Я решил уйти от монолитной сруктуры в угоду модульности.

This commit is contained in:
WHE Team 2026-05-19 11:34:20 +00:00
parent a5a7155c52
commit ec504574f2
4 changed files with 261 additions and 198 deletions

View file

@ -40,7 +40,6 @@ import threading
import webbrowser import webbrowser
import numpy as np import numpy as np
import sounddevice as sd import sounddevice as sd
import socketio
from prompt_toolkit.application import Application from prompt_toolkit.application import Application
from prompt_toolkit.key_binding import KeyBindings from prompt_toolkit.key_binding import KeyBindings
@ -54,19 +53,14 @@ from prompt_toolkit.filters import has_focus, Condition
from prompt_toolkit.data_structures import Point from prompt_toolkit.data_structures import Point
from prompt_toolkit.completion import Completer, Completion from prompt_toolkit.completion import Completer, Completion
BASE_FREQ = 600 # Import decoupled local modules
FREQ_STEP = 25 import protocol
TONE_DURATION = 0.1 import socket_manager
SAMPLE_RATE = 44100
CONFIG_FILE = "settings.json" CONFIG_FILE = "settings.json"
WIKI_URL = "https://git.idkmail.ru/lohrrrr/TyChat-Client/wiki" WIKI_URL = "https://git.idkmail.ru/lohrrrr/TyChat-Client/wiki"
DEV_SIGNATURE = "For you, from IDKMail Dev Group" DEV_SIGNATURE = "For you, from IDKMail Dev Group"
FREQ_QUERY = 1200
FREQ_ALERT = 1400
FREQ_RESP_YES = 1600
FREQ_RESP_NO = 1800
ASCII_ART = r""" ASCII_ART = r"""
_______ _____ _ _ _______ _____ _ _
|__ __| / ____| | | | |__ __| / ____| | | |
@ -78,8 +72,6 @@ ASCII_ART = r"""
|___/ |___/
""" """
sio = socketio.Client()
class CommandCompleter(Completer): class CommandCompleter(Completer):
def __init__(self): def __init__(self):
self.completions = { self.completions = {
@ -159,77 +151,21 @@ class TyClient:
def play_dial_tones(self, target_uin): def play_dial_tones(self, target_uin):
self.dialing_uin = target_uin self.dialing_uin = target_uin
while self.dialing_uin == target_uin and self.loop_running: while self.dialing_uin == target_uin and self.loop_running:
t = np.linspace(0, 1.0, int(SAMPLE_RATE * 1.0), False) t = np.linspace(0, 1.0, int(protocol.SAMPLE_RATE * 1.0), False)
tone = np.sin(425 * t * 2 * np.pi) * 0.5 tone = np.sin(425 * t * 2 * np.pi) * 0.5
sd.play(tone, SAMPLE_RATE) sd.play(tone, protocol.SAMPLE_RATE)
sd.wait() sd.wait()
for _ in range(30): for _ in range(30):
if self.dialing_uin != target_uin or not self.loop_running: if self.dialing_uin != target_uin or not self.loop_running:
break break
time.sleep(0.1) time.sleep(0.1)
def generate_service_tone(self, frequency, duration=0.4):
t = np.linspace(0, duration, int(SAMPLE_RATE * duration), False)
tone = np.sin(frequency * t * 2 * np.pi) * 0.7
envelope = np.ones_like(tone)
fade_len = int(SAMPLE_RATE * 0.05)
envelope[:fade_len] = np.linspace(0, 1, fade_len)
envelope[-fade_len:] = np.linspace(1, 0, fade_len)
return (tone * envelope).astype(np.float32).tobytes()
def text_to_audio(self, text):
audio_signals = []
t_start = np.linspace(0, 0.3, int(SAMPLE_RATE * 0.3), False)
audio_signals.append(np.sin(1000 * t_start * 2 * np.pi))
for char in text:
freq = BASE_FREQ + ord(char) * FREQ_STEP
t = np.linspace(0, TONE_DURATION, int(SAMPLE_RATE * TONE_DURATION), False)
audio_signals.append(np.sin(freq * t * 2 * np.pi))
full_audio = np.concatenate(audio_signals).astype(np.float32)
if np.max(np.abs(full_audio)) > 0:
full_audio = full_audio / np.max(np.abs(full_audio))
return full_audio.tobytes()
def detect_service_tone(self, audio_data):
try:
window_data = np.hanning(len(audio_data))
fft_data = np.abs(np.fft.rfft(audio_data * window_data))
frequencies = np.fft.rfftfreq(len(audio_data), d=1/SAMPLE_RATE)
detected_freq = frequencies[np.argmax(fft_data)]
for target in [FREQ_QUERY, FREQ_ALERT, FREQ_RESP_YES, FREQ_RESP_NO]:
if abs(detected_freq - target) <= 15:
return target
return None
except:
return None
def fast_decode(self, audio_data):
try:
samples_per_tone = int(SAMPLE_RATE * TONE_DURATION)
current_sample = int(SAMPLE_RATE * 0.3)
text = ""
while current_sample < len(audio_data):
chunk = audio_data[current_sample : current_sample + samples_per_tone]
if len(chunk) < samples_per_tone:
break
window_data = np.hanning(len(chunk))
fft_data = np.abs(np.fft.rfft(chunk * window_data))
frequencies = np.fft.rfftfreq(len(chunk), d=1/SAMPLE_RATE)
detected_freq = frequencies[np.argmax(fft_data)]
ascii_code = int(round((detected_freq - BASE_FREQ) / FREQ_STEP))
if 0 <= ascii_code < 65535:
text += chr(ascii_code)
current_sample += samples_per_tone
return text
except:
return ""
def play_and_decode(self, audio_bytes, sender_uin): def play_and_decode(self, audio_bytes, sender_uin):
audio_data = np.frombuffer(audio_bytes, dtype=np.float32) audio_data = np.frombuffer(audio_bytes, dtype=np.float32)
sd.play(audio_data, SAMPLE_RATE) sd.play(audio_data, protocol.SAMPLE_RATE)
time.sleep(0.3) time.sleep(0.3)
samples_per_tone = int(SAMPLE_RATE * TONE_DURATION) samples_per_tone = int(protocol.SAMPLE_RATE * protocol.TONE_DURATION)
current_sample = int(SAMPLE_RATE * 0.3) current_sample = int(protocol.SAMPLE_RATE * 0.3)
sender_name = self.username if sender_uin == self.uin else f"UIN {sender_uin}" sender_name = self.username if sender_uin == self.uin else f"UIN {sender_uin}"
msg_buffer = f"[{sender_name}]: " msg_buffer = f"[{sender_name}]: "
@ -245,9 +181,9 @@ class TyClient:
break break
window_data = np.hanning(len(chunk)) window_data = np.hanning(len(chunk))
fft_data = np.abs(np.fft.rfft(chunk * window_data)) fft_data = np.abs(np.fft.rfft(chunk * window_data))
frequencies = np.fft.rfftfreq(len(chunk), d=1/SAMPLE_RATE) frequencies = np.fft.rfftfreq(len(chunk), d=1/protocol.SAMPLE_RATE)
detected_freq = frequencies[np.argmax(fft_data)] detected_freq = frequencies[np.argmax(fft_data)]
ascii_code = int(round((detected_freq - BASE_FREQ) / FREQ_STEP)) ascii_code = int(round((detected_freq - protocol.BASE_FREQ) / protocol.FREQ_STEP))
if 0 <= ascii_code < 65535: if 0 <= ascii_code < 65535:
try: try:
char = chr(ascii_code) char = chr(ascii_code)
@ -255,7 +191,7 @@ class TyClient:
self.refresh_ui() self.refresh_ui()
except: except:
pass pass
time.sleep(TONE_DURATION) time.sleep(protocol.TONE_DURATION)
current_sample += samples_per_tone current_sample += samples_per_tone
sd.wait() sd.wait()
self.save_config() self.save_config()
@ -268,12 +204,12 @@ class TyClient:
self.save_config() self.save_config()
def send_sys_packet(self, to_uin, cmd): def send_sys_packet(self, to_uin, cmd):
audio_b = self.text_to_audio(f"SYS:{cmd}") audio_b = protocol.text_to_audio(f"SYS:{cmd}")
sio.emit("relay_packet", {"to_uin": to_uin, "payload": base64.b64encode(audio_b).decode('utf-8')}) socket_manager.sio.emit("relay_packet", {"to_uin": to_uin, "payload": base64.b64encode(audio_b).decode('utf-8')})
def send_service_tone(self, to_uin, freq): def send_service_tone(self, to_uin, freq):
audio_b = self.generate_service_tone(freq) audio_b = protocol.generate_service_tone(freq)
sio.emit("relay_packet", {"to_uin": to_uin, "payload": base64.b64encode(audio_b).decode('utf-8')}) socket_manager.sio.emit("relay_packet", {"to_uin": to_uin, "payload": base64.b64encode(audio_b).decode('utf-8')})
def refresh_ui(self): def refresh_ui(self):
if self.app: if self.app:
@ -281,112 +217,17 @@ class TyClient:
client = TyClient() client = TyClient()
@sio.event
def incoming_packet(data):
from_uin = data["from_uin"]
payload_base64 = data["payload"]
try:
audio_bytes = base64.b64decode(payload_base64.encode('utf-8'))
audio_data = np.frombuffer(audio_bytes, dtype=np.float32)
srv_tone = client.detect_service_tone(audio_data)
if srv_tone:
sd.play(audio_data, SAMPLE_RATE)
if from_uin not in client.contacts:
return
if srv_tone == FREQ_QUERY:
if client.is_busy:
client.send_service_tone(from_uin, FREQ_RESP_YES)
else:
client.pending_windows.append({"type": "query", "uin": from_uin})
client.refresh_ui()
return
elif srv_tone == FREQ_ALERT:
client.pending_windows.append({"type": "alert", "uin": from_uin})
client.refresh_ui()
return
elif srv_tone == FREQ_RESP_YES:
client.add_to_history(from_uin, f"[SYSTEM]: Quick status answer -> Yes, I'm busy")
return
elif srv_tone == FREQ_RESP_NO:
client.add_to_history(from_uin, f"[SYSTEM]: Quick status answer -> No, go on")
return
fast_text = client.fast_decode(audio_data)
if fast_text.startswith("SYS:"):
cmd = fast_text[4:]
if cmd.startswith("ROOM_MSG:"):
parts = cmd.split(":", 3)
if len(parts) >= 4:
room_id = parts[1]
sender_uin = parts[2]
actual_msg = parts[3]
if room_id in client.groups:
client.add_to_history(room_id, f"[UIN {sender_uin}]: {actual_msg}")
return
elif cmd == "REQ_ADD":
if from_uin in client.blocklist:
client.send_sys_packet(from_uin, "RES_DEC")
elif client.is_busy:
client.send_sys_packet(from_uin, "RES_BSY")
else:
if from_uin not in client.pending_requests and from_uin not in client.contacts:
client.pending_requests.append(from_uin)
client.refresh_ui()
return
elif cmd == "RES_ACC":
if client.dialing_uin == from_uin:
client.dialing_uin = None
if from_uin not in client.contacts:
client.contacts[from_uin] = {"status": "online", "unread": 0, "attention": False}
client.history[from_uin] = ["[SYSTEM]: Handshake accepted. Contact added."]
client.save_config()
client.active_chat = from_uin
client.refresh_ui()
return
elif cmd == "RES_DEC" or cmd == "RES_BSY":
if client.dialing_uin == from_uin:
client.dialing_uin = None
return
if from_uin not in client.contacts:
return
if client.active_chat != from_uin:
client.contacts[from_uin]["unread"] += 1
threading.Thread(target=client.play_and_decode, args=(audio_bytes, from_uin), daemon=True).start()
except Exception as e:
pass
@sio.event
def online_statuses_response(data):
for uin, status in data.items():
if uin in client.contacts:
client.contacts[uin]["status"] = status
client.refresh_ui()
@sio.event
def error(data):
msg = data.get("message")
target = data.get("target_uin")
if msg == "offline" and target:
if client.dialing_uin == target:
client.dialing_uin = None
if target in client.contacts:
client.contacts[target]["status"] = "offline"
client.add_to_history(target, f"[SYSTEM]: They went offline. Outgoing stack will be preserved.")
def status_checker_thread(): def status_checker_thread():
while client.loop_running: while client.loop_running:
if sio.connected and client.contacts: if socket_manager.sio.connected and client.contacts:
sio.emit("check_online_statuses", list(client.contacts.keys())) socket_manager.sio.emit("check_online_statuses", list(client.contacts.keys()))
for uin in list(client.contacts.keys()): for uin in list(client.contacts.keys()):
if client.contacts[uin]["status"] == "online" and client.preserved.get(uin): if client.contacts[uin]["status"] == "online" and client.preserved.get(uin):
while client.preserved[uin]: while client.preserved[uin]:
p_text = client.preserved[uin].pop(0) p_text = client.preserved[uin].pop(0)
audio_b = client.text_to_audio(p_text) audio_b = protocol.text_to_audio(p_text)
p_b64 = base64.b64encode(audio_b).decode('utf-8') p_b64 = base64.b64encode(audio_b).decode('utf-8')
sio.emit("relay_packet", {"to_uin": uin, "payload": p_b64}) socket_manager.sio.emit("relay_packet", {"to_uin": uin, "payload": p_b64})
client.add_to_history(uin, f"[You]: {p_text}") client.add_to_history(uin, f"[You]: {p_text}")
client.save_config() client.save_config()
time.sleep(10) time.sleep(10)
@ -477,7 +318,7 @@ def make_layout():
if text.lower() == "/exit": if text.lower() == "/exit":
client.loop_running = False client.loop_running = False
sio.disconnect() socket_manager.sio.disconnect()
get_app().exit() get_app().exit()
return return
@ -549,25 +390,25 @@ def make_layout():
client.add_to_history(client.active_chat, "[SYSTEM]: CANNOT SEND. Owner of this room is offline for sync!") client.add_to_history(client.active_chat, "[SYSTEM]: CANNOT SEND. Owner of this room is offline for sync!")
input_field.text = "" input_field.text = ""
return return
audio_b = client.text_to_audio(f"SYS:ROOM_MSG:{client.active_chat}:{client.uin}:{text}") audio_b = protocol.text_to_audio(f"SYS:ROOM_MSG:{client.active_chat}:{client.uin}:{text}")
p_b64 = base64.b64encode(audio_b).decode('utf-8') p_b64 = base64.b64encode(audio_b).decode('utf-8')
if owner_uin == client.uin: if owner_uin == client.uin:
for m in group["members"]: for m in group["members"]:
if m != client.uin and client.contacts.get(m, {}).get("status") == "online": if m != client.uin and client.contacts.get(m, {}).get("status") == "online":
sio.emit("relay_packet", {"to_uin": m, "payload": p_b64}) socket_manager.sio.emit("relay_packet", {"to_uin": m, "payload": p_b64})
else: else:
sio.emit("relay_packet", {"to_uin": owner_uin, "payload": p_b64}) socket_manager.sio.emit("relay_packet", {"to_uin": owner_uin, "payload": p_b64})
client.add_to_history(client.active_chat, f"[You]: {text}") client.add_to_history(client.active_chat, f"[You]: {text}")
input_field.text = "" input_field.text = ""
return return
if text.lower() == "/query": if text.lower() == "/query":
client.send_service_tone(client.active_chat, FREQ_QUERY) client.send_service_tone(client.active_chat, protocol.FREQ_QUERY)
client.add_to_history(client.active_chat, "[SYSTEM]: Sent friendly status query...") client.add_to_history(client.active_chat, "[SYSTEM]: Sent friendly status query...")
input_field.text = "" input_field.text = ""
return return
if text.lower() == "/alert": if text.lower() == "/alert":
client.send_service_tone(client.active_chat, FREQ_ALERT) client.send_service_tone(client.active_chat, protocol.FREQ_ALERT)
client.add_to_history(client.active_chat, "[SYSTEM]: Sent URGENT alert signal (breaks DND)...") client.add_to_history(client.active_chat, "[SYSTEM]: Sent URGENT alert signal (breaks DND)...")
input_field.text = "" input_field.text = ""
return return
@ -576,10 +417,10 @@ def make_layout():
input_field.text = "" input_field.text = ""
return return
audio_b = client.text_to_audio(text) audio_b = protocol.text_to_audio(text)
p_b64 = base64.b64encode(audio_b).decode('utf-8') p_b64 = base64.b64encode(audio_b).decode('utf-8')
if client.contacts[client.active_chat]["status"] == "online": if client.contacts[client.active_chat]["status"] == "online":
sio.emit("relay_packet", {"to_uin": client.active_chat, "payload": p_b64}) socket_manager.sio.emit("relay_packet", {"to_uin": client.active_chat, "payload": p_b64})
client.add_to_history(client.active_chat, f"[You]: {text}") client.add_to_history(client.active_chat, f"[You]: {text}")
else: else:
if client.active_chat not in client.preserved: client.preserved[client.active_chat] = [] if client.active_chat not in client.preserved: client.preserved[client.active_chat] = []
@ -701,7 +542,7 @@ def make_layout():
win_info = client.pending_windows.pop(0) win_info = client.pending_windows.pop(0)
target_uin = win_info["uin"] target_uin = win_info["uin"]
client.is_busy = True client.is_busy = True
client.send_service_tone(target_uin, FREQ_RESP_YES) client.send_service_tone(target_uin, protocol.FREQ_RESP_YES)
client.add_to_history(target_uin, "[You -> SYSTEM]: Sent Dial Tone -> Yes, I'm busy.") client.add_to_history(target_uin, "[You -> SYSTEM]: Sent Dial Tone -> Yes, I'm busy.")
client.refresh_ui() client.refresh_ui()
@ -710,7 +551,7 @@ def make_layout():
def _(event): def _(event):
win_info = client.pending_windows.pop(0) win_info = client.pending_windows.pop(0)
target_uin = win_info["uin"] target_uin = win_info["uin"]
client.send_service_tone(target_uin, FREQ_RESP_NO) client.send_service_tone(target_uin, protocol.FREQ_RESP_NO)
client.add_to_history(target_uin, "[You -> SYSTEM]: Sent Dial Tone -> No, go on.") client.add_to_history(target_uin, "[You -> SYSTEM]: Sent Dial Tone -> No, go on.")
client.refresh_ui() client.refresh_ui()
@ -735,7 +576,7 @@ def make_layout():
@kb.add('c-c') @kb.add('c-c')
def _(event): def _(event):
client.loop_running = False client.loop_running = False
sio.disconnect() socket_manager.sio.disconnect()
event.app.exit() event.app.exit()
return Layout(root_container, focused_element=input_field), kb return Layout(root_container, focused_element=input_field), kb
@ -770,6 +611,9 @@ def main():
is_new_registration = False is_new_registration = False
# Initialize the cross-module link so network callbacks can manipulate local state
socket_manager.init_network(client)
if not client.load_config(): if not client.load_config():
print("!" * 60) print("!" * 60)
print("WARNING: All data is local.") print("WARNING: All data is local.")
@ -779,7 +623,7 @@ def main():
if not client.server_url.startswith("http://") and not client.server_url.startswith("https://"): if not client.server_url.startswith("http://") and not client.server_url.startswith("https://"):
client.server_url = "http://" + client.server_url client.server_url = "http://" + client.server_url
try: sio.connect(client.server_url, transports=['websocket']) try: socket_manager.sio.connect(client.server_url, transports=['websocket'])
except Exception as e: return except Exception as e: return
print("\n1. Register\n2. Login") print("\n1. Register\n2. Login")
@ -789,7 +633,7 @@ def main():
event_wait = threading.Event() event_wait = threading.Event()
@sio.event @socket_manager.sio.event
def register_response(data): def register_response(data):
nonlocal is_new_registration nonlocal is_new_registration
if data["status"] == "success": if data["status"] == "success":
@ -799,7 +643,7 @@ def main():
is_new_registration = True is_new_registration = True
event_wait.set() event_wait.set()
@sio.event @socket_manager.sio.event
def login_response(data): def login_response(data):
if data["status"] == "success": if data["status"] == "success":
client.uin = username_or_uin client.uin = username_or_uin
@ -807,8 +651,8 @@ def main():
client.password = password client.password = password
event_wait.set() event_wait.set()
if mode == "1": sio.emit("register", {"username": username_or_uin, "password": password}) if mode == "1": socket_manager.sio.emit("register", {"username": username_or_uin, "password": password})
else: sio.emit("login", {"uin": username_or_uin, "password": password}) else: socket_manager.sio.emit("login", {"uin": username_or_uin, "password": password})
event_wait.wait() event_wait.wait()
if not client.uin: return if not client.uin: return
@ -816,8 +660,8 @@ def main():
input("Press Enter to open TUI...") input("Press Enter to open TUI...")
else: else:
try: try:
sio.connect(client.server_url, transports=['websocket']) socket_manager.sio.connect(client.server_url, transports=['websocket'])
sio.emit("login", {"uin": client.uin, "password": client.password}) socket_manager.sio.emit("login", {"uin": client.uin, "password": client.password})
except: pass except: pass
if is_new_registration: if is_new_registration:

40
compile.py Normal file
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@ -0,0 +1,40 @@
import os
import subprocess
import sys
import shutil
import platform
REPO_URL = "https://git.idkmail.ru/lohrrrr/TyChat-Client.git"
PROJECT_DIR = "TyChat-Client-Build"
VENV_DIR = os.path.join(PROJECT_DIR, "venv")
ENTRY_POINT = "TUI.py"
def run_cmd(cmd, cwd=None):
subprocess.run(cmd, cwd=cwd, check=True)
def setup_build():
if os.path.exists(PROJECT_DIR):
shutil.rmtree(PROJECT_DIR)
print(f"[*] Cloning repository...")
run_cmd(["git", "clone", REPO_URL, PROJECT_DIR])
print(f"[*] Creating virtual environment...")
run_cmd([sys.executable, "-m", "venv", VENV_DIR])
if platform.system() == "Windows":
pip_path = os.path.join(VENV_DIR, "Scripts", "pip")
pyinstaller_path = os.path.join(VENV_DIR, "Scripts", "pyinstaller")
else:
pip_path = os.path.join(VENV_DIR, "bin", "pip")
pyinstaller_path = os.path.join(VENV_DIR, "bin", "pyinstaller")
print(f"[*] Installing dependencies...")
run_cmd([pip_path, "install", "pyinstaller", "socketio", "websocket-client", "numpy", "sounddevice", "prompt_toolkit"])
print(f"[*] Building standalone binary...")
run_cmd([pyinstaller_path, "--onefile", "--name", "TyChat", ENTRY_POINT], cwd=PROJECT_DIR)
print(f"\n[!] Build Complete! Find your binary in: {os.path.join(PROJECT_DIR, 'dist')}")
if __name__ == "__main__":
setup_build()

67
protocol.py Normal file
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@ -0,0 +1,67 @@
import numpy as np
BASE_FREQ = 600
FREQ_STEP = 25
TONE_DURATION = 0.1
SAMPLE_RATE = 44100
FREQ_QUERY = 1200
FREQ_ALERT = 1400
FREQ_RESP_YES = 1600
FREQ_RESP_NO = 1800
def generate_service_tone(frequency, duration=0.4):
t = np.linspace(0, duration, int(SAMPLE_RATE * duration), False)
tone = np.sin(frequency * t * 2 * np.pi) * 0.7
envelope = np.ones_like(tone)
fade_len = int(SAMPLE_RATE * 0.05)
envelope[:fade_len] = np.linspace(0, 1, fade_len)
envelope[-fade_len:] = np.linspace(1, 0, fade_len)
return (tone * envelope).astype(np.float32).tobytes()
def text_to_audio(text):
audio_signals = []
t_start = np.linspace(0, 0.3, int(SAMPLE_RATE * 0.3), False)
audio_signals.append(np.sin(1000 * t_start * 2 * np.pi))
for char in text:
freq = BASE_FREQ + ord(char) * FREQ_STEP
t = np.linspace(0, TONE_DURATION, int(SAMPLE_RATE * TONE_DURATION), False)
audio_signals.append(np.sin(freq * t * 2 * np.pi))
full_audio = np.concatenate(audio_signals).astype(np.float32)
if np.max(np.abs(full_audio)) > 0:
full_audio = full_audio / np.max(np.abs(full_audio))
return full_audio.tobytes()
def detect_service_tone(audio_data):
try:
window_data = np.hanning(len(audio_data))
fft_data = np.abs(np.fft.rfft(audio_data * window_data))
frequencies = np.fft.rfftfreq(len(audio_data), d=1/SAMPLE_RATE)
detected_freq = frequencies[np.argmax(fft_data)]
for target in [FREQ_QUERY, FREQ_ALERT, FREQ_RESP_YES, FREQ_RESP_NO]:
if abs(detected_freq - target) <= 15:
return target
return None
except:
return None
def fast_decode(audio_data):
try:
samples_per_tone = int(SAMPLE_RATE * TONE_DURATION)
current_sample = int(SAMPLE_RATE * 0.3)
text = ""
while current_sample < len(audio_data):
chunk = audio_data[current_sample : current_sample + samples_per_tone]
if len(chunk) < samples_per_tone:
break
window_data = np.hanning(len(chunk))
fft_data = np.abs(np.fft.rfft(chunk * window_data))
frequencies = np.fft.rfftfreq(len(chunk), d=1/SAMPLE_RATE)
detected_freq = frequencies[np.argmax(fft_data)]
ascii_code = int(round((detected_freq - BASE_FREQ) / FREQ_STEP))
if 0 <= ascii_code < 65535:
text += chr(ascii_code)
current_sample += samples_per_tone
return text
except:
return ""

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import socketio
import base64
import numpy as np
import threading
import sounddevice as sd
import protocol
sio = socketio.Client()
_client_instance = None
def init_network(client_instance):
"""Binds the network events to the active TUI client instance state."""
global _client_instance
_client_instance = client_instance
@sio.event
def incoming_packet(data):
if not _client_instance: return
from_uin = data["from_uin"]
payload_base64 = data["payload"]
try:
audio_bytes = base64.b64decode(payload_base64.encode('utf-8'))
audio_data = np.frombuffer(audio_bytes, dtype=np.float32)
srv_tone = protocol.detect_service_tone(audio_data)
if srv_tone:
sd.play(audio_data, protocol.SAMPLE_RATE)
if from_uin not in _client_instance.contacts:
return
if srv_tone == protocol.FREQ_QUERY:
if _client_instance.is_busy:
_client_instance.send_service_tone(from_uin, protocol.FREQ_RESP_YES)
else:
_client_instance.pending_windows.append({"type": "query", "uin": from_uin})
_client_instance.refresh_ui()
return
elif srv_tone == protocol.FREQ_ALERT:
_client_instance.pending_windows.append({"type": "alert", "uin": from_uin})
_client_instance.refresh_ui()
return
elif srv_tone == protocol.FREQ_RESP_YES:
_client_instance.add_to_history(from_uin, f"[SYSTEM]: Quick status answer -> Yes, I'm busy")
return
elif srv_tone == protocol.FREQ_RESP_NO:
_client_instance.add_to_history(from_uin, f"[SYSTEM]: Quick status answer -> No, go on")
return
fast_text = protocol.fast_decode(audio_data)
if fast_text.startswith("SYS:"):
cmd = fast_text[4:]
if cmd.startswith("ROOM_MSG:"):
parts = cmd.split(":", 3)
if len(parts) >= 4:
room_id = parts[1]
sender_uin = parts[2]
actual_msg = parts[3]
if room_id in _client_instance.groups:
_client_instance.add_to_history(room_id, f"[UIN {sender_uin}]: {actual_msg}")
return
elif cmd == "REQ_ADD":
if from_uin in _client_instance.blocklist:
_client_instance.send_sys_packet(from_uin, "RES_DEC")
elif _client_instance.is_busy:
_client_instance.send_sys_packet(from_uin, "RES_BSY")
else:
if from_uin not in _client_instance.pending_requests and from_uin not in _client_instance.contacts:
_client_instance.pending_requests.append(from_uin)
_client_instance.refresh_ui()
return
elif cmd == "RES_ACC":
if _client_instance.dialing_uin == from_uin:
_client_instance.dialing_uin = None
if from_uin not in _client_instance.contacts:
_client_instance.contacts[from_uin] = {"status": "online", "unread": 0, "attention": False}
_client_instance.history[from_uin] = ["[SYSTEM]: Handshake accepted. Contact added."]
_client_instance.save_config()
_client_instance.active_chat = from_uin
_client_instance.refresh_ui()
return
elif cmd == "RES_DEC" or cmd == "RES_BSY":
if _client_instance.dialing_uin == from_uin:
_client_instance.dialing_uin = None
return
if from_uin not in _client_instance.contacts:
return
if _client_instance.active_chat != from_uin:
_client_instance.contacts[from_uin]["unread"] += 1
threading.Thread(target=_client_instance.play_and_decode, args=(audio_bytes, from_uin), daemon=True).start()
except Exception as e:
pass
@sio.event
def online_statuses_response(data):
if not _client_instance: return
for uin, status in data.items():
if uin in _client_instance.contacts:
_client_instance.contacts[uin]["status"] = status
_client_instance.refresh_ui()
@sio.event
def error(data):
if not _client_instance: return
msg = data.get("message")
target = data.get("target_uin")
if msg == "offline" and target:
if _client_instance.dialing_uin == target:
_client_instance.dialing_uin = None
if target in _client_instance.contacts:
_client_instance.contacts[target]["status"] = "offline"
_client_instance.add_to_history(target, f"[SYSTEM]: They went offline. Outgoing stack will be preserved.")