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mirror of synced 2024-12-18 17:25:54 +01:00
bemaniutils/bemani/client/iidx/pendual.py

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Python
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import random
import time
from typing import Any, Dict, Optional, Tuple
from bemani.client.base import BaseClient
from bemani.protocol import Node
class IIDXPendualClient(BaseClient):
NAME = "TEST"
def verify_iidx22shop_getname(self, lid: str) -> str:
call = self.call_node()
# Construct node
IIDX22shop = Node.void("IIDX22shop")
call.add_child(IIDX22shop)
IIDX22shop.set_attribute("method", "getname")
IIDX22shop.set_attribute("lid", lid)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22shop/@opname")
self.assert_path(resp, "response/IIDX22shop/@pid")
self.assert_path(resp, "response/IIDX22shop/@cls_opt")
return resp.child("IIDX22shop").attribute("opname")
def verify_iidx22shop_savename(self, lid: str, name: str) -> None:
call = self.call_node()
# Construct node
IIDX22shop = Node.void("IIDX22shop")
IIDX22shop.set_attribute("lid", lid)
IIDX22shop.set_attribute("pid", "51")
IIDX22shop.set_attribute("method", "savename")
IIDX22shop.set_attribute("cls_opt", "0")
IIDX22shop.set_attribute("ccode", "US")
IIDX22shop.set_attribute("opname", name)
IIDX22shop.set_attribute("rcode", ".")
call.add_child(IIDX22shop)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22shop")
def verify_iidx22pc_common(self) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("method", "common")
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22pc/ir/@beat")
self.assert_path(resp, "response/IIDX22pc/newsong_another/@open")
self.assert_path(resp, "response/IIDX22pc/limit/@phase")
self.assert_path(resp, "response/IIDX22pc/boss/@phase")
self.assert_path(resp, "response/IIDX22pc/chrono_diver/@phase")
self.assert_path(resp, "response/IIDX22pc/qpronicle_chord/@phase")
self.assert_path(resp, "response/IIDX22pc/common_cd_event/@open_list")
self.assert_path(resp, "response/IIDX22pc/pre_play/@phase")
self.assert_path(resp, "response/IIDX22pc/common_timeshift_phase/@phase")
def verify_iidx22music_crate(self) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22music")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("method", "crate")
# Swap with server
resp = self.exchange("", call)
self.assert_path(resp, "response/IIDX22music")
for child in resp.child("IIDX22music").children:
if child.name != "c":
raise Exception(f"Invalid node {child} in clear rate response!")
if len(child.value) != 12:
raise Exception(f"Invalid node data {child} in clear rate response!")
for v in child.value:
if v < 0 or v > 101:
raise Exception(f"Invalid clear percent {child} in clear rate response!")
def verify_iidx22shop_getconvention(self, lid: str) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22shop")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("method", "getconvention")
IIDX22pc.set_attribute("lid", lid)
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22shop/valid")
self.assert_path(resp, "response/IIDX22shop/@music_0")
self.assert_path(resp, "response/IIDX22shop/@music_1")
self.assert_path(resp, "response/IIDX22shop/@music_2")
self.assert_path(resp, "response/IIDX22shop/@music_3")
def verify_iidx22pc_visit(self, extid: int, lid: str) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("iidxid", str(extid))
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("method", "visit")
IIDX22pc.set_attribute("pid", "51")
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22pc/@aflg")
self.assert_path(resp, "response/IIDX22pc/@anum")
self.assert_path(resp, "response/IIDX22pc/@pflg")
self.assert_path(resp, "response/IIDX22pc/@pnum")
self.assert_path(resp, "response/IIDX22pc/@sflg")
self.assert_path(resp, "response/IIDX22pc/@snum")
def verify_iidx22ranking_getranker(self, lid: str) -> None:
for clid in [0, 1, 2, 3, 4, 5, 6]:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22ranking")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("method", "getranker")
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("clid", str(clid))
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22ranking")
def verify_iidx22shop_sentinfo(self, lid: str) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22shop")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("method", "sentinfo")
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("bflg", "1")
IIDX22pc.set_attribute("bnum", "2")
IIDX22pc.set_attribute("ioid", "0")
IIDX22pc.set_attribute("tax_phase", "0")
# Swap with server
resp = self.exchange("", call)
# Verify that response is correct
self.assert_path(resp, "response/IIDX22shop")
def verify_iidx22pc_get(self, ref_id: str, card_id: str, lid: str) -> Dict[str, Any]:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("rid", ref_id)
IIDX22pc.set_attribute("did", ref_id)
IIDX22pc.set_attribute("pid", "51")
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("cid", card_id)
IIDX22pc.set_attribute("method", "get")
IIDX22pc.set_attribute("ctype", "1")
# Swap with server
resp = self.exchange("", call)
# Verify that the response is correct
self.assert_path(resp, "response/IIDX22pc/pcdata/@name")
self.assert_path(resp, "response/IIDX22pc/pcdata/@pid")
self.assert_path(resp, "response/IIDX22pc/pcdata/@id")
self.assert_path(resp, "response/IIDX22pc/pcdata/@idstr")
self.assert_path(resp, "response/IIDX22pc/packinfo")
self.assert_path(resp, "response/IIDX22pc/deller")
self.assert_path(resp, "response/IIDX22pc/secret/flg1")
self.assert_path(resp, "response/IIDX22pc/secret/flg2")
self.assert_path(resp, "response/IIDX22pc/secret/flg3")
self.assert_path(resp, "response/IIDX22pc/achievements/trophy")
self.assert_path(resp, "response/IIDX22pc/skin")
self.assert_path(resp, "response/IIDX22pc/grade")
self.assert_path(resp, "response/IIDX22pc/ir_data")
self.assert_path(resp, "response/IIDX22pc/secret_course_data")
self.assert_path(resp, "response/IIDX22pc/rlist")
self.assert_path(resp, "response/IIDX22pc/step/album")
self.assert_path(resp, "response/IIDX22pc/favorite/sp_mlist")
self.assert_path(resp, "response/IIDX22pc/favorite/sp_clist")
self.assert_path(resp, "response/IIDX22pc/favorite/dp_mlist")
self.assert_path(resp, "response/IIDX22pc/favorite/dp_clist")
name = resp.child("IIDX22pc/pcdata").attribute("name")
if name != self.NAME:
raise Exception(f"Invalid name '{name}' returned for Ref ID '{ref_id}'")
# Extract and return account data
ir_data: Dict[int, Dict[int, Dict[str, int]]] = {}
for child in resp.child("IIDX22pc/ir_data").children:
if child.name == "e":
course_id = child.value[0]
course_chart = child.value[1]
clear_status = child.value[2]
pgnum = child.value[3]
gnum = child.value[4]
if course_id not in ir_data:
ir_data[course_id] = {}
ir_data[course_id][course_chart] = {
"clear_status": clear_status,
"pgnum": pgnum,
"gnum": gnum,
}
secret_course_data: Dict[int, Dict[int, Dict[str, int]]] = {}
for child in resp.child("IIDX22pc/secret_course_data").children:
if child.name == "e":
course_id = child.value[0]
course_chart = child.value[1]
clear_status = child.value[2]
pgnum = child.value[3]
gnum = child.value[4]
if course_id not in secret_course_data:
secret_course_data[course_id] = {}
secret_course_data[course_id][course_chart] = {
"clear_status": clear_status,
"pgnum": pgnum,
"gnum": gnum,
}
expert_point: Dict[int, Dict[str, int]] = {}
for child in resp.child("IIDX22pc/expert_point").children:
if child.name == "detail":
expert_point[int(child.attribute("course_id"))] = {
"n_point": int(child.attribute("n_point")),
"h_point": int(child.attribute("h_point")),
"a_point": int(child.attribute("a_point")),
}
return {
"extid": int(resp.child("IIDX22pc/pcdata").attribute("id")),
"sp_dan": int(resp.child("IIDX22pc/grade").attribute("sgid")),
"dp_dan": int(resp.child("IIDX22pc/grade").attribute("dgid")),
"deller": int(resp.child("IIDX22pc/deller").attribute("deller")),
"ir_data": ir_data,
"secret_course_data": secret_course_data,
"expert_point": expert_point,
}
def verify_iidx22music_getrank(self, extid: int) -> Dict[int, Dict[int, Dict[str, int]]]:
scores: Dict[int, Dict[int, Dict[str, int]]] = {}
for cltype in [0, 1]: # singles, doubles
call = self.call_node()
# Construct node
IIDX22music = Node.void("IIDX22music")
call.add_child(IIDX22music)
IIDX22music.set_attribute("method", "getrank")
IIDX22music.set_attribute("iidxid", str(extid))
IIDX22music.set_attribute("cltype", str(cltype))
# Swap with server
resp = self.exchange("", call)
self.assert_path(resp, "response/IIDX22music/style")
if int(resp.child("IIDX22music/style").attribute("type")) != cltype:
raise Exception("Returned wrong clear type for IIDX22music.getrank!")
for child in resp.child("IIDX22music").children:
if child.name == "m":
if child.value[0] != -1:
raise Exception("Got non-self score back when requesting only our scores!")
music_id = child.value[1]
normal_clear_status = child.value[2]
hyper_clear_status = child.value[3]
another_clear_status = child.value[4]
normal_ex_score = child.value[5]
hyper_ex_score = child.value[6]
another_ex_score = child.value[7]
normal_miss_count = child.value[8]
hyper_miss_count = child.value[9]
another_miss_count = child.value[10]
if cltype == 0:
normal = 0
hyper = 1
another = 2
else:
normal = 3
hyper = 4
another = 5
if music_id not in scores:
scores[music_id] = {}
scores[music_id][normal] = {
"clear_status": normal_clear_status,
"ex_score": normal_ex_score,
"miss_count": normal_miss_count,
}
scores[music_id][hyper] = {
"clear_status": hyper_clear_status,
"ex_score": hyper_ex_score,
"miss_count": hyper_miss_count,
}
scores[music_id][another] = {
"clear_status": another_clear_status,
"ex_score": another_ex_score,
"miss_count": another_miss_count,
}
elif child.name == "b":
music_id = child.value[0]
clear_status = child.value[1]
scores[music_id][6] = {
"clear_status": clear_status,
"ex_score": -1,
"miss_count": -1,
}
return scores
def verify_iidx22pc_save(
self,
extid: int,
card: str,
lid: str,
expert_point: Optional[Dict[str, int]] = None,
) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("s_disp_judge", "1")
IIDX22pc.set_attribute("mode", "6")
IIDX22pc.set_attribute("pmode", "0")
IIDX22pc.set_attribute("method", "save")
IIDX22pc.set_attribute("s_sorttype", "0")
IIDX22pc.set_attribute("s_exscore", "0")
IIDX22pc.set_attribute("d_notes", "0.000000")
IIDX22pc.set_attribute("gpos", "0")
IIDX22pc.set_attribute("s_gno", "8")
IIDX22pc.set_attribute("s_hispeed", "5.771802")
IIDX22pc.set_attribute("s_judge", "0")
IIDX22pc.set_attribute("d_timing", "0")
IIDX22pc.set_attribute("rtype", "0")
IIDX22pc.set_attribute("d_largejudge", "0")
IIDX22pc.set_attribute("d_lift", "60")
IIDX22pc.set_attribute("s_pace", "0")
IIDX22pc.set_attribute("d_exscore", "0")
IIDX22pc.set_attribute("d_sdtype", "0")
IIDX22pc.set_attribute("s_opstyle", "1")
IIDX22pc.set_attribute("s_achi", "449")
IIDX22pc.set_attribute("s_largejudge", "0")
IIDX22pc.set_attribute("d_gno", "0")
IIDX22pc.set_attribute("s_lift", "60")
IIDX22pc.set_attribute("s_notes", "31.484070")
IIDX22pc.set_attribute("d_tune", "0")
IIDX22pc.set_attribute("d_sdlen", "0")
IIDX22pc.set_attribute("d_achi", "4")
IIDX22pc.set_attribute("d_opstyle", "0")
IIDX22pc.set_attribute("sp_opt", "8208")
IIDX22pc.set_attribute("iidxid", str(extid))
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("s_judgeAdj", "0")
IIDX22pc.set_attribute("s_tune", "3")
IIDX22pc.set_attribute("s_sdtype", "1")
IIDX22pc.set_attribute("s_gtype", "2")
IIDX22pc.set_attribute("d_judge", "0")
IIDX22pc.set_attribute("cid", card)
IIDX22pc.set_attribute("cltype", "0")
IIDX22pc.set_attribute("ctype", "1")
IIDX22pc.set_attribute("bookkeep", "0")
IIDX22pc.set_attribute("d_hispeed", "0.000000")
IIDX22pc.set_attribute("d_pace", "0")
IIDX22pc.set_attribute("d_judgeAdj", "0")
IIDX22pc.set_attribute("s_timing", "1")
IIDX22pc.set_attribute("d_disp_judge", "0")
IIDX22pc.set_attribute("s_sdlen", "121")
IIDX22pc.set_attribute("dp_opt2", "0")
IIDX22pc.set_attribute("d_gtype", "0")
IIDX22pc.set_attribute("d_sorttype", "0")
IIDX22pc.set_attribute("dp_opt", "0")
pyramid = Node.void("pyramid")
IIDX22pc.add_child(pyramid)
pyramid.set_attribute("point", "290")
destiny_catharsis = Node.void("destiny_catharsis")
IIDX22pc.add_child(destiny_catharsis)
destiny_catharsis.set_attribute("point", "290")
bemani_summer_collabo = Node.void("bemani_summer_collabo")
IIDX22pc.add_child(bemani_summer_collabo)
bemani_summer_collabo.set_attribute("point", "290")
deller = Node.void("deller")
IIDX22pc.add_child(deller)
deller.set_attribute("deller", "150")
if expert_point is not None:
epnode = Node.void("expert_point")
epnode.set_attribute("h_point", str(expert_point["h_point"]))
epnode.set_attribute("course_id", str(expert_point["course_id"]))
epnode.set_attribute("n_point", str(expert_point["n_point"]))
epnode.set_attribute("a_point", str(expert_point["a_point"]))
IIDX22pc.add_child(epnode)
# Swap with server
resp = self.exchange("", call)
self.assert_path(resp, "response/IIDX22pc")
def verify_iidx22music_reg(self, extid: int, lid: str, score: Dict[str, Any]) -> None:
call = self.call_node()
# Construct node
IIDX22music = Node.void("IIDX22music")
call.add_child(IIDX22music)
IIDX22music.set_attribute("convid", "-1")
IIDX22music.set_attribute("iidxid", str(extid))
IIDX22music.set_attribute("pgnum", str(score["pgnum"]))
IIDX22music.set_attribute("pid", "51")
IIDX22music.set_attribute("rankside", "1")
IIDX22music.set_attribute("cflg", str(score["clear_status"]))
IIDX22music.set_attribute("method", "reg")
IIDX22music.set_attribute("gnum", str(score["gnum"]))
IIDX22music.set_attribute("clid", str(score["chart"]))
IIDX22music.set_attribute("mnum", str(score["mnum"]))
IIDX22music.set_attribute("is_death", "0")
IIDX22music.set_attribute("theory", "0")
IIDX22music.set_attribute("shopconvid", lid)
IIDX22music.set_attribute("mid", str(score["id"]))
IIDX22music.set_attribute("shopflg", "1")
IIDX22music.add_child(Node.binary("ghost", bytes([1] * 64)))
# Swap with server
resp = self.exchange("", call)
self.assert_path(resp, "response/IIDX22music/shopdata/@rank")
self.assert_path(resp, "response/IIDX22music/ranklist/data")
def verify_iidx22music_appoint(self, extid: int, musicid: int, chart: int) -> Tuple[int, bytes]:
call = self.call_node()
# Construct node
IIDX22music = Node.void("IIDX22music")
call.add_child(IIDX22music)
IIDX22music.set_attribute("clid", str(chart))
IIDX22music.set_attribute("method", "appoint")
IIDX22music.set_attribute("ctype", "0")
IIDX22music.set_attribute("iidxid", str(extid))
IIDX22music.set_attribute("subtype", "")
IIDX22music.set_attribute("mid", str(musicid))
# Swap with server
resp = self.exchange("", call)
self.assert_path(resp, "response/IIDX22music/mydata/@score")
return (
int(resp.child("IIDX22music/mydata").attribute("score")),
resp.child_value("IIDX22music/mydata"),
)
def verify_iidx22pc_reg(self, ref_id: str, card_id: str, lid: str) -> int:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
call.add_child(IIDX22pc)
IIDX22pc.set_attribute("lid", lid)
IIDX22pc.set_attribute("pid", "51")
IIDX22pc.set_attribute("method", "reg")
IIDX22pc.set_attribute("cid", card_id)
IIDX22pc.set_attribute("did", ref_id)
IIDX22pc.set_attribute("rid", ref_id)
IIDX22pc.set_attribute("name", self.NAME)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22pc/@id")
self.assert_path(resp, "response/IIDX22pc/@id_str")
return int(resp.child("IIDX22pc").attribute("id"))
def verify_iidx22pc_playstart(self) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
IIDX22pc.set_attribute("method", "playstart")
IIDX22pc.set_attribute("side", "1")
call.add_child(IIDX22pc)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22pc")
def verify_iidx22music_play(self, score: Dict[str, int]) -> None:
call = self.call_node()
# Construct node
IIDX22music = Node.void("IIDX22music")
IIDX22music.set_attribute("opt", "64")
IIDX22music.set_attribute("clid", str(score["chart"]))
IIDX22music.set_attribute("mid", str(score["id"]))
IIDX22music.set_attribute("gnum", str(score["gnum"]))
IIDX22music.set_attribute("cflg", str(score["clear_status"]))
IIDX22music.set_attribute("pgnum", str(score["pgnum"]))
IIDX22music.set_attribute("pid", "51")
IIDX22music.set_attribute("method", "play")
call.add_child(IIDX22music)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22music/@clid")
self.assert_path(resp, "response/IIDX22music/@crate")
self.assert_path(resp, "response/IIDX22music/@frate")
self.assert_path(resp, "response/IIDX22music/@mid")
def verify_iidx22pc_playend(self) -> None:
call = self.call_node()
# Construct node
IIDX22pc = Node.void("IIDX22pc")
IIDX22pc.set_attribute("cltype", "0")
IIDX22pc.set_attribute("bookkeep", "0")
IIDX22pc.set_attribute("mode", "1")
IIDX22pc.set_attribute("method", "playend")
call.add_child(IIDX22pc)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22pc")
def verify_iidx22music_breg(self, iidxid: int, score: Dict[str, int]) -> None:
call = self.call_node()
# Construct node
IIDX22music = Node.void("IIDX22music")
IIDX22music.set_attribute("gnum", str(score["gnum"]))
IIDX22music.set_attribute("iidxid", str(iidxid))
IIDX22music.set_attribute("mid", str(score["id"]))
IIDX22music.set_attribute("method", "breg")
IIDX22music.set_attribute("pgnum", str(score["pgnum"]))
IIDX22music.set_attribute("cflg", str(score["clear_status"]))
call.add_child(IIDX22music)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22music")
def verify_iidx22grade_raised(self, iidxid: int, shop_name: str, dantype: str) -> None:
call = self.call_node()
# Construct node
IIDX22grade = Node.void("IIDX22grade")
IIDX22grade.set_attribute("opname", shop_name)
IIDX22grade.set_attribute("is_mirror", "0")
IIDX22grade.set_attribute("oppid", "51")
IIDX22grade.set_attribute("achi", "50")
IIDX22grade.set_attribute("cflg", "4" if dantype == "sp" else "3")
IIDX22grade.set_attribute("gid", "5")
IIDX22grade.set_attribute("iidxid", str(iidxid))
IIDX22grade.set_attribute("gtype", "0" if dantype == "sp" else "1")
IIDX22grade.set_attribute("is_ex", "0")
IIDX22grade.set_attribute("pside", "0")
IIDX22grade.set_attribute("method", "raised")
call.add_child(IIDX22grade)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22grade/@pnum")
def verify_iidx22ranking_entry(self, iidxid: int, shop_name: str, coursetype: str) -> None:
call = self.call_node()
# Construct node
IIDX22ranking = Node.void("IIDX22ranking")
IIDX22ranking.set_attribute("opname", shop_name)
IIDX22ranking.set_attribute("clr", "4")
IIDX22ranking.set_attribute("pgnum", "1771")
IIDX22ranking.set_attribute("coid", "2")
IIDX22ranking.set_attribute("method", "entry")
IIDX22ranking.set_attribute("opt", "8208")
IIDX22ranking.set_attribute("opt2", "0")
IIDX22ranking.set_attribute("oppid", "51")
IIDX22ranking.set_attribute("cstage", "4")
IIDX22ranking.set_attribute("gnum", "967")
IIDX22ranking.set_attribute("pside", "1")
IIDX22ranking.set_attribute("clid", "1")
IIDX22ranking.set_attribute("regist_type", "0" if coursetype == "ir" else "1")
IIDX22ranking.set_attribute("iidxid", str(iidxid))
call.add_child(IIDX22ranking)
# Swap with server
resp = self.exchange("", call)
# Verify nodes that cause crashes if they don't exist
self.assert_path(resp, "response/IIDX22ranking/@anum")
self.assert_path(resp, "response/IIDX22ranking/@jun")
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_package_list()
self.verify_message_get()
lid = self.verify_facility_get()
self.verify_pcbevent_put()
self.verify_iidx22shop_getname(lid)
self.verify_iidx22pc_common()
self.verify_iidx22music_crate()
self.verify_iidx22shop_getconvention(lid)
self.verify_iidx22ranking_getranker(lid)
self.verify_iidx22shop_sentinfo(lid)
# 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")
self.verify_iidx22pc_reg(ref_id, card, lid)
self.verify_iidx22pc_get(ref_id, card, lid)
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")
if cardid is None:
# Verify score handling
profile = self.verify_iidx22pc_get(ref_id, card, lid)
if profile["sp_dan"] != -1:
raise Exception("Somehow has SP DAN ranking on new profile!")
if profile["dp_dan"] != -1:
raise Exception("Somehow has DP DAN ranking on new profile!")
if profile["deller"] != 0:
raise Exception("Somehow has deller on new profile!")
if len(profile["ir_data"].keys()) > 0:
raise Exception("Somehow has internet ranking data on new profile!")
if len(profile["secret_course_data"].keys()) > 0:
raise Exception("Somehow has secret course data on new profile!")
if len(profile["expert_point"].keys()) > 0:
raise Exception("Somehow has expert point data on new profile!")
scores = self.verify_iidx22music_getrank(profile["extid"])
if len(scores.keys()) > 0:
raise Exception("Somehow have scores on a new profile!")
for phase in [1, 2]:
if phase == 1:
dummyscores = [
# An okay score on a chart
{
"id": 1000,
"chart": 2,
"clear_status": 4,
"pgnum": 123,
"gnum": 123,
"mnum": 5,
},
# A good score on an easier chart of the same song
{
"id": 1000,
"chart": 0,
"clear_status": 7,
"pgnum": 246,
"gnum": 0,
"mnum": 0,
},
# A bad score on a hard chart
{
"id": 1003,
"chart": 2,
"clear_status": 1,
"pgnum": 10,
"gnum": 20,
"mnum": 50,
},
# A terrible score on an easy chart
{
"id": 1003,
"chart": 0,
"clear_status": 1,
"pgnum": 2,
"gnum": 5,
"mnum": 75,
},
]
if phase == 2:
dummyscores = [
# A better score on the same chart
{
"id": 1000,
"chart": 2,
"clear_status": 5,
"pgnum": 234,
"gnum": 234,
"mnum": 3,
},
# A worse score on another same chart
{
"id": 1000,
"chart": 0,
"clear_status": 4,
"pgnum": 123,
"gnum": 123,
"mnum": 35,
"expected_clear_status": 7,
"expected_ex_score": 492,
"expected_miss_count": 0,
},
]
for dummyscore in dummyscores:
self.verify_iidx22music_reg(profile["extid"], lid, dummyscore)
self.verify_iidx22pc_visit(profile["extid"], lid)
self.verify_iidx22pc_save(profile["extid"], card, lid)
scores = self.verify_iidx22music_getrank(profile["extid"])
for score in dummyscores:
data = scores.get(score["id"], {}).get(score["chart"], None)
if data is None:
raise Exception(f'Expected to get score back for song {score["id"]} chart {score["chart"]}!')
if "expected_ex_score" in score:
expected_score = score["expected_ex_score"]
else:
expected_score = (score["pgnum"] * 2) + score["gnum"]
if "expected_clear_status" in score:
expected_clear_status = score["expected_clear_status"]
else:
expected_clear_status = score["clear_status"]
if "expected_miss_count" in score:
expected_miss_count = score["expected_miss_count"]
else:
expected_miss_count = score["mnum"]
if data["ex_score"] != expected_score:
raise Exception(
f'Expected a score of \'{expected_score}\' for song \'{score["id"]}\' chart \'{score["chart"]}\' but got score \'{data["ex_score"]}\''
)
if data["clear_status"] != expected_clear_status:
raise Exception(
f'Expected a clear status of \'{expected_clear_status}\' for song \'{score["id"]}\' chart \'{score["chart"]}\' but got clear status \'{data["clear_status"]}\''
)
if data["miss_count"] != expected_miss_count:
raise Exception(
f'Expected a miss count of \'{expected_miss_count}\' for song \'{score["id"]}\' chart \'{score["chart"]}\' but got miss count \'{data["miss_count"]}\''
)
# Verify we can fetch our own ghost
ex_score, ghost = self.verify_iidx22music_appoint(profile["extid"], score["id"], score["chart"])
if ex_score != expected_score:
raise Exception(
f'Expected a score of \'{expected_score}\' for song \'{score["id"]}\' chart \'{score["chart"]}\' but got score \'{data["ex_score"]}\''
)
if len(ghost) != 64:
raise Exception(f"Wrong ghost length {len(ghost)} for ghost!")
for g in ghost:
if g != 0x01:
raise Exception(
f'Got back wrong ghost data for song \'{score["id"]}\' chart \'{score["chart"]}\''
)
# Sleep so we don't end up putting in score history on the same second
time.sleep(1)
# Verify that we can save/load expert points
self.verify_iidx22pc_save(
profile["extid"],
card,
lid,
{"course_id": 1, "n_point": 0, "h_point": 500, "a_point": 0},
)
profile = self.verify_iidx22pc_get(ref_id, card, lid)
if sorted(profile["expert_point"].keys()) != [1]:
raise Exception("Got back wrong number of expert course points!")
if profile["expert_point"][1] != {
"n_point": 0,
"h_point": 500,
"a_point": 0,
}:
raise Exception("Got back wrong expert points after saving!")
self.verify_iidx22pc_save(
profile["extid"],
card,
lid,
{"course_id": 1, "n_point": 0, "h_point": 1000, "a_point": 0},
)
profile = self.verify_iidx22pc_get(ref_id, card, lid)
if sorted(profile["expert_point"].keys()) != [1]:
raise Exception("Got back wrong number of expert course points!")
if profile["expert_point"][1] != {
"n_point": 0,
"h_point": 1000,
"a_point": 0,
}:
raise Exception("Got back wrong expert points after saving!")
self.verify_iidx22pc_save(
profile["extid"],
card,
lid,
{"course_id": 2, "n_point": 0, "h_point": 0, "a_point": 500},
)
profile = self.verify_iidx22pc_get(ref_id, card, lid)
if sorted(profile["expert_point"].keys()) != [1, 2]:
raise Exception("Got back wrong number of expert course points!")
if profile["expert_point"][1] != {
"n_point": 0,
"h_point": 1000,
"a_point": 0,
}:
raise Exception("Got back wrong expert points after saving!")
if profile["expert_point"][2] != {
"n_point": 0,
"h_point": 0,
"a_point": 500,
}:
raise Exception("Got back wrong expert points after saving!")
# Verify that a player without a card can play
self.verify_iidx22pc_playstart()
self.verify_iidx22music_play(
{
"id": 1000,
"chart": 2,
"clear_status": 4,
"pgnum": 123,
"gnum": 123,
}
)
self.verify_iidx22pc_playend()
# Verify shop name change setting
self.verify_iidx22shop_savename(lid, "newname1")
newname = self.verify_iidx22shop_getname(lid)
if newname != "newname1":
raise Exception("Invalid shop name returned after change!")
self.verify_iidx22shop_savename(lid, "newname2")
newname = self.verify_iidx22shop_getname(lid)
if newname != "newname2":
raise Exception("Invalid shop name returned after change!")
# Verify beginner score saving
self.verify_iidx22music_breg(
profile["extid"],
{
"id": 1000,
"clear_status": 4,
"pgnum": 123,
"gnum": 123,
},
)
scores = self.verify_iidx22music_getrank(profile["extid"])
if 1000 not in scores:
raise Exception(f"Didn't get expected scores back for song {1000} beginner chart!")
if 6 not in scores[1000]:
raise Exception(f"Didn't get beginner score back for song {1000}!")
if scores[1000][6] != {"clear_status": 4, "ex_score": -1, "miss_count": -1}:
raise Exception("Didn't get correct status back from beginner save!")
# Verify DAN score saving and loading
self.verify_iidx22grade_raised(profile["extid"], newname, "sp")
self.verify_iidx22grade_raised(profile["extid"], newname, "dp")
profile = self.verify_iidx22pc_get(ref_id, card, lid)
if profile["sp_dan"] != 5:
raise Exception("Got wrong DAN score back for SP!")
if profile["dp_dan"] != 5:
raise Exception("Got wrong DAN score back for DP!")
# Verify secret course and internet ranking course saving
self.verify_iidx22ranking_entry(profile["extid"], newname, "ir")
self.verify_iidx22ranking_entry(profile["extid"], newname, "secret")
profile = self.verify_iidx22pc_get(ref_id, card, lid)
for ptype in ["ir_data", "secret_course_data"]:
if profile[ptype] != {2: {1: {"clear_status": 4, "pgnum": 1771, "gnum": 967}}}:
raise Exception(f"Invalid data {profile[ptype]} returned on profile load for {ptype}!")
else:
print("Skipping score checks for existing card")
# 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)