事实上,调用 IpHlpApi.dll 的 GetIfTable API 可以轻易获得网络信息和网络流量。只是要在C#中实现还是比较复杂。

先看看怎么定义该 API

[DllImport("IpHlpApi.dll")]
        
extern static public uint GetIfTable(byte[] pIfTable, ref uint pdwSize, bool bOrder);


本来想把 pIfTable 定义为 IntPtr,但是这样的结果是,获取的信息是错误的(直到现在都不知是什么原因)。

但显然定义为 byte[] 是不能直接使用的。幸好在 Google Code Search 找到了三个类:


using System;
using System.IO;
using System.Collections;
using System.Reflection;
using System.Runtime.InteropServices;
using System.Threading;

namespace Lemony.SystemInfo
{
    
    
/// <summary>
    
/// CustomMarshaler class implementation.
    
/// </summary>

    public abstract class CustomMarshaler
    
{
        
#region Fields
        
// The internal buffer
        internal byte[] data;
        
private MemoryStream stream;
        
private BinaryReader binReader;
        
private BinaryWriter binWriter;
        
        
#endregion

    
        
#region constructors

        
public CustomMarshaler()
        
{

        }

        
        
#endregion


        
#region public methods

        
public void Deserialize()
        
{
            
if (data != null)
            
{
                
if (binReader != null)
                
{
                    binReader.Close();
                    stream.Close();
                }

                
// Create a steam from byte array
                stream = new MemoryStream(data);
                binReader 
= new BinaryReader(stream, System.Text.Encoding.Unicode);
                ReadFromStream(binReader);
                binReader.Close();
            }


        }


        
public void Serialize()
        
{
            
if (data != null)
            
{
                stream 
= new MemoryStream(data);
                binWriter 
= new BinaryWriter(stream, System.Text.Encoding.Unicode);
                WriteToStream(binWriter);
                binWriter.Close();
            }

        }


        
public int GetSize()
        
{    
            
int size = 0;

            FieldInfo[] fields 
= this.GetType().GetFields(BindingFlags.Public | BindingFlags.Instance);

            
foreach (FieldInfo field in fields )
            
{
                
if (field.FieldType.IsArray)
                
{
                    size 
+= GetFieldSize(field);
                }

                
else if (field.FieldType == typeof(string))
                
{
                    size 
+= GetFieldSize(field)*2;
                }
 
                
else if (field.FieldType.IsPrimitive)
                
{
                    size 
+= Marshal.SizeOf(field.FieldType);
                }

            }


            
return size;
        }


        
#endregion


        
#region properties

        
public byte[] ByteArray
        
{
            
get
            
{
                
return data;
            }

        }


        
#endregion


        
#region virtual and protected methods

        
public virtual void ReadFromStream(BinaryReader reader)
        
{
            
object[] param = null;

            
// Get all public fields
            FieldInfo[] fields = this.GetType().GetFields(BindingFlags.Public | BindingFlags.Instance);
            
            
// Loop through the fields
            foreach(FieldInfo field in fields)
            
{
                
// Retrieve the read method from ReadMethods hashtable
                MethodInfo method = (MethodInfo)MarshallingMethods.ReadMethods[field.FieldType];

                
if (field.FieldType.IsArray)
                
{
                    Type element 
= field.FieldType.GetElementType();
                    
if (element.IsValueType && element.IsPrimitive)
                    
{
                        
if ((element == typeof(char)) || element == typeof(byte))
                        
{                                                                                 
                            param 
= new object[1];
                            param[
0= GetFieldSize(field);
                            field.SetValue(
this, method.Invoke(reader, param)); 
                        }

                        
else // any other value type array
                        {
                            param 
= new object[2];
                            param[
0= reader;
                            param[
1= GetFieldSize(field);
                            field.SetValue(
this, method.Invoke(null, param)); 
                        }

                    }

                    
else // array of sub structures
                    {
                        
int size = GetFieldSize(field);
                        method 
= (MethodInfo)MarshallingMethods.ReadMethods[typeof(CustomMarshaler)];
                        Array objArray 
= Array.CreateInstance(element, size);
                        
for(int i=0;i<size;i++)
                        
{
                            objArray.SetValue(Activator.CreateInstance(element), i);
                            method.Invoke(objArray.GetValue(i), 
new object[]{reader});
                        }

                        field.SetValue(
this, objArray); 
                    }

                }

                
else if (field.FieldType == typeof(string))
                
{    
                    param 
= new object[2];
                    param[
0= reader;
                    param[
1= GetFieldSize(field);
                    field.SetValue(
this, method.Invoke(null, param)); 
                }

                
else if (field.FieldType.IsValueType && field.FieldType.IsPrimitive)// regular value type
                {
                    field.SetValue(
this, method.Invoke(reader, null)); 
                }

                
else //process substructure 
                {
                    CustomMarshaler subStruct 
= (CustomMarshaler)Activator.CreateInstance(field.FieldType);
                    subStruct.ReadFromStream(reader);
                }

            }

        }


        
public virtual void WriteToStream(BinaryWriter writer)
        
{
            
object[] param = null;

            FieldInfo[] fields 
= this.GetType().GetFields(BindingFlags.Public | BindingFlags.Instance);
            
            
foreach(FieldInfo field in fields)
            
{
                
// Check if we have any value
                object value = field.GetValue(this);
                
                MethodInfo method 
= (MethodInfo)MarshallingMethods.WriteMethods[field.FieldType];
                
                
if (field.FieldType.IsArray)
                
{
                    Type element 
= field.FieldType.GetElementType();
                    
if (element.IsValueType && element.IsPrimitive)
                    
{
                        
//method.Invoke(writer, new object[] {value});
                        Array arrObject = (Array)field.GetValue(this);
                        param 
= new object[2];
                        param[
0= writer;
                        param[
1= arrObject;
                        method.Invoke(
null, param);
                    }

                    
else
                    
{
                        
//Get field size
                        int size = GetFieldSize(field);
                        
//Get WriteToStream method
                        method = (MethodInfo)MarshallingMethods.WriteMethods[typeof(CustomMarshaler)];
                        Array arrObject 
= (Array)field.GetValue(this);
                        
for(int i=0;i<size;i++)
                        
{
                            method.Invoke(arrObject.GetValue(i), 
new object[]{writer});
                        }

                    }
                    
                }

                
else if (field.FieldType == typeof(string))
                
{    
                    param 
= new object[3];
                    param[
0= writer;
                    param[
1= field.GetValue(this);
                    param[
2= GetFieldSize(field);
                    method.Invoke(
null, param);
                    

                }

                
else if (field.FieldType.IsValueType && field.FieldType.IsPrimitive)// regular value type
                {
                    method.Invoke(writer, 
new object[] {value});
                }

            }

        }


        
protected int GetFieldSize(FieldInfo field)
        
{
            
int size = 0;
            CustomMarshalAsAttribute attrib 
= (CustomMarshalAsAttribute)field.GetCustomAttributes(typeof(CustomMarshalAsAttribute), true)[0];
            
            
if (attrib != null)
            
{
                
if (attrib.SizeField != null)
                
{
                    FieldInfo sizeField 
= this.GetType().GetField(attrib.SizeField);
                    size 
= (int)sizeField.GetValue(this);
                }

                
else
                
{
                    size 
= attrib.SizeConst;    
                }

            }


            
return size;
        }


        
#endregion


        
#region helper methods

        
private static bool CompareByteArrays (byte[] data1, byte[] data2)
        
{
            
// If both are null, they're equal
            if (data1==null && data2==null)
            
{
                
return true;
            }

            
// If either but not both are null, they're not equal
            if (data1==null || data2==null)
            
{
                
return false;
            }

            
if (data1.Length != data2.Length)
            
{
                
return false;
            }

            
for (int i=0; i < data1.Length; i++)
            
{
                
if (data1[i] != data2[i])
                
{
                    
return false;
                }

            }

            
return true;
        }


        
#endregion


    }


    
#region MarshallingMethods class
    
/// <summary>
    
/// MarshallingMethods class implementation.
    
/// </summary>

    public class MarshallingMethods
    
{
        
public static Hashtable ReadMethods = new Hashtable();
        
public static Hashtable WriteMethods = new Hashtable();
        
        
#region constructors

        
static MarshallingMethods()
        
{
            
// Read Methods
            ReadMethods.Add(typeof(bool), typeof(BinaryReader).GetMethod("ReadBoolean"));
            ReadMethods.Add(
typeof(byte), typeof(BinaryReader).GetMethod("ReadByte"));
            ReadMethods.Add(
typeof(System.SByte), typeof(BinaryReader).GetMethod("ReadSByte"));
            ReadMethods.Add(
typeof(System.Single), typeof(BinaryReader).GetMethod("ReadSingle"));
            ReadMethods.Add(
typeof(byte[]), typeof(BinaryReader).GetMethod("ReadBytes"));
            ReadMethods.Add(
typeof(char[]), typeof(BinaryReader).GetMethod("ReadChars"));
            ReadMethods.Add(
typeof(System.Int16), typeof(BinaryReader).GetMethod("ReadInt16"));
            ReadMethods.Add(
typeof(System.Int32), typeof(BinaryReader).GetMethod("ReadInt32"));
            ReadMethods.Add(
typeof(System.UInt16), typeof(BinaryReader).GetMethod("ReadUInt16"));
            ReadMethods.Add(
typeof(System.UInt32), typeof(BinaryReader).GetMethod("ReadUInt32"));
            ReadMethods.Add(
typeof(System.String), typeof(MarshallingMethods).GetMethod("ReadString"));
            ReadMethods.Add(
typeof(System.DateTime), typeof(MarshallingMethods).GetMethod("ReadDateTime"));
            ReadMethods.Add(
typeof(System.Int16[]), typeof(MarshallingMethods).GetMethod("ReadInt16Array"));
            ReadMethods.Add(
typeof(System.Int32[]), typeof(MarshallingMethods).GetMethod("ReadInt32Array"));
            ReadMethods.Add(
typeof(System.UInt16[]), typeof(MarshallingMethods).GetMethod("ReadUInt16Array"));
            ReadMethods.Add(
typeof(System.UInt32[]), typeof(MarshallingMethods).GetMethod("ReadUInt32Array"));
            ReadMethods.Add(
typeof(CustomMarshaler), typeof(CustomMarshaler).GetMethod("ReadFromStream"));
            
//Write Methods
            WriteMethods.Add(typeof(bool), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(bool)}));
            WriteMethods.Add(
typeof(byte), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(byte)}));
            WriteMethods.Add(
typeof(System.SByte), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.SByte)}));
            WriteMethods.Add(
typeof(System.Single), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.Single)}));
            
//WriteMethods.Add(typeof(byte[]), typeof(BinaryWriter).GetMethod("Write", new Type[]{typeof(byte[])}));
            
//WriteMethods.Add(typeof(char[]), typeof(BinaryWriter).GetMethod("Write", new Type[]{typeof(char[])}));
            WriteMethods.Add(typeof(System.Int16), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.Int16)}));
            WriteMethods.Add(
typeof(System.Int32), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.Int32)}));
            WriteMethods.Add(
typeof(System.UInt16), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.UInt16)}));
            WriteMethods.Add(
typeof(System.UInt32), typeof(BinaryWriter).GetMethod("Write"new Type[]{typeof(System.UInt32)}));
            WriteMethods.Add(
typeof(System.String), typeof(MarshallingMethods).GetMethod("WriteString"));
            WriteMethods.Add(
typeof(CustomMarshaler), typeof(CustomMarshaler).GetMethod("WriteToStream"));

            WriteMethods.Add(
typeof(bool[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(bool[]) }));
            WriteMethods.Add(
typeof(char[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(char[]) }));
            WriteMethods.Add(
typeof(short[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(short[]) }));
            WriteMethods.Add(
typeof(ushort[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(ushort[]) }));
            WriteMethods.Add(
typeof(int[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(int[]) }));
            WriteMethods.Add(
typeof(uint[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(uint[]) }));
            WriteMethods.Add(
typeof(long[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(long[]) }));
            WriteMethods.Add(
typeof(ulong[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(ulong[]) }));
            WriteMethods.Add(
typeof(float[]), typeof(MarshallingMethods).GetMethod("WriteArray"new Type[] typeof(BinaryWriter), typeof(float[]) }));

        }


        
#endregion


        
#region static helper methods

        
public static short[] ReadInt16Array(BinaryReader reader, int count)
        
{
            
short[] result = new short[count];

            
for(int i=0;i<count;i++)
            
{
                result[i] 
= reader.ReadInt16();
            }

            
return result;
        }


        
public static int[] ReadInt32Array(BinaryReader reader, int count)
        
{
            
int[] result = new int[count];

            
for(int i=0;i<count;i++)
            
{
                result[i] 
= reader.ReadInt32();
            }

            
return result;
        }


        
public static ushort[] ReadUInt16Array(BinaryReader reader, int count)
        
{
            
ushort[] result = new ushort[count];

            
for(int i=0;i<count;i++)
            
{
                result[i] 
= reader.ReadUInt16();
            }

            
return result;
        }


        
public static uint[] ReadUInt32Array(BinaryReader reader, int count)
        
{
            
uint[] result = new uint[count];

            
for(int i=0;i<count;i++)
            
{
                result[i] 
= reader.ReadUInt32();
            }

            
return result;
        }


        
public static string ReadString(BinaryReader reader, int count)
        
{
            
string result = "";
            
if (count == 0)
            
{
                count 
= 255//default    
            }

            
char[] data = reader.ReadChars(count);

            result 
= new string(data).TrimEnd('\0');
            
return result;
        }


        
public static void WriteString(BinaryWriter writer, string value, int size)
        
{
            
if (value!=null)
            
{
                
byte[] bstring = System.Text.Encoding.Unicode.GetBytes(value.Substring(0, size)); 
                writer.Write(bstring);
            }

        }


        
public static DateTime ReadDateTime(BinaryReader reader)
        
{
            
return DateTime.FromFileTime(reader.ReadInt64());
        }



        
public static void WriteArray(BinaryWriter writer, bool[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, char[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }


        
public static void WriteArray(BinaryWriter writer, byte[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }


        
public static void WriteArray(BinaryWriter writer, short[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, ushort[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, int[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, uint[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, long[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, ulong[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }

        
public static void WriteArray(BinaryWriter writer, float[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                writer.Write(arr[i]);
            }

        }


        
public static void WriteSerializers(BinaryWriter writer, CustomMarshaler[] arr)
        
{
            
for (int i = 0; i < arr.Length; i++)
            
{
                arr[i].WriteToStream(writer);
            }

        }


        
#endregion

    }


    
#endregion


    
#region CustomMarshalAsAttribute
    
/// <summary>
    
/// CustomMarshalAsAttribute implementaion.
    
/// </summary>

    public sealed class CustomMarshalAsAttribute : Attribute
    
{
        
public int SizeConst = 0;
        
public string  SizeField = null;
    }


    
#endregion


}


 


using System;
using System.Collections.Generic;
using System.Text;

namespace Lemony.SystemInfo
{
    
public class MIB_IFROW : CustomMarshaler
    
{
        [CustomMarshalAs(SizeConst 
= MAX_INTERFACE_NAME_LEN)]
        
public string wszName;
        
public uint dwIndex; // index of the interface
        public uint dwType; // type of interface
        public uint dwMtu; // max transmission unit 
        public uint dwSpeed; // speed of the interface 
        public uint dwPhysAddrLen; // length of physical address
        [CustomMarshalAs(SizeConst = MAXLEN_PHYSADDR)]
        
public byte[] bPhysAddr; // physical address of adapter
        public uint dwAdminStatus; // administrative status
        public uint dwOperStatus; // operational status
        public uint dwLastChange; // last time operational status changed 
        public uint dwInOctets; // octets received
        public uint dwInUcastPkts; // unicast packets received 
        public uint dwInNUcastPkts; // non-unicast packets received 
        public uint dwInDiscards; // received packets discarded 
        public uint dwInErrors; // erroneous packets received 
        public uint dwInUnknownProtos; // unknown protocol packets received 
        public uint dwOutOctets; // octets sent 
        public uint dwOutUcastPkts; // unicast packets sent 
        public uint dwOutNUcastPkts; // non-unicast packets sent 
        public uint dwOutDiscards; // outgoing packets discarded 
        public uint dwOutErrors; // erroneous packets sent 
        public uint dwOutQLen; // output queue length 
        public uint dwDescrLen; // length of bDescr member 
        [CustomMarshalAs(SizeConst = MAXLEN_IFDESCR)]
        
public byte[] bDescr; // interface description         

        
private const int MAX_INTERFACE_NAME_LEN = 256;
        
private const int MAXLEN_PHYSADDR = 8;
        
private const int MAXLEN_IFDESCR = 256;
        
private const int MAX_ADAPTER_NAME = 128;
    }

}


 


using System;
using System.Collections.Generic;
using System.Text;

namespace Lemony.SystemInfo
{
    
/// <summary>
    
/// IFTable
    
/// </summary>

    public class MIB_IFTABLE : CustomMarshaler
    
{
        
public int dwNumEntries;
        [CustomMarshalAs(SizeField 
= "dwNumEntries")]
        
public MIB_IFROW[] Table;

        
public MIB_IFTABLE()
        
{
            
this.data = new byte[this.GetSize()];
        }


        
public MIB_IFTABLE(int size)
        
{
            
this.data = new byte[size];
        }

    }

}


再定义一个 NetInfo 类,存储网络信息


using System;
using System.Collections.Generic;
using System.Text;
using System.Runtime.InteropServices;


namespace Lemony.SystemInfo
{
    
/// <summary>
    
/// 网络类型
    
/// </summary>

    public enum NetType
    
{
        Other 
= 1,
        Ethernet 
= 6,
        Tokenring 
= 9,
        FDDI 
= 15,
        PPP 
= 23,
        Loopback 
= 24,
        Slip 
= 28
    }
;

    
/// <summary>
    
/// 网络状态
    
/// </summary>

    public enum NetState
    
{
        NotOperational 
= 0,
        Operational 
= 1,
        Disconnected 
= 2,
        Connecting 
= 3,
        Connected 
= 4,
        Unreachable 
= 5
    }
;

    
/// <summary>
    
/// 网络信息类
    
/// </summary>

    public class NetInfo
    
{
        
public NetInfo()
        
{
        }


        
private string m_Name;
        
/// <summary>
        
/// 名称
        
/// </summary>

        public string Name
        
{
            
get return m_Name; }
            
set { m_Name = value; }
        }


        
private uint m_Index;
        
/// <summary>
        
/// 有效编号
        
/// </summary>

        public uint Index
        
{
            
get return m_Index; }
            
set { m_Index = value; }
        }


        
private NetType m_Type;
        
/// <summary>
        
/// 类型
        
/// </summary>

        public NetType Type
        
{
            
get return m_Type; }
            
set { m_Type = value; }
        }


        
private uint m_Speed;
        
/// <summary>
        
/// 速度
        
/// </summary>

        public uint Speed
        
{
            
get return m_Speed; }
            
set { m_Speed = value; }
        }


        
private uint m_InOctets;
        
/// <summary>
        
/// 总接收字节数
        
/// </summary>

        public uint InOctets
        
{
            
get return m_InOctets; }
            
set { m_InOctets = value; }
        }


        
private uint m_OutOctets;
        
/// <summary>
        
/// 总发送字节数
        
/// </summary>

        public uint OutOctets
        
{
            
get return m_OutOctets; }
            
set { m_OutOctets = value; }
        }


        
private NetState m_Status;
        
/// <summary>
        
/// 操作状态
        
/// </summary>

        public NetState Status
        
{
            
get return m_Status; }
            
set { m_Status = value; }
        }


        
private uint m_InErrors;
        
/// <summary>
        
/// 总错收字节数
        
/// </summary>

        public uint InErrors
        
{
            
get return m_InErrors; }
            
set { m_InErrors = value; }
        }


        
private uint m_OutErrors;
        
/// <summary>
        
/// 总错发字节数
        
/// </summary>

        public uint OutErrors
        
{
            
get return m_OutErrors; }
            
set { m_OutErrors = value; }
        }


        
private uint m_InUnknownProtos;
        
/// <summary>
        
/// 未知协议共收字节数
        
/// </summary>

        public uint InUnknownProtos
        
{
            
get return m_InUnknownProtos; }
            
set { m_InUnknownProtos = value; }
        }


        
private string m_PhysAddr;
        
/// <summary>
        
/// 物理地址
        
/// </summary>

        public string PhysAddr
        
{
            
get return m_PhysAddr; }
            
set { m_PhysAddr = value; }
        }


    }

}


OK,现在可以获取网络信息了

        /// <summary>
        
/// Get IFTable
        
/// </summary>
        
/// <returns>MIB_IFTABLE Class</returns>

        private static MIB_IFTABLE GetAllIfTable()
        
{
            
//缓冲区大小
            uint dwSize = 0;

            
//获取缓冲区大小
            uint ret = GetIfTable(nullref dwSize, false);
            
if (ret == 50)
            
{
                
//此函数仅支持于 win98/nt 系统
                return null;
            }


            
//定义,获取 MIB_IFTABLE 对象
            MIB_IFTABLE tbl = new MIB_IFTABLE((int)dwSize);
            ret 
= GetIfTable(tbl.ByteArray, ref dwSize, false);

            
//如果不成功
            if (ret != 0)
            
{
                
return null;
            }


            
return tbl;
        }


        
/// <summary>
        
/// Get NetInfo Class
        
/// </summary>
        
/// <param name="row">MIB_IFROW Class</param>
        
/// <returns>NetInfo Class</returns>

        private static NetInfo GetNetInfo(MIB_IFROW row)
        
{
            NetInfo ninfo 
= new NetInfo();
            ninfo.Index 
= row.dwIndex;
            ninfo.Name 
= Encoding.ASCII.GetString(row.bDescr, 0, (int)row.dwDescrLen);
            ninfo.PhysAddr 
= GetPhysAddr(row.bPhysAddr, (int)row.dwPhysAddrLen);
            ninfo.Type 
= (NetType)row.dwType;
            ninfo.Status 
= (NetState)row.dwOperStatus;
            ninfo.Speed 
= row.dwSpeed;
            ninfo.InErrors 
= row.dwInErrors;
            ninfo.InOctets 
= row.dwInOctets;
            ninfo.InUnknownProtos 
= row.dwInUnknownProtos;
            ninfo.OutErrors 
= row.dwOutErrors;
            ninfo.OutOctets 
= row.dwOutOctets;
            
return ninfo;
        }


 

/// <summary>
        
/// 获取所有的网络信息
        
/// </summary>
        
/// <returns>NetInfo 网络信息范型</returns>

        public static List<NetInfo> GetAllNetInfo()
        
{
            
//定义范型
            List<NetInfo> ninfos = new List<NetInfo>();

            
//定义,获取 MIB_IFTABLE 对象
            MIB_IFTABLE tbl = GetAllIfTable();

            
//如果成功
            if (tbl != null)
            
{
                tbl.Deserialize();
                
for (int i = 0; i < tbl.Table.Length; i++)
                
{
                    ninfos.Add(GetNetInfo(tbl.Table[i]));
                }

            }


            
return ninfos;
        }

 

posted on 2010-08-28 15:37  wl666lw  阅读(1978)  评论(0编辑  收藏  举报