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XNSim/XNSimHtml/routes/DataMonitor.js

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数据监控已经连通,还差绘图和注入功能未实现
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const express = require('express');
const router = express.Router();
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const systemMonitor = require('../utils/xnCoreService');
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// 存储连续注入状态
const continuousInjectStatus = new Map();
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/**
* @brief 启动数据监控
* @route POST /api/data-monitor/start
* @param {string} structName - 结构体名称
* @returns {Object} 返回启动结果
*/
router.post('/start', async (req, res) => {
try {
const { structName } = req.body;
if (!structName) {
return res.status(400).json({ success: false, message: '结构体名称不能为空' });
}
const result = systemMonitor.startDataMonitor(structName);
if (result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
res.json({ success: true, message: result });
} catch (error) {
res.status(500).json({ success: false, message: `启动数据监控失败: ${error.message}` });
}
});
/**
* @brief 停止数据监控
* @route POST /api/data-monitor/stop
* @param {string} structName - 结构体名称
* @returns {Object} 返回停止结果
*/
router.post('/stop', async (req, res) => {
try {
const { structName } = req.body;
if (!structName) {
return res.status(400).json({ success: false, message: '结构体名称不能为空' });
}
const result = systemMonitor.stopDataMonitor(structName);
if (result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
res.json({ success: true, message: result });
} catch (error) {
res.status(500).json({ success: false, message: `停止数据监控失败: ${error.message}` });
}
});
/**
* @brief 获取数据监控信息
* @route GET /api/data-monitor/info
* @param {string} structName - 结构体名称
* @param {string} interfaceName - 接口名称
* @param {number} [bufferSize=8192] - 数据缓冲区大小可选
* @returns {Object} 返回监控信息data字段包含解析后的JSON对象
*/
router.get('/info', async (req, res) => {
try {
const { structName, interfaceName, bufferSize } = req.query;
if (!structName || !interfaceName) {
return res.status(400).json({
success: false,
message: '结构体名称和接口名称不能为空'
});
}
const result = systemMonitor.getDataMonitorInfo(
structName,
interfaceName,
bufferSize ? parseInt(bufferSize) : undefined
);
if (typeof result === 'string' && result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
// 解析数据字符串为JSON对象
let parsedData;
try {
parsedData = JSON.parse(result.data);
} catch (parseError) {
return res.status(500).json({
success: false,
message: `数据解析失败: ${parseError.message}`
});
}
res.json({
success: true,
data: parsedData,
info: result.info
});
} catch (error) {
res.status(500).json({ success: false, message: `获取数据监控信息失败: ${error.message}` });
}
});
/**
* @brief 注入数据接口
* @route POST /api/data-monitor/inject
* @param {string} structName - 结构体名称
* @param {string} interfaceNameAndData - 接口名称和数据JSON字符串
* @returns {Object} 返回注入结果
*/
router.post('/inject', async (req, res) => {
try {
const { structName, interfaceNameAndData } = req.body;
if (!structName || !interfaceNameAndData) {
return res.status(400).json({
success: false,
message: '结构体名称和接口数据不能为空'
});
}
const result = systemMonitor.injectDataInterface(structName, interfaceNameAndData);
if (result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
res.json({ success: true, message: result });
} catch (error) {
res.status(500).json({ success: false, message: `注入数据接口失败: ${error.message}` });
}
});
/**
* @brief 启动持续注入数据
* @route POST /api/data-monitor/start-continuous
* @param {string} structName - 结构体名称
* @param {string} interfaceNameAndData - 接口名称和数据JSON字符串
* @param {number} frequency - 注入频率
* @returns {Object} 返回启动结果
*/
router.post('/start-continuous', async (req, res) => {
try {
const { structName, interfaceNameAndData, frequency } = req.body;
if (!structName || !interfaceNameAndData || frequency === undefined) {
return res.status(400).json({
success: false,
message: '结构体名称、接口数据和注入频率不能为空'
});
}
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// 检查是否已存在该结构体的注入状态
if (continuousInjectStatus.has(structName)) {
const status = continuousInjectStatus.get(structName);
// 检查频率是否相同
if (status.frequency !== frequency) {
return res.status(400).json({
success: false,
message: `该结构体已有其他接口以 ${status.frequency}ms 的频率进行注入,请使用相同的频率`
});
}
// 合并接口数据
try {
const existingData = JSON.parse(status.interfaceNameAndData);
const newData = JSON.parse(interfaceNameAndData);
const mergedData = { ...existingData, ...newData };
status.interfaceNameAndData = JSON.stringify(mergedData);
} catch (error) {
return res.status(400).json({
success: false,
message: '接口数据格式错误'
});
}
// 启动注入
const result = systemMonitor.startInjectContinuous(structName, status.interfaceNameAndData, frequency);
if (result.includes('失败')) {
continuousInjectStatus.delete(structName);
return res.status(500).json({ success: false, message: result });
}
} else {
// 创建新的注入状态
continuousInjectStatus.set(structName, {
interfaceNameAndData,
frequency,
isInjecting: false
});
// 启动注入
const result = systemMonitor.startInjectContinuous(structName, interfaceNameAndData, frequency);
if (result.includes('失败')) {
continuousInjectStatus.delete(structName);
return res.status(500).json({ success: false, message: result });
}
// 更新注入状态
const status = continuousInjectStatus.get(structName);
status.isInjecting = true;
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}
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res.json({
success: true,
message: '启动持续注入成功',
data: {
structName,
interfaceNameAndData: continuousInjectStatus.get(structName).interfaceNameAndData,
frequency
}
});
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} catch (error) {
res.status(500).json({ success: false, message: `启动持续注入数据失败: ${error.message}` });
}
});
/**
* @brief 停止持续注入数据
* @route POST /api/data-monitor/stop-continuous
* @param {string} structName - 结构体名称
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* @param {string} interfaceName - 要停止的接口名称
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* @returns {Object} 返回停止结果
*/
router.post('/stop-continuous', async (req, res) => {
try {
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const { structName, interfaceName } = req.body;
if (!structName || !interfaceName) {
return res.status(400).json({
success: false,
message: '结构体名称和接口名称不能为空'
});
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}
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// 检查是否存在该结构体的注入状态
if (!continuousInjectStatus.has(structName)) {
return res.status(400).json({
success: false,
message: '该结构体没有正在进行的注入'
});
}
const status = continuousInjectStatus.get(structName);
try {
// 从接口数据中移除指定的接口
const existingData = JSON.parse(status.interfaceNameAndData);
delete existingData[interfaceName];
// 如果还有其他接口在注入,更新状态
if (Object.keys(existingData).length > 0) {
status.interfaceNameAndData = JSON.stringify(existingData);
const result = systemMonitor.startInjectContinuous(structName, status.interfaceNameAndData, status.frequency);
if (result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
res.json({
success: true,
message: '停止指定接口的注入成功',
data: {
structName,
remainingInterfaces: Object.keys(existingData)
}
});
} else {
// 如果没有其他接口在注入,停止整个结构体的注入
const result = systemMonitor.stopInjectContinuous(structName);
if (result.includes('失败')) {
return res.status(500).json({ success: false, message: result });
}
// 删除注入状态
continuousInjectStatus.delete(structName);
res.json({
success: true,
message: '停止所有接口的注入成功'
});
}
} catch (error) {
return res.status(400).json({
success: false,
message: '接口数据格式错误'
});
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}
} catch (error) {
res.status(500).json({ success: false, message: `停止持续注入数据失败: ${error.message}` });
}
});
module.exports = router;
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