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feat(DBNetClient): TCP JSON 协议桌面测试工具

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- tcp_json_client.py: 协议客户端库 — 行分隔JSON, 请求-响应, 主动推送接收
- main.py: tkinter 跨平台 GUI — 7个标签页覆盖全部15条命令
- 虚拟环境: venv/, 无额外依赖(tkinter 标准库)
- 支持: 鉴权/设备信息/网络配置/IoT配置/线圈参数/系统操作/Raw JSON
This commit is contained in:
wangfq
2026-06-30 15:32:57 +08:00
parent d2321fdec2
commit 8b4404d5b3
4 changed files with 784 additions and 0 deletions
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DBNetClient/.gitignore vendored Normal file
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venv/
__pycache__/
*.pyc

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#!/usr/bin/env python3
"""
DBNetClient — DLD960 TCP JSON 协议测试工具
跨平台桌面应用 (tkinter),用于测试 vd960DBN 的网络接口协议。
"""
import sys
import os
import threading
import tkinter as tk
from tkinter import ttk, scrolledtext, messagebox
from tcp_json_client import DBNetClient, TcpJsonError
APP_TITLE = "DBNetClient — DLD960 TCP JSON 协议测试工具"
class DBNetApp:
def __init__(self, root: tk.Tk):
self.root = root
self.root.title(APP_TITLE)
self.root.geometry("960x720")
self.root.minsize(800, 600)
self.client = DBNetClient(log_callback=self.log)
self.client.on_push("loop_data", self.on_loop_data)
self.client.on_push("event_report", self.on_event_report)
self._build_ui()
self._set_defaults()
# ==================================================================
# UI
# ==================================================================
def _build_ui(self):
# ---- Top: Connection bar ----
top = ttk.Frame(self.root, padding=5)
top.pack(fill=tk.X)
ttk.Label(top, text="Host:").pack(side=tk.LEFT)
self.host_var = tk.StringVar(value="192.168.1.188")
ttk.Entry(top, textvariable=self.host_var, width=14).pack(side=tk.LEFT, padx=2)
ttk.Label(top, text="Port:").pack(side=tk.LEFT, padx=(8, 0))
self.port_var = tk.IntVar(value=5960)
ttk.Entry(top, textvariable=self.port_var, width=6).pack(side=tk.LEFT, padx=2)
self.btn_conn = ttk.Button(top, text="Connect", command=self._toggle_connect)
self.btn_conn.pack(side=tk.LEFT, padx=8)
self.conn_status = ttk.Label(top, text="● Disconnected", foreground="red")
self.conn_status.pack(side=tk.LEFT, padx=5)
ttk.Separator(self.root, orient=tk.HORIZONTAL).pack(fill=tk.X, pady=2)
# ---- Notebook ----
nb = ttk.Notebook(self.root)
nb.pack(fill=tk.BOTH, expand=True, padx=5, pady=2)
nb.add(self._tab_auth(nb), text="鉴权")
nb.add(self._tab_devinfo(nb), text="设备信息")
nb.add(self._tab_network(nb), text="网络配置")
nb.add(self._tab_iot(nb), text="IoT 配置")
nb.add(self._tab_loop(nb), text="线圈参数")
nb.add(self._tab_system(nb), text="系统")
nb.add(self._tab_raw(nb), text="Raw JSON")
# ---- Bottom: Log ----
log_frame = ttk.LabelFrame(self.root, text="日志 / 原始响应", padding=2)
log_frame.pack(fill=tk.BOTH, expand=True, padx=5, pady=(0, 5))
self.log_text = scrolledtext.ScrolledText(log_frame, height=8, wrap=tk.WORD,
font=("Consolas", 9))
self.log_text.pack(fill=tk.BOTH, expand=True)
self.log_text.tag_configure("sent", foreground="blue")
self.log_text.tag_configure("recv", foreground="green")
self.log_text.tag_configure("error", foreground="red")
self.log_text.tag_configure("push", foreground="purple")
# ---- Bottom buttons ----
btn_frame = ttk.Frame(self.root, padding=5)
btn_frame.pack(fill=tk.X)
ttk.Button(btn_frame, text="Clear Log", command=self._clear_log).pack(side=tk.RIGHT)
def _set_defaults(self):
self._entry_set(self.pwd_var, "123456")
# ---- Tab builders ----
def _tab_auth(self, parent):
f = ttk.Frame(parent, padding=10)
ttk.Label(f, text="设备密码 (6位数字):").grid(row=0, column=0, sticky=tk.W, pady=5)
self.pwd_var = tk.StringVar()
ttk.Entry(f, textvariable=self.pwd_var, width=12, show="*").grid(row=0, column=1, sticky=tk.W, padx=5)
ttk.Button(f, text="鉴权 (pwd_verify)", command=self._do_pwd_verify).grid(row=0, column=2, padx=10)
ttk.Separator(f, orient=tk.HORIZONTAL).grid(row=1, column=0, columnspan=3,
sticky=tk.EW, pady=10)
ttk.Label(f, text="连接后必须先鉴权,才能执行其他命令。\n连续3次错误将锁定60秒。",
foreground="gray").grid(row=2, column=0, columnspan=3, pady=5)
return f
def _tab_devinfo(self, parent):
f = ttk.Frame(parent, padding=10)
ttk.Button(f, text="查询设备信息", command=self._do_dev_info_query).pack(anchor=tk.W, pady=3)
ttk.Separator(f, orient=tk.HORIZONTAL).pack(fill=tk.X, pady=8)
ttk.Label(f, text="更改设备序列码 (12位HEX):").pack(anchor=tk.W)
row = ttk.Frame(f)
row.pack(fill=tk.X, pady=5)
self.serial_var = tk.StringVar()
ttk.Entry(row, textvariable=self.serial_var, width=18).pack(side=tk.LEFT, padx=5)
ttk.Button(row, text="设置", command=self._do_dev_serial_set).pack(side=tk.LEFT)
ttk.Separator(f, orient=tk.HORIZONTAL).pack(fill=tk.X, pady=8)
# Response display
self.devinfo_text = scrolledtext.ScrolledText(f, height=10, wrap=tk.WORD,
font=("Consolas", 9))
self.devinfo_text.pack(fill=tk.BOTH, expand=True)
return f
def _tab_network(self, parent):
f = ttk.Frame(parent, padding=10)
# SSC Net fields
fields = [
("设备 IP:", "dev_ip"),
("子网掩码:", "subnet"),
("网关:", "route_ip"),
("LSSC IP:", "lssc_ip"),
("DNS:", "dns"),
("LSSC Port:", "ssc_port"),
]
self.net_vars = {}
for i, (label, key) in enumerate(fields):
ttk.Label(f, text=label).grid(row=i, column=0, sticky=tk.W, pady=2)
var = tk.StringVar()
self.net_vars[key] = var
ttk.Entry(f, textvariable=var, width=18).grid(row=i, column=1, sticky=tk.W, padx=5)
btn_row = ttk.Frame(f)
btn_row.grid(row=len(fields), column=0, columnspan=2, pady=10)
ttk.Button(btn_row, text="查询 (ssc_net_query)", command=self._do_ssc_net_query).pack(side=tk.LEFT, padx=5)
ttk.Button(btn_row, text="设置 (ssc_net_set)", command=self._do_ssc_net_set).pack(side=tk.LEFT, padx=5)
self.net_resp = ttk.Label(f, text="", foreground="gray")
self.net_resp.grid(row=len(fields) + 1, column=0, columnspan=2, pady=5)
return f
def _tab_iot(self, parent):
f = ttk.Frame(parent, padding=10)
iot_fields = [
("MQTT Host:", "iot_host"),
("MQTT Port:", "iot_port"),
("Client ID:", "iot_client_id"),
("Username:", "iot_user"),
("Password:", "iot_pwd"),
("Topic Pub:", "topic_pub"),
("Topic Sub:", "topic_sub"),
]
self.iot_vars = {}
for i, (label, key) in enumerate(iot_fields):
ttk.Label(f, text=label).grid(row=i, column=0, sticky=tk.W, pady=2)
var = tk.StringVar()
self.iot_vars[key] = var
ttk.Entry(f, textvariable=var, width=24).grid(row=i, column=1, sticky=tk.W, padx=5)
self.iot_cid_var = tk.BooleanVar(value=False)
ttk.Checkbutton(f, text="Topic 追加 Client ID",
variable=self.iot_cid_var).grid(row=len(iot_fields), column=0, columnspan=2, pady=5)
btn_row = ttk.Frame(f)
btn_row.grid(row=len(iot_fields) + 1, column=0, columnspan=2, pady=5)
ttk.Button(btn_row, text="IoT 查询", command=self._do_iot_net_query).pack(side=tk.LEFT, padx=5)
ttk.Button(btn_row, text="IoT 设置", command=self._do_iot_net_set).pack(side=tk.LEFT, padx=5)
ttk.Button(btn_row, text="Topic 查询", command=self._do_iot_topic_query).pack(side=tk.LEFT, padx=5)
ttk.Button(btn_row, text="Topic 设置", command=self._do_iot_topic_set).pack(side=tk.LEFT, padx=5)
self.iot_resp = ttk.Label(f, text="", foreground="gray")
self.iot_resp.grid(row=len(iot_fields) + 2, column=0, columnspan=2, pady=5)
return f
def _tab_loop(self, parent):
f = ttk.Frame(parent, padding=10)
ttk.Button(f, text="查询线圈参数 (loop_param_query)",
command=self._do_loop_param_query).pack(anchor=tk.W, pady=3)
ttk.Label(f, text="参数设置通过 BLE/小程序,或 Raw JSON 标签页发送。",
foreground="gray").pack(anchor=tk.W, pady=5)
self.loop_text = scrolledtext.ScrolledText(f, height=12, wrap=tk.WORD,
font=("Consolas", 9))
self.loop_text.pack(fill=tk.BOTH, expand=True)
return f
def _tab_system(self, parent):
f = ttk.Frame(parent, padding=10)
# Change password
ttk.Label(f, text="修改设备密码:").grid(row=0, column=0, sticky=tk.W, pady=3)
ttk.Label(f, text="旧密码:").grid(row=1, column=0, sticky=tk.W)
self.old_pwd_var = tk.StringVar()
ttk.Entry(f, textvariable=self.old_pwd_var, width=12, show="*").grid(row=1, column=1, sticky=tk.W, padx=5)
ttk.Label(f, text="新密码:").grid(row=2, column=0, sticky=tk.W)
self.new_pwd_var = tk.StringVar()
ttk.Entry(f, textvariable=self.new_pwd_var, width=12, show="*").grid(row=2, column=1, sticky=tk.W, padx=5)
ttk.Button(f, text="修改密码", command=self._do_pwd_set).grid(row=2, column=2, padx=10)
ttk.Separator(f, orient=tk.HORIZONTAL).grid(row=3, column=0, columnspan=3,
sticky=tk.EW, pady=10)
# Reset
ttk.Label(f, text="⚠ 危险操作:", foreground="red").grid(row=4, column=0, sticky=tk.W)
btn_row = ttk.Frame(f)
btn_row.grid(row=5, column=0, columnspan=3, pady=5)
ttk.Button(btn_row, text="设备复位 (device_reset)",
command=self._do_device_reset).pack(side=tk.LEFT, padx=5)
ttk.Button(btn_row, text="出厂初始化 (factory_reset)",
command=self._do_factory_reset).pack(side=tk.LEFT, padx=5)
self.sys_resp = ttk.Label(f, text="", foreground="gray")
self.sys_resp.grid(row=6, column=0, columnspan=3, pady=5)
return f
def _tab_raw(self, parent):
f = ttk.Frame(parent, padding=10)
ttk.Label(f, text="直接输入 JSON 命令(一行一条,不含换行符):").pack(anchor=tk.W)
self.raw_input = scrolledtext.ScrolledText(f, height=5, font=("Consolas", 10))
self.raw_input.pack(fill=tk.X, pady=5)
self.raw_input.insert(tk.END,
'{"msg_id":1,"cmd":"dev_info_query","ts":0}\n'
'{"msg_id":1,"cmd":"pwd_verify","ts":0,"data":{"password":"123456"}}\n')
ttk.Button(f, text="发送选中行", command=self._do_raw_send).pack(anchor=tk.W)
self.raw_resp = scrolledtext.ScrolledText(f, height=8, font=("Consolas", 9))
self.raw_resp.pack(fill=tk.BOTH, expand=True, pady=5)
return f
# ==================================================================
# Helpers
# ==================================================================
def _entry_set(self, var, value):
var.set(value)
def _check_set(self, var, value):
var.set(value)
def log(self, msg: str):
"""线程安全的日志输出"""
self.root.after(0, self._log_append, msg)
def _log_append(self, msg: str):
tag = "recv"
if msg.startswith(">>>"):
tag = "sent"
elif msg.startswith("<<<"):
tag = "recv" if "code=" in msg else "push"
elif "error" in msg.lower() or "fail" in msg.lower():
tag = "error"
self.log_text.insert(tk.END, msg + "\n", tag)
self.log_text.see(tk.END)
def _clear_log(self):
self.log_text.delete("1.0", tk.END)
def _set_status(self, connected: bool):
if connected:
self.conn_status.config(text="● Connected", foreground="green")
self.btn_conn.config(text="Disconnect")
else:
self.conn_status.config(text="● Disconnected", foreground="red")
self.btn_conn.config(text="Connect")
def _bg_run(self, fn, on_done=None):
"""在后台线程执行 fn完成后回调 on_done(result)"""
def _run():
try:
result = fn()
except TcpJsonError as e:
result = e
except Exception as e:
result = e
if on_done:
self.root.after(0, on_done, result)
threading.Thread(target=_run, daemon=True).start()
def _show_resp(self, widget, resp):
"""将响应 dict 显示在 Text widget 中"""
import json as _json
if isinstance(resp, Exception):
widget.delete("1.0", tk.END)
widget.insert(tk.END, f"Error: {resp}")
else:
widget.delete("1.0", tk.END)
widget.insert(tk.END, _json.dumps(resp, indent=2, ensure_ascii=False))
def _show_label(self, label_widget, resp):
if isinstance(resp, Exception):
label_widget.config(text=str(resp), foreground="red")
else:
code = resp.get("code", -1)
msg = resp.get("msg", "")
if code == 0:
label_widget.config(text=f"{msg}", foreground="green")
else:
label_widget.config(text=f"✗ [{code}] {msg}", foreground="red")
# ==================================================================
# Button handlers
# ==================================================================
def _toggle_connect(self):
if self.client.is_connected:
self.client.disconnect()
self._set_status(False)
else:
host = self.host_var.get().strip()
port = self.port_var.get()
try:
self.client.connect(host, port)
self._set_status(True)
except Exception as e:
messagebox.showerror("Connection Error", str(e))
# Auth
def _do_pwd_verify(self):
pwd = self.pwd_var.get().strip()
self._bg_run(lambda: self.client.pwd_verify(pwd),
lambda r: messagebox.showinfo("鉴权结果",
"✓ 鉴权成功" if (not isinstance(r, Exception) and r.get("code") == 0)
else f"{r}"))
# Device Info
def _do_dev_info_query(self):
self._bg_run(lambda: self.client.dev_info_query(),
lambda r: self._show_resp(self.devinfo_text, r))
def _do_dev_serial_set(self):
s = self.serial_var.get().strip()
if len(s) != 12:
messagebox.showerror("Error", "序列码必须为12位HEX")
return
self._bg_run(lambda: self.client.dev_serial_set(s),
lambda r: self._show_resp(self.devinfo_text, r))
# SSC Network
def _do_ssc_net_query(self):
self._bg_run(lambda: self.client.ssc_net_query(),
lambda r: self._show_label(self.net_resp, r) if isinstance(r, Exception)
else self._fill_net_vars(r.get("data", {})))
def _fill_net_vars(self, data: dict):
self.net_vars["dev_ip"].set(data.get("dev_ip", ""))
self.net_vars["subnet"].set(data.get("subnet_mask", ""))
self.net_vars["route_ip"].set(data.get("route_ip", ""))
self.net_vars["lssc_ip"].set(data.get("lssc_ip", ""))
self.net_vars["dns"].set(data.get("dns", ""))
self.net_vars["ssc_port"].set(str(data.get("port", "")))
self.net_resp.config(text="✓ 查询成功", foreground="green")
def _do_ssc_net_set(self):
port_str = self.net_vars["ssc_port"].get().strip()
port = int(port_str) if port_str else 0
self._bg_run(
lambda: self.client.ssc_net_set(
dev_ip=self.net_vars["dev_ip"].get().strip(),
subnet_mask=self.net_vars["subnet"].get().strip(),
route_ip=self.net_vars["route_ip"].get().strip(),
lssc_ip=self.net_vars["lssc_ip"].get().strip(),
dns=self.net_vars["dns"].get().strip(),
port=port),
lambda r: self._show_label(self.net_resp, r))
# IoT
def _do_iot_net_query(self):
self._bg_run(lambda: self.client.iot_net_query(),
lambda r: self._show_label(self.iot_resp, r) if isinstance(r, Exception)
else self._fill_iot_vars(r.get("data", {})))
def _fill_iot_vars(self, data: dict):
self.iot_vars["iot_host"].set(data.get("host", ""))
self.iot_vars["iot_port"].set(str(data.get("port", "")))
self.iot_vars["iot_client_id"].set(data.get("client_id", ""))
self.iot_vars["iot_user"].set(data.get("username", ""))
self.iot_vars["iot_pwd"].set(data.get("password", ""))
self.iot_resp.config(text="✓ 查询成功", foreground="green")
def _do_iot_net_set(self):
port_str = self.iot_vars["iot_port"].get().strip()
port = int(port_str) if port_str else 0
self._bg_run(
lambda: self.client.iot_net_set(
host=self.iot_vars["iot_host"].get().strip(),
port=port,
client_id=self.iot_vars["iot_client_id"].get().strip(),
username=self.iot_vars["iot_user"].get().strip(),
password=self.iot_vars["iot_pwd"].get().strip()),
lambda r: self._show_label(self.iot_resp, r))
def _do_iot_topic_query(self):
self._bg_run(lambda: self.client.iot_topic_query(),
lambda r: self._show_label(self.iot_resp, r) if isinstance(r, Exception)
else self._fill_topic_vars(r.get("data", {})))
def _fill_topic_vars(self, data: dict):
self.iot_vars["topic_pub"].set(data.get("topic_pub", ""))
self.iot_vars["topic_sub"].set(data.get("topic_sub", ""))
self.iot_cid_var.set(data.get("client_id_enable", False))
self.iot_resp.config(text="✓ 查询成功", foreground="green")
def _do_iot_topic_set(self):
self._bg_run(
lambda: self.client.iot_topic_set(
client_id_enable=self.iot_cid_var.get(),
topic_pub=self.iot_vars["topic_pub"].get().strip(),
topic_sub=self.iot_vars["topic_sub"].get().strip()),
lambda r: self._show_label(self.iot_resp, r))
# Loop
def _do_loop_param_query(self):
self._bg_run(lambda: self.client.loop_param_query(),
lambda r: self._show_resp(self.loop_text, r))
# System
def _do_pwd_set(self):
old = self.old_pwd_var.get().strip()
new = self.new_pwd_var.get().strip()
if len(old) != 6 or len(new) != 6:
messagebox.showerror("Error", "密码必须为6位数字")
return
self._bg_run(lambda: self.client.pwd_set(old, new),
lambda r: self._show_label(self.sys_resp, r))
def _do_device_reset(self):
if not messagebox.askyesno("确认", "设备复位后连接将断开,确定?"):
return
self._bg_run(lambda: self.client.device_reset(),
lambda r: self._set_status(False))
def _do_factory_reset(self):
if not messagebox.askyesno("确认", "恢复出厂设置将清除所有配置并复位,确定?"):
return
self._bg_run(lambda: self.client.factory_reset(),
lambda r: self._set_status(False))
# Raw JSON
def _do_raw_send(self):
raw = self.raw_input.get("sel.first", "sel.last")
if not raw:
raw = self.raw_input.get("1.0", tk.END)
for line in raw.strip().split("\n"):
line = line.strip()
if not line:
continue
try:
import json as _json
obj = _json.loads(line)
cmd = obj.get("cmd", "unknown")
data = obj.get("data")
self._bg_run(
lambda c=cmd, d=data: self.client._tcp.send_command(c, d),
lambda r: self._show_resp(self.raw_resp, r))
except Exception as e:
self.raw_resp.insert(tk.END, f"Parse error: {e}\n")
# Push handlers
def on_loop_data(self, cmd, data):
self.log(f"<<< PUSH loop_data: {data}")
def on_event_report(self, cmd, data):
self.log(f"<<< PUSH event_report: {data}")
def main():
root = tk.Tk()
app = DBNetApp(root)
# 窗口关闭时断开连接
def on_close():
if app.client.is_connected:
app.client.disconnect()
root.destroy()
root.protocol("WM_DELETE_WINDOW", on_close)
root.mainloop()
if __name__ == "__main__":
main()

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DBNetClient/requirements.txt Normal file
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# DBNetClient — DLD960 TCP JSON 协议测试工具
# 无需额外依赖tkinter 为 Python 标准库
# 如果 Linux 系统缺少 tkintersudo apt install python3-tk

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DBNetClient/tcp_json_client.py Normal file
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"""
TCP JSON Protocol Client — DLD960 TCP JSON 协议客户端
行分隔 JSON 帧,请求-响应模式,自动 msg_id 递增。
"""
import json
import socket
import threading
import time
class TcpJsonError(Exception):
"""协议错误"""
pass
class TcpJsonClient:
"""DLD960 TCP JSON 协议客户端"""
def __init__(self, log_callback=None):
self._sock: socket.socket | None = None
self._msg_id = 0
self._buf = b""
self._lock = threading.Lock()
self._running = False
self._recv_thread: threading.Thread | None = None
self._pending: dict[int, dict] = {} # msg_id -> response future
self._push_handlers: dict[str, callable] = {}
self._log = log_callback or (lambda msg: None)
# ---- Connection ----
def connect(self, host: str, port: int = 5960, timeout: float = 5.0) -> None:
"""建立 TCP 连接"""
if self._sock:
self.disconnect()
self._sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self._sock.settimeout(timeout)
self._sock.connect((host, port))
self._sock.settimeout(None) # 接收线程用阻塞模式
self._running = True
self._buf = b""
self._recv_thread = threading.Thread(target=self._recv_loop, daemon=True)
self._recv_thread.start()
self._log(f"Connected to {host}:{port}")
def disconnect(self) -> None:
"""断开连接"""
self._running = False
if self._sock:
try:
self._sock.shutdown(socket.SHUT_RDWR)
except OSError:
pass
self._sock.close()
self._sock = None
self._buf = b""
with self._lock:
# 唤醒所有等待的请求
for mid, fut in self._pending.items():
fut["error"] = "disconnected"
fut["event"].set()
self._pending.clear()
self._log("Disconnected")
@property
def is_connected(self) -> bool:
return self._sock is not None and self._running
# ---- Sending ----
def _next_msg_id(self) -> int:
self._msg_id += 1
return self._msg_id
def send_command(self, cmd: str, data: dict | None = None,
timeout: float = 5.0) -> dict:
"""发送命令并等待响应,返回完整响应 dict"""
if not self.is_connected:
raise TcpJsonError("Not connected")
msg_id = self._next_msg_id()
frame = {"msg_id": msg_id, "cmd": cmd, "ts": int(time.time())}
if data:
frame["data"] = data
raw = json.dumps(frame, separators=(",", ":")) + "\n"
event = threading.Event()
with self._lock:
self._pending[msg_id] = {"event": event, "response": None, "error": None}
try:
self._sock.sendall(raw.encode("utf-8"))
self._log(f">>> {cmd} (msg_id={msg_id})")
except OSError as e:
with self._lock:
self._pending.pop(msg_id, None)
raise TcpJsonError(f"Send failed: {e}")
if not event.wait(timeout):
with self._lock:
self._pending.pop(msg_id, None)
raise TcpJsonError(f"Timeout waiting for response to {cmd}")
with self._lock:
fut = self._pending.pop(msg_id, None)
if fut is None:
raise TcpJsonError("Response already consumed")
if fut["error"]:
raise TcpJsonError(fut["error"])
return fut["response"]
# ---- Push handlers ----
def on_push(self, cmd: str, handler: callable) -> None:
"""注册主动推送处理器 handler(cmd, data_dict)"""
self._push_handlers[cmd] = handler
# ---- Receive loop ----
def _recv_loop(self) -> None:
"""后台接收线程"""
while self._running:
try:
data = self._sock.recv(4096)
if not data:
self._log("Connection closed by server")
break
self._buf += data
self._parse_frames()
except OSError:
if self._running:
self._log("Receive error")
break
def _parse_frames(self) -> None:
"""从缓冲区提取完整 JSON 帧并分发"""
while True:
idx = self._buf.find(b"\n")
if idx == -1:
break
raw = self._buf[:idx].decode("utf-8", errors="replace")
self._buf = self._buf[idx + 1:]
if not raw.strip():
continue
try:
obj = json.loads(raw)
except json.JSONDecodeError:
self._log(f"<<< (invalid JSON) {raw[:80]}")
continue
cmd = obj.get("cmd", "")
msg_id = obj.get("msg_id", 0)
# 检查是否有 code 字段(响应帧)
if "code" in obj:
code = obj.get("code", -1)
self._log(f"<<< {cmd} code={code} msg_id={msg_id}")
with self._lock:
fut = self._pending.get(msg_id)
if fut:
fut["response"] = obj
fut["event"].set()
else:
# 主动推送帧
self._log(f"<<< PUSH {cmd} msg_id={msg_id}")
handler = self._push_handlers.get(cmd)
if handler:
try:
handler(cmd, obj.get("data", {}))
except Exception as e:
self._log(f"Push handler error: {e}")
# ---- 便捷高层 API ----
class DBNetClient:
"""DLD960 设备 TCP JSON 协议高层接口"""
def __init__(self, log_callback=None):
self._tcp = TcpJsonClient(log_callback)
# Connection
def connect(self, host: str, port: int = 5960) -> None:
self._tcp.connect(host, port)
def disconnect(self) -> None:
self._tcp.disconnect()
@property
def is_connected(self) -> bool:
return self._tcp.is_connected
# Auth
def pwd_verify(self, password: str) -> dict:
return self._tcp.send_command("pwd_verify", {"password": password})
# Device Info
def dev_info_query(self) -> dict:
return self._tcp.send_command("dev_info_query")
def dev_serial_set(self, dev_serial: str) -> dict:
return self._tcp.send_command("dev_serial_set", {"dev_serial": dev_serial})
# SSC Network
def ssc_net_query(self) -> dict:
return self._tcp.send_command("ssc_net_query")
def ssc_net_set(self, dev_ip: str = "", subnet_mask: str = "",
route_ip: str = "", lssc_ip: str = "",
dns: str = "", port: int = 0) -> dict:
data = {}
if dev_ip:
data["dev_ip"] = dev_ip
if subnet_mask:
data["subnet_mask"] = subnet_mask
if route_ip:
data["route_ip"] = route_ip
if lssc_ip:
data["lssc_ip"] = lssc_ip
if dns:
data["dns"] = dns
if port:
data["port"] = port
return self._tcp.send_command("ssc_net_set", data)
# IoT Network
def iot_net_query(self) -> dict:
return self._tcp.send_command("iot_net_query")
def iot_net_set(self, host: str = "", port: int = 0,
client_id: str = "", username: str = "",
password: str = "") -> dict:
data = {}
if host:
data["host"] = host
if port:
data["port"] = port
if client_id:
data["client_id"] = client_id
if username:
data["username"] = username
if password:
data["password"] = password
return self._tcp.send_command("iot_net_set", data)
# IoT Topics
def iot_topic_query(self) -> dict:
return self._tcp.send_command("iot_topic_query")
def iot_topic_set(self, client_id_enable: bool = None,
topic_pub: str = "", topic_sub: str = "") -> dict:
data = {}
if client_id_enable is not None:
data["client_id_enable"] = client_id_enable
if topic_pub:
data["topic_pub"] = topic_pub
if topic_sub:
data["topic_sub"] = topic_sub
return self._tcp.send_command("iot_topic_set", data)
# Password
def pwd_set(self, old_password: str, new_password: str) -> dict:
return self._tcp.send_command("pwd_set",
{"old_password": old_password,
"new_password": new_password})
# System
def factory_reset(self) -> dict:
return self._tcp.send_command("factory_reset")
def device_reset(self) -> dict:
return self._tcp.send_command("device_reset")
# Loop
def loop_param_query(self) -> dict:
return self._tcp.send_command("loop_param_query")
def loop_param_set(self, channels: list[dict],
auto_mode: bool = False) -> dict:
return self._tcp.send_command("loop_param_set",
{"auto_mode": auto_mode,
"channels": channels})
# Push
def on_push(self, cmd: str, handler: callable) -> None:
self._tcp.on_push(cmd, handler)