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4 Commits
v1.3.4 ... v1.3.5

Author SHA1 Message Date
xiaochao
6bd10c219c Merge pull request '优化飞牛sshd进程数,可能获取实体会比较慢,需要等待一段时间集成才会显示实体' (#3) from dev into main 
Reviewed-on: https://git.hypernas.cn:2443/xiaochao/fn_nas/pulls/3
 2025-07-12 15:49:48 +08:00
xiaochao
11d1352b20 优化飞牛sshd进程数,可能获取实体会比较慢,需要等待一段时间集成才会显示实体 2025-07-12 15:47:37 +08:00
xiaochao
9e076082eb Merge pull request '修改CPU和主板温度获取方式,可能不支持服务器级硬件和特别老的主板' (#2) from dev into main 
Reviewed-on: https://git.hypernas.cn:2443/xiaochao/fn_nas/pulls/2
 2025-07-12 14:52:00 +08:00
xiaochao
57d14b48f8 修改CPU和主板温度获取方式,可能不支持服务器级硬件和特别老的主板 2025-07-12 14:47:34 +08:00
3 changed files with 223 additions and 523 deletions
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383
custom_components/fn_nas/coordinator.py
View File

@@ -1,6 +1,8 @@
# coordinator.py (文档9)
import logging
import asyncio
import asyncssh
import re
from datetime import timedelta
from homeassistant.core import HomeAssistant
from homeassistant.helpers.update_coordinator import DataUpdateCoordinator, UpdateFailed
@@ -38,17 +40,8 @@ class FlynasCoordinator(DataUpdateCoordinator):
self.vm_manager = VMManager(self)
self.use_sudo = False
self.data = {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": []
}
# 确保data始终有初始值
self.data = self.get_default_data()
scan_interval = config.get(CONF_SCAN_INTERVAL, DEFAULT_SCAN_INTERVAL)
update_interval = timedelta(seconds=scan_interval)
@@ -65,67 +58,94 @@ class FlynasCoordinator(DataUpdateCoordinator):
self._system_online = False
self._ping_task = None
self._retry_interval = 30 # 系统离线时的检测间隔(秒)
self._last_command_time = 0
self._command_count = 0
def get_default_data(self):
"""返回默认的数据结构"""
return {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": [],
"docker_containers": []
}
async def async_connect(self):
if self.ssh is None or self.ssh_closed:
"""建立并保持持久SSH连接"""
if self.ssh is not None and not self.ssh_closed:
try:
self.ssh = await asyncssh.connect(
self.host,
port=self.port,
username=self.username,
password=self.password,
known_hosts=None,
connect_timeout=5 # 缩短连接超时时间
)
# 测试连接是否仍然活跃
await self.ssh.run("echo 'connection_test'", timeout=1)
return True
except (asyncssh.Error, TimeoutError):
_LOGGER.debug("现有连接失效,准备重建")
await self.async_disconnect()
if await self.is_root_user():
_LOGGER.debug("当前用户是 root")
try:
self.ssh = await asyncssh.connect(
self.host,
port=self.port,
username=self.username,
password=self.password,
known_hosts=None,
connect_timeout=5
)
self.ssh_closed = False
_LOGGER.info("已建立持久SSH连接到 %s", self.host)
# 检查权限状态
if await self.is_root_user():
_LOGGER.debug("当前用户是 root")
self.use_sudo = False
else:
# 尝试切换到root会话
if await self.try_switch_to_root():
self.use_sudo = False
self.ssh_closed = False
return True
return True
except Exception as e:
self.ssh = None
self.ssh_closed = True
_LOGGER.debug("连接失败: %s", str(e))
return False
async def try_switch_to_root(self):
"""尝试切换到root会话"""
try:
if self.root_password:
result = await self.ssh.run(
f"echo '{self.password}' | sudo -S -i",
input=self.password + "\n",
f"echo '{self.root_password}' | sudo -S -i",
input=self.root_password + "\n",
timeout=5
)
whoami_result = await self.ssh.run("whoami")
if "root" in whoami_result.stdout:
_LOGGER.info("成功切换到 root 会话(使用登录密码)")
self.use_sudo = False
self.ssh_closed = False
whoami = await self.ssh.run("whoami")
if "root" in whoami.stdout:
_LOGGER.info("成功切换到 root 会话(使用 root 密码)")
return True
else:
if self.root_password:
result = await self.ssh.run(
f"echo '{self.root_password}' | sudo -S -i",
input=self.root_password + "\n",
timeout=5
)
whoami_result = await self.ssh.run("whoami")
if "root" in whoami_result.stdout:
_LOGGER.info("成功切换到 root 会话(使用 root 密码)")
self.use_sudo = False
self.ssh_closed = False
return True
else:
# 切换到 root 会话失败,将使用 sudo
self.use_sudo = True
else:
# 非 root 用户且未提供 root 密码,将使用 sudo
self.use_sudo = True
self.ssh_closed = False
_LOGGER.info("SSH 连接已建立到 %s", self.host)
result = await self.ssh.run(
f"echo '{self.password}' | sudo -S -i",
input=self.password + "\n",
timeout=5
)
whoami = await self.ssh.run("whoami")
if "root" in whoami.stdout:
_LOGGER.info("成功切换到 root 会话(使用登录密码)")
return True
except Exception as e:
self.ssh = None
self.ssh_closed = True
_LOGGER.debug("连接失败: %s", str(e))
return False
return True
self.use_sudo = True
return False
except Exception:
self.use_sudo = True
return False
async def is_root_user(self):
try:
@@ -135,26 +155,74 @@ class FlynasCoordinator(DataUpdateCoordinator):
return False
async def async_disconnect(self):
"""断开SSH连接"""
if self.ssh is not None and not self.ssh_closed:
try:
self.ssh.close()
self.ssh_closed = True
_LOGGER.debug("SSH connection closed")
_LOGGER.debug("已关闭SSH连接")
except Exception as e:
_LOGGER.debug("Error closing SSH connection: %s", str(e))
_LOGGER.debug("关闭SSH连接时出错: %s", str(e))
finally:
self.ssh = None
async def is_ssh_connected(self) -> bool:
if self.ssh is None or self.ssh_closed:
return False
async def run_command(self, command: str, retries=2) -> str:
"""执行SSH命令使用持久连接"""
current_time = asyncio.get_event_loop().time()
# 连接冷却机制:避免短时间内频繁创建新连接
if current_time - self._last_command_time < 1.0 and self._command_count > 5:
await asyncio.sleep(0.5)
self._last_command_time = current_time
self._command_count += 1
# 系统离线时直接返回空字符串
if not self._system_online:
return ""
try:
test_command = "echo 'connection_test'"
result = await self.ssh.run(test_command, timeout=2)
return result.exit_status == 0 and "connection_test" in result.stdout
except (asyncssh.Error, TimeoutError):
return False
# 确保连接有效
if not await self.async_connect():
return ""
# 使用sudo执行命令
if self.use_sudo:
if self.root_password or self.password:
password = self.root_password if self.root_password else self.password
full_command = f"sudo -S {command}"
result = await self.ssh.run(full_command, input=password + "\n", timeout=10)
else:
full_command = f"sudo {command}"
result = await self.ssh.run(full_command, timeout=10)
else:
result = await self.ssh.run(command, timeout=10)
return result.stdout.strip()
except (asyncssh.Error, TimeoutError) as e:
_LOGGER.debug("命令执行失败: %s, 错误: %s", command, str(e))
# 标记连接失效
self.ssh_closed = True
return ""
except Exception as e:
_LOGGER.debug("执行命令时出现意外错误: %s", str(e))
self.ssh_closed = True
return ""
async def _monitor_system_status(self):
"""系统离线时轮询检测状态"""
self.logger.debug("启动系统状态监控,每%d秒检测一次", self._retry_interval)
while True:
await asyncio.sleep(self._retry_interval)
if await self.ping_system():
self.logger.info("检测到系统已开机,触发重新加载")
# 触发集成重新加载
self.hass.async_create_task(
self.hass.config_entries.async_reload(self.config_entry.entry_id)
)
break
async def ping_system(self) -> bool:
"""轻量级系统状态检测"""
@@ -174,155 +242,51 @@ class FlynasCoordinator(DataUpdateCoordinator):
except Exception:
return False
async def run_command(self, command: str, retries=2) -> str:
# 系统离线时直接返回空字符串,避免抛出异常
if not self._system_online:
return ""
for attempt in range(retries):
try:
if not await self.is_ssh_connected():
if not await self.async_connect():
if self.data and "system" in self.data:
self.data["system"]["status"] = "off"
return ""
if self.use_sudo:
if self.root_password or self.password:
password = self.root_password if self.root_password else self.password
full_command = f"sudo -S {command}"
result = await self.ssh.run(full_command, input=password + "\n", check=True)
else:
full_command = f"sudo {command}"
result = await self.ssh.run(full_command, check=True)
else:
result = await self.ssh.run(command, check=True)
return result.stdout.strip()
except asyncssh.process.ProcessError as e:
if e.exit_status in [4, 32]:
return ""
_LOGGER.debug("Command failed: %s (exit %d)", command, e.exit_status)
self.ssh = None
self.ssh_closed = True
if attempt == retries - 1:
return ""
except asyncssh.Error as e:
_LOGGER.debug("SSH connection error: %s", str(e))
self.ssh = None
self.ssh_closed = True
if attempt == retries - 1:
return ""
except Exception as e:
self.ssh = None
self.ssh_closed = True
_LOGGER.debug("Unexpected error: %s", str(e))
if attempt == retries - 1:
return ""
return ""
async def get_network_macs(self):
try:
output = await self.run_command("ip link show")
macs = {}
pattern = re.compile(r'^\d+: (\w+):.*\n\s+link/\w+\s+([0-9a-fA-F:]{17})', re.MULTILINE)
matches = pattern.findall(output)
for interface, mac in matches:
if interface == "lo" or mac == "00:00:00:00:00:00":
continue
macs[mac] = interface
return macs
except Exception as e:
self.logger.debug("获取MAC地址失败: %s", str(e))
return {}
async def _monitor_system_status(self):
"""系统离线时轮询检测状态"""
self.logger.debug("启动系统状态监控,每%d秒检测一次", self._retry_interval)
while True:
await asyncio.sleep(self._retry_interval)
if await self.ping_system():
self.logger.info("检测到系统已开机,触发重新加载")
# 触发集成重新加载
self.hass.async_create_task(
self.hass.config_entries.async_reload(self.config_entry.entry_id)
)
break
async def _async_update_data(self):
_LOGGER.debug("Starting data update...")
"""数据更新入口,优化命令执行频率"""
_LOGGER.debug("开始数据更新...")
is_online = await self.ping_system()
self._system_online = is_online
if not is_online:
_LOGGER.debug("系统离线,跳过数据更新")
# 修复:确保 self.data 结构有效
if self.data is None or not isinstance(self.data, dict):
self.data = {}
if "system" not in self.data or not isinstance(self.data.get("system"), dict):
self.data["system"] = {}
self.data["system"]["status"] = "off"
# 启动后台监控任务(非阻塞)
# 启动后台监控任务
if not self._ping_task or self._ping_task.done():
self._ping_task = asyncio.create_task(self._monitor_system_status())
await self.async_disconnect()
# 直接返回空数据,不阻塞
return {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": [],
"docker_containers": []
}
return self.get_default_data()
# 系统在线处理
try:
# 确保SSH连接
# 确保连接有效
if not await self.async_connect():
self.data["system"]["status"] = "off"
return {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": []
}
return self.get_default_data()
# 获取系统状态信息
status = "on"
# 并行获取磁盘、UPS和系统信息
system_task = asyncio.create_task(self.system_manager.get_system_info())
disks_task = asyncio.create_task(self.disk_manager.get_disks_info())
ups_task = asyncio.create_task(self.ups_manager.get_ups_info())
vms_task = asyncio.create_task(self.vm_manager.get_vm_list())
disks = await self.disk_manager.get_disks_info()
system = await self.system_manager.get_system_info()
ups_info = await self.ups_manager.get_ups_info()
vms = await self.vm_manager.get_vm_list()
# 等待并行任务完成
system, disks, ups_info, vms = await asyncio.gather(
system_task, disks_task, ups_task, vms_task
)
# 为每个虚拟机获取标题
for vm in vms:
vm["title"] = await self.vm_manager.get_vm_title(vm["name"])
# 获取Docker容器信息
docker_containers = []
if self.enable_docker:
docker_containers = await self.docker_manager.get_containers()
data = {
"disks": disks,
"system": {
**system,
"status": status
},
"system": {**system, "status": status},
"ups": ups_info,
"vms": vms,
"docker_containers": docker_containers
@@ -332,29 +296,34 @@ class FlynasCoordinator(DataUpdateCoordinator):
except Exception as e:
_LOGGER.debug("数据更新失败: %s", str(e))
# 检查错误类型,如果是连接问题,标记为离线
self._system_online = False
if not self._ping_task or self._ping_task.done():
self._ping_task = asyncio.create_task(self._monitor_system_status())
return {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": []
}
return self.get_default_data()
def get_default_data(self):
"""获取默认数据(离线状态)"""
return {
"disks": [],
"system": {
"uptime": "未知",
"cpu_temperature": "未知",
"motherboard_temperature": "未知",
"status": "off"
},
"ups": {},
"vms": [],
"docker_containers": []
}
async def reboot_system(self):
await self.system_manager.reboot_system()
async def shutdown_system(self):
await self.system_manager.shutdown_system()
if self.data and "system" in self.data:
# 更新状态,但使用安全的方式
if self.data and isinstance(self.data, dict) and "system" in self.data:
self.data["system"]["status"] = "off"
self.async_update_listeners()

2
custom_components/fn_nas/manifest.json
View File

@@ -1,7 +1,7 @@
{
"domain": "fn_nas",
"name": "飞牛NAS",
"version": "1.3.4",
"version": "1.3.5",
"documentation": "https://github.com/anxms/fn_nas",
"dependencies": [],
"codeowners": ["@anxms"],

339
custom_components/fn_nas/system_manager.py
View File

@@ -1,7 +1,5 @@
import re
import logging
import asyncio
import json
import os
from datetime import datetime
@@ -23,10 +21,8 @@ class SystemManager:
uptime_output = await self.coordinator.run_command("cat /proc/uptime")
if uptime_output:
try:
# 保存原始秒数
uptime_seconds = float(uptime_output.split()[0])
system_info["uptime_seconds"] = uptime_seconds
# 保存格式化字符串
system_info["uptime"] = self.format_uptime(uptime_seconds)
except (ValueError, IndexError):
system_info["uptime_seconds"] = 0
@@ -35,42 +31,22 @@ class SystemManager:
system_info["uptime_seconds"] = 0
system_info["uptime"] = "未知"
# 获取 sensors 命令输出使用JSON格式
sensors_output = await self.coordinator.run_command(
"sensors -j 2>/dev/null || sensors 2>/dev/null || echo 'No sensor data'"
)
# 保存传感器数据以便调试
self.save_sensor_data_for_debug(sensors_output)
self.logger.debug("Sensors output: %s", sensors_output[:500] + "..." if len(sensors_output) > 500 else sensors_output)
# 提取 CPU 温度(改进算法)
cpu_temp = self.extract_cpu_temp(sensors_output)
# 只通过内核方式获取温度
cpu_temp = await self.get_cpu_temp_from_kernel()
system_info["cpu_temperature"] = cpu_temp
# 提取主板温度(改进算法)
mobo_temp = self.extract_mobo_temp(sensors_output)
mobo_temp = await self.get_mobo_temp_from_kernel()
system_info["motherboard_temperature"] = mobo_temp
# 尝试备用方法获取CPU温度
if cpu_temp == "未知":
backup_cpu_temp = await self.get_cpu_temp_fallback()
if backup_cpu_temp:
system_info["cpu_temperature"] = backup_cpu_temp
# 新增:获取内存信息
mem_info = await self.get_memory_info()
system_info.update(mem_info)
# 新增:获取存储卷信息
vol_info = await self.get_vol_usage()
system_info["volumes"] = vol_info
return system_info
except Exception as e:
self.logger.error("Error getting system info: %s", str(e))
# 在异常处理中返回空数据
return {
"uptime_seconds": 0,
"uptime": "未知",
@@ -82,69 +58,41 @@ class SystemManager:
"volumes": {}
}
def save_sensor_data_for_debug(self, sensors_output: str):
"""保存传感器数据以便调试"""
if not self.debug_enabled:
return
try:
# 创建调试目录
if not os.path.exists(self.sensors_debug_path):
os.makedirs(self.sensors_debug_path)
# 生成文件名
timestamp = datetime.now().strftime("%Y%m%d_%H%M%S")
filename = os.path.join(self.sensors_debug_path, f"sensors_{timestamp}.log")
# 写入文件
with open(filename, "w") as f:
f.write(sensors_output)
self.logger.info("Saved sensors output to %s for debugging", filename)
except Exception as e:
self.logger.error("Failed to save sensor data: %s", str(e))
async def get_cpu_temp_fallback(self) -> str:
"""备用方法获取CPU温度"""
self.logger.info("Trying fallback methods to get CPU temperature")
# 方法1: 从/sys/class/thermal读取
try:
for i in range(5): # 检查前5个可能的传感器
path = f"/sys/class/thermal/thermal_zone{i}/temp"
output = await self.coordinator.run_command(f"cat {path} 2>/dev/null")
if output and output.isdigit():
temp = float(output) / 1000.0
self.logger.info("Found CPU temperature via thermal zone: %.1f°C", temp)
return f"{temp:.1f} °C"
except Exception:
pass
# 方法2: 从hwmon设备读取
try:
for i in range(5): # 检查前5个可能的hwmon设备
for j in range(5): # 检查每个设备的前5个温度传感器
path = f"/sys/class/hwmon/hwmon{i}/temp{j}_input"
output = await self.coordinator.run_command(f"cat {path} 2>/dev/null")
if output and output.isdigit():
temp = float(output) / 1000.0
self.logger.info("Found CPU temperature via hwmon: %.1f°C", temp)
async def get_cpu_temp_from_kernel(self) -> str:
# 获取CPU温度
for i in range(5):
for j in range(5):
label_path = f"/sys/class/hwmon/hwmon{i}/temp{j}_label"
label = await self.coordinator.run_command(f"cat {label_path} 2>/dev/null")
if label and ("cpu" in label.lower() or "package" in label.lower()):
temp_path = f"/sys/class/hwmon/hwmon{i}/temp{j}_input"
temp_str = await self.coordinator.run_command(f"cat {temp_path} 2>/dev/null")
if temp_str and temp_str.isdigit():
temp = float(temp_str) / 1000.0
return f"{temp:.1f} °C"
except Exception:
pass
return "未知"
# 方法3: 使用psutil库如果可用
try:
output = await self.coordinator.run_command("python3 -c 'import psutil; print(psutil.sensors_temperatures().get(\"coretemp\")[0].current)' 2>/dev/null")
if output and output.replace('.', '', 1).isdigit():
temp = float(output)
self.logger.info("Found CPU temperature via psutil: %.1f°C", temp)
return f"{temp:.1f} °C"
except Exception:
pass
async def get_mobo_temp_from_kernel(self) -> str:
# 获取主板温度
for i in range(5):
for j in range(5):
label_path = f"/sys/class/hwmon/hwmon{i}/temp{j}_label"
label = await self.coordinator.run_command(f"cat {label_path} 2>/dev/null")
if label and ("mobo" in label.lower() or "mb" in label.lower() or "sys" in label.lower() or "pch" in label.lower()):
temp_path = f"/sys/class/hwmon/hwmon{i}/temp{j}_input"
temp_str = await self.coordinator.run_command(f"cat {temp_path} 2>/dev/null")
if temp_str and temp_str.isdigit():
temp = float(temp_str) / 1000.0
return f"{temp:.1f} °C"
return "未知"
self.logger.warning("All fallback methods failed to get CPU temperature")
return ""
def extract_cpu_temp(self, sensors_output: str) -> str:
"""兼容旧接口,直接返回未知"""
return "未知"
def extract_mobo_temp(self, sensors_output: str) -> str:
"""兼容旧接口,直接返回未知"""
return "未知"
def format_uptime(self, seconds: float) -> str:
"""格式化运行时间为易读格式"""
@@ -166,223 +114,6 @@ class SystemManager:
self.logger.error("Failed to format uptime: %s", str(e))
return "未知"
def extract_cpu_temp(self, sensors_output: str) -> str:
"""从 sensors 输出中提取 CPU 温度,优先获取 Package id 0"""
# 优先尝试获取 Package id 0 温度值
package_id_pattern = r'Package id 0:\s*\+?(\d+\.?\d*)°C'
package_match = re.search(package_id_pattern, sensors_output, re.IGNORECASE)
if package_match:
try:
package_temp = float(package_match.group(1))
self.logger.debug("优先使用 Package id 0 温度: %.1f°C", package_temp)
return f"{package_temp:.1f} °C"
except (ValueError, IndexError) as e:
self.logger.debug("Package id 0 解析错误: %s", str(e))
# 其次尝试解析JSON格式
if sensors_output.strip().startswith('{'):
try:
data = json.loads(sensors_output)
self.logger.debug("JSON sensors data: %s", json.dumps(data, indent=2))
# 查找包含Package相关键名的温度值
for key, values in data.items():
if any(kw in key.lower() for kw in ["package", "pkg", "physical"]):
for subkey, temp_value in values.items():
if any(kw in subkey.lower() for kw in ["temp", "input"]) and not "crit" in subkey.lower():
try:
if isinstance(temp_value, (int, float)):
self.logger.debug("JSON中找到Package温度: %s/%s = %.1f°C", key, subkey, temp_value)
return f"{temp_value:.1f} °C"
except Exception as e:
self.logger.debug("JSON值错误: %s", str(e))
# 新增尝试直接获取Tdie/Tctl温度AMD CPU
for key, values in data.items():
if "k10temp" in key.lower():
for subkey, temp_value in values.items():
if "tdie" in subkey.lower() or "tctl" in subkey.lower():
try:
if isinstance(temp_value, (int, float)):
self.logger.debug("JSON中找到Tdie/Tctl温度: %s/%s = %.1f°C", key, subkey, temp_value)
return f"{temp_value:.1f} °C"
except:
pass
except Exception as e:
self.logger.warning("JSON解析失败: %s", str(e))
# 最后尝试其他模式
other_patterns = [
r'Package id 0:\s*\+?(\d+\.?\d*)°C', # 再次尝试确保捕获
r'CPU Temperature:\s*\+?(\d+\.?\d*)°C',
r'cpu_thermal:\s*\+?(\d+\.?\d*)°C',
r'Tdie:\s*\+?(\d+\.?\d*)°C', # AMD CPU
r'Tctl:\s*\+?(\d+\.?\d*)°C', # AMD CPU
r'PECI Agent \d:\s*\+?(\d+\.?\d*)°C',
r'Composite:\s*\+?(\d+\.?\d*)°C',
r'CPU\s+Temp:\s*\+?(\d+\.?\d*)°C',
r'k10temp-pci\S*:\s*\+?(\d+\.?\d*)°C',
r'Physical id 0:\s*\+?(\d+\.?\d*)°C'
]
for pattern in other_patterns:
match = re.search(pattern, sensors_output, re.IGNORECASE)
if match:
try:
temp = float(match.group(1))
self.logger.debug("匹配到CPU温度: %s: %.1f°C", pattern, temp)
return f"{temp:.1f} °C"
except (ValueError, IndexError):
continue
# 如果所有方法都失败返回未知
return "未知"
def extract_temp_from_systin(self, systin_data: dict) -> float:
"""从 SYSTIN 数据结构中提取温度值"""
if not systin_data:
return None
# 尝试从不同键名获取温度值
for key in ["temp1_input", "input", "value"]:
temp = systin_data.get(key)
if temp is not None:
try:
return float(temp)
except (TypeError, ValueError):
continue
return None
def extract_mobo_temp(self, sensors_output: str) -> str:
"""从 sensors 输出中提取主板温度"""
# 首先尝试解析JSON格式
if sensors_output.strip().startswith('{'):
try:
data = json.loads(sensors_output)
# 查找包含主板相关键名的温度值
candidates = []
for key, values in data.items():
# 优先检查 SYSTIN 键
if "systin" in key.lower():
temp = self.extract_temp_from_systin(values)
if temp is not None:
return f"{temp:.1f} °C"
if any(kw in key.lower() for kw in ["system", "motherboard", "mb", "board", "pch", "chipset", "sys", "baseboard", "systin"]):
for subkey, temp_value in values.items():
if any(kw in subkey.lower() for kw in ["temp", "input"]) and not "crit" in subkey.lower():
try:
if isinstance(temp_value, (int, float)):
candidates.append(temp_value)
self.logger.debug("Found mobo temp candidate in JSON: %s/%s = %.1f°C", key, subkey, temp_value)
except Exception:
pass
# 如果有候选值,取平均值
if candidates:
avg_temp = sum(candidates) / len(candidates)
return f"{avg_temp:.1f} °C"
# 新增:尝试直接获取 SYSTIN 的温度值
systin_temp = self.extract_temp_from_systin(data.get("nct6798-isa-02a0", {}).get("SYSTIN", {}))
if systin_temp is not None:
return f"{systin_temp:.1f} °C"
except Exception as e:
self.logger.warning("Failed to parse sensors JSON: %s", str(e))
# 改进SYSTIN提取逻辑
systin_patterns = [
r'SYSTIN:\s*[+\-]?\s*(\d+\.?\d*)\s*°C', # 标准格式
r'SYSTIN[:\s]+[+\-]?\s*(\d+\.?\d*)\s*°C', # 兼容无冒号或多余空格
r'System Temp:\s*[+\-]?\s*(\d+\.?\d*)\s*°C' # 备选方案
]
for pattern in systin_patterns:
systin_match = re.search(pattern, sensors_output, re.IGNORECASE)
if systin_match:
try:
temp = float(systin_match.group(1))
self.logger.debug("Found SYSTIN temperature: %.1f°C", temp)
return f"{temp:.1f} °C"
except (ValueError, IndexError) as e:
self.logger.debug("SYSTIN match error: %s", str(e))
continue
for line in sensors_output.splitlines():
if 'SYSTIN' in line or 'System Temp' in line:
# 改进的温度值提取正则
match = re.search(r'[+\-]?\s*(\d+\.?\d*)\s*°C', line)
if match:
try:
temp = float(match.group(1))
self.logger.debug("Found mobo temp in line: %s: %.1f°C", line.strip(), temp)
return f"{temp:.1f} °C"
except ValueError:
continue
# 如果找不到SYSTIN尝试其他主板温度模式
other_patterns = [
r'System Temp:\s*\+?(\d+\.?\d*)°C',
r'MB Temperature:\s*\+?(\d+\.?\d*)°C',
r'Motherboard:\s*\+?(\d+\.?\d*)°C',
r'SYS Temp:\s*\+?(\d+\.?\d*)°C',
r'Board Temp:\s*\+?(\d+\.?\d*)°C',
r'PCH_Temp:\s*\+?(\d+\.?\d*)°C',
r'Chipset:\s*\+?(\d+\.?\d*)°C',
r'Baseboard Temp:\s*\+?(\d+\.?\d*)°C',
r'System Temperature:\s*\+?(\d+\.?\d*)°C',
r'Mainboard Temp:\s*\+?(\d+\.?\d*)°C'
]
temp_values = []
for pattern in other_patterns:
matches = re.finditer(pattern, sensors_output, re.IGNORECASE)
for match in matches:
try:
temp = float(match.group(1))
temp_values.append(temp)
self.logger.debug("Found motherboard temperature with pattern: %s: %.1f°C", pattern, temp)
except (ValueError, IndexError):
continue
# 如果有找到温度值,取平均值
if temp_values:
avg_temp = sum(temp_values) / len(temp_values)
return f"{avg_temp:.1f} °C"
# 最后,尝试手动扫描所有温度值
fallback_candidates = []
for line in sensors_output.splitlines():
if '°C' in line:
# 跳过CPU相关的行
if any(kw in line.lower() for kw in ["core", "cpu", "package", "tccd", "k10temp", "processor", "amd", "intel", "nvme"]):
continue
# 跳过风扇和电压行
if any(kw in line.lower() for kw in ["fan", "volt", "vin", "+3.3", "+5", "+12", "vdd", "power", "crit", "max", "min"]):
continue
# 查找温度值
match = re.search(r'(\d+\.?\d*)\s*°C', line)
if match:
try:
temp = float(match.group(1))
# 合理温度范围检查 (0-80°C)
if 0 < temp < 80:
fallback_candidates.append(temp)
self.logger.debug("Fallback mobo candidate: %s -> %.1f°C", line.strip(), temp)
except ValueError:
continue
# 如果有候选值,取平均值
if fallback_candidates:
avg_temp = sum(fallback_candidates) / len(fallback_candidates)
self.logger.warning("Using fallback motherboard temperature detection")
return f"{avg_temp:.1f} °C"
return "未知"
async def get_memory_info(self) -> dict:
"""获取内存使用信息"""
try: