Loader Description
Overview
The Loader implements the main VK library (e.g. "vulkan-1.dll" on Windows and "libvulkan-1.so" on Linux). It handles layer management and driver management. The loader fully supports multi-gpu operation. As part of this, it dispatches API calls to the correct driver, and to the correct layers, based on the GPU object selected by the application.
The loader's driver management includes finding driver libraries and loading them. When a driver is initialized, the loader sets up its dispatch tables, using a very light-weight "trampoline" mechanism. To do so, it reserves space for a pointer in API objects (see below for more information about this).
The loader's layer management includes finding layer libraries and activating them as requested. The loader correctly sets up each activated layer, and its own dispatch tables in order to support all activated layers. Each active layer can intercept a subset of the full API entrypoints. A layer which doesn't intercept a given entrypoint will be skipped for that entrypoint. The loader supports layers that operate on multiple GPUs.
ICD discovery
See file LinuxICDs.txt and WindowsICDs.txt for description of how the loader finds ICD driver libraries.
Interface to driver (ICD)
Currently two supported methods of the loader finding ICD entry points are supported:
- Recommended
- vk_icdGetInstanceProcAddr exported in the ICD library and returns valid function pointers for all the VK API entrypoints both core entry points and any instance or device extension entrypoints
- ICD supports NULL instance handle for the global Vulkan entrypoints when called from vk_icdGetInstanceProcAddr
- all other Vulkan entrypoints either NOT exported from the ICD library or else will not use the official Vulkan function names if they are exported. (NOTE: this requirement is for ICD libraries that include other functionality (such as OpenGL library) and thus could be loaded prior to when the Vulkan loader library is loaded by the app. Thus the ICD library exported Vulkan symbols must not clash with the loader's exported Vulkan symbols).
- Deprecated
vkGetInstanceProcAddr exported in the ICD library and returns valid function pointers for all the VK API entrypoints.
vkCreateInstance exported in the ICD library
vkEnumerateInstanceExtensionProperties exported in the ICD library
WSI surface extensions (vk_KHR_*surface) handling:
- Loader handles the vkCreate*SurfaceKHR() and vkDestroySurfaceKHR() functions including creating/destroying the VkSurfaceKHR object
- VkSurfaceKHR objects have the underlying structure (VKIcdSurface*) as defined in include/vulkan/vk_icd.h
- ICDs can cast any VkSurfaceKHR object to a pointer to the appropriate VKIcdSurface* structure
- VkIcdSurface* structures include VkIcdSurfaceWin32, VkIcdSurfaceXcb, VkIcdSurfaceXlib, VkIcdSurfaceMir, and VkIcdSurfaceWayland
all objects created by an ICD can be cast to (VK_LAYER_DISPATCH_TABLE **) where the loader will replace the first entry with a pointer to the dispatch table which is owned by the loader. This implies three things for ICD drivers:
- The ICD must return a pointer for the opaque object handle
- This pointer points to a regular C structure with the first entry being a pointer. Note: for any C++ ICD's that implement VK objects directly as C++ classes. The C++ compiler may put a vtable at offset zero, if your class is virtual. In this case use a regular C structure (see below).
- The reservedForLoader.loaderMagic member must be initialized with ICD_LOADER_MAGIC, as follows:
#include "vkIcd.h"
struct {
VK_LOADER_DATA reservedForLoader; // Reserve space for pointer to loader's dispatch table
myObjectClass myObj; // Your driver's C++ class
} vkObj;
vkObj alloc_icd_obj()
{
vkObj *newObj = alloc_obj();
...
// Initialize pointer to loader's dispatch table with ICD_LOADER_MAGIC
set_loader_magic_value(newObj);
...
return newObj;
}
Additional Notes:
- loader will filter out extensions requested in vkCreateInstance and vkCreateDevice before calling into the ICD; Filtering will be of extensions advertised by entities (eg layers) different from the ICD in question
- loader will not call ICD for vkEnumerate*LayerProperties() as layer properties are obtained from the layer libraries and ICD files.
- loader will not call ICD for vkEnumerate*ExtensionProperties(pLayerName != NULL)
- The ICD may or may not implement a dispatch table.
- ICD entrypoints can be named anything including the offcial vk name such as vkCreateDevice(). However, beware of interposing by dynamic OS library loaders if the offical names are used. On Linux, if offical names are used, the ICD library must be linked with -Bsymbolic.
Layer library discovery
See file LinuxICDs.txt and WindowsICDs.txt for description of how the loader finds layer libraries.
Interface to layer libraries
TBD