internal static IEnumerable <ProfilePack> EnumerateProfiles(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList.Select(x => new InterfaceInfo(x)))
{
var interfaceIsConnected = (interfaceInfo.State == InterfaceState.Connected);
var interfaceIsRadioOn = interfaceIsConnected || IsInterfaceRadioOn(container.Content, interfaceInfo.Id);
var availableNetworkList = Base.GetAvailableNetworkList(container.Content.Handle, interfaceInfo.Id)
.Where(x => !string.IsNullOrWhiteSpace(x.strProfileName))
.ToArray();
var connection = Base.GetConnectionAttributes(container.Content.Handle, interfaceInfo.Id);
var profileInfoList = Base.GetProfileInfoList(container.Content.Handle, interfaceInfo.Id);
int position = 0;
foreach (var profileInfo in profileInfoList)
{
var availableNetwork = availableNetworkList.FirstOrDefault(x => string.Equals(x.strProfileName, profileInfo.strProfileName, StringComparison.Ordinal));
var signalQuality = (int)availableNetwork.wlanSignalQuality;
var profileIsConnected = interfaceIsConnected && string.Equals(connection.strProfileName, profileInfo.strProfileName, StringComparison.Ordinal);
var profileXml = Base.GetProfile(container.Content.Handle, interfaceInfo.Id, profileInfo.strProfileName, out uint profileTypeFlag);
if (string.IsNullOrWhiteSpace(profileXml))
{
continue;
}
if (!ProfileTypeConverter.TryConvert(profileTypeFlag, out ProfileType profileType))
{
continue;
}
//Debug.WriteLine("Interface: {0}, Profile: {1}, Position: {2}, RadioOn: {3}, Signal: {4}, Connected: {5}",
// interfaceInfo.Description,
// profileInfo.strProfileName,
// position,
// interfaceIsRadioOn,
// signalQuality,
// profileIsConnected);
yield return(new ProfilePack(
name: profileInfo.strProfileName,
interfaceInfo: interfaceInfo,
profileType: profileType,
profileXml: profileXml,
position: position++,
isRadioOn: interfaceIsRadioOn,
signalQuality: signalQuality,
isConnected: profileIsConnected));
}
}
}
}
internal static IEnumerable <AvailableNetworkPack> EnumerateAvailableNetworks(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList.Select(x => new InterfaceInfo(x)))
{
var availableNetworkList = Base.GetAvailableNetworkList(container.Content.Handle, interfaceInfo.Id);
foreach (var availableNetwork in availableNetworkList)
{
if (!BssTypeConverter.TryConvert(availableNetwork.dot11BssType, out BssType bssType))
{
continue;
}
//Debug.WriteLine("Interface: {0}, SSID: {1}, Signal: {2}, Security: {3}",
// interfaceInfo.Description,
// availableNetwork.dot11Ssid,
// availableNetwork.wlanSignalQuality,
// availableNetwork.bSecurityEnabled);
yield return(new AvailableNetworkPack(
interfaceInfo: interfaceInfo,
ssid: new NetworkIdentifier(availableNetwork.dot11Ssid.ToBytes(), availableNetwork.dot11Ssid.ToString()),
bssType: bssType,
signalQuality: (int)availableNetwork.wlanSignalQuality,
isSecurityEnabled: availableNetwork.bSecurityEnabled,
profileName: availableNetwork.strProfileName));
}
}
}
}
internal static IEnumerable <AvailableNetworkPack> EnumerateAvailableNetworks(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in EnumerateInterfaces(container.Content))
{
foreach (var availableNetwork in Base.GetAvailableNetworkList(container.Content.Handle, interfaceInfo.Id))
{
if (!BssTypeConverter.TryConvert(availableNetwork.dot11BssType, out BssType bssType))
{
continue;
}
if (!AuthenticationAlgorithmConverter.TryConvert(availableNetwork.dot11DefaultAuthAlgorithm, out AuthenticationAlgorithm authenticationAlgorithm))
{
continue;
}
if (!CipherAlgorithmConverter.TryConvert(availableNetwork.dot11DefaultCipherAlgorithm, out CipherAlgorithm cipherAlgorithm))
{
continue;
}
yield return(new AvailableNetworkPack(
interfaceInfo: interfaceInfo,
ssid: new NetworkIdentifier(availableNetwork.dot11Ssid),
bssType: bssType,
signalQuality: (int)availableNetwork.wlanSignalQuality,
isSecurityEnabled: availableNetwork.bSecurityEnabled,
profileName: availableNetwork.strProfileName,
authenticationAlgorithm: authenticationAlgorithm,
cipherAlgorithm: cipherAlgorithm));
}
}
}
internal static IEnumerable <InterfaceInfo> EnumerateInterfaces(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
return(Base.GetInterfaceInfoList(container.Content.Handle)
.Select(x => new InterfaceInfo(x)));
}
internal static IEnumerable <NetworkIdentifier> EnumerateConnectedNetworkSsids(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList)
{
var connection = Base.GetConnectionAttributes(container.Content.Handle, interfaceInfo.InterfaceGuid);
if (connection.isState != WLAN_INTERFACE_STATE.wlan_interface_state_connected)
{
continue;
}
var association = connection.wlanAssociationAttributes;
//Debug.WriteLine("Interface: {0}, SSID: {1}, BSSID: {2}, Signal: {3}",
// interfaceInfo.strInterfaceDescription,
// association.dot11Ssid,
// association.dot11Bssid,
// association.wlanSignalQuality);
yield return(new NetworkIdentifier(association.dot11Ssid.ToBytes(), association.dot11Ssid.ToString()));
}
}
}
internal static IEnumerable <ProfilePack> EnumerateProfiles(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in EnumerateInterfaces(container.Content))
{
int position = 0;
foreach (var profileInfo in Base.GetProfileInfoList(container.Content.Handle, interfaceInfo.Id))
{
var profileXml = Base.GetProfile(container.Content.Handle, interfaceInfo.Id, profileInfo.strProfileName, out uint profileTypeFlag);
if (string.IsNullOrWhiteSpace(profileXml))
{
continue;
}
if (!ProfileTypeConverter.TryConvert(profileTypeFlag, out ProfileType profileType))
{
continue;
}
yield return(new ProfilePack(
name: profileInfo.strProfileName,
interfaceInfo: interfaceInfo,
profileType: profileType,
profileXml: profileXml,
position: position++));
}
}
}
private static IEnumerable <RadioSet> EnumerateInterfaceRadioSets(Base.WlanClient client, Guid interfaceId)
{
var capability = Base.GetInterfaceCapability(client.Handle, interfaceId);
var states = Base.GetPhyRadioStates(client.Handle, interfaceId); // The underlying collection is array.
if ((capability.interfaceType == WLAN_INTERFACE_TYPE.wlan_interface_type_invalid) ||
(capability.dwNumberOfSupportedPhys != states.Count()))
{
return(Enumerable.Empty <RadioSet>());
}
return(Enumerable.Zip(
capability.dot11PhyTypes,
states.OrderBy(x => x.dwPhyIndex),
(x, y) => new RadioSet(
type: PhyTypeConverter.Convert(x),
hardwareOn: ConvertToNullableBoolean(y.dot11HardwareRadioState),
softwareOn: ConvertToNullableBoolean(y.dot11SoftwareRadioState))));
bool?ConvertToNullableBoolean(DOT11_RADIO_STATE source)
{
switch (source)
{
case DOT11_RADIO_STATE.dot11_radio_state_on:
return(true);
case DOT11_RADIO_STATE.dot11_radio_state_off:
return(false);
default:
return(null);
}
}
}
internal static bool ConnectNetwork(Base.WlanClient client, Guid interfaceId, string profileName, BssType bssType, PhysicalAddress bssid = null)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException("The specified interface ID is invalid.", nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(profileName))
{
throw new ArgumentNullException(nameof(profileName));
}
using var container = new DisposableContainer <Base.WlanClient>(client);
if (bssid is not null)
{
var dot11MacAddress = new DOT11_MAC_ADDRESS {
ucDot11MacAddress = bssid.GetAddressBytes()
};
return(Base.Connect(container.Content.Handle, interfaceId, profileName, BssTypeConverter.ConvertBack(bssType), dot11MacAddress));
}
else
{
return(Base.Connect(container.Content.Handle, interfaceId, profileName, BssTypeConverter.ConvertBack(bssType)));
}
}
internal static InterfaceRadio GetInterfaceRadio(Base.WlanClient client, Guid interfaceId)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var capability = Base.GetInterfaceCapability(container.Content.Handle, interfaceId);
var states = Base.GetPhyRadioStates(container.Content.Handle, interfaceId); // The underlying collection is array.
if ((capability.interfaceType == WLAN_INTERFACE_TYPE.wlan_interface_type_invalid) ||
(capability.dwNumberOfSupportedPhys != states.Count()))
{
return(null);
}
var radioSets = Enumerable.Zip(
capability.dot11PhyTypes,
states.OrderBy(x => x.dwPhyIndex),
(x, y) => new RadioSet(
type: PhyTypeConverter.Convert(x),
softwareOn: ConvertToNullableBoolean(y.dot11SoftwareRadioState),
hardwareOn: ConvertToNullableBoolean(y.dot11HardwareRadioState)));
return(new InterfaceRadio(
id: interfaceId,
radioSets: radioSets));
}
}
internal static bool DisconnectNetwork(Base.WlanClient client, Guid interfaceId)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException("The specified interface ID is invalid.", nameof(interfaceId));
}
using var container = new DisposableContainer <Base.WlanClient>(client);
return(Base.Disconnect(container.Content.Handle, interfaceId));
}
internal static bool GetInterfaceAutoConfig(Base.WlanClient client, Guid interfaceId)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
return(Base.GetAutoConfig(container.Content.Handle, interfaceId).GetValueOrDefault());
}
}
internal static IEnumerable <string> EnumerateProfileNames(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in Base.GetInterfaceInfoList(container.Content.Handle))
{
foreach (var profileInfo in Base.GetProfileInfoList(container.Content.Handle, interfaceInfo.InterfaceGuid))
{
yield return(profileInfo.strProfileName);
}
}
}
internal static IEnumerable <NetworkIdentifier> EnumerateAvailableNetworkSsids(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in Base.GetInterfaceInfoList(container.Content.Handle))
{
foreach (var availableNetwork in Base.GetAvailableNetworkList(container.Content.Handle, interfaceInfo.InterfaceGuid))
{
yield return(new NetworkIdentifier(availableNetwork.dot11Ssid));
}
}
}
internal static IEnumerable <InterfaceInfoEx> EnumerateInterfacesEx(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList)
{
var connection = Base.GetConnectionAttributes(container.Content.Handle, interfaceInfo.InterfaceGuid);
yield return(new InterfaceInfoEx(interfaceInfo, connection));
}
}
}
internal static IEnumerable <BssNetworkPack> EnumerateBssNetworks(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList.Select(x => new InterfaceInfo(container.Content.Handle, x)))
{
var networkList = EnumerateAvailableNetworks(client);
var networkBssEntryList = Base.GetNetworkBssEntryList(container.Content.Handle, interfaceInfo.Id);
foreach (var networkBssEntry in networkBssEntryList)
{
if (!BssTypeConverter.TryConvert(networkBssEntry.dot11BssType, out BssType bssType))
{
continue;
}
//Debug.WriteLine("Interface: {0}, SSID: {1}, BSSID: {2}, Signal: {3} Link: {4}, Frequency: {5}",
// interfaceInfo.Description,
// networkBssEntry.dot11Ssid,
// networkBssEntry.dot11Bssid,
// networkBssEntry.lRssi,
// networkBssEntry.uLinkQuality,
// networkBssEntry.ulChCenterFrequency);
var network = networkList.Where(o => o.Ssid.ToString() == new NetworkIdentifier(networkBssEntry.dot11Ssid.ToBytes(), networkBssEntry.dot11Ssid.ToString(), networkBssEntry.dot11Ssid.uSSIDLength).ToString());
//this program work get available network first and get bssnetwork list.
//so if can not found network. just skip the bss network.
//it just happen if you don't have a luck.
if (!network.Any())
{
continue;
}
yield return(new BssNetworkPack(
interfaceInfo: interfaceInfo,
network: network.First(),
ssid: new NetworkIdentifier(networkBssEntry.dot11Ssid.ToBytes(), networkBssEntry.dot11Ssid.ToString(), networkBssEntry.dot11Ssid.uSSIDLength),
bssType: bssType,
bssid: new NetworkIdentifier(networkBssEntry.dot11Bssid.ToBytes(), networkBssEntry.dot11Bssid.ToString(), networkBssEntry.dot11Ssid.uSSIDLength),
signalStrength: networkBssEntry.lRssi,
linkQuality: (int)networkBssEntry.uLinkQuality,
frequency: (int)networkBssEntry.ulChCenterFrequency,
channel: DetectChannel(networkBssEntry.ulChCenterFrequency)));
}
}
}
}
private static bool IsInterfaceRadioOn(Base.WlanClient client, Guid interfaceId)
{
var states = Base.GetPhyRadioStates(client.Handle, interfaceId);
if (!states.Any())
{
return(false);
}
var hardwareOn = ConvertToNullableBoolean(states.First().dot11HardwareRadioState);
var softwareOn = ConvertToNullableBoolean(states.First().dot11SoftwareRadioState);
return(hardwareOn.GetValueOrDefault() &&
softwareOn.GetValueOrDefault());
}
internal static bool DeleteProfile(Base.WlanClient client, Guid interfaceId, string profileName)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException("The specified interface ID is invalid.", nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(profileName))
{
throw new ArgumentNullException(nameof(profileName));
}
using var container = new DisposableContainer <Base.WlanClient>(client);
return(Base.DeleteProfile(container.Content.Handle, interfaceId, profileName));
}
internal static IEnumerable <BssNetworkPack> EnumerateBssNetworks(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in EnumerateInterfaces(container.Content))
{
foreach (var networkBssEntry in Base.GetNetworkBssEntryList(container.Content.Handle, interfaceInfo.Id))
{
if (TryConvertBssNetwork(interfaceInfo, networkBssEntry, out BssNetworkPack bssNetwork))
{
yield return(bssNetwork);
}
}
}
}
internal static async Task <IEnumerable <Guid> > ScanNetworksAsync(Base.WlanNotificationClient client, TimeSpan timeout, CancellationToken cancellationToken)
{
if (timeout <= TimeSpan.Zero)
{
throw new ArgumentException(nameof(timeout));
}
using (var container = new DisposableContainer <Base.WlanNotificationClient>(client))
{
var interfaceIds = Base.GetInterfaceInfoList(container.Content.Handle)
.Select(x => x.InterfaceGuid)
.ToArray();
var tcs = new TaskCompletionSource <bool>();
var counter = new ScanCounter(() => Task.Run(() => tcs.TrySetResult(true)), interfaceIds);
container.Content.NotificationReceived += (sender, data) =>
{
switch ((WLAN_NOTIFICATION_ACM)data.NotificationCode)
{
case WLAN_NOTIFICATION_ACM.wlan_notification_acm_scan_complete:
counter.SetSuccess(data.InterfaceGuid);
break;
case WLAN_NOTIFICATION_ACM.wlan_notification_acm_scan_fail:
counter.SetFailure(data.InterfaceGuid);
break;
}
};
foreach (var interfaceId in interfaceIds)
{
var result = Base.Scan(container.Content.Handle, interfaceId);
if (!result)
{
counter.SetFailure(interfaceId);
}
}
using (cancellationToken.Register(() => tcs.TrySetCanceled()))
{
var scanTask = tcs.Task;
await Task.WhenAny(scanTask, Task.Delay(timeout, cancellationToken));
return(counter.Results);
}
}
}
internal static bool TurnInterfaceRadio(Base.WlanClient client, Guid interfaceId, DOT11_RADIO_STATE radioState)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var phyRadioState = new WLAN_PHY_RADIO_STATE {
dot11SoftwareRadioState = radioState,
};
return(Base.SetPhyRadioState(container.Content.Handle, interfaceId, phyRadioState));
}
}
internal static async Task <bool> DisconnectNetworkAsync(Base.WlanNotificationClient client, Guid interfaceId, TimeSpan timeout, CancellationToken cancellationToken)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
if (timeout <= TimeSpan.Zero)
{
throw new ArgumentException(nameof(timeout));
}
using (var container = new DisposableContainer <Base.WlanNotificationClient>(client))
{
var tcs = new TaskCompletionSource <bool>();
container.Content.NotificationReceived += (sender, data) =>
{
if (data.InterfaceGuid != interfaceId)
{
return;
}
switch ((WLAN_NOTIFICATION_ACM)data.NotificationCode)
{
case WLAN_NOTIFICATION_ACM.wlan_notification_acm_disconnected:
Task.Run(() => tcs.TrySetResult(true));
break;
}
};
var result = Base.Disconnect(container.Content.Handle, interfaceId);
if (!result)
{
tcs.SetResult(false);
}
using (cancellationToken.Register(() => tcs.TrySetCanceled()))
{
var disconnectTask = tcs.Task;
var completedTask = await Task.WhenAny(disconnectTask, Task.Delay(timeout, cancellationToken));
return((completedTask == disconnectTask) && disconnectTask.IsCompleted && disconnectTask.Result);
}
}
}
internal static bool SetProfile(Base.WlanClient client, Guid interfaceId, ProfileType profileType, string profileXml, string profileSecurity, bool overwrite)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException("The specified interface ID is invalid.", nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(profileXml))
{
throw new ArgumentNullException(nameof(profileXml));
}
using var container = new DisposableContainer <Base.WlanClient>(client);
var profileTypeFlag = ProfileTypeConverter.ConvertBack(profileType);
return(Base.SetProfile(container.Content.Handle, interfaceId, profileTypeFlag, profileXml, profileSecurity, overwrite));
}
internal static bool ConnectNetwork(Base.WlanClient client, Guid interfaceId, string profileName, BssType bssType)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(profileName))
{
throw new ArgumentNullException(nameof(profileName));
}
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
return(Base.Connect(container.Content.Handle, interfaceId, profileName, BssTypeConverter.ConvertBack(bssType)));
}
}
internal static IEnumerable <NetworkIdentifier> EnumerateConnectedNetworkSsids(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in Base.GetInterfaceInfoList(container.Content.Handle))
{
var connection = Base.GetConnectionAttributes(container.Content.Handle, interfaceInfo.InterfaceGuid);
if (connection.isState != WLAN_INTERFACE_STATE.wlan_interface_state_connected)
{
continue;
}
var association = connection.wlanAssociationAttributes;
yield return(new NetworkIdentifier(association.dot11Ssid));
}
}
internal static bool SetProfileEapXmlUserData(Base.WlanClient client, Guid interfaceId, string profileName, EapXmlType eapXmlType, string userDataXml)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException(nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(userDataXml))
{
throw new ArgumentNullException(nameof(userDataXml));
}
using var container = new DisposableContainer <Base.WlanClient>(client);
var eapXmlTypeFlag = EapXmlTypeConverter.ConvertBack(eapXmlType);
return(Base.SetProfileEapXmlUserData(container.Content.Handle, interfaceId, profileName, eapXmlTypeFlag, userDataXml));
}
internal static bool SetProfilePosition(Base.WlanClient client, Guid interfaceId, string profileName, int position)
{
if (interfaceId == Guid.Empty)
{
throw new ArgumentException("The specified interface ID is invalid.", nameof(interfaceId));
}
if (string.IsNullOrWhiteSpace(profileName))
{
throw new ArgumentNullException(nameof(profileName));
}
if (position < 0)
{
throw new ArgumentOutOfRangeException(nameof(position), "The position must not be negative.");
}
using var container = new DisposableContainer <Base.WlanClient>(client);
return(Base.SetProfilePosition(container.Content.Handle, interfaceId, profileName, (uint)position));
}
private static IEnumerable <RadioSet> EnumerateInterfaceRadioSets(Base.WlanClient client, Guid interfaceId)
{
var capability = Base.GetInterfaceCapability(client.Handle, interfaceId);
var states = Base.GetPhyRadioStates(client.Handle, interfaceId); // The underlying collection is array.
if ((capability.interfaceType == WLAN_INTERFACE_TYPE.wlan_interface_type_invalid) ||
(capability.dwNumberOfSupportedPhys != states.Count()) ||
(capability.dot11PhyTypes?.Any() is not true)) // This value may be null.
{
return(Enumerable.Empty <RadioSet>());
}
return(Enumerable.Zip(
capability.dot11PhyTypes,
states.OrderBy(x => x.dwPhyIndex),
(x, y) => new RadioSet(
type: PhyTypeConverter.Convert(x),
hardwareOn: ConvertToNullableBoolean(y.dot11HardwareRadioState),
softwareOn: ConvertToNullableBoolean(y.dot11SoftwareRadioState))));
internal static IEnumerable <ProfileRadioPack> EnumerateProfileRadios(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
foreach (var interfaceConnectionInfo in EnumerateInterfaceConnections(container.Content))
{
var availableNetworkGroups = EnumerateAvailableNetworkGroups(container.Content, interfaceConnectionInfo)
.Where(x => !string.IsNullOrWhiteSpace(x.ProfileName))
.ToArray();
int position = 0;
foreach (var profileInfo in Base.GetProfileInfoList(container.Content.Handle, interfaceConnectionInfo.Id))
{
var profileXml = Base.GetProfile(container.Content.Handle, interfaceConnectionInfo.Id, profileInfo.strProfileName, out uint profileTypeFlag);
if (string.IsNullOrWhiteSpace(profileXml))
{
continue;
}
if (!ProfileTypeConverter.TryConvert(profileTypeFlag, out ProfileType profileType))
{
continue;
}
var availableNetworkGroup = availableNetworkGroups.FirstOrDefault(x => string.Equals(x.ProfileName, profileInfo.strProfileName, StringComparison.Ordinal));
yield return(new ProfileRadioPack(
name: profileInfo.strProfileName,
interfaceInfo: interfaceConnectionInfo,
profileType: profileType,
profileXml: profileXml,
position: position++,
signalQuality: (availableNetworkGroup?.SignalQuality ?? 0),
linkQuality: (availableNetworkGroup?.LinkQuality ?? 0),
frequency: (availableNetworkGroup?.Frequency ?? 0),
band: (availableNetworkGroup?.Band ?? 0),
channel: (availableNetworkGroup?.Channel ?? 0)));
}
}
}
}
internal static IEnumerable <InterfaceConnectionInfo> EnumerateInterfaceConnections(Base.WlanClient client)
{
using var container = new DisposableContainer <Base.WlanClient>(client);
foreach (var interfaceInfo in Base.GetInterfaceInfoList(container.Content.Handle))
{
var connection = Base.GetConnectionAttributes(container.Content.Handle, interfaceInfo.InterfaceGuid);
var isConnected = (interfaceInfo.isState == WLAN_INTERFACE_STATE.wlan_interface_state_connected);
var isRadioOn = isConnected ||
EnumerateInterfaceRadioSets(container.Content, interfaceInfo.InterfaceGuid).Any(x => x.On.GetValueOrDefault());
yield return(new InterfaceConnectionInfo(
interfaceInfo,
connectionMode: ConnectionModeConverter.Convert(connection.wlanConnectionMode),
isRadioOn: isRadioOn,
isConnected: isConnected,
profileName: connection.strProfileName));
}
}
internal static IEnumerable <string> EnumerateProfileNames(Base.WlanClient client)
{
using (var container = new DisposableContainer <Base.WlanClient>(client))
{
var interfaceInfoList = Base.GetInterfaceInfoList(container.Content.Handle);
foreach (var interfaceInfo in interfaceInfoList)
{
var profileInfoList = Base.GetProfileInfoList(container.Content.Handle, interfaceInfo.InterfaceGuid);
foreach (var profileInfo in profileInfoList)
{
//Debug.WriteLine("Interface: {0}, Profile: {1}",
// interfaceInfo.strInterfaceDescription,
// profileInfo.strProfileName);
yield return(profileInfo.strProfileName);
}
}
}
}
