutils/bemani/client/reflec/limelight.py
2023-02-17 03:40:07 +00:00

956 lines
41 KiB
Python
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import random
import time
from typing import Dict, List, Optional
from bemani.common import Time
from bemani.client.base import BaseClient
from bemani.protocol import Node
class ReflecBeatLimelight(BaseClient):
NAME = ""
def verify_log_pcb_status(self, loc: str) -> None:
call = self.call_node()
pcb = Node.void("log")
pcb.set_attribute("method", "pcb_status")
pcb.add_child(Node.string("lid", loc))
pcb.add_child(Node.s32("cnt", 0))
call.add_child(pcb)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/log/@status")
def verify_pcbinfo_get(self, loc: str) -> None:
call = self.call_node()
pcb = Node.void("pcbinfo")
pcb.set_attribute("method", "get")
pcb.add_child(Node.string("lid", loc))
call.add_child(pcb)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/pcbinfo/info/name")
self.assert_path(resp, "response/pcbinfo/info/pref")
self.assert_path(resp, "response/pcbinfo/info/close")
self.assert_path(resp, "response/pcbinfo/info/hour")
self.assert_path(resp, "response/pcbinfo/info/min")
def verify_sysinfo_get(self) -> None:
call = self.call_node()
info = Node.void("sysinfo")
info.set_attribute("method", "get")
call.add_child(info)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/sysinfo/trd")
def verify_ranking_read(self) -> None:
call = self.call_node()
ranking = Node.void("ranking")
ranking.set_attribute("method", "read")
call.add_child(ranking)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/ranking/lic_10/time")
self.assert_path(resp, "response/ranking/org_10/time")
def verify_player_start(self, refid: str) -> None:
call = self.call_node()
player = Node.void("player")
player.set_attribute("method", "start")
player.add_child(Node.string("rid", refid))
player.add_child(Node.s32("ver", 0))
call.add_child(player)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/player/is_suc")
self.assert_path(resp, "response/player/unlock_music")
self.assert_path(resp, "response/player/unlock_item")
self.assert_path(resp, "response/player/item_lock_ctrl")
self.assert_path(resp, "response/player/lincle_link_4/qpro")
self.assert_path(resp, "response/player/lincle_link_4/glass")
self.assert_path(resp, "response/player/lincle_link_4/treasure")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_0")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_1")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_2")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_3")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_4")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_5")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0_6")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_0")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_1")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_2")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_3")
self.assert_path(resp, "response/player/lincle_link_4/for_iidx_4")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_0")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_1")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_2")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_3")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_4")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_5")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0_6")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_0")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_1")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_2")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_3")
self.assert_path(resp, "response/player/lincle_link_4/for_rb_4")
self.assert_path(resp, "response/player/lincle_link_4/qproflg")
self.assert_path(resp, "response/player/lincle_link_4/glassflg")
self.assert_path(resp, "response/player/lincle_link_4/complete")
def verify_player_delete(self, refid: str) -> None:
call = self.call_node()
player = Node.void("player")
player.set_attribute("method", "delete")
player.add_child(Node.string("rid", refid))
call.add_child(player)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/player/@status")
def verify_player_end(self, refid: str) -> None:
call = self.call_node()
player = Node.void("player")
player.set_attribute("method", "end")
player.add_child(Node.string("rid", refid))
player.add_child(Node.s32("status", 4))
call.add_child(player)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/player")
def verify_player_read(self, refid: str, location: str) -> List[Dict[str, int]]:
call = self.call_node()
player = Node.void("player")
player.set_attribute("method", "read")
player.add_child(Node.string("rid", refid))
player.add_child(Node.string("lid", location))
player.add_child(Node.s32("ver", 2))
call.add_child(player)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/player/pdata/base/uid")
self.assert_path(resp, "response/player/pdata/base/name")
self.assert_path(resp, "response/player/pdata/base/icon_id")
self.assert_path(resp, "response/player/pdata/base/lv")
self.assert_path(resp, "response/player/pdata/base/exp")
self.assert_path(resp, "response/player/pdata/base/mg")
self.assert_path(resp, "response/player/pdata/base/ap")
self.assert_path(resp, "response/player/pdata/base/pc")
self.assert_path(resp, "response/player/pdata/base/uattr")
self.assert_path(resp, "response/player/pdata/con/day")
self.assert_path(resp, "response/player/pdata/con/cnt")
self.assert_path(resp, "response/player/pdata/con/total_cnt")
self.assert_path(resp, "response/player/pdata/con/last")
self.assert_path(resp, "response/player/pdata/con/now")
self.assert_path(resp, "response/player/pdata/team/id")
self.assert_path(resp, "response/player/pdata/team/name")
self.assert_path(resp, "response/player/pdata/custom/s_gls")
self.assert_path(resp, "response/player/pdata/custom/bgm_m")
self.assert_path(resp, "response/player/pdata/custom/st_f")
self.assert_path(resp, "response/player/pdata/custom/st_bg")
self.assert_path(resp, "response/player/pdata/custom/st_bg_b")
self.assert_path(resp, "response/player/pdata/custom/eff_e")
self.assert_path(resp, "response/player/pdata/custom/se_s")
self.assert_path(resp, "response/player/pdata/custom/se_s_v")
self.assert_path(resp, "response/player/pdata/custom/last_music_id")
self.assert_path(resp, "response/player/pdata/custom/last_note_grade")
self.assert_path(resp, "response/player/pdata/custom/sort_type")
self.assert_path(resp, "response/player/pdata/custom/narrowdown_type")
self.assert_path(resp, "response/player/pdata/custom/is_begginer")
self.assert_path(resp, "response/player/pdata/custom/is_tut")
self.assert_path(resp, "response/player/pdata/custom/symbol_chat_0")
self.assert_path(resp, "response/player/pdata/custom/symbol_chat_1")
self.assert_path(resp, "response/player/pdata/custom/gauge_style")
self.assert_path(resp, "response/player/pdata/custom/obj_shade")
self.assert_path(resp, "response/player/pdata/custom/obj_size")
self.assert_path(resp, "response/player/pdata/custom/byword")
self.assert_path(resp, "response/player/pdata/custom/is_auto_byword")
self.assert_path(resp, "response/player/pdata/custom/is_tweet")
self.assert_path(resp, "response/player/pdata/custom/is_link_twitter")
self.assert_path(resp, "response/player/pdata/custom/mrec_type")
self.assert_path(resp, "response/player/pdata/custom/card_disp_type")
self.assert_path(resp, "response/player/pdata/custom/tab_sel")
self.assert_path(resp, "response/player/pdata/custom/hidden_param")
self.assert_path(resp, "response/player/pdata/released")
self.assert_path(resp, "response/player/pdata/record")
self.assert_path(resp, "response/player/pdata/cmnt")
self.assert_path(resp, "response/player/pdata/rival")
self.assert_path(resp, "response/player/pdata/glass")
self.assert_path(resp, "response/player/pdata/fav_music_slot")
self.assert_path(resp, "response/player/pdata/narrow_down/adv_param")
if resp.child_value("player/pdata/base/name") != self.NAME:
raise Exception(
f'Invalid name {resp.child_value("player/pdata/base/name")} returned on profile read!'
)
scores = []
for child in resp.child("player/pdata/record").children:
if child.name != "rec":
continue
score = {
"id": child.child_value("mid"),
"chart": child.child_value("ng"),
"clear_type": child.child_value("mrec_0/ct"),
"achievement_rate": child.child_value("mrec_0/ar"),
"score": child.child_value("mrec_0/bs"),
"combo": child.child_value("mrec_0/mc"),
"miss_count": child.child_value("mrec_0/bmc"),
}
scores.append(score)
return scores
def verify_player_write(
self,
refid: str,
extid: int,
loc: str,
records: List[Dict[str, int]],
scores: List[Dict[str, int]],
) -> int:
call = self.call_node()
player = Node.void("player")
call.add_child(player)
player.set_attribute("method", "write")
player.add_child(Node.string("rid", refid))
player.add_child(Node.string("lid", loc))
player.add_child(Node.u64("begin_time", Time.now() * 1000))
player.add_child(Node.u64("end_time", Time.now() * 1000))
pdata = Node.void("pdata")
player.add_child(pdata)
base = Node.void("base")
pdata.add_child(base)
base.add_child(Node.s32("uid", extid))
base.add_child(Node.string("name", self.NAME))
base.add_child(Node.s16("icon_id", 0))
base.add_child(Node.s16("lv", 1))
base.add_child(Node.s32("exp", 0))
base.add_child(Node.s16("mg", 0))
base.add_child(Node.s16("ap", 0))
base.add_child(Node.s32("pc", 0))
base.add_child(Node.s32("uattr", 0))
con = Node.void("con")
pdata.add_child(con)
con.add_child(Node.s32("day", 0))
con.add_child(Node.s32("cnt", 0))
con.add_child(Node.s32("total_cnt", 0))
con.add_child(Node.s32("last", 0))
con.add_child(Node.s32("now", 0))
custom = Node.void("custom")
pdata.add_child(custom)
custom.add_child(Node.u8("s_gls", 0))
custom.add_child(Node.u8("bgm_m", 0))
custom.add_child(Node.u8("st_f", 0))
custom.add_child(Node.u8("st_bg", 0))
custom.add_child(Node.u8("st_bg_b", 100))
custom.add_child(Node.u8("eff_e", 0))
custom.add_child(Node.u8("se_s", 0))
custom.add_child(Node.u8("se_s_v", 100))
custom.add_child(Node.s16("last_music_id", 85))
custom.add_child(Node.u8("last_note_grade", 0))
custom.add_child(Node.u8("sort_type", 0))
custom.add_child(Node.u8("narrowdown_type", 0))
custom.add_child(Node.bool("is_begginer", False))
custom.add_child(Node.bool("is_tut", False))
custom.add_child(Node.s16_array("symbol_chat_0", [0, 1, 2, 3, 4, 5]))
custom.add_child(Node.s16_array("symbol_chat_1", [0, 1, 2, 3, 4, 5]))
custom.add_child(Node.u8("gauge_style", 0))
custom.add_child(Node.u8("obj_shade", 0))
custom.add_child(Node.u8("obj_size", 0))
custom.add_child(Node.s16_array("byword", [0, 0]))
custom.add_child(Node.bool_array("is_auto_byword", [True, True]))
custom.add_child(Node.bool("is_tweet", False))
custom.add_child(Node.bool("is_link_twitter", False))
custom.add_child(Node.s16("mrec_type", 0))
custom.add_child(Node.s16("card_disp_type", 0))
custom.add_child(Node.s16("tab_sel", 0))
custom.add_child(
Node.s32_array(
"hidden_param",
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0],
)
)
pdata.add_child(Node.void("released"))
pdata.add_child(Node.void("rival"))
pdata.add_child(Node.void("glass"))
pdata.add_child(Node.void("fav_music_slot"))
lincle_link_4 = Node.void("lincle_link_4")
pdata.add_child(lincle_link_4)
lincle_link_4.add_child(Node.u32("qpro_add", 0))
lincle_link_4.add_child(Node.u32("glass_add", 0))
lincle_link_4.add_child(Node.bool("for_iidx_0_0", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_1", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_2", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_3", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_4", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_5", False))
lincle_link_4.add_child(Node.bool("for_iidx_0_6", False))
lincle_link_4.add_child(Node.bool("for_iidx_0", False))
lincle_link_4.add_child(Node.bool("for_iidx_1", False))
lincle_link_4.add_child(Node.bool("for_iidx_2", False))
lincle_link_4.add_child(Node.bool("for_iidx_3", False))
lincle_link_4.add_child(Node.bool("for_iidx_4", False))
lincle_link_4.add_child(Node.bool("for_rb_0_0", False))
lincle_link_4.add_child(Node.bool("for_rb_0_1", False))
lincle_link_4.add_child(Node.bool("for_rb_0_2", False))
lincle_link_4.add_child(Node.bool("for_rb_0_3", False))
lincle_link_4.add_child(Node.bool("for_rb_0_4", False))
lincle_link_4.add_child(Node.bool("for_rb_0_5", False))
lincle_link_4.add_child(Node.bool("for_rb_0_6", False))
lincle_link_4.add_child(Node.bool("for_rb_0", False))
lincle_link_4.add_child(Node.bool("for_rb_1", False))
lincle_link_4.add_child(Node.bool("for_rb_2", False))
lincle_link_4.add_child(Node.bool("for_rb_3", False))
lincle_link_4.add_child(Node.bool("for_rb_4", False))
# First, filter down to only records that are also in the battle log
def key(thing: Dict[str, int]) -> str:
return f'{thing["id"]}-{thing["chart"]}'
updates = [key(score) for score in scores]
sortedrecords = {
key(record): record for record in records if key(record) in updates
}
# Now, see what records need updating and update them
for score in scores:
if key(score) in sortedrecords:
# Had a record, need to merge
record = sortedrecords[key(score)]
else:
# First time playing
record = {
"clear_type": 0,
"achievement_rate": 0,
"score": 0,
"combo": 0,
"miss_count": 999999999,
}
sortedrecords[key(score)] = {
"id": score["id"],
"chart": score["chart"],
"clear_type": max(record["clear_type"], score["clear_type"]),
"achievement_rate": max(
record["achievement_rate"], score["achievement_rate"]
),
"score": max(record["score"], score["score"]),
"combo": max(record["combo"], score["combo"]),
"miss_count": min(record["miss_count"], score["miss_count"]),
}
# Finally, send the records and battle logs
recordnode = Node.void("record")
pdata.add_child(recordnode)
blog = Node.void("blog")
pdata.add_child(blog)
for _, record in sortedrecords.items():
rec = Node.void("rec")
recordnode.add_child(rec)
rec.add_child(Node.u16("mid", record["id"]))
rec.add_child(Node.u8("ng", record["chart"]))
rec.add_child(Node.s32("point", 2))
rec.add_child(Node.s32("played_time", Time.now()))
mrec_0 = Node.void("mrec_0")
rec.add_child(mrec_0)
mrec_0.add_child(Node.s32("win", 1))
mrec_0.add_child(Node.s32("lose", 0))
mrec_0.add_child(Node.s32("draw", 0))
mrec_0.add_child(Node.u8("ct", record["clear_type"]))
mrec_0.add_child(Node.s16("ar", record["achievement_rate"]))
mrec_0.add_child(Node.s32("bs", record["score"]))
mrec_0.add_child(Node.s16("mc", record["combo"]))
mrec_0.add_child(Node.s16("bmc", record["miss_count"]))
mrec_1 = Node.void("mrec_1")
rec.add_child(mrec_1)
mrec_1.add_child(Node.s32("win", 0))
mrec_1.add_child(Node.s32("lose", 0))
mrec_1.add_child(Node.s32("draw", 0))
mrec_1.add_child(Node.u8("ct", 0))
mrec_1.add_child(Node.s16("ar", 0))
mrec_1.add_child(Node.s32("bs", 0))
mrec_1.add_child(Node.s16("mc", 0))
mrec_1.add_child(Node.s16("bmc", -1))
scoreid = 0
for score in scores:
log = Node.void("log")
blog.add_child(log)
log.add_child(Node.u8("id", scoreid))
log.add_child(Node.u16("mid", score["id"]))
log.add_child(Node.u8("ng", score["chart"]))
log.add_child(Node.u8("mt", 0))
log.add_child(Node.u8("rt", 0))
log.add_child(Node.s32("ruid", 0))
myself = Node.void("myself")
log.add_child(myself)
myself.add_child(Node.s16("mg", 0))
myself.add_child(Node.s16("ap", 0))
myself.add_child(Node.u8("ct", score["clear_type"]))
myself.add_child(Node.s32("s", score["score"]))
myself.add_child(Node.s16("ar", score["achievement_rate"]))
rival = Node.void("rival")
log.add_child(rival)
rival.add_child(Node.s16("mg", 0))
rival.add_child(Node.s16("ap", 0))
rival.add_child(Node.u8("ct", 2))
rival.add_child(Node.s32("s", 177))
rival.add_child(Node.s16("ar", 500))
log.add_child(Node.s32("time", Time.now()))
scoreid = scoreid + 1
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/player/uid")
self.assert_path(resp, "response/player/time")
return resp.child_value("player/uid")
def verify_log_play(
self, extid: int, loc: str, scores: List[Dict[str, int]]
) -> None:
call = self.call_node()
log = Node.void("log")
call.add_child(log)
log.set_attribute("method", "play")
log.add_child(Node.s32("uid", extid))
log.add_child(Node.string("lid", loc))
play = Node.void("play")
log.add_child(play)
play.add_child(Node.s16("stage", len(scores)))
play.add_child(Node.s32("sec", 700))
scoreid = 0
for score in scores:
rec = Node.void("rec")
log.add_child(rec)
rec.add_child(Node.s16("idx", scoreid))
rec.add_child(Node.s16("mid", score["id"]))
rec.add_child(Node.s16("grade", score["chart"]))
rec.add_child(Node.s16("color", 0))
rec.add_child(Node.s16("match", 0))
rec.add_child(Node.s16("res", 0))
rec.add_child(Node.s32("score", score["score"]))
rec.add_child(Node.s16("mc", score["combo"]))
rec.add_child(Node.s16("jt_jr", 0))
rec.add_child(Node.s16("jt_ju", 0))
rec.add_child(Node.s16("jt_gr", 0))
rec.add_child(Node.s16("jt_gd", 0))
rec.add_child(Node.s16("jt_ms", score["miss_count"]))
rec.add_child(Node.s32("sec", 200))
scoreid = scoreid + 1
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/log/@status")
def verify_lobby_read(self, location: str, extid: int) -> None:
call = self.call_node()
lobby = Node.void("lobby")
lobby.set_attribute("method", "read")
lobby.add_child(Node.s32("uid", extid))
lobby.add_child(Node.u8("m_grade", 255))
lobby.add_child(Node.string("lid", location))
lobby.add_child(Node.s32("max", 128))
lobby.add_child(Node.s32_array("friend", []))
call.add_child(lobby)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/lobby/interval")
self.assert_path(resp, "response/lobby/interval_p")
def verify_lobby_entry(self, location: str, extid: int) -> int:
call = self.call_node()
lobby = Node.void("lobby")
lobby.set_attribute("method", "entry")
e = Node.void("e")
lobby.add_child(e)
e.add_child(Node.s32("eid", 0))
e.add_child(Node.u16("mid", 79))
e.add_child(Node.u8("ng", 0))
e.add_child(Node.s32("uid", extid))
e.add_child(Node.s32("uattr", 0))
e.add_child(Node.string("pn", self.NAME))
e.add_child(Node.s16("mg", 0))
e.add_child(Node.s32("mopt", 0))
e.add_child(Node.s32("tid", 0))
e.add_child(Node.string("tn", ""))
e.add_child(Node.s32("topt", 0))
e.add_child(Node.string("lid", location))
e.add_child(Node.string("sn", ""))
e.add_child(Node.u8("pref", 51))
e.add_child(Node.s8("stg", 0))
e.add_child(Node.s8("pside", 0))
e.add_child(Node.s16("eatime", 30))
e.add_child(Node.u8_array("ga", [127, 0, 0, 1]))
e.add_child(Node.u16("gp", 10007))
e.add_child(Node.u8_array("la", [16, 0, 0, 0]))
lobby.add_child(Node.s32_array("friend", []))
call.add_child(lobby)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/lobby/eid")
self.assert_path(resp, "response/lobby/interval")
self.assert_path(resp, "response/lobby/interval_p")
self.assert_path(resp, "response/lobby/e/eid")
self.assert_path(resp, "response/lobby/e/mid")
self.assert_path(resp, "response/lobby/e/ng")
self.assert_path(resp, "response/lobby/e/uid")
self.assert_path(resp, "response/lobby/e/pn")
self.assert_path(resp, "response/lobby/e/uattr")
self.assert_path(resp, "response/lobby/e/mopt")
self.assert_path(resp, "response/lobby/e/mg")
self.assert_path(resp, "response/lobby/e/tid")
self.assert_path(resp, "response/lobby/e/tn")
self.assert_path(resp, "response/lobby/e/topt")
self.assert_path(resp, "response/lobby/e/lid")
self.assert_path(resp, "response/lobby/e/sn")
self.assert_path(resp, "response/lobby/e/pref")
self.assert_path(resp, "response/lobby/e/stg")
self.assert_path(resp, "response/lobby/e/pside")
self.assert_path(resp, "response/lobby/e/eatime")
self.assert_path(resp, "response/lobby/e/ga")
self.assert_path(resp, "response/lobby/e/gp")
self.assert_path(resp, "response/lobby/e/la")
return resp.child_value("lobby/eid")
def verify_lobby_delete(self, eid: int) -> None:
call = self.call_node()
lobby = Node.void("lobby")
lobby.set_attribute("method", "delete")
lobby.add_child(Node.s32("eid", eid))
call.add_child(lobby)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/lobby")
def verify_event_w_update_status(self, loc: str, extid: int) -> None:
call = self.call_node()
event_w = Node.void("event_w")
call.add_child(event_w)
event_w.set_attribute("method", "update_status")
event_w.add_child(Node.s32("uid", extid))
event_w.add_child(Node.string("p_name", self.NAME))
event_w.add_child(Node.s32("exp", 0))
event_w.add_child(Node.s32("customize", 0))
event_w.add_child(Node.s32("tid", 0))
event_w.add_child(Node.string("t_name", ""))
event_w.add_child(Node.string("lid", loc))
event_w.add_child(Node.string("s_name", ""))
event_w.add_child(Node.s8("pref", 51))
event_w.add_child(Node.s32("time", Time.now()))
event_w.add_child(Node.s8("status", 1))
event_w.add_child(Node.s8("stage", 0))
event_w.add_child(Node.s32("mid", -1))
event_w.add_child(Node.s8("ng", -1))
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/event_w/@status")
def verify_event_w_add_comment(self, loc: str, extid: int) -> None:
call = self.call_node()
event_w = Node.void("event_w")
call.add_child(event_w)
event_w.set_attribute("method", "add_comment")
event_w.add_child(Node.s32("uid", extid))
event_w.add_child(Node.string("p_name", self.NAME))
event_w.add_child(Node.s32("exp", 0))
event_w.add_child(Node.s32("customize", 0))
event_w.add_child(Node.s32("tid", 0))
event_w.add_child(Node.string("t_name", ""))
event_w.add_child(Node.string("lid", loc))
event_w.add_child(Node.string("s_name", ""))
event_w.add_child(Node.s8("pref", 51))
event_w.add_child(Node.s32("time", Time.now()))
event_w.add_child(Node.string("comment", "アメ〜〜!"))
event_w.add_child(Node.bool("is_tweet", False))
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/event_w/@status")
def verify_event_r_get_all(self, extid: int) -> None:
call = self.call_node()
event_r = Node.void("event_r")
call.add_child(event_r)
event_r.set_attribute("method", "get_all")
event_r.add_child(Node.s32("uid", extid))
event_r.add_child(Node.s32("time", 0))
event_r.add_child(Node.s32("limit", 30))
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct. We should have at least one
# comment (the one we just wrote) and one status (because we just
# called update_status).
self.assert_path(resp, "response/event_r/time")
self.assert_path(resp, "response/event_r/status/s/uid")
self.assert_path(resp, "response/event_r/status/s/p_name")
self.assert_path(resp, "response/event_r/status/s/exp")
self.assert_path(resp, "response/event_r/status/s/customize")
self.assert_path(resp, "response/event_r/status/s/tid")
self.assert_path(resp, "response/event_r/status/s/t_name")
self.assert_path(resp, "response/event_r/status/s/lid")
self.assert_path(resp, "response/event_r/status/s/s_name")
self.assert_path(resp, "response/event_r/status/s/pref")
self.assert_path(resp, "response/event_r/status/s/time")
self.assert_path(resp, "response/event_r/status/s/status")
self.assert_path(resp, "response/event_r/status/s/stage")
self.assert_path(resp, "response/event_r/status/s/mid")
self.assert_path(resp, "response/event_r/status/s/ng")
self.assert_path(resp, "response/event_r/comment/c/uid")
self.assert_path(resp, "response/event_r/comment/c/p_name")
self.assert_path(resp, "response/event_r/comment/c/exp")
self.assert_path(resp, "response/event_r/comment/c/customize")
self.assert_path(resp, "response/event_r/comment/c/tid")
self.assert_path(resp, "response/event_r/comment/c/t_name")
self.assert_path(resp, "response/event_r/comment/c/lid")
self.assert_path(resp, "response/event_r/comment/c/s_name")
self.assert_path(resp, "response/event_r/comment/c/pref")
self.assert_path(resp, "response/event_r/comment/c/time")
self.assert_path(resp, "response/event_r/comment/c/comment")
self.assert_path(resp, "response/event_r/comment/c/is_tweet")
# Verify we posted our comment earlier
found = False
for child in resp.child("event_r/comment").children:
if child.name != "c":
continue
if child.child_value("uid") == extid:
name = child.child_value("p_name")
comment = child.child_value("comment")
if name != self.NAME:
raise Exception(f"Invalid name '{name}' returned for comment!")
if comment != "アメ〜〜!":
raise Exception(
f"Invalid comment '{comment}' returned for comment!"
)
found = True
if not found:
raise Exception("Comment we posted was not found!")
# Verify our status came through
found = False
for child in resp.child("event_r/status").children:
if child.name != "s":
continue
if child.child_value("uid") == extid:
name = child.child_value("p_name")
if name != self.NAME:
raise Exception(f"Invalid name '{name}' returned for status!")
found = True
if not found:
raise Exception("Status was not found!")
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_log_pcb_status(location)
self.verify_pcbinfo_get(location)
self.verify_sysinfo_get()
self.verify_ranking_read()
# Verify card registration and profile lookup
if cardid is not None:
card = cardid
else:
card = self.random_card()
print(f"Generated random card ID {card} for use.")
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(
f"Invalid refid '{ref_id}' returned when registering card"
)
if ref_id != self.verify_cardmng_inquire(
card, msg_type="new", paseli_enabled=paseli_enabled
):
raise Exception(f"Invalid refid '{ref_id}' returned when querying card")
# Always get a player start, regardless of new profile or not
self.verify_player_start(ref_id)
self.verify_player_delete(ref_id)
extid = self.verify_player_write(
ref_id,
0,
location,
[],
[],
)
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(f"Invalid refid '{ref_id}' returned when querying card")
# Verify lobby functionality
self.verify_lobby_read(location, extid)
eid = self.verify_lobby_entry(location, extid)
self.verify_lobby_delete(eid)
# Verify status updates and puzzle comments
self.verify_event_w_update_status(location, extid)
self.verify_event_w_add_comment(location, extid)
self.verify_event_r_get_all(extid)
# Limelight is weird and sends only the top record for each song you played,
# and then a separate battle log. So, emulating that is kinda hard.
scores: List[Dict[str, int]] = []
if cardid is None:
# Verify score saving and updating
for phase in [1, 2]:
if phase == 1:
dummyscores = [
# An okay score on a chart
{
"id": 1,
"chart": 1,
"clear_type": 2,
"achievement_rate": 7543,
"score": 432,
"combo": 123,
"miss_count": 5,
},
# A good score on an easier chart of the same song
{
"id": 1,
"chart": 0,
"clear_type": 3,
"achievement_rate": 9876,
"score": 543,
"combo": 543,
"miss_count": 0,
},
# A bad score on a hard chart
{
"id": 3,
"chart": 2,
"clear_type": 2,
"achievement_rate": 1234,
"score": 123,
"combo": 42,
"miss_count": 54,
},
# A terrible score on an easy chart
{
"id": 3,
"chart": 0,
"clear_type": 2,
"achievement_rate": 1024,
"score": 50,
"combo": 12,
"miss_count": 90,
},
]
if phase == 2:
dummyscores = [
# A better score on the same chart
{
"id": 1,
"chart": 1,
"clear_type": 3,
"achievement_rate": 8765,
"score": 469,
"combo": 468,
"miss_count": 1,
},
# A worse score on another same chart
{
"id": 1,
"chart": 0,
"clear_type": 2,
"achievement_rate": 8765,
"score": 432,
"combo": 321,
"miss_count": 15,
"expected_score": 543,
"expected_clear_type": 3,
"expected_achievement_rate": 9876,
"expected_combo": 543,
"expected_miss_count": 0,
},
]
self.verify_player_write(ref_id, extid, location, scores, dummyscores)
self.verify_log_play(extid, location, dummyscores)
scores = self.verify_player_read(ref_id, location)
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(
f"Didn't find song {expected['id']} chart {expected['chart']} in response!"
)
if "expected_score" in expected:
expected_score = expected["expected_score"]
else:
expected_score = expected["score"]
if "expected_achievement_rate" in expected:
expected_achievement_rate = expected[
"expected_achievement_rate"
]
else:
expected_achievement_rate = expected["achievement_rate"]
if "expected_clear_type" in expected:
expected_clear_type = expected["expected_clear_type"]
else:
expected_clear_type = expected["clear_type"]
if "expected_combo" in expected:
expected_combo = expected["expected_combo"]
else:
expected_combo = expected["combo"]
if "expected_miss_count" in expected:
expected_miss_count = expected["expected_miss_count"]
else:
expected_miss_count = expected["miss_count"]
if actual["score"] != expected_score:
raise Exception(
f'Expected a score of \'{expected_score}\' for song \'{expected["id"]}\' chart \'{expected["chart"]}\' but got score \'{actual["score"]}\''
)
if actual["achievement_rate"] != expected_achievement_rate:
raise Exception(
f'Expected an achievement rate of \'{expected_achievement_rate}\' for song \'{expected["id"]}\' chart \'{expected["chart"]}\' but got achievement rate \'{actual["achievement_rate"]}\''
)
if actual["clear_type"] != expected_clear_type:
raise Exception(
f'Expected a clear_type of \'{expected_clear_type}\' for song \'{expected["id"]}\' chart \'{expected["chart"]}\' but got clear_type \'{actual["clear_type"]}\''
)
if actual["combo"] != expected_combo:
raise Exception(
f'Expected a combo of \'{expected_combo}\' for song \'{expected["id"]}\' chart \'{expected["chart"]}\' but got combo \'{actual["combo"]}\''
)
if actual["miss_count"] != expected_miss_count:
raise Exception(
f'Expected a miss count of \'{expected_miss_count}\' for song \'{expected["id"]}\' chart \'{expected["chart"]}\' but got miss count \'{actual["miss_count"]}\''
)
# 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 ending game
self.verify_player_end(ref_id)
# 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)