mirror of https://github.com/dahall/Vanara.git
680 lines
41 KiB
C#
680 lines
41 KiB
C#
using System;
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using System.Runtime.InteropServices;
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using Vanara.Extensions;
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using Vanara.InteropServices;
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using static Vanara.PInvoke.SetupAPI;
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namespace Vanara.PInvoke
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{
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/// <summary>Items from the CfgMgr32.dll</summary>
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public static partial class CfgMgr32
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{
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/// <summary>
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/// Provides a device with backing in the registry and allows the caller to then make calls to Software Device API functions with
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/// the hSwDevice handle.
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/// </summary>
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/// <param name="hSwDevice">The handle for the software device.</param>
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/// <param name="CreateResult">An HRESULT that indicates if the enumeration of the software device was successful.</param>
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/// <param name="pContext">The context that was optionally supplied by the client app to SwDeviceCreate.</param>
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/// <param name="pszDeviceInstanceId">The device instance ID that PnP assigned to the device.</param>
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/// <returns>None</returns>
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/// <remarks>
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/// <para>
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/// The operating system calls the <c>SW_DEVICE_CREATE_CALLBACK</c> callback function after PnP enumerates the device. After the
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/// callback function is called, the device has backing in the registry and calls to Software Device API functions can be made by
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/// using the hSwDevice handle. You can also use other APIs that work with devices for the device that is created.
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/// </para>
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/// <para>
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/// PnP enumeration of a device is the first step that a device undergoes. After PnP enumeration of the device, the device only has
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/// registry backing, and you can set properties against the device. Just because PnP enumerated the device, the device hasn't
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/// started yet, and no driver for the device has registered or enabled interfaces yet. In many cases, we recommend that apps wait
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/// for device-interface arrival if they want to use the device.
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/// </para>
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/// <para>
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/// <c>Note</c> The callback function supplies the device instance ID for the created device. We recommend that callers of the
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/// Software Device API not try to guess at or construct the device instance ID themselves; always use the value provided by the
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/// callback function.
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/// </para>
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/// <para>
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/// The callback function will execute on an arbitrary thread-pool thread. Client apps can perform as much work as needed in the
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/// callback function.
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/// </para>
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/// <para>
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/// In Windows 8, you can't call SwDeviceClose inside the callback function. Doing so will cause a deadlock. Be careful of releasing
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/// a ref counted object that will call <c>SwDeviceClose</c> when its destructor runs. In Windows 8.1, this restriction is lifted,
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/// and you can call <c>SwDeviceClose</c> inside the callback function.
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/// </para>
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/// <para>Always check the HRESULT that is passed to CreateResult to make sure PnP was able to enumerate the device.</para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nc-swdevice-sw_device_create_callback SW_DEVICE_CREATE_CALLBACK
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// SwDeviceCreateCallback; void SwDeviceCreateCallback( HSWDEVICE hSwDevice, HRESULT CreateResult, PVOID pContext, PCWSTR
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// pszDeviceInstanceId ) {...}
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[UnmanagedFunctionPointer(CallingConvention.Winapi)]
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[PInvokeData("swdevice.h", MSDNShortId = "NC:swdevice.SW_DEVICE_CREATE_CALLBACK")]
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public delegate void SW_DEVICE_CREATE_CALLBACK([In] HSWDEVICE hSwDevice, HRESULT CreateResult, [In, Optional] IntPtr pContext, [Optional, MarshalAs(UnmanagedType.LPWStr)] string pszDeviceInstanceId);
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/// <summary>Specifies capabilities of the software device.</summary>
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[PInvokeData("swdevicedef.h", MSDNShortId = "NS:swdevicedef._SW_DEVICE_CREATE_INFO")]
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[Flags]
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public enum SW_DEVICE_CAPABILITIES
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{
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/// <summary>No capabilities have been specified.</summary>
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SWDeviceCapabilitiesNone = 0x00000000,
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/// <summary>
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/// This bit specifies that the device is removable from its parent. Setting this flag is equivalent to a bus driver setting the
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/// Removable member of the DEVICE_CAPABILTIES structure for a PDO.
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/// </summary>
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SWDeviceCapabilitiesRemovable = 0x00000001,
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/// <summary>
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/// This bit suppresses UI that would normally be shown during installation. Setting this flag is equivalent to a bus driver
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/// setting the SilentInstall member of the DEVICE_CAPABILTIES structure for a PDO.
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/// </summary>
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SWDeviceCapabilitiesSilentInstall = 0x00000002,
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/// <summary>
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/// This bit prevents the device from being displayed in some UI. Setting this flag is equivalent to a bus driver setting the
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/// NoDisplayInUI member of the DEVICE_CAPABILTIES structure for a PDO.
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/// </summary>
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SWDeviceCapabilitiesNoDisplayInUI = 0x00000004,
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/// <summary>
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/// Specify this bit when the client wants a driver to be loaded on the device and when this driver is required for correct
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/// function of the client’s feature. When this bit is specified, at least one of pszzHardwareIds or pszzCompatibleIds must be
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/// filled in. If this bit is specified and if a driver can't be found, the device shows a yellow bang in Device Manager to
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/// indicate that the device has a problem, and Troubleshooters flag this as a device with a problem. Setting this bit is
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/// equivalent to a bus driver not setting the RawDeviceOK member of the DEVICE_CAPABILTIES structure for a PDO. When this bit
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/// is specified, the driver owns creating interfaces for the device, and you can't call SwDeviceInterfaceRegister for the device.
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/// </summary>
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SWDeviceCapabilitiesDriverRequired = 0x00000008
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}
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/// <summary>Indicates the current lifetime value for the software device.</summary>
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[PInvokeData("swdevicedef.h")]
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public enum SW_DEVICE_LIFETIME
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{
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/// <summary>
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/// Indicates that the lifetime of the software device is determined by the lifetime of the handle that is associated with the
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/// software device. As long as the handle is open, the software device is enumerated by PnP.
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/// </summary>
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SWDeviceLifetimeHandle,
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/// <summary>Indicates that the lifetime of the software device is tied to the lifetime of its parent.</summary>
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SWDeviceLifetimeParentPresent,
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}
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/// <summary>Closes the software device handle. When the handle is closed, PnP will initiate the process of removing the device.</summary>
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/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to close.</param>
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/// <returns>None</returns>
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/// <remarks>
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/// <para>
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/// After <c>SwDeviceClose</c> returns, the operating system is guaranteed to not call the SW_DEVICE_CREATE_CALLBACK callback
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/// function, and any calls to Software Device API functions that were in progress are guaranteed to have completed.
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/// </para>
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/// <para>You can call <c>SwDeviceClose</c> at any time even if the callback function hasn't been called yet.</para>
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/// <para>
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/// In Windows 8, you can't call <c>SwDeviceClose</c> inside the SW_DEVICE_CREATE_CALLBACK callback function. Doing so will cause a
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/// deadlock. Be careful of releasing a ref counted object that will call <c>SwDeviceClose</c> when its destructor runs. In Windows
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/// 8.1, this restriction is lifted, and you can call <c>SwDeviceClose</c> inside the callback function.
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/// </para>
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/// <para>
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/// By calling <c>SwDeviceClose</c>, you initiate the process of removing a device from PnP. The call to <c>SwDeviceClose</c>
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/// returns before this removal is complete. But you can safely call SwDeviceCreate immediately after <c>SwDeviceClose</c>. The new
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/// create will be queued until the previous removal processing completes, and then the device will be re-created.
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/// </para>
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/// <para>
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/// PnP removal makes the device "Not present." PnP removal of a device is the same us unplugging a USB device. All the persisted
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/// property state for the device remains in memory.
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/// </para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdeviceclose void SwDeviceClose( HSWDEVICE hSwDevice );
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[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
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[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceClose")]
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public static extern void SwDeviceClose(HSWDEVICE hSwDevice);
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/// <summary>Initiates the enumeration of a software device.</summary>
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/// <param name="pszEnumeratorName">
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/// A string that names the enumerator of the software device. Choose a name that represents the component that enumerates the devices.
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/// </param>
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/// <param name="pszParentDeviceInstance">
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/// <para>A string that specifies the device instance ID of the device that is the parent of the software device.</para>
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/// <para>
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/// This can be HTREE\ROOT\0, but we recommend to keep children of the root device to a minimum. We also recommend that the
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/// preferred parent of a software device be a real device that the software device is extending the functionality for. In
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/// situations where a software device doesn't have such a natural parent, create a device as a child of the root that can collect
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/// all the software devices that a component will enumerate; then, enumerate the actual software devices as children of this device
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/// grouping node. This keeps the children of the root device to a manageable number.
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/// </para>
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/// </param>
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/// <param name="pCreateInfo">A pointer to a SW_DEVICE_CREATE_INFO structure that describes info that PnP uses to create the device.</param>
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/// <param name="cPropertyCount">The number of DEVPROPERTY structures in the pProperties array.</param>
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/// <param name="pProperties">
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/// An optional array of DEVPROPERTY structures. These properties are set on the device after it is created but before a
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/// notification that the device has been created are sent. For more info, see Remarks. This pointer can be <c>NULL</c>.
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/// </param>
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/// <param name="pCallback">
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/// The SW_DEVICE_CREATE_CALLBACK callback function that the operating system calls after PnP enumerates the device.
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/// </param>
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/// <param name="pContext">
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/// An optional client context that the operating system passes to the callback function. This pointer can be <c>NULL</c>.
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/// </param>
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/// <param name="phSwDevice">
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/// A pointer to a variable that receives the <c>HSWDEVICE</c> handle that represents the device. Call SwDeviceClose to close this
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/// handle after the client app wants PnP to remove the device.
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/// </param>
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/// <returns>
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/// S_OK is returned if device enumeration was successfully initiated. This does not mean that the device has been successfully
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/// enumerated. Check the CreateResult parameter of the SW_DEVICE_CREATE_CALLBACK callback function to determine if the device was
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/// successfully enumerated.
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/// </returns>
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/// <remarks>
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/// <para><c>SwDeviceCreate</c> returns a handle that represents the device. After this handle is closed, PnP will remove the device.</para>
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/// <para>The calling process must have Administrator access in order to initiate the enumeration of a software device.</para>
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/// <para>
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/// PnP forms the device instance ID of a software device as "SWD&lt;pszEnumeratorName>&lt;pszInstanceId>," but this
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/// string might change or PnP might decorate the name. Always get the device instance ID from the callback function.
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/// </para>
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/// <para>
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/// There is a subtle difference between properties that are set as part of a <c>SwDeviceCreate</c> call and properties that are
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/// later set by calling SwDevicePropertySet. Properties that are set as part of <c>SwDeviceCreate</c> are stored in memory; if the
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/// device is uninstalled or a null driver wipes out the property stores, these properties are written out again by the Software
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/// Device API feature when PnP re-enumerates the devices. This is all transparent to the client. Properties that are set using
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/// <c>SwDevicePropertySet</c> after the enumeration don't persist in memory. But, if you set a property by using
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/// <c>SwDeviceCreate</c>, you can update the value with <c>SwDevicePropertySet</c>, and this update is applied to the in-memory
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/// value as well as the persisted store.
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/// </para>
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/// <para>
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/// We recommend that all properties be specified as part of the call to <c>SwDeviceCreate</c> when possible and that these
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/// properties be specified for every call to <c>SwDeviceCreate</c>.
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/// </para>
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/// <para>
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/// <c>Note</c> The operating system might possibly call SW_DEVICE_CREATE_CALLBACK before the call to <c>SwDeviceCreate</c> returns.
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/// For this reason, the software device handle for the device is supplied as a parameter to the callback function.
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/// </para>
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/// <para>
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/// You can create a software device as the child of a parent that is not present at the time. PnP will enumerate the software
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/// device after the parent becomes present.
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/// </para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdevicecreate HRESULT SwDeviceCreate( PCWSTR
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// pszEnumeratorName, PCWSTR pszParentDeviceInstance, const SW_DEVICE_CREATE_INFO *pCreateInfo, ULONG cPropertyCount, const
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// DEVPROPERTY *pProperties, SW_DEVICE_CREATE_CALLBACK pCallback, PVOID pContext, PHSWDEVICE phSwDevice );
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[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
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[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceCreate")]
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public static extern HRESULT SwDeviceCreate([MarshalAs(UnmanagedType.LPWStr)] string pszEnumeratorName, [MarshalAs(UnmanagedType.LPWStr)] string pszParentDeviceInstance,
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in SW_DEVICE_CREATE_INFO pCreateInfo, uint cPropertyCount, [In, Optional, MarshalAs(UnmanagedType.LPArray)] DEVPROPERTY[] pProperties, SW_DEVICE_CREATE_CALLBACK pCallback,
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[In, Optional] IntPtr pContext, out SafeHSWDEVICE phSwDevice);
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/// <summary>Gets the lifetime of a software device.</summary>
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/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device to retrieve.</param>
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/// <param name="pLifetime">
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/// <para>
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/// A pointer to a variable that receives a <c>SW_DEVICE_LIFETIME</c>-typed value that indicates the current lifetime value for the
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/// software device. Here are possible values:
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/// </para>
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/// <list type="table">
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/// <listheader>
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/// <term>Value</term>
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/// <term>Meaning</term>
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/// </listheader>
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/// <item>
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/// <term>SWDeviceLifetimeHandle</term>
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/// <term>
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/// Indicates that the lifetime of the software device is determined by the lifetime of the handle that is associated with the
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/// software device. As long as the handle is open, the software device is enumerated by PnP.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SWDeviceLifetimeParentPresent</term>
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/// <term>Indicates that the lifetime of the software device is tied to the lifetime of its parent.</term>
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/// </item>
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/// </list>
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/// </param>
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/// <returns>S_OK is returned if SwDeviceSetLifetime successfully retrieved the lifetime.</returns>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdevicegetlifetime HRESULT SwDeviceGetLifetime(
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// HSWDEVICE hSwDevice, PSW_DEVICE_LIFETIME pLifetime );
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[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
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[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceGetLifetime")]
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public static extern HRESULT SwDeviceGetLifetime(HSWDEVICE hSwDevice, out SW_DEVICE_LIFETIME pLifetime);
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/// <summary>Sets properties on a software device interface.</summary>
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/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device of the interface to set properties for.</param>
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/// <param name="pszDeviceInterfaceId">A string that identifies the interface to set properties on.</param>
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/// <param name="cPropertyCount">The number of DEVPROPERTY structures in the pProperties array.</param>
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/// <param name="pProperties">An array of DEVPROPERTY structures containing the properties to set on the interface.</param>
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/// <returns>
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/// S_OK is returned if <c>SwDeviceInterfacePropertySet</c> successfully set the properties on the interface; otherwise, an
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/// appropriate error value.
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/// </returns>
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/// <remarks>
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/// <para>
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/// Typically, only the operating system and Administrators of the computer can set properties on an interface, but the creator of a
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/// device can call <c>SwDeviceInterfacePropertySet</c> to set properties on an interface for that device even if the creator isn't
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/// the operating system or an Administrator.
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/// </para>
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/// <para>
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/// You can call <c>SwDeviceInterfacePropertySet</c> only after the operating system has called your client app's
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/// SW_DEVICE_CREATE_CALLBACK callback function to notify the client app that device enumeration completed.
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/// </para>
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/// <para>
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/// There is a subtle difference between properties that are set as part of a SwDeviceInterfaceRegister call and properties that are
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/// later set by calling <c>SwDeviceInterfacePropertySet</c>. Properties that are set as part of <c>SwDeviceInterfaceRegister</c>
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/// are stored in memory; if the device is uninstalled or a null driver wipes out the property stores, these properties are written
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/// out again by the Software Device API feature when PnP re-enumerates the devices. This is all transparent to the client.
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/// Properties that are set using <c>SwDeviceInterfacePropertySet</c> after the enumeration don't persist in memory. But, if you set
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/// a property by using <c>SwDeviceInterfaceRegister</c>, you can update the value with <c>SwDeviceInterfacePropertySet</c>, and
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/// this update is applied to the in-memory value as well as the persisted store.
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/// </para>
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/// <para>You can use <c>SwDeviceInterfacePropertySet</c> only to set properties in the operating system store for the interface.</para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdeviceinterfacepropertyset HRESULT
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// SwDeviceInterfacePropertySet( HSWDEVICE hSwDevice, PCWSTR pszDeviceInterfaceId, ULONG cPropertyCount, const DEVPROPERTY
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// *pProperties );
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[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
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[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceInterfacePropertySet")]
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public static extern HRESULT SwDeviceInterfacePropertySet(HSWDEVICE hSwDevice, [MarshalAs(UnmanagedType.LPWStr)] string pszDeviceInterfaceId,
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uint cPropertyCount, [In, MarshalAs(UnmanagedType.LPArray, SizeParamIndex = 2)] DEVPROPERTY[] pProperties);
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/// <summary>Registers a device interface for a software device and optionally sets properties on that interface.</summary>
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/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device to register a device interface for.</param>
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/// <param name="pInterfaceClassGuid">A pointer to the interface class GUID that names the contract that this interface implements.</param>
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/// <param name="pszReferenceString">
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/// An optional reference string that differentiates multiple interfaces of the same class for this device. This pointer can be <c>NULL</c>.
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/// </param>
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/// <param name="cPropertyCount">The number of DEVPROPERTY structures in the pProperties array.</param>
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/// <param name="pProperties">
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/// <para>An optional array of DEVPROPERTY structures for the properties to set on the interface. This pointer can be <c>NULL</c>.</para>
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/// <para>
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/// Set these properties on the interface after it is created but before a notification that the interface has been created are
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/// sent. For more info, see Remarks. This pointer can be <c>NULL</c>.
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/// </para>
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/// </param>
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/// <param name="fEnabled">
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/// A Boolean value that indicates whether to either enable or disable the interface. <c>TRUE</c> to enable; <c>FALSE</c> to disable.
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/// </param>
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/// <param name="ppszDeviceInterfaceId">
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/// A pointer to a variable that receives a pointer to the device interface ID for the interface. The caller must free this value
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/// with SwMemFree. This value can be <c>NULL</c> if the client app doesn't need to retrieve the name.
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/// </param>
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/// <returns>
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/// S_OK is returned if <c>SwDeviceInterfaceRegister</c> successfully registered the interface; otherwise, an appropriate error value.
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/// </returns>
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/// <remarks>
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/// <para>
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/// You can call <c>SwDeviceInterfaceRegister</c> only after the operating system has called your client app's
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/// SW_DEVICE_CREATE_CALLBACK callback function to notify the client app that device enumeration completed.
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/// </para>
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/// <para>
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/// You can't call <c>SwDeviceInterfaceRegister</c> for software devices that specify the SWDeviceCapabilitiesDriverRequired capability.
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/// </para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdeviceinterfaceregister HRESULT
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// SwDeviceInterfaceRegister( HSWDEVICE hSwDevice, const GUID *pInterfaceClassGuid, PCWSTR pszReferenceString, ULONG cPropertyCount,
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// const DEVPROPERTY *pProperties, BOOL fEnabled, PWSTR *ppszDeviceInterfaceId );
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[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
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[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceInterfaceRegister")]
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public static extern HRESULT SwDeviceInterfaceRegister(HSWDEVICE hSwDevice, in Guid pInterfaceClassGuid, [Optional, MarshalAs(UnmanagedType.LPWStr)] string pszReferenceString,
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uint cPropertyCount, [In, Optional, MarshalAs(UnmanagedType.LPArray, SizeParamIndex = 3)] DEVPROPERTY[] pProperties, [MarshalAs(UnmanagedType.Bool)] bool fEnabled,
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[MarshalAs(UnmanagedType.CustomMarshaler, MarshalTypeRef = typeof(SwMemMarshaler))] out string ppszDeviceInterfaceId);
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/// <summary>Enables or disables a device interface for a software device.</summary>
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/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device to register a device interface for.</param>
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/// <param name="pszDeviceInterfaceId">A string that identifies the interface to enable or disable.</param>
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/// <param name="fEnabled">
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/// A Boolean value that indicates whether to either enable or disable the interface. <c>TRUE</c> to enable; <c>FALSE</c> to disable.
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/// </param>
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/// <returns>
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/// S_OK is returned if <c>SwDeviceInterfaceSetState</c> successfully enabled or disabled the interface; otherwise, an appropriate
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/// error value.
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/// </returns>
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/// <remarks>
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/// <para>
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/// You can call <c>SwDeviceInterfaceSetState</c> only after the operating system has called your client app's
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/// SW_DEVICE_CREATE_CALLBACK callback function to notify the client app that device enumeration completed.
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/// </para>
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/// <para>
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/// You can only use <c>SwDeviceInterfaceSetState</c> to manage interfaces that were previously registered with
|
||
/// SwDeviceInterfaceRegister against the software device that hSwDevice represents.
|
||
/// </para>
|
||
/// <para>
|
||
/// Client apps use <c>SwDeviceInterfaceSetState</c> to manage the state that they want the interface to have. The software device
|
||
/// changes the actual interface state as needed. For example, a client app disables and re-enables the interface if the device is
|
||
/// re-enumerated for any reason. The state always tries to reflect the client app’s required state.
|
||
/// </para>
|
||
/// </remarks>
|
||
// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdeviceinterfacesetstate HRESULT
|
||
// SwDeviceInterfaceSetState( HSWDEVICE hSwDevice, PCWSTR pszDeviceInterfaceId, BOOL fEnabled );
|
||
[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
|
||
[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceInterfaceSetState")]
|
||
public static extern HRESULT SwDeviceInterfaceSetState(HSWDEVICE hSwDevice, [MarshalAs(UnmanagedType.LPWStr)] string pszDeviceInterfaceId, [MarshalAs(UnmanagedType.Bool)] bool fEnabled);
|
||
|
||
/// <summary>Sets properties on a software device.</summary>
|
||
/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device to set properties for.</param>
|
||
/// <param name="cPropertyCount">The number of DEVPROPERTY structures in the pProperties array.</param>
|
||
/// <param name="pProperties">An array of DEVPROPERTY structures containing the properties to set.</param>
|
||
/// <returns>
|
||
/// S_OK is returned if <c>SwDevicePropertySet</c> successfully set the properties; otherwise, an appropriate error value.
|
||
/// </returns>
|
||
/// <remarks>
|
||
/// <para>
|
||
/// Typically, only the operating system and Administrators of the computer can set properties on a device, but the creator of a
|
||
/// device can call <c>SwDevicePropertySet</c> to set properties on that device even if it isn't the operating system or an Administrator.
|
||
/// </para>
|
||
/// <para>
|
||
/// You can call <c>SwDevicePropertySet</c> only after the operating system has called your client app's SW_DEVICE_CREATE_CALLBACK
|
||
/// callback function to notify the client app that device enumeration completed.
|
||
/// </para>
|
||
/// <para>
|
||
/// There is a subtle difference between properties that are set as part of a SwDeviceCreate call and properties that are later set
|
||
/// by calling <c>SwDevicePropertySet</c>. Properties that are set as part of <c>SwDeviceCreate</c> are stored in memory; if the
|
||
/// device is uninstalled or a null driver wipes out the property stores, these properties are written out again by the Software
|
||
/// Device API feature when PnP re-enumerates the devices. This is all transparent to the client. Properties that are set using
|
||
/// <c>SwDevicePropertySet</c> after the enumeration don't persist in memory. But, if you set a property by using
|
||
/// <c>SwDeviceCreate</c>, you can update the value with <c>SwDevicePropertySet</c>, and this update is applied to the in-memory
|
||
/// value as well as the persisted store.
|
||
/// </para>
|
||
/// <para>You can use <c>SwDevicePropertySet</c> only to set properties in the operating system store for the device.</para>
|
||
/// </remarks>
|
||
// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdevicepropertyset HRESULT SwDevicePropertySet(
|
||
// HSWDEVICE hSwDevice, ULONG cPropertyCount, const DEVPROPERTY *pProperties );
|
||
[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
|
||
[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDevicePropertySet")]
|
||
public static extern HRESULT SwDevicePropertySet(HSWDEVICE hSwDevice, uint cPropertyCount, [In, MarshalAs(UnmanagedType.LPArray, SizeParamIndex = 1)] DEVPROPERTY[] pProperties);
|
||
|
||
/// <summary>Manages the lifetime of a software device.</summary>
|
||
/// <param name="hSwDevice">The <c>HSWDEVICE</c> handle to the software device to manage.</param>
|
||
/// <param name="Lifetime">
|
||
/// <para>
|
||
/// A <c>SW_DEVICE_LIFETIME</c>-typed value that indicates the new lifetime value for the software device. Here are possible values:
|
||
/// </para>
|
||
/// <list type="table">
|
||
/// <listheader>
|
||
/// <term>Value</term>
|
||
/// <term>Meaning</term>
|
||
/// </listheader>
|
||
/// <item>
|
||
/// <term>SWDeviceLifetimeHandle</term>
|
||
/// <term>
|
||
/// Indicates that the lifetime of the software device is determined by the lifetime of the handle that is associated with the
|
||
/// software device. As long as the handle is open, the software device is enumerated by PnP.
|
||
/// </term>
|
||
/// </item>
|
||
/// <item>
|
||
/// <term>SWDeviceLifetimeParentPresent</term>
|
||
/// <term>Indicates that the lifetime of the software device is tied to the lifetime of its parent.</term>
|
||
/// </item>
|
||
/// </list>
|
||
/// </param>
|
||
/// <returns>S_OK is returned if <c>SwDeviceSetLifetime</c> successfully updated the lifetime.</returns>
|
||
/// <remarks>
|
||
/// <para>
|
||
/// After a software device is initially created by calling SwDeviceCreate, its default lifetime is set to
|
||
/// <c>SwDeviceLifetimeHandle</c>. When a software device has a lifetime of <c>SwDeviceLifetimeHandle</c>, PnP stops enumerating the
|
||
/// device after the device's handle is closed.
|
||
/// </para>
|
||
/// <para>
|
||
/// You can use <c>SwDeviceSetLifetime</c> to set the lifetime of the software device to <c>SwDeviceLifetimeParentPresent</c>. The
|
||
/// lifetime of the software device is then tied to the lifetime of the closest non-software device parent. The creator of the
|
||
/// software device can then close the handle to the software device and the device will still be enumerated. This can be useful for
|
||
/// services that manage software devices but want to idle stop.
|
||
/// </para>
|
||
/// <para>
|
||
/// A client app can only call <c>SwDeviceSetLifetime</c> after it has received a call to its SW_DEVICE_CREATE_CALLBACK callback
|
||
/// function that is associated with its call to SwDeviceCreate.
|
||
/// </para>
|
||
/// <para>
|
||
/// When a client app calls SwDeviceCreate for a software device that was previously marked for
|
||
/// <c>SwDeviceLifetimeParentPresent</c>, <c>SwDeviceCreate</c> succeeds if there are no open software device handles for the device
|
||
/// (only one handle can be open for a device). A client app can then regain control over a persistent software device for the
|
||
/// purposes of updating properties and interfaces or changing the lifetime.
|
||
/// </para>
|
||
/// <para>
|
||
/// If the client app specifies info in SW_DEVICE_CREATE_INFO that is different form a previous enumeration, the device might stop
|
||
/// being enumerated and immediately re-enumerated to apply the changes. The operating system reports only some properties when PnP
|
||
/// enumerates the device.
|
||
/// </para>
|
||
/// <para>
|
||
/// To uninstall a software device with a lifetime of <c>SwDeviceLifetimeParentPresent</c>, we recommend that you change the
|
||
/// lifetime back to <c>SwDeviceLifetimeHandle</c> before the device is uninstalled.
|
||
/// </para>
|
||
/// </remarks>
|
||
// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swdevicesetlifetime HRESULT SwDeviceSetLifetime(
|
||
// HSWDEVICE hSwDevice, SW_DEVICE_LIFETIME Lifetime );
|
||
[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
|
||
[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwDeviceSetLifetime")]
|
||
public static extern HRESULT SwDeviceSetLifetime(HSWDEVICE hSwDevice, SW_DEVICE_LIFETIME Lifetime);
|
||
|
||
/// <summary>Frees memory that other Software Device API functions allocated.</summary>
|
||
/// <param name="pMem">A pointer to the block of memory to free.</param>
|
||
/// <returns>None</returns>
|
||
// https://docs.microsoft.com/en-us/windows/win32/api/swdevice/nf-swdevice-swmemfree void SwMemFree( PVOID pMem );
|
||
[DllImport(Lib_Cfgmgr32, SetLastError = false, ExactSpelling = true)]
|
||
[PInvokeData("swdevice.h", MSDNShortId = "NF:swdevice.SwMemFree")]
|
||
public static extern void SwMemFree(IntPtr pMem);
|
||
|
||
/// <summary>Provides a handle to a software device.</summary>
|
||
[StructLayout(LayoutKind.Sequential)]
|
||
public struct HSWDEVICE : IHandle
|
||
{
|
||
private readonly IntPtr handle;
|
||
|
||
/// <summary>Initializes a new instance of the <see cref="HSWDEVICE"/> struct.</summary>
|
||
/// <param name="preexistingHandle">An <see cref="IntPtr"/> object that represents the pre-existing handle to use.</param>
|
||
public HSWDEVICE(IntPtr preexistingHandle) => handle = preexistingHandle;
|
||
|
||
/// <summary>Returns an invalid handle by instantiating a <see cref="HSWDEVICE"/> object with <see cref="IntPtr.Zero"/>.</summary>
|
||
public static HSWDEVICE NULL => new(IntPtr.Zero);
|
||
|
||
/// <summary>Gets a value indicating whether this instance is a null handle.</summary>
|
||
public bool IsNull => handle == IntPtr.Zero;
|
||
|
||
/// <summary>Performs an explicit conversion from <see cref="HSWDEVICE"/> to <see cref="IntPtr"/>.</summary>
|
||
/// <param name="h">The handle.</param>
|
||
/// <returns>The result of the conversion.</returns>
|
||
public static explicit operator IntPtr(HSWDEVICE h) => h.handle;
|
||
|
||
/// <summary>Performs an implicit conversion from <see cref="IntPtr"/> to <see cref="HSWDEVICE"/>.</summary>
|
||
/// <param name="h">The pointer to a handle.</param>
|
||
/// <returns>The result of the conversion.</returns>
|
||
public static implicit operator HSWDEVICE(IntPtr h) => new(h);
|
||
|
||
/// <summary>Implements the operator !=.</summary>
|
||
/// <param name="h1">The first handle.</param>
|
||
/// <param name="h2">The second handle.</param>
|
||
/// <returns>The result of the operator.</returns>
|
||
public static bool operator !=(HSWDEVICE h1, HSWDEVICE h2) => !(h1 == h2);
|
||
|
||
/// <summary>Implements the operator ==.</summary>
|
||
/// <param name="h1">The first handle.</param>
|
||
/// <param name="h2">The second handle.</param>
|
||
/// <returns>The result of the operator.</returns>
|
||
public static bool operator ==(HSWDEVICE h1, HSWDEVICE h2) => h1.Equals(h2);
|
||
|
||
/// <inheritdoc/>
|
||
public override bool Equals(object obj) => obj is HSWDEVICE h && handle == h.handle;
|
||
|
||
/// <inheritdoc/>
|
||
public override int GetHashCode() => handle.GetHashCode();
|
||
|
||
/// <inheritdoc/>
|
||
public IntPtr DangerousGetHandle() => handle;
|
||
}
|
||
|
||
/// <summary>Describes info that PnP uses to create the software device.</summary>
|
||
/// <remarks>
|
||
/// You can only specify this info at creation time, and you can't later call the Software Device API to modify this info, by
|
||
/// setting properties, for example.
|
||
/// </remarks>
|
||
// https://docs.microsoft.com/en-us/windows/win32/api/swdevicedef/ns-swdevicedef-sw_device_create_info typedef struct
|
||
// _SW_DEVICE_CREATE_INFO { ULONG cbSize; PCWSTR pszInstanceId; PCZZWSTR pszzHardwareIds; PCZZWSTR pszzCompatibleIds; const GUID
|
||
// *pContainerId; ULONG CapabilityFlags; PCWSTR pszDeviceDescription; PCWSTR pszDeviceLocation; const SECURITY_DESCRIPTOR
|
||
// *pSecurityDescriptor; } SW_DEVICE_CREATE_INFO, *PSW_DEVICE_CREATE_INFO;
|
||
[PInvokeData("swdevicedef.h", MSDNShortId = "NS:swdevicedef._SW_DEVICE_CREATE_INFO")]
|
||
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
|
||
public struct SW_DEVICE_CREATE_INFO
|
||
{
|
||
/// <summary>The size in bytes of this structure. Use it as a version field. Initialize it to sizeof(SW_DEVICE_CREATE_INFO).</summary>
|
||
public uint cbSize;
|
||
|
||
/// <summary>
|
||
/// A string that represents the instance ID portion of the device instance ID. This value is used for IRP_MN_QUERY_ID
|
||
/// <c>BusQueryInstanceID</c>. Because all software devices are considered "UniqueId" devices, this string must be a unique name
|
||
/// for all devices on this software device enumerator. For more info, see Instance IDs.
|
||
/// </summary>
|
||
[MarshalAs(UnmanagedType.LPWStr)]
|
||
public string pszInstanceId;
|
||
|
||
/// <summary>
|
||
/// A list of strings for the hardware IDs for the software device. This value is used for IRP_MN_QUERY_ID
|
||
/// <c>BusQueryHardwareIDs</c>. If a client expects a driver or device metadata to bind to the device, the client specifies
|
||
/// hardware IDs.
|
||
/// </summary>
|
||
//[MarshalAs(UnmanagedType.CustomMarshaler, MarshalTypeRef = typeof(NullTermStringArrayMarshaler))]
|
||
//public string[] pszzHardwareIds;
|
||
public IntPtr pszzHardwareIds;
|
||
|
||
/// <summary>
|
||
/// A list of strings for the compatible IDs for the software device. This value is used for IRP_MN_QUERY_ID
|
||
/// <c>BusQueryCompatibleIDs</c>. If a client expects a class driver to load, the client specifies compatible IDs that match the
|
||
/// class driver. If a driver isn't needed, we recommend to specify a compatible ID to classify the type of software device. In
|
||
/// addition to the compatible IDs specified in this member, SWD\Generic and possibly SWD\GenericRaw will always be added as the
|
||
/// least specific compatible IDs.
|
||
/// </summary>
|
||
//[MarshalAs(UnmanagedType.CustomMarshaler, MarshalTypeRef = typeof(NullTermStringArrayMarshaler))]
|
||
//public string[] pszzCompatibleIds;
|
||
public IntPtr pszzCompatibleIds;
|
||
|
||
/// <summary>
|
||
/// A value that is used to control the base container ID for the software device. This value will be used for IRP_MN_QUERY_ID
|
||
/// <c>BusQueryContainerIDs</c>. For typical situations, we recommend to set this member to <c>NULL</c> and use the
|
||
/// <c>SWDeviceCapabilitiesRemovable</c> flag to control whether the device inherits the parent's container ID or if PnP assigns
|
||
/// a new random container ID. If the client needs to explicitly control the container ID, specify a <c>GUID</c> in the variable
|
||
/// that this member points to.
|
||
/// </summary>
|
||
public GuidPtr pContainerId;
|
||
|
||
/// <summary>
|
||
/// <para>
|
||
/// A combination of <c>SW_DEVICE_CAPABILITIES</c> values that are combined by using a bitwise OR operation. The resulting value
|
||
/// specifies capabilities of the software device. The capability that you can specify when you create a software device are a
|
||
/// subset of the capabilities that a bus driver can specify by using the <c>DEVICE_CAPABILTIES</c> structure. Only capabilities
|
||
/// that make sense to allow changing for a software only device are supported. The rest receive appropriate default values.
|
||
/// Here are possible values:
|
||
/// </para>
|
||
/// <list type="table">
|
||
/// <listheader>
|
||
/// <term>Value</term>
|
||
/// <term>Meaning</term>
|
||
/// </listheader>
|
||
/// <item>
|
||
/// <term>SWDeviceCapabilitiesNone 0x00000000</term>
|
||
/// <term>No capabilities have been specified.</term>
|
||
/// </item>
|
||
/// <item>
|
||
/// <term>SWDeviceCapabilitiesRemovable 0x00000001</term>
|
||
/// <term>
|
||
/// This bit specifies that the device is removable from its parent. Setting this flag is equivalent to a bus driver setting the
|
||
/// Removable member of the DEVICE_CAPABILTIES structure for a PDO.
|
||
/// </term>
|
||
/// </item>
|
||
/// <item>
|
||
/// <term>SWDeviceCapabilitiesSilentInstall 0x00000002</term>
|
||
/// <term>
|
||
/// This bit suppresses UI that would normally be shown during installation. Setting this flag is equivalent to a bus driver
|
||
/// setting the SilentInstall member of the DEVICE_CAPABILTIES structure for a PDO.
|
||
/// </term>
|
||
/// </item>
|
||
/// <item>
|
||
/// <term>SWDeviceCapabilitiesNoDisplayInUI 0x00000004</term>
|
||
/// <term>
|
||
/// This bit prevents the device from being displayed in some UI. Setting this flag is equivalent to a bus driver setting the
|
||
/// NoDisplayInUI member of the DEVICE_CAPABILTIES structure for a PDO.
|
||
/// </term>
|
||
/// </item>
|
||
/// <item>
|
||
/// <term>SWDeviceCapabilitiesDriverRequired 0x00000008</term>
|
||
/// <term>
|
||
/// Specify this bit when the client wants a driver to be loaded on the device and when this driver is required for correct
|
||
/// function of the client’s feature. When this bit is specified, at least one of pszzHardwareIds or pszzCompatibleIds must be
|
||
/// filled in. If this bit is specified and if a driver can't be found, the device shows a yellow bang in Device Manager to
|
||
/// indicate that the device has a problem, and Troubleshooters flag this as a device with a problem. Setting this bit is
|
||
/// equivalent to a bus driver not setting the RawDeviceOK member of the DEVICE_CAPABILTIES structure for a PDO. When this bit
|
||
/// is specified, the driver owns creating interfaces for the device, and you can't call SwDeviceInterfaceRegister for the device.
|
||
/// </term>
|
||
/// </item>
|
||
/// </list>
|
||
/// </summary>
|
||
public SW_DEVICE_CAPABILITIES CapabilityFlags;
|
||
|
||
/// <summary>
|
||
/// <para>
|
||
/// A string that contains the text that is displayed for the device name in the UI. This value is used for
|
||
/// IRP_MN_QUERY_DEVICE_TEXT <c>DeviceTextDescription</c>.
|
||
/// </para>
|
||
/// <para><c>Note</c>
|
||
/// <para></para>
|
||
/// When an INF is matched against the device, the name from the INF overrides this name unless steps are taken to preserve this name.
|
||
/// <para></para>
|
||
/// We recommend that this string be a reference to a localizable resource. For the syntax of referencing resources, see DEVPROP_TYPE_STRING_INDIRECT.
|
||
/// </para>
|
||
/// </summary>
|
||
[MarshalAs(UnmanagedType.LPWStr)]
|
||
public string pszDeviceDescription;
|
||
|
||
/// <summary>
|
||
/// <para>
|
||
/// A string that contains the text that is displayed for the device location in the UI. This value is used for
|
||
/// IRP_MN_QUERY_DEVICE_TEXT <c>DeviceTextLocationInformation</c>.
|
||
/// </para>
|
||
/// <para><c>Note</c> Specifying a location is uncommon.</para>
|
||
/// </summary>
|
||
[MarshalAs(UnmanagedType.LPWStr)]
|
||
public string pszDeviceLocation;
|
||
|
||
/// <summary>
|
||
/// A pointer to a SECURITY_DESCRIPTOR structure that contains the security information associated with the software device. If
|
||
/// this member is <c>NULL</c>, the I/O Manager assigns the default security descriptor to the device. If a custom security
|
||
/// descriptor is needed, specify a self-relative security descriptor.
|
||
/// </summary>
|
||
public PSECURITY_DESCRIPTOR pSecurityDescriptor;
|
||
}
|
||
|
||
/// <summary>Provides a <see cref="SafeHandle"/> for <see cref="HSWDEVICE"/> that is disposed using <see cref="SwDeviceClose"/>.</summary>
|
||
public class SafeHSWDEVICE : SafeHANDLE
|
||
{
|
||
/// <summary>Initializes a new instance of the <see cref="SafeHSWDEVICE"/> class and assigns an existing handle.</summary>
|
||
/// <param name="preexistingHandle">An <see cref="IntPtr"/> object that represents the pre-existing handle to use.</param>
|
||
/// <param name="ownsHandle">
|
||
/// <see langword="true"/> to reliably release the handle during the finalization phase; otherwise, <see langword="false"/> (not recommended).
|
||
/// </param>
|
||
public SafeHSWDEVICE(IntPtr preexistingHandle, bool ownsHandle = true) : base(preexistingHandle, ownsHandle) { }
|
||
|
||
/// <summary>Initializes a new instance of the <see cref="SafeHSWDEVICE"/> class.</summary>
|
||
private SafeHSWDEVICE() : base() { }
|
||
|
||
/// <summary>Performs an implicit conversion from <see cref="SafeHSWDEVICE"/> to <see cref="HSWDEVICE"/>.</summary>
|
||
/// <param name="h">The safe handle instance.</param>
|
||
/// <returns>The result of the conversion.</returns>
|
||
public static implicit operator HSWDEVICE(SafeHSWDEVICE h) => h.handle;
|
||
|
||
/// <inheritdoc/>
|
||
protected override bool InternalReleaseHandle() { SwDeviceClose(handle); return true; }
|
||
}
|
||
|
||
internal class SwMemMarshaler : ICustomMarshaler
|
||
{
|
||
public static ICustomMarshaler GetInstance() => new SwMemMarshaler();
|
||
|
||
void ICustomMarshaler.CleanUpManagedData(object ManagedObj) => throw new NotImplementedException();
|
||
|
||
void ICustomMarshaler.CleanUpNativeData(IntPtr pNativeData) => SwMemFree(pNativeData);
|
||
|
||
int ICustomMarshaler.GetNativeDataSize() => -1;
|
||
|
||
IntPtr ICustomMarshaler.MarshalManagedToNative(object ManagedObj) => throw new NotImplementedException();
|
||
|
||
object ICustomMarshaler.MarshalNativeToManaged(IntPtr pNativeData) => StringHelper.GetString(pNativeData, CharSet.Unicode);
|
||
}
|
||
}
|
||
} |