// Copyright (c) 2015-2017 Khronos Group. This work is licensed under a // Creative Commons Attribution 4.0 International License; see // http://creativecommons.org/licenses/by/4.0/ [[extended-functionality]] = Extended Functionality Additional functionality may: be provided by layers or extensions. A layer cannot: add or modify Vulkan commands, while an extension may: do so. The set of layers to enable is specified when creating an instance, and those layers are able to intercept any Vulkan command dispatched to that instance or any of its child objects. Extensions can operate at either the instance or device _extension scope_. Enabled instance extensions are able to affect the operation of the instance and any of its child objects, while device extensions may: only be available on a subset of physical devices, must: be individually enabled per-device, and only affect the operation of the devices where they are enabled. Examples of these might be: * Whole API validation is an example of a layer. * Debug capabilities might make a good instance extension. * A layer that provides hardware-specific performance telemetry and analysis could be a layer that is only active for devices created from compatible physical devices. * Functions to allow an application to use additional hardware features beyond the core would be a good candidate for a device extension. [[extended-functionality-layers]] == Layers When a layer is enabled, it inserts itself into the call chain for Vulkan commands the layer is interested in. A common use of layers is to validate application behavior during development. For example, the implementation will not check that Vulkan enums used by the application fall within allowed ranges. Instead, a validation layer would do those checks and flag issues. This avoids a performance penalty during production use of the application because those layers would not be enabled in production. Vulkan layers may: wrap object handles (i.e. return a different handle value to the application than that generated by the implementation). This is generally discouraged, as it increases the probability of incompatibilities with new extensions. The validation layers wrap handles in order to track the proper use and destruction of each object. See the <> document for additional information. [open,refpage='vkEnumerateInstanceLayerProperties',desc='Returns up to requested number of global layer properties',type='protos'] -- To query the available layers, call: include::../api/protos/vkEnumerateInstanceLayerProperties.txt[] * pname:pPropertyCount is a pointer to an integer related to the number of layer properties available or queried, as described below. * pname:pProperties is either `NULL` or a pointer to an array of slink:VkLayerProperties structures. If pname:pProperties is `NULL`, then the number of layer properties available is returned in pname:pPropertyCount. Otherwise, pname:pPropertyCount must: point to a variable set by the user to the number of elements in the pname:pProperties array, and on return the variable is overwritten with the number of structures actually written to pname:pProperties. If pname:pPropertyCount is less than the number of layer properties available, at most pname:pPropertyCount structures will be written. If pname:pPropertyCount is smaller than the number of layers available, ename:VK_INCOMPLETE will be returned instead of ename:VK_SUCCESS, to indicate that not all the available layer properties were returned. The list of available layers may change at any time due to actions outside of the Vulkan implementation, so two calls to fname:vkEnumerateInstanceLayerProperties with the same parameters may: return different results, or retrieve different pname:pPropertyCount values or pname:pProperties contents. Once an instance has been created, the layers enabled for that instance will continue to be enabled and valid for the lifetime of that instance, even if some of them become unavailable for future instances. include::../validity/protos/vkEnumerateInstanceLayerProperties.txt[] -- [open,refpage='VkLayerProperties',desc='Structure specifying layer properties',type='structs'] -- The sname:VkLayerProperties structure is defined as: include::../api/structs/VkLayerProperties.txt[] * pname:layerName is a null-terminated UTF-8 string specifying the name of the layer. Use this name in the pname:ppEnabledLayerNames array passed in the slink:VkInstanceCreateInfo structure to enable this layer for an instance. * pname:specVersion is the Vulkan version the layer was written to, encoded as described in the <> section. * pname:implementationVersion is the version of this layer. It is an integer, increasing with backward compatible changes. * pname:description is a null-terminated UTF-8 string providing additional details that can: be used by the application to identify the layer. include::../validity/structs/VkLayerProperties.txt[] -- To enable a layer, the name of the layer should: be added to the pname:ppEnabledLayerNames member of slink:VkInstanceCreateInfo when creating a sname:VkInstance. Loader implementations may: provide mechanisms outside the Vulkan API for enabling specific layers. Layers enabled through such a mechanism are _implicitly enabled_, while layers enabled by including the layer name in the pname:ppEnabledLayerNames member of slink:VkInstanceCreateInfo are _explicitly enabled_. Except where otherwise specified, implicitly enabled and explicitly enabled layers differ only in the way they are enabled. Explicitly enabling a layer that is implicitly enabled has no additional effect. [[extended-functionality-device-layer-deprecation]] === Device Layer Deprecation Previous versions of this specification distinguished between instance and device layers. Instance layers were only able to intercept commands that operate on sname:VkInstance and sname:VkPhysicalDevice, except they were not able to intercept flink:vkCreateDevice. Device layers were enabled for individual devices when they were created, and could only intercept commands operating on that device or its child objects. Device-only layers are now deprecated, and this specification no longer distinguishes between instance and device layers. Layers are enabled during instance creation, and are able to intercept all commands operating on that instance or any of its child objects. At the time of deprecation there were no known device-only layers and no compelling reason to create one. In order to maintain compatibility with implementations released prior to device-layer deprecation, applications should: still enumerate and enable device layers. The behavior of fname:vkEnumerateDeviceLayerProperties and valid usage of the pname:ppEnabledLayerNames member of sname:VkDeviceCreateInfo maximizes compatibility with applications written to work with the previous requirements. [open,refpage='vkEnumerateDeviceLayerProperties',desc='Returns properties of available physical device layers',type='protos'] -- To enumerate device layers, call: include::../api/protos/vkEnumerateDeviceLayerProperties.txt[] * pname:pPropertyCount is a pointer to an integer related to the number of layer properties available or queried. * pname:pProperties is either `NULL` or a pointer to an array of slink:VkLayerProperties structures. If pname:pProperties is `NULL`, then the number of layer properties available is returned in pname:pPropertyCount. Otherwise, pname:pPropertyCount must: point to a variable set by the user to the number of elements in the pname:pProperties array, and on return the variable is overwritten with the number of structures actually written to pname:pProperties. If pname:pPropertyCount is less than the number of layer properties available, at most pname:pPropertyCount structures will be written. If pname:pPropertyCount is smaller than the number of layers available, ename:VK_INCOMPLETE will be returned instead of ename:VK_SUCCESS, to indicate that not all the available layer properties were returned. The list of layers enumerated by fname:vkEnumerateDeviceLayerProperties must: be exactly the sequence of layers enabled for the instance. The members of sname:VkLayerProperties for each enumerated layer must: be the same as the properties when the layer was enumerated by fname:vkEnumerateInstanceLayerProperties. include::../validity/protos/vkEnumerateDeviceLayerProperties.txt[] -- The pname:ppEnabledLayerNames and pname:enabledLayerCount members of sname:VkDeviceCreateInfo are deprecated and their values must: be ignored by implementations. However, for compatibility, only an empty list of layers or a list that exactly matches the sequence enabled at instance creation time are valid, and validation layers should: issue diagnostics for other cases. Regardless of the enabled layer list provided in sname:VkDeviceCreateInfo, the sequence of layers active for a device will be exactly the sequence of layers enabled when the parent instance was created. [[extended-functionality-extensions]] == Extensions Extensions may: define new Vulkan commands, structures, and enumerants. For compilation purposes, the interfaces defined by registered extensions, including new structures and enumerants as well as function pointer types for new commands, are defined in the Khronos-supplied +vulkan.h+ together with the core API. However, commands defined by extensions may: not be available for static linking - in which case function pointers to these commands should: be queried at runtime as described in <>. Extensions may: be provided by layers as well as by a Vulkan implementation. Because extensions may: extend or change the behavior of the Vulkan API, extension authors should: add support for their extensions to the Khronos validation layers. This is especially important for new commands whose parameters have been wrapped by the validation layers. See the <> document for additional information. [open,refpage='vkEnumerateInstanceExtensionProperties',desc='Returns up to requested number of global extension properties',type='protos'] -- To query the available instance extensions, call: include::../api/protos/vkEnumerateInstanceExtensionProperties.txt[] * pname:pLayerName is either `NULL` or a pointer to a null-terminated UTF-8 string naming the layer to retrieve extensions from. * pname:pPropertyCount is a pointer to an integer related to the number of extension properties available or queried, as described below. * pname:pProperties is either `NULL` or a pointer to an array of slink:VkExtensionProperties structures. When pname:pLayerName parameter is NULL, only extensions provided by the Vulkan implementation or by implicitly enabled layers are returned. When pname:pLayerName is the name of a layer, the instance extensions provided by that layer are returned. If pname:pProperties is `NULL`, then the number of extensions properties available is returned in pname:pPropertyCount. Otherwise, pname:pPropertyCount must: point to a variable set by the user to the number of elements in the pname:pProperties array, and on return the variable is overwritten with the number of structures actually written to pname:pProperties. If pname:pPropertyCount is less than the number of extension properties available, at most pname:pPropertyCount structures will be written. If pname:pPropertyCount is smaller than the number of extensions available, ename:VK_INCOMPLETE will be returned instead of ename:VK_SUCCESS, to indicate that not all the available properties were returned. Because the list of available layers may change externally between calls to pname:vkEnumerateInstanceExtensionProperties, two calls may retrieve different results if a pname:pLayerName is available in one call but not in another. The extensions supported by a layer may also change between two calls, e.g. if the layer implementation is replaced by a different version between those calls. include::../validity/protos/vkEnumerateInstanceExtensionProperties.txt[] -- To enable an instance extension, the name of the extension should: be added to the pname:ppEnabledExtensionNames member of slink:VkInstanceCreateInfo when creating a sname:VkInstance. Enabling an extension does not change behavior of functionality exposed by the core Vulkan API or any other extension, other than making valid the use of the commands, enums and structures defined by that extension. [open,refpage='vkEnumerateDeviceExtensionProperties',desc='Returns properties of available physical device extensions',type='protos'] -- To query the extensions available to a given physical device, call: include::../api/protos/vkEnumerateDeviceExtensionProperties.txt[] * pname:physicalDevice is the physical device that will be queried. * pname:pLayerName is either `NULL` or a pointer to a null-terminated UTF-8 string naming the layer to retrieve extensions from. * pname:pPropertyCount is a pointer to an integer related to the number of extension properties available or queried, and is treated in the same fashion as the flink:vkEnumerateInstanceExtensionProperties::pname:pPropertyCount parameter. * pname:pProperties is either `NULL` or a pointer to an array of slink:VkExtensionProperties structures. When pname:pLayerName parameter is NULL, only extensions provided by the Vulkan implementation or by implicitly enabled layers are returned. When pname:pLayerName is the name of a layer, the device extensions provided by that layer are returned. include::../validity/protos/vkEnumerateDeviceExtensionProperties.txt[] -- [open,refpage='VkExtensionProperties',desc='Structure specifying a extension properties',type='structs'] -- The sname:VkExtensionProperties structure is defined as: include::../api/structs/VkExtensionProperties.txt[] * pname:extensionName is a null-terminated string specifying the name of the extension. * pname:specVersion is the version of this extension. It is an integer, incremented with backward compatible changes. include::../validity/structs/VkExtensionProperties.txt[] -- [[extended-functionality-instance-extensions-and-devices]] === Instance Extensions and Device Extensions This section provides some guidelines and rules for when to expose new functionality as an instance extension, as a device extension, or as both. The decision depends on the scope of the new functionality; such as whether it extends instance-level or device-level functionality. All Vulkan commands, structures, and enumerants are considered either instance-level, physical-device-level, or device-level. Commands that are dispatched from instances (sname:VkInstance) are considered instance-level commands. Any structure, enumerated type, and enumerant that is used with instance-level commands are considered instance-level objects. New instance-level extension functionality must: be structured within an instance extension. Any command or object that must: be used after calling flink:vkCreateDevice is a device-level command or object. These objects include all children of sname:VkDevice objects, such as queues (sname:VkQueue) and command buffers (sname:VkCommandBuffer). New device-level extension functionality may: be structured within a device extension. Commands that are dispatched from physical devices (sname:VkPhysicalDevice) are considered physical-device-level commands. Any structure, enumerated type, and enumerant that is used with physical-device-level commands, and not used with instance-level commands, are considered physical-device-level objects. Vulkan 1.0 requires all new physical-device-level extension functionality to be structured within an instance extension. ifdef::VK_KHR_get_physical_device_properties2[] In order to avoid using an instance extension, which often requires loader support, the +VK_KHR_get_physical_device_properties2+ extension allows physical-device-level extension functionality to be implemented within device extensions (which must: depend on the +VK_KHR_get_physical_device_properties2+ extension). endif::VK_KHR_get_physical_device_properties2[] [[extended-functionality-extensions-dependencies]] == Extension Dependencies Some extensions are dependent on other extensions to function. To use extensions with dependencies, such _required extensions_ must: also be enabled through the same API mechanisms when creating an instance with flink:vkCreateInstance or a device with flink:vkCreateDevice. Each extension which has such dependencies documents them in the <>. [NOTE] .Note ================== The Specification does not currently include required extensions in Valid Usage statements for individual commands and structures, although we may do so in the future. Nonetheless, applications must: not use any extension functionality if dependencies of that extension are not enabled. ==================