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GIT: perform LF normalization

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This commit is contained in:
Gary Sharp
2013-02-28 17:15:46 +11:00
parent 989f08a24d
commit 7d9be5620d
729 changed files with 300734 additions and 300712 deletions
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Disco.Client/Interop/Network.cs
+327 -327
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@@ -1,327 +1,327 @@
using System;
using System.Collections.Generic;
using System.Linq;
using System.Management;
using System.Runtime.InteropServices;
using System.Text;
namespace Disco.Client.Interop
{
public static class Network
{
private static List<NetworkAdapterInfo> NetworkAdapters { get; set; }
private static NetworkAdapterInfo PrimaryLanNetworkAdapter { get; set; }
private static NetworkAdapterInfo PrimaryWlanNetworkAdapter { get; set; }
static Network()
{
// Get All Adapters
RetrieveLanAdapters();
if (NetworkAdapters.Count > 0)
{
// Only Retrieve Wlan Adapters if at least one adapter was found by WMI
RetrieveWlanAdapters();
// Determine Primary Adapters
// Lan
PrimaryLanNetworkAdapter = NetworkAdapters.Where(n => !n.IsWLanAdapter && n.NetConnectionId.StartsWith("Local Area Connection", StringComparison.InvariantCultureIgnoreCase)).OrderByDescending(n => n.Speed).FirstOrDefault();
// Might be too restrictive - remove name restriction just in case.
if (PrimaryLanNetworkAdapter == null)
PrimaryLanNetworkAdapter = NetworkAdapters.Where(n => !n.IsWLanAdapter).OrderByDescending(n => n.Speed).FirstOrDefault();
// Wan
PrimaryWlanNetworkAdapter = NetworkAdapters.Where(n => n.IsWLanAdapter).OrderByDescending(n => n.Speed).FirstOrDefault();
}
}
private static void RetrieveLanAdapters()
{
// Get NetworkAdapter Information
try
{
using (ManagementObjectSearcher mSearcher = new ManagementObjectSearcher("SELECT Index, GUID, MACAddress, Name, NetConnectionID, Speed FROM Win32_NetworkAdapter WHERE PhysicalAdapter=true AND MACAddress IS NOT NULL AND Name IS NOT NULL AND NetConnectionID IS NOT NULL AND Speed IS NOT NULL"))
{
using (ManagementObjectCollection mResults = mSearcher.Get())
{
NetworkAdapters = new List<NetworkAdapterInfo>();
foreach (var mResult in mResults.Cast<ManagementObject>())
{
NetworkAdapterInfo nic = new NetworkAdapterInfo()
{
Index = (UInt32)mResult.GetPropertyValue("Index"),
Guid = Guid.Parse((string)mResult.GetPropertyValue("GUID")),
MacAddress = mResult.GetPropertyValue("MACAddress").ToString(),
Name = mResult.GetPropertyValue("Name").ToString(),
NetConnectionId = mResult.GetPropertyValue("NetConnectionID").ToString(),
Speed = Convert.ToUInt64(mResult.GetPropertyValue("Speed")),
IsWLanAdapter = false
};
NetworkAdapters.Add(nic);
}
}
}
}
catch (Exception ex)
{
throw new Exception("Disco Client was unable to retrieve NetworkAdapter information from WMI", ex);
}
}
private static void RetrieveWlanAdapters()
{
WLAN_INTERFACE_INFO_LIST wlanApiInterfaceList;
IntPtr wlanApiHandle = IntPtr.Zero;
uint wlanApiServiceVersion = 0;
if (WlanOpenHandle(WLAN_API_VERSION_2_0, IntPtr.Zero, out wlanApiServiceVersion, ref wlanApiHandle) == ERROR_SUCCESS)
{
IntPtr wlanApiInterfaceListPointer = IntPtr.Zero;
if (WlanEnumInterfaces(wlanApiHandle, IntPtr.Zero, ref wlanApiInterfaceListPointer) == ERROR_SUCCESS)
{
wlanApiInterfaceList = new WLAN_INTERFACE_INFO_LIST(wlanApiInterfaceListPointer);
WlanFreeMemory(wlanApiInterfaceListPointer);
}
else
{
// Error - No Wlan Adapters Reported
WlanCloseHandle(wlanApiHandle, IntPtr.Zero);
return;
}
WlanCloseHandle(wlanApiHandle, IntPtr.Zero);
}
else
{
// Error - No Wlan Adapters Reported
return;
}
if (wlanApiInterfaceList.InterfaceInfo != null)
{
foreach (var wlanApiAdapter in wlanApiInterfaceList.InterfaceInfo)
{
var wlanApiAdapterInfo = wlanApiAdapter;
var wmiAdapterInfo = NetworkAdapters.FirstOrDefault(n => n.Guid == wlanApiAdapterInfo.InterfaceGuid);
if (wmiAdapterInfo != null)
{
wmiAdapterInfo.IsWLanAdapter = true;
wmiAdapterInfo.WlanState = wlanApiAdapterInfo.isState;
}
}
}
}
public static string PrimaryLanMacAddress
{
get
{
// Return null if no Primary LAN Network Adapter found on this Device
return (PrimaryLanNetworkAdapter == null) ? null : PrimaryLanNetworkAdapter.MacAddress;
}
}
public static string PrimaryWlanMacAddress
{
get
{
// Return null if no Primary WLAN Network Adapter found on this Device
return (PrimaryWlanNetworkAdapter == null) ? null : PrimaryWlanNetworkAdapter.MacAddress;
}
}
private class NetworkAdapterInfo
{
public UInt32 Index { get; set; }
public Guid Guid { get; set; }
public string Name { get; set; }
public string NetConnectionId { get; set; }
public string MacAddress { get; set; }
public UInt64 Speed { get; set; }
public bool IsWLanAdapter { get; set; }
public WLAN_INTERFACE_STATE WlanState { get; set; }
public string WlanStateDescription
{
get
{
switch (WlanState)
{
case WLAN_INTERFACE_STATE.wlan_interface_state_not_ready:
return "Not Ready";
case WLAN_INTERFACE_STATE.wlan_interface_state_connected:
return "Connected";
case WLAN_INTERFACE_STATE.wlan_interface_state_ad_hoc_network_formed:
return "Ad Hoc Network Formed";
case WLAN_INTERFACE_STATE.wlan_interface_state_disconnecting:
return "Disconnecting";
case WLAN_INTERFACE_STATE.wlan_interface_state_disconnected:
return "Disconnected";
case WLAN_INTERFACE_STATE.wlan_interface_state_associating:
return "Associating";
case WLAN_INTERFACE_STATE.wlan_interface_state_discovering:
return "Discovering";
case WLAN_INTERFACE_STATE.wlan_interface_state_authenticating:
return "Authenticating";
default:
return "Unknown";
}
}
}
}
#region Wlan Win32 Interop
private const uint WLAN_API_VERSION_2_0 = 2; // Windows Vista WiFi API Version
private const int ERROR_SUCCESS = 0;
/// <summary >
/// Opens a connection to the server
/// </summary >
[DllImport("Wlanapi.dll")]
private static extern int WlanOpenHandle(
uint dwClientVersion,
IntPtr pReserved, //not in MSDN but required
[Out] out uint pdwNegotiatedVersion,
ref IntPtr ClientHandle);
/// <summary >
/// Closes a connection to the server
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanCloseHandle")]
private static extern uint WlanCloseHandle(
[In] IntPtr hClientHandle,
IntPtr pReserved);
/// <summary >
/// Enumerates all wireless interfaces in the laptop
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanEnumInterfaces")]
private static extern uint WlanEnumInterfaces(
[In] IntPtr hClientHandle,
IntPtr pReserved,
ref IntPtr ppInterfaceList);
/// <summary >
/// Frees memory returned by native WiFi functions
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanFreeMemory")]
private static extern void WlanFreeMemory([In] IntPtr pMemory);
/// <summary>
/// Defines the state of the interface. e.g. connected, disconnected.
/// </summary>
private enum WLAN_INTERFACE_STATE
{
/// <summary>
/// wlan_interface_state_not_ready -> 0
/// </summary>
wlan_interface_state_not_ready = 0,
/// <summary>
/// wlan_interface_state_connected -> 1
/// </summary>
wlan_interface_state_connected = 1,
/// <summary>
/// wlan_interface_state_ad_hoc_network_formed -> 2
/// </summary>
wlan_interface_state_ad_hoc_network_formed = 2,
/// <summary>
/// wlan_interface_state_disconnecting -> 3
/// </summary>
wlan_interface_state_disconnecting = 3,
/// <summary>
/// wlan_interface_state_disconnected -> 4
/// </summary>
wlan_interface_state_disconnected = 4,
/// <summary>
/// wlan_interface_state_associating -> 5
/// </summary>
wlan_interface_state_associating = 5,
/// <summary>
/// wlan_interface_state_discovering -> 6
/// </summary>
wlan_interface_state_discovering = 6,
/// <summary>
/// wlan_interface_state_authenticating -> 7
/// </summary>
wlan_interface_state_authenticating = 7,
}
/// <summary >
/// Stores interface info
/// </summary >
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
private struct WLAN_INTERFACE_INFO
{
/// GUID->_GUID
public Guid InterfaceGuid;
/// WCHAR[256]
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 256)]
public string strInterfaceDescription;
/// WLAN_INTERFACE_STATE->_WLAN_INTERFACE_STATE
public WLAN_INTERFACE_STATE isState;
}
/// <summary>
/// Contains an array of NIC information
/// </summary>
[StructLayout(LayoutKind.Sequential)]
private struct WLAN_INTERFACE_INFO_LIST
{
/// <summary>
/// Length of <see cref="InterfaceInfo"/> array
/// </summary>
public Int32 dwNumberOfItems;
/// <summary>
/// This member is not used by the wireless service. Applications can use this member when processing individual interfaces.
/// </summary>
public Int32 dwIndex;
/// <summary>
/// Array of WLAN interfaces.
/// </summary>
public WLAN_INTERFACE_INFO[] InterfaceInfo;
/// <summary>
/// Constructor for WLAN_INTERFACE_INFO_LIST.
/// Constructor is needed because the InterfaceInfo member varies based on how many adapters are in the system.
/// </summary>
/// <param name="pList">the unmanaged pointer containing the list.</param>
public WLAN_INTERFACE_INFO_LIST(IntPtr pList)
{
// The first 4 bytes are the number of WLAN_INTERFACE_INFO structures.
dwNumberOfItems = Marshal.ReadInt32(pList, 0);
// The next 4 bytes are the index of the current item in the unmanaged API.
dwIndex = Marshal.ReadInt32(pList, 4);
// Construct the array of WLAN_INTERFACE_INFO structures.
InterfaceInfo = new WLAN_INTERFACE_INFO[dwNumberOfItems];
for (int i = 0; i <= dwNumberOfItems - 1; i++)
{
// The offset of the array of structures is 8 bytes past the beginning.
// Then, take the index and multiply it by the number of bytes in the
// structure.
// The length of the WLAN_INTERFACE_INFO structure is 532 bytes - this
// was determined by doing a Marshall.SizeOf(WLAN_INTERFACE_INFO)
IntPtr pItemList = new IntPtr(pList.ToInt64() + (i * 532) + 8);
// Construct the WLAN_INTERFACE_INFO structure, marshal the unmanaged
// structure into it, then copy it to the array of structures.
InterfaceInfo[i] = (WLAN_INTERFACE_INFO)Marshal.PtrToStructure(pItemList, typeof(WLAN_INTERFACE_INFO));
}
}
}
#endregion
}
}
using System;
using System.Collections.Generic;
using System.Linq;
using System.Management;
using System.Runtime.InteropServices;
using System.Text;
namespace Disco.Client.Interop
{
public static class Network
{
private static List<NetworkAdapterInfo> NetworkAdapters { get; set; }
private static NetworkAdapterInfo PrimaryLanNetworkAdapter { get; set; }
private static NetworkAdapterInfo PrimaryWlanNetworkAdapter { get; set; }
static Network()
{
// Get All Adapters
RetrieveLanAdapters();
if (NetworkAdapters.Count > 0)
{
// Only Retrieve Wlan Adapters if at least one adapter was found by WMI
RetrieveWlanAdapters();
// Determine Primary Adapters
// Lan
PrimaryLanNetworkAdapter = NetworkAdapters.Where(n => !n.IsWLanAdapter && n.NetConnectionId.StartsWith("Local Area Connection", StringComparison.InvariantCultureIgnoreCase)).OrderByDescending(n => n.Speed).FirstOrDefault();
// Might be too restrictive - remove name restriction just in case.
if (PrimaryLanNetworkAdapter == null)
PrimaryLanNetworkAdapter = NetworkAdapters.Where(n => !n.IsWLanAdapter).OrderByDescending(n => n.Speed).FirstOrDefault();
// Wan
PrimaryWlanNetworkAdapter = NetworkAdapters.Where(n => n.IsWLanAdapter).OrderByDescending(n => n.Speed).FirstOrDefault();
}
}
private static void RetrieveLanAdapters()
{
// Get NetworkAdapter Information
try
{
using (ManagementObjectSearcher mSearcher = new ManagementObjectSearcher("SELECT Index, GUID, MACAddress, Name, NetConnectionID, Speed FROM Win32_NetworkAdapter WHERE PhysicalAdapter=true AND MACAddress IS NOT NULL AND Name IS NOT NULL AND NetConnectionID IS NOT NULL AND Speed IS NOT NULL"))
{
using (ManagementObjectCollection mResults = mSearcher.Get())
{
NetworkAdapters = new List<NetworkAdapterInfo>();
foreach (var mResult in mResults.Cast<ManagementObject>())
{
NetworkAdapterInfo nic = new NetworkAdapterInfo()
{
Index = (UInt32)mResult.GetPropertyValue("Index"),
Guid = Guid.Parse((string)mResult.GetPropertyValue("GUID")),
MacAddress = mResult.GetPropertyValue("MACAddress").ToString(),
Name = mResult.GetPropertyValue("Name").ToString(),
NetConnectionId = mResult.GetPropertyValue("NetConnectionID").ToString(),
Speed = Convert.ToUInt64(mResult.GetPropertyValue("Speed")),
IsWLanAdapter = false
};
NetworkAdapters.Add(nic);
}
}
}
}
catch (Exception ex)
{
throw new Exception("Disco Client was unable to retrieve NetworkAdapter information from WMI", ex);
}
}
private static void RetrieveWlanAdapters()
{
WLAN_INTERFACE_INFO_LIST wlanApiInterfaceList;
IntPtr wlanApiHandle = IntPtr.Zero;
uint wlanApiServiceVersion = 0;
if (WlanOpenHandle(WLAN_API_VERSION_2_0, IntPtr.Zero, out wlanApiServiceVersion, ref wlanApiHandle) == ERROR_SUCCESS)
{
IntPtr wlanApiInterfaceListPointer = IntPtr.Zero;
if (WlanEnumInterfaces(wlanApiHandle, IntPtr.Zero, ref wlanApiInterfaceListPointer) == ERROR_SUCCESS)
{
wlanApiInterfaceList = new WLAN_INTERFACE_INFO_LIST(wlanApiInterfaceListPointer);
WlanFreeMemory(wlanApiInterfaceListPointer);
}
else
{
// Error - No Wlan Adapters Reported
WlanCloseHandle(wlanApiHandle, IntPtr.Zero);
return;
}
WlanCloseHandle(wlanApiHandle, IntPtr.Zero);
}
else
{
// Error - No Wlan Adapters Reported
return;
}
if (wlanApiInterfaceList.InterfaceInfo != null)
{
foreach (var wlanApiAdapter in wlanApiInterfaceList.InterfaceInfo)
{
var wlanApiAdapterInfo = wlanApiAdapter;
var wmiAdapterInfo = NetworkAdapters.FirstOrDefault(n => n.Guid == wlanApiAdapterInfo.InterfaceGuid);
if (wmiAdapterInfo != null)
{
wmiAdapterInfo.IsWLanAdapter = true;
wmiAdapterInfo.WlanState = wlanApiAdapterInfo.isState;
}
}
}
}
public static string PrimaryLanMacAddress
{
get
{
// Return null if no Primary LAN Network Adapter found on this Device
return (PrimaryLanNetworkAdapter == null) ? null : PrimaryLanNetworkAdapter.MacAddress;
}
}
public static string PrimaryWlanMacAddress
{
get
{
// Return null if no Primary WLAN Network Adapter found on this Device
return (PrimaryWlanNetworkAdapter == null) ? null : PrimaryWlanNetworkAdapter.MacAddress;
}
}
private class NetworkAdapterInfo
{
public UInt32 Index { get; set; }
public Guid Guid { get; set; }
public string Name { get; set; }
public string NetConnectionId { get; set; }
public string MacAddress { get; set; }
public UInt64 Speed { get; set; }
public bool IsWLanAdapter { get; set; }
public WLAN_INTERFACE_STATE WlanState { get; set; }
public string WlanStateDescription
{
get
{
switch (WlanState)
{
case WLAN_INTERFACE_STATE.wlan_interface_state_not_ready:
return "Not Ready";
case WLAN_INTERFACE_STATE.wlan_interface_state_connected:
return "Connected";
case WLAN_INTERFACE_STATE.wlan_interface_state_ad_hoc_network_formed:
return "Ad Hoc Network Formed";
case WLAN_INTERFACE_STATE.wlan_interface_state_disconnecting:
return "Disconnecting";
case WLAN_INTERFACE_STATE.wlan_interface_state_disconnected:
return "Disconnected";
case WLAN_INTERFACE_STATE.wlan_interface_state_associating:
return "Associating";
case WLAN_INTERFACE_STATE.wlan_interface_state_discovering:
return "Discovering";
case WLAN_INTERFACE_STATE.wlan_interface_state_authenticating:
return "Authenticating";
default:
return "Unknown";
}
}
}
}
#region Wlan Win32 Interop
private const uint WLAN_API_VERSION_2_0 = 2; // Windows Vista WiFi API Version
private const int ERROR_SUCCESS = 0;
/// <summary >
/// Opens a connection to the server
/// </summary >
[DllImport("Wlanapi.dll")]
private static extern int WlanOpenHandle(
uint dwClientVersion,
IntPtr pReserved, //not in MSDN but required
[Out] out uint pdwNegotiatedVersion,
ref IntPtr ClientHandle);
/// <summary >
/// Closes a connection to the server
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanCloseHandle")]
private static extern uint WlanCloseHandle(
[In] IntPtr hClientHandle,
IntPtr pReserved);
/// <summary >
/// Enumerates all wireless interfaces in the laptop
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanEnumInterfaces")]
private static extern uint WlanEnumInterfaces(
[In] IntPtr hClientHandle,
IntPtr pReserved,
ref IntPtr ppInterfaceList);
/// <summary >
/// Frees memory returned by native WiFi functions
/// </summary >
[DllImport("Wlanapi", EntryPoint = "WlanFreeMemory")]
private static extern void WlanFreeMemory([In] IntPtr pMemory);
/// <summary>
/// Defines the state of the interface. e.g. connected, disconnected.
/// </summary>
private enum WLAN_INTERFACE_STATE
{
/// <summary>
/// wlan_interface_state_not_ready -> 0
/// </summary>
wlan_interface_state_not_ready = 0,
/// <summary>
/// wlan_interface_state_connected -> 1
/// </summary>
wlan_interface_state_connected = 1,
/// <summary>
/// wlan_interface_state_ad_hoc_network_formed -> 2
/// </summary>
wlan_interface_state_ad_hoc_network_formed = 2,
/// <summary>
/// wlan_interface_state_disconnecting -> 3
/// </summary>
wlan_interface_state_disconnecting = 3,
/// <summary>
/// wlan_interface_state_disconnected -> 4
/// </summary>
wlan_interface_state_disconnected = 4,
/// <summary>
/// wlan_interface_state_associating -> 5
/// </summary>
wlan_interface_state_associating = 5,
/// <summary>
/// wlan_interface_state_discovering -> 6
/// </summary>
wlan_interface_state_discovering = 6,
/// <summary>
/// wlan_interface_state_authenticating -> 7
/// </summary>
wlan_interface_state_authenticating = 7,
}
/// <summary >
/// Stores interface info
/// </summary >
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
private struct WLAN_INTERFACE_INFO
{
/// GUID->_GUID
public Guid InterfaceGuid;
/// WCHAR[256]
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 256)]
public string strInterfaceDescription;
/// WLAN_INTERFACE_STATE->_WLAN_INTERFACE_STATE
public WLAN_INTERFACE_STATE isState;
}
/// <summary>
/// Contains an array of NIC information
/// </summary>
[StructLayout(LayoutKind.Sequential)]
private struct WLAN_INTERFACE_INFO_LIST
{
/// <summary>
/// Length of <see cref="InterfaceInfo"/> array
/// </summary>
public Int32 dwNumberOfItems;
/// <summary>
/// This member is not used by the wireless service. Applications can use this member when processing individual interfaces.
/// </summary>
public Int32 dwIndex;
/// <summary>
/// Array of WLAN interfaces.
/// </summary>
public WLAN_INTERFACE_INFO[] InterfaceInfo;
/// <summary>
/// Constructor for WLAN_INTERFACE_INFO_LIST.
/// Constructor is needed because the InterfaceInfo member varies based on how many adapters are in the system.
/// </summary>
/// <param name="pList">the unmanaged pointer containing the list.</param>
public WLAN_INTERFACE_INFO_LIST(IntPtr pList)
{
// The first 4 bytes are the number of WLAN_INTERFACE_INFO structures.
dwNumberOfItems = Marshal.ReadInt32(pList, 0);
// The next 4 bytes are the index of the current item in the unmanaged API.
dwIndex = Marshal.ReadInt32(pList, 4);
// Construct the array of WLAN_INTERFACE_INFO structures.
InterfaceInfo = new WLAN_INTERFACE_INFO[dwNumberOfItems];
for (int i = 0; i <= dwNumberOfItems - 1; i++)
{
// The offset of the array of structures is 8 bytes past the beginning.
// Then, take the index and multiply it by the number of bytes in the
// structure.
// The length of the WLAN_INTERFACE_INFO structure is 532 bytes - this
// was determined by doing a Marshall.SizeOf(WLAN_INTERFACE_INFO)
IntPtr pItemList = new IntPtr(pList.ToInt64() + (i * 532) + 8);
// Construct the WLAN_INTERFACE_INFO structure, marshal the unmanaged
// structure into it, then copy it to the array of structures.
InterfaceInfo[i] = (WLAN_INTERFACE_INFO)Marshal.PtrToStructure(pItemList, typeof(WLAN_INTERFACE_INFO));
}
}
}
#endregion
}
}