Kernel Drivers

How the kernel drivers work and their role in the kernel

The kernel drivers allows your kernel to provide interfaces for different purposes, from console to filesystem. This is to present the kernel your implementation of different driver types. It's not a device driver, though!

The kernel drivers can be called using either the properties that point to the current driver of each driver type or the GetDriver<TResult>() function found in the DriverHandler class under the KS.Drivers namespace. These two will return an appropriate driver interface that actually allows you to call their functions that each driver of the same type implements. The types of kernel drivers are listed below:

Driver
Interface
Base
Description

IRandomDriver

BaseRandomDriver

Random number generator drivers

IConsoleDriver

BaseConsoleDriver

Console drivers

INetworkDriver

BaseNetworkDriver

Network drivers

IFilesystemDriver

BaseFilesystemDriver

Filesystem drivers

IEncryptionDriver

BaseEncryptionDriver

Encryption drivers

IRegexpDriver

BaseRegexpDriver

Regular expression drivers

IDebugLoggerDriver

BaseDebugLoggerDriver

Debug logger drivers

IEncodingDriver

BaseEncodingDriver

Encoding drivers

IHardwareProberDriver

BaseHardwareProberDriver

Hardware probing drivers

ISortingDriver

BaseSortingDriver

Integer sorting drivers

IInputDriver

BaseInputDriver

Input drivers

Mods and Drivers

Your kernel modifications should reference local versions of driver properties, like CurrentConsoleDriverLocal, unless it's not possible.

Each driver contains its own interface containing its own method definitions and their signatures. These interfaces are the ones that you must implement with your mod. The most basic interface for the kernel drivers is IDriver found in the same namespace, which is implemented by the driver-specific interfaces.

The final driver class implementation must implement both the base driver-specific base class and its interface, such as:

internal class Terminal : BaseConsoleDriver, IConsoleDriver

IsBuiltin() only returns true if the driver is found in the built-in driver list. IsRegistered(), however, returns true if the driver is either built-in or found in the custom drivers list.

If you have a kernel driver that you wish to register, you'll have to register the kernel driver, passing it the IDriver interface for your driver and the appropriate type. You can use the RegisterDriver() function to perform this operation, but you should set the current driver to your driver for the target wrappers, like the methods found in the KS.Files namespace that call the current filesystem driver, using the SetDriverSafe<T>() function.

The SetDriver<T>() function can be used, but doesn't prevent you from using internal drivers. We advice you to use the SetDriverSafe<T>() function instead.

Be sure to unregister your driver with the UnregisterDriver() function, or your driver will not get updated in the list of kernel drivers!

Local drivers

If you want to temporarily to use a driver without affecting the entire kernel and its configuration, you can use this feature to temporarily switch drivers of supported types.

Assuming that your mod uses local drivers to do their actions, like CurrentConsoleDriverLocal, you must use the following functions in order:

  • BeginLocalDriverSafe<T>(): This notifies the kernel that the mod is going to use the provided driver temporarily.

  • EndLocalDriver<T>(): This notifies the kernel that the mod is done with the temporary driver.

Where T is the interface type of the driver found in the above table at the start of this page.

The BeginLocalDriver<T>() function can be used, but doesn't prevent you from using internal drivers. We advice you to use the BeginLocalDriverSafe<T>() function instead.

Be sure to execute the two above functions in the order specified above. Forgetting to call EndLocalDriver<T>() after you're done with the driver can cause the kernel to think that the mod is going to use your local driver forever.

Fallback drivers

Additionally, the driver management API provides you an easy way to get the default driver that the kernel declares. You can use the below functions:

  • DriverHandler.GetFallbackDriver<TDriverInterfaceType>()

    • This returns an instance of the default driver that the kernel initialized before drivers get set by the config reader.

  • DriverHandler.GetFallbackDriverName<TDriverInterfaceType>()

    • This returns the actual driver name grabbed from the dictionary.

Don't confuse the name given by the GetDriverName() and its siblings with the name from the driver instance.

Current drivers

If you have a driver interface type or the driver type from the DriverTypes enumeration, you can request for a current driver either from the available properties or from the GetCurrentDriver() and GetCurrentDriverLocal() functions.

var currentDriver = DriverHandler.GetCurrentDriver(driverType);
  • GetCurrentDriver() returns the current driver that's used by the kernel

  • GetCurrentDriverLocal() returns the current local driver set by BeginLocalDriver<T>() or its safe sibling function.

For all the driver management functions, you can also use the non-generic versions where they ask for a DriverTypes value in their first argument.

Driver Configuration

The settings -driver application now lets you set your system-wide kernel drivers up in a completely new section called Kernel driver settings. It lets you configure current drivers for each supported driver type.

In order to configure your driver, select one of the driver types from the settings section shown above by pressing ENTER, and select your driver.

You can also use driverman to change the kernel driver settings for scripting scenarios.

Like all other settings, you must save your kernel settings to apply your changes across reboots.