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1 /*
2  * Copyright 2015 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include <hardware/hwvulkan.h>
18 
19 #include <errno.h>
20 #include <inttypes.h>
21 #include <stdlib.h>
22 #include <string.h>
23 #include <unistd.h>
24 
25 #include <algorithm>
26 #include <array>
27 
28 #include <log/log.h>
29 
30 #include "null_driver_gen.h"
31 
32 using namespace null_driver;
33 
34 struct VkPhysicalDevice_T {
35     hwvulkan_dispatch_t dispatch;
36 };
37 
38 struct VkInstance_T {
39     hwvulkan_dispatch_t dispatch;
40     VkAllocationCallbacks allocator;
41     VkPhysicalDevice_T physical_device;
42     uint64_t next_callback_handle;
43 };
44 
45 struct VkQueue_T {
46     hwvulkan_dispatch_t dispatch;
47 };
48 
49 struct VkCommandBuffer_T {
50     hwvulkan_dispatch_t dispatch;
51 };
52 
53 namespace {
54 // Handles for non-dispatchable objects are either pointers, or arbitrary
55 // 64-bit non-zero values. We only use pointers when we need to keep state for
56 // the object even in a null driver. For the rest, we form a handle as:
57 //   [63:63] = 1 to distinguish from pointer handles*
58 //   [62:56] = non-zero handle type enum value
59 //   [55: 0] = per-handle-type incrementing counter
60 // * This works because virtual addresses with the high bit set are reserved
61 // for kernel data in all ABIs we run on.
62 //
63 // We never reclaim handles on vkDestroy*. It's not even necessary for us to
64 // have distinct handles for live objects, and practically speaking we won't
65 // ever create 2^56 objects of the same type from a single VkDevice in a null
66 // driver.
67 //
68 // Using a namespace here instead of 'enum class' since we want scoped
69 // constants but also want implicit conversions to integral types.
70 namespace HandleType {
71 enum Enum {
72     kBufferView,
73     kDebugReportCallbackEXT,
74     kDescriptorPool,
75     kDescriptorSet,
76     kDescriptorSetLayout,
77     kEvent,
78     kFence,
79     kFramebuffer,
80     kImageView,
81     kPipeline,
82     kPipelineCache,
83     kPipelineLayout,
84     kQueryPool,
85     kRenderPass,
86     kSampler,
87     kSemaphore,
88     kShaderModule,
89 
90     kNumTypes
91 };
92 }  // namespace HandleType
93 
94 const VkDeviceSize kMaxDeviceMemory = 0x10000000;  // 256 MiB, arbitrary
95 
96 }  // anonymous namespace
97 
98 struct VkDevice_T {
99     hwvulkan_dispatch_t dispatch;
100     VkAllocationCallbacks allocator;
101     VkInstance_T* instance;
102     VkQueue_T queue;
103     std::array<uint64_t, HandleType::kNumTypes> next_handle;
104 };
105 
106 // -----------------------------------------------------------------------------
107 // Declare HAL_MODULE_INFO_SYM early so it can be referenced by nulldrv_device
108 // later.
109 
110 namespace {
111 int OpenDevice(const hw_module_t* module, const char* id, hw_device_t** device);
112 hw_module_methods_t nulldrv_module_methods = {.open = OpenDevice};
113 }  // namespace
114 
115 #pragma clang diagnostic push
116 #pragma clang diagnostic ignored "-Wmissing-variable-declarations"
117 __attribute__((visibility("default"))) hwvulkan_module_t HAL_MODULE_INFO_SYM = {
118     .common =
119         {
120             .tag = HARDWARE_MODULE_TAG,
121             .module_api_version = HWVULKAN_MODULE_API_VERSION_0_1,
122             .hal_api_version = HARDWARE_HAL_API_VERSION,
123             .id = HWVULKAN_HARDWARE_MODULE_ID,
124             .name = "Null Vulkan Driver",
125             .author = "The Android Open Source Project",
126             .methods = &nulldrv_module_methods,
127         },
128 };
129 #pragma clang diagnostic pop
130 
131 // -----------------------------------------------------------------------------
132 
133 namespace {
134 
CloseDevice(struct hw_device_t *)135 int CloseDevice(struct hw_device_t* /*device*/) {
136     // nothing to do - opening a device doesn't allocate any resources
137     return 0;
138 }
139 
140 hwvulkan_device_t nulldrv_device = {
141     .common =
142         {
143             .tag = HARDWARE_DEVICE_TAG,
144             .version = HWVULKAN_DEVICE_API_VERSION_0_1,
145             .module = &HAL_MODULE_INFO_SYM.common,
146             .close = CloseDevice,
147         },
148     .EnumerateInstanceExtensionProperties =
149         EnumerateInstanceExtensionProperties,
150     .CreateInstance = CreateInstance,
151     .GetInstanceProcAddr = GetInstanceProcAddr};
152 
OpenDevice(const hw_module_t *,const char * id,hw_device_t ** device)153 int OpenDevice(const hw_module_t* /*module*/,
154                const char* id,
155                hw_device_t** device) {
156     if (strcmp(id, HWVULKAN_DEVICE_0) == 0) {
157         *device = &nulldrv_device.common;
158         return 0;
159     }
160     return -ENOENT;
161 }
162 
GetInstanceFromPhysicalDevice(VkPhysicalDevice_T * physical_device)163 VkInstance_T* GetInstanceFromPhysicalDevice(
164     VkPhysicalDevice_T* physical_device) {
165     return reinterpret_cast<VkInstance_T*>(
166         reinterpret_cast<uintptr_t>(physical_device) -
167         offsetof(VkInstance_T, physical_device));
168 }
169 
AllocHandle(uint64_t type,uint64_t * next_handle)170 uint64_t AllocHandle(uint64_t type, uint64_t* next_handle) {
171     const uint64_t kHandleMask = (UINT64_C(1) << 56) - 1;
172     ALOGE_IF(*next_handle == kHandleMask,
173              "non-dispatchable handles of type=%" PRIu64
174              " are about to overflow",
175              type);
176     return (UINT64_C(1) << 63) | ((type & 0x7) << 56) |
177            ((*next_handle)++ & kHandleMask);
178 }
179 
180 template <class Handle>
AllocHandle(VkInstance instance,HandleType::Enum type)181 Handle AllocHandle(VkInstance instance, HandleType::Enum type) {
182     return reinterpret_cast<Handle>(
183         AllocHandle(type, &instance->next_callback_handle));
184 }
185 
186 template <class Handle>
AllocHandle(VkDevice device,HandleType::Enum type)187 Handle AllocHandle(VkDevice device, HandleType::Enum type) {
188     return reinterpret_cast<Handle>(
189         AllocHandle(type, &device->next_handle[type]));
190 }
191 
DefaultAllocate(void *,size_t size,size_t alignment,VkSystemAllocationScope)192 VKAPI_ATTR void* DefaultAllocate(void*,
193                                  size_t size,
194                                  size_t alignment,
195                                  VkSystemAllocationScope) {
196     void* ptr = nullptr;
197     // Vulkan requires 'alignment' to be a power of two, but posix_memalign
198     // additionally requires that it be at least sizeof(void*).
199     int ret = posix_memalign(&ptr, std::max(alignment, sizeof(void*)), size);
200     return ret == 0 ? ptr : nullptr;
201 }
202 
DefaultReallocate(void *,void * ptr,size_t size,size_t alignment,VkSystemAllocationScope)203 VKAPI_ATTR void* DefaultReallocate(void*,
204                                    void* ptr,
205                                    size_t size,
206                                    size_t alignment,
207                                    VkSystemAllocationScope) {
208     if (size == 0) {
209         free(ptr);
210         return nullptr;
211     }
212 
213     // TODO(jessehall): Right now we never shrink allocations; if the new
214     // request is smaller than the existing chunk, we just continue using it.
215     // The null driver never reallocs, so this doesn't matter. If that changes,
216     // or if this code is copied into some other project, this should probably
217     // have a heuristic to allocate-copy-free when doing so will save "enough"
218     // space.
219     size_t old_size = ptr ? malloc_usable_size(ptr) : 0;
220     if (size <= old_size)
221         return ptr;
222 
223     void* new_ptr = nullptr;
224     if (posix_memalign(&new_ptr, std::max(alignment, sizeof(void*)), size) != 0)
225         return nullptr;
226     if (ptr) {
227         memcpy(new_ptr, ptr, std::min(old_size, size));
228         free(ptr);
229     }
230     return new_ptr;
231 }
232 
DefaultFree(void *,void * ptr)233 VKAPI_ATTR void DefaultFree(void*, void* ptr) {
234     free(ptr);
235 }
236 
237 const VkAllocationCallbacks kDefaultAllocCallbacks = {
238     .pUserData = nullptr,
239     .pfnAllocation = DefaultAllocate,
240     .pfnReallocation = DefaultReallocate,
241     .pfnFree = DefaultFree,
242 };
243 
244 }  // namespace
245 
246 namespace null_driver {
247 
248 #define DEFINE_OBJECT_HANDLE_CONVERSION(T)              \
249     T* Get##T##FromHandle(Vk##T h);                     \
250     T* Get##T##FromHandle(Vk##T h) {                    \
251         return reinterpret_cast<T*>(uintptr_t(h));      \
252     }                                                   \
253     Vk##T GetHandleTo##T(const T* obj);                 \
254     Vk##T GetHandleTo##T(const T* obj) {                \
255         return Vk##T(reinterpret_cast<uintptr_t>(obj)); \
256     }
257 
258 // -----------------------------------------------------------------------------
259 // Global
260 
261 VKAPI_ATTR
EnumerateInstanceVersion(uint32_t * pApiVersion)262 VkResult EnumerateInstanceVersion(uint32_t* pApiVersion) {
263     *pApiVersion = VK_API_VERSION_1_1;
264     return VK_SUCCESS;
265 }
266 
267 VKAPI_ATTR
EnumerateInstanceExtensionProperties(const char * layer_name,uint32_t * count,VkExtensionProperties * properties)268 VkResult EnumerateInstanceExtensionProperties(
269     const char* layer_name,
270     uint32_t* count,
271     VkExtensionProperties* properties) {
272     if (layer_name) {
273         ALOGW(
274             "Driver vkEnumerateInstanceExtensionProperties shouldn't be called "
275             "with a layer name ('%s')",
276             layer_name);
277     }
278 
279     const VkExtensionProperties kExtensions[] = {
280         {VK_KHR_GET_PHYSICAL_DEVICE_PROPERTIES_2_EXTENSION_NAME, VK_KHR_GET_PHYSICAL_DEVICE_PROPERTIES_2_SPEC_VERSION}};
281     const uint32_t kExtensionsCount =
282         sizeof(kExtensions) / sizeof(kExtensions[0]);
283 
284     if (!properties || *count > kExtensionsCount)
285         *count = kExtensionsCount;
286     if (properties)
287         std::copy(kExtensions, kExtensions + *count, properties);
288     return *count < kExtensionsCount ? VK_INCOMPLETE : VK_SUCCESS;
289 }
290 
291 VKAPI_ATTR
CreateInstance(const VkInstanceCreateInfo * create_info,const VkAllocationCallbacks * allocator,VkInstance * out_instance)292 VkResult CreateInstance(const VkInstanceCreateInfo* create_info,
293                         const VkAllocationCallbacks* allocator,
294                         VkInstance* out_instance) {
295     if (!allocator)
296         allocator = &kDefaultAllocCallbacks;
297 
298     VkInstance_T* instance =
299         static_cast<VkInstance_T*>(allocator->pfnAllocation(
300             allocator->pUserData, sizeof(VkInstance_T), alignof(VkInstance_T),
301             VK_SYSTEM_ALLOCATION_SCOPE_INSTANCE));
302     if (!instance)
303         return VK_ERROR_OUT_OF_HOST_MEMORY;
304 
305     instance->dispatch.magic = HWVULKAN_DISPATCH_MAGIC;
306     instance->allocator = *allocator;
307     instance->physical_device.dispatch.magic = HWVULKAN_DISPATCH_MAGIC;
308     instance->next_callback_handle = 0;
309 
310     for (uint32_t i = 0; i < create_info->enabledExtensionCount; i++) {
311         if (strcmp(create_info->ppEnabledExtensionNames[i],
312                    VK_KHR_GET_PHYSICAL_DEVICE_PROPERTIES_2_EXTENSION_NAME) == 0) {
313             ALOGV("instance extension '%s' requested",
314                   create_info->ppEnabledExtensionNames[i]);
315         } else if (strcmp(create_info->ppEnabledExtensionNames[i],
316                    VK_EXT_DEBUG_REPORT_EXTENSION_NAME) == 0) {
317             ALOGV("instance extension '%s' requested",
318                   create_info->ppEnabledExtensionNames[i]);
319         } else {
320             ALOGW("unsupported extension '%s' requested",
321                   create_info->ppEnabledExtensionNames[i]);
322         }
323     }
324 
325     *out_instance = instance;
326     return VK_SUCCESS;
327 }
328 
329 VKAPI_ATTR
GetInstanceProcAddr(VkInstance instance,const char * name)330 PFN_vkVoidFunction GetInstanceProcAddr(VkInstance instance, const char* name) {
331     return instance ? GetInstanceProcAddr(name) : GetGlobalProcAddr(name);
332 }
333 
334 VKAPI_ATTR
GetDeviceProcAddr(VkDevice,const char * name)335 PFN_vkVoidFunction GetDeviceProcAddr(VkDevice, const char* name) {
336     return GetInstanceProcAddr(name);
337 }
338 
339 // -----------------------------------------------------------------------------
340 // Instance
341 
DestroyInstance(VkInstance instance,const VkAllocationCallbacks *)342 void DestroyInstance(VkInstance instance,
343                      const VkAllocationCallbacks* /*allocator*/) {
344     instance->allocator.pfnFree(instance->allocator.pUserData, instance);
345 }
346 
347 // -----------------------------------------------------------------------------
348 // PhysicalDevice
349 
EnumeratePhysicalDevices(VkInstance instance,uint32_t * physical_device_count,VkPhysicalDevice * physical_devices)350 VkResult EnumeratePhysicalDevices(VkInstance instance,
351                                   uint32_t* physical_device_count,
352                                   VkPhysicalDevice* physical_devices) {
353     if (!physical_devices)
354         *physical_device_count = 1;
355     else if (*physical_device_count == 0)
356         return VK_INCOMPLETE;
357     else {
358         physical_devices[0] = &instance->physical_device;
359         *physical_device_count = 1;
360     }
361     return VK_SUCCESS;
362 }
363 
EnumerateDeviceLayerProperties(VkPhysicalDevice,uint32_t * count,VkLayerProperties *)364 VkResult EnumerateDeviceLayerProperties(VkPhysicalDevice /*gpu*/,
365                                         uint32_t* count,
366                                         VkLayerProperties* /*properties*/) {
367     ALOGW("Driver vkEnumerateDeviceLayerProperties shouldn't be called");
368     *count = 0;
369     return VK_SUCCESS;
370 }
371 
EnumerateDeviceExtensionProperties(VkPhysicalDevice,const char * layer_name,uint32_t * count,VkExtensionProperties * properties)372 VkResult EnumerateDeviceExtensionProperties(VkPhysicalDevice /*gpu*/,
373                                             const char* layer_name,
374                                             uint32_t* count,
375                                             VkExtensionProperties* properties) {
376     if (layer_name) {
377         ALOGW(
378             "Driver vkEnumerateDeviceExtensionProperties shouldn't be called "
379             "with a layer name ('%s')",
380             layer_name);
381         *count = 0;
382         return VK_SUCCESS;
383     }
384 
385     const VkExtensionProperties kExtensions[] = {
386         {VK_ANDROID_NATIVE_BUFFER_EXTENSION_NAME,
387          VK_ANDROID_NATIVE_BUFFER_SPEC_VERSION}};
388     const uint32_t kExtensionsCount =
389         sizeof(kExtensions) / sizeof(kExtensions[0]);
390 
391     if (!properties || *count > kExtensionsCount)
392         *count = kExtensionsCount;
393     if (properties)
394         std::copy(kExtensions, kExtensions + *count, properties);
395     return *count < kExtensionsCount ? VK_INCOMPLETE : VK_SUCCESS;
396 }
397 
GetPhysicalDeviceProperties(VkPhysicalDevice,VkPhysicalDeviceProperties * properties)398 void GetPhysicalDeviceProperties(VkPhysicalDevice,
399                                  VkPhysicalDeviceProperties* properties) {
400     properties->apiVersion = VK_MAKE_VERSION(1, 0, VK_HEADER_VERSION);
401     properties->driverVersion = VK_MAKE_VERSION(0, 0, 1);
402     properties->vendorID = 0;
403     properties->deviceID = 0;
404     properties->deviceType = VK_PHYSICAL_DEVICE_TYPE_OTHER;
405     strcpy(properties->deviceName, "Android Vulkan Null Driver");
406     memset(properties->pipelineCacheUUID, 0,
407            sizeof(properties->pipelineCacheUUID));
408     properties->limits = VkPhysicalDeviceLimits{
409         4096,     // maxImageDimension1D
410         4096,     // maxImageDimension2D
411         256,      // maxImageDimension3D
412         4096,     // maxImageDimensionCube
413         256,      // maxImageArrayLayers
414         65536,    // maxTexelBufferElements
415         16384,    // maxUniformBufferRange
416         1 << 27,  // maxStorageBufferRange
417         128,      // maxPushConstantsSize
418         4096,     // maxMemoryAllocationCount
419         4000,     // maxSamplerAllocationCount
420         1,        // bufferImageGranularity
421         0,        // sparseAddressSpaceSize
422         4,        // maxBoundDescriptorSets
423         16,       // maxPerStageDescriptorSamplers
424         12,       // maxPerStageDescriptorUniformBuffers
425         4,        // maxPerStageDescriptorStorageBuffers
426         16,       // maxPerStageDescriptorSampledImages
427         4,        // maxPerStageDescriptorStorageImages
428         4,        // maxPerStageDescriptorInputAttachments
429         128,      // maxPerStageResources
430         96,       // maxDescriptorSetSamplers
431         72,       // maxDescriptorSetUniformBuffers
432         8,        // maxDescriptorSetUniformBuffersDynamic
433         24,       // maxDescriptorSetStorageBuffers
434         4,        // maxDescriptorSetStorageBuffersDynamic
435         96,       // maxDescriptorSetSampledImages
436         24,       // maxDescriptorSetStorageImages
437         4,        // maxDescriptorSetInputAttachments
438         16,       // maxVertexInputAttributes
439         16,       // maxVertexInputBindings
440         2047,     // maxVertexInputAttributeOffset
441         2048,     // maxVertexInputBindingStride
442         64,       // maxVertexOutputComponents
443         0,        // maxTessellationGenerationLevel
444         0,        // maxTessellationPatchSize
445         0,        // maxTessellationControlPerVertexInputComponents
446         0,        // maxTessellationControlPerVertexOutputComponents
447         0,        // maxTessellationControlPerPatchOutputComponents
448         0,        // maxTessellationControlTotalOutputComponents
449         0,        // maxTessellationEvaluationInputComponents
450         0,        // maxTessellationEvaluationOutputComponents
451         0,        // maxGeometryShaderInvocations
452         0,        // maxGeometryInputComponents
453         0,        // maxGeometryOutputComponents
454         0,        // maxGeometryOutputVertices
455         0,        // maxGeometryTotalOutputComponents
456         64,       // maxFragmentInputComponents
457         4,        // maxFragmentOutputAttachments
458         0,        // maxFragmentDualSrcAttachments
459         4,        // maxFragmentCombinedOutputResources
460         16384,    // maxComputeSharedMemorySize
461         {65536, 65536, 65536},  // maxComputeWorkGroupCount[3]
462         128,                    // maxComputeWorkGroupInvocations
463         {128, 128, 64},         // maxComputeWorkGroupSize[3]
464         4,                      // subPixelPrecisionBits
465         4,                      // subTexelPrecisionBits
466         4,                      // mipmapPrecisionBits
467         UINT32_MAX,             // maxDrawIndexedIndexValue
468         1,                      // maxDrawIndirectCount
469         2,                      // maxSamplerLodBias
470         1,                      // maxSamplerAnisotropy
471         1,                      // maxViewports
472         {4096, 4096},           // maxViewportDimensions[2]
473         {-8192.0f, 8191.0f},    // viewportBoundsRange[2]
474         0,                      // viewportSubPixelBits
475         64,                     // minMemoryMapAlignment
476         256,                    // minTexelBufferOffsetAlignment
477         256,                    // minUniformBufferOffsetAlignment
478         256,                    // minStorageBufferOffsetAlignment
479         -8,                     // minTexelOffset
480         7,                      // maxTexelOffset
481         0,                      // minTexelGatherOffset
482         0,                      // maxTexelGatherOffset
483         0.0f,                   // minInterpolationOffset
484         0.0f,                   // maxInterpolationOffset
485         0,                      // subPixelInterpolationOffsetBits
486         4096,                   // maxFramebufferWidth
487         4096,                   // maxFramebufferHeight
488         256,                    // maxFramebufferLayers
489         VK_SAMPLE_COUNT_1_BIT |
490             VK_SAMPLE_COUNT_4_BIT,  // framebufferColorSampleCounts
491         VK_SAMPLE_COUNT_1_BIT |
492             VK_SAMPLE_COUNT_4_BIT,  // framebufferDepthSampleCounts
493         VK_SAMPLE_COUNT_1_BIT |
494             VK_SAMPLE_COUNT_4_BIT,  // framebufferStencilSampleCounts
495         VK_SAMPLE_COUNT_1_BIT |
496             VK_SAMPLE_COUNT_4_BIT,  // framebufferNoAttachmentsSampleCounts
497         4,                          // maxColorAttachments
498         VK_SAMPLE_COUNT_1_BIT |
499             VK_SAMPLE_COUNT_4_BIT,  // sampledImageColorSampleCounts
500         VK_SAMPLE_COUNT_1_BIT,      // sampledImageIntegerSampleCounts
501         VK_SAMPLE_COUNT_1_BIT |
502             VK_SAMPLE_COUNT_4_BIT,  // sampledImageDepthSampleCounts
503         VK_SAMPLE_COUNT_1_BIT |
504             VK_SAMPLE_COUNT_4_BIT,  // sampledImageStencilSampleCounts
505         VK_SAMPLE_COUNT_1_BIT,      // storageImageSampleCounts
506         1,                          // maxSampleMaskWords
507         VK_TRUE,                    // timestampComputeAndGraphics
508         1,                          // timestampPeriod
509         0,                          // maxClipDistances
510         0,                          // maxCullDistances
511         0,                          // maxCombinedClipAndCullDistances
512         2,                          // discreteQueuePriorities
513         {1.0f, 1.0f},               // pointSizeRange[2]
514         {1.0f, 1.0f},               // lineWidthRange[2]
515         0.0f,                       // pointSizeGranularity
516         0.0f,                       // lineWidthGranularity
517         VK_TRUE,                    // strictLines
518         VK_TRUE,                    // standardSampleLocations
519         1,                          // optimalBufferCopyOffsetAlignment
520         1,                          // optimalBufferCopyRowPitchAlignment
521         64,                         // nonCoherentAtomSize
522     };
523 }
524 
GetPhysicalDeviceProperties2KHR(VkPhysicalDevice physical_device,VkPhysicalDeviceProperties2KHR * properties)525 void GetPhysicalDeviceProperties2KHR(VkPhysicalDevice physical_device,
526                                   VkPhysicalDeviceProperties2KHR* properties) {
527     GetPhysicalDeviceProperties(physical_device, &properties->properties);
528 
529     while (properties->pNext) {
530         properties = reinterpret_cast<VkPhysicalDeviceProperties2KHR *>(properties->pNext);
531 
532 #pragma clang diagnostic push
533 #pragma clang diagnostic ignored "-Wold-style-cast"
534         switch ((VkFlags)properties->sType) {
535         case VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRESENTATION_PROPERTIES_ANDROID: {
536             VkPhysicalDevicePresentationPropertiesANDROID *presentation_properties =
537                 reinterpret_cast<VkPhysicalDevicePresentationPropertiesANDROID *>(properties);
538 #pragma clang diagnostic pop
539 
540                 // Claim that we do all the right things for the loader to
541                 // expose KHR_shared_presentable_image on our behalf.
542                 presentation_properties->sharedImage = VK_TRUE;
543             } break;
544 
545         default:
546             // Silently ignore other extension query structs
547             break;
548         }
549     }
550 }
551 
GetPhysicalDeviceQueueFamilyProperties(VkPhysicalDevice,uint32_t * count,VkQueueFamilyProperties * properties)552 void GetPhysicalDeviceQueueFamilyProperties(
553     VkPhysicalDevice,
554     uint32_t* count,
555     VkQueueFamilyProperties* properties) {
556     if (!properties || *count > 1)
557         *count = 1;
558     if (properties && *count == 1) {
559         properties->queueFlags = VK_QUEUE_GRAPHICS_BIT | VK_QUEUE_COMPUTE_BIT |
560                                  VK_QUEUE_TRANSFER_BIT;
561         properties->queueCount = 1;
562         properties->timestampValidBits = 64;
563         properties->minImageTransferGranularity = VkExtent3D{1, 1, 1};
564     }
565 }
566 
GetPhysicalDeviceQueueFamilyProperties2KHR(VkPhysicalDevice physical_device,uint32_t * count,VkQueueFamilyProperties2KHR * properties)567 void GetPhysicalDeviceQueueFamilyProperties2KHR(VkPhysicalDevice physical_device, uint32_t* count, VkQueueFamilyProperties2KHR* properties) {
568     // note: even though multiple structures, this is safe to forward in this
569     // case since we only expose one queue family.
570     GetPhysicalDeviceQueueFamilyProperties(physical_device, count, properties ? &properties->queueFamilyProperties : nullptr);
571 }
572 
GetPhysicalDeviceMemoryProperties(VkPhysicalDevice,VkPhysicalDeviceMemoryProperties * properties)573 void GetPhysicalDeviceMemoryProperties(
574     VkPhysicalDevice,
575     VkPhysicalDeviceMemoryProperties* properties) {
576     properties->memoryTypeCount = 1;
577     properties->memoryTypes[0].propertyFlags =
578         VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT |
579         VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT |
580         VK_MEMORY_PROPERTY_HOST_COHERENT_BIT |
581         VK_MEMORY_PROPERTY_HOST_CACHED_BIT;
582     properties->memoryTypes[0].heapIndex = 0;
583     properties->memoryHeapCount = 1;
584     properties->memoryHeaps[0].size = kMaxDeviceMemory;
585     properties->memoryHeaps[0].flags = VK_MEMORY_HEAP_DEVICE_LOCAL_BIT;
586 }
587 
GetPhysicalDeviceMemoryProperties2KHR(VkPhysicalDevice physical_device,VkPhysicalDeviceMemoryProperties2KHR * properties)588 void GetPhysicalDeviceMemoryProperties2KHR(VkPhysicalDevice physical_device, VkPhysicalDeviceMemoryProperties2KHR* properties) {
589     GetPhysicalDeviceMemoryProperties(physical_device, &properties->memoryProperties);
590 }
591 
GetPhysicalDeviceFeatures(VkPhysicalDevice,VkPhysicalDeviceFeatures * features)592 void GetPhysicalDeviceFeatures(VkPhysicalDevice /*gpu*/,
593                                VkPhysicalDeviceFeatures* features) {
594     *features = VkPhysicalDeviceFeatures{
595         VK_TRUE,   // robustBufferAccess
596         VK_FALSE,  // fullDrawIndexUint32
597         VK_FALSE,  // imageCubeArray
598         VK_FALSE,  // independentBlend
599         VK_FALSE,  // geometryShader
600         VK_FALSE,  // tessellationShader
601         VK_FALSE,  // sampleRateShading
602         VK_FALSE,  // dualSrcBlend
603         VK_FALSE,  // logicOp
604         VK_FALSE,  // multiDrawIndirect
605         VK_FALSE,  // drawIndirectFirstInstance
606         VK_FALSE,  // depthClamp
607         VK_FALSE,  // depthBiasClamp
608         VK_FALSE,  // fillModeNonSolid
609         VK_FALSE,  // depthBounds
610         VK_FALSE,  // wideLines
611         VK_FALSE,  // largePoints
612         VK_FALSE,  // alphaToOne
613         VK_FALSE,  // multiViewport
614         VK_FALSE,  // samplerAnisotropy
615         VK_FALSE,  // textureCompressionETC2
616         VK_FALSE,  // textureCompressionASTC_LDR
617         VK_FALSE,  // textureCompressionBC
618         VK_FALSE,  // occlusionQueryPrecise
619         VK_FALSE,  // pipelineStatisticsQuery
620         VK_FALSE,  // vertexPipelineStoresAndAtomics
621         VK_FALSE,  // fragmentStoresAndAtomics
622         VK_FALSE,  // shaderTessellationAndGeometryPointSize
623         VK_FALSE,  // shaderImageGatherExtended
624         VK_FALSE,  // shaderStorageImageExtendedFormats
625         VK_FALSE,  // shaderStorageImageMultisample
626         VK_FALSE,  // shaderStorageImageReadWithoutFormat
627         VK_FALSE,  // shaderStorageImageWriteWithoutFormat
628         VK_FALSE,  // shaderUniformBufferArrayDynamicIndexing
629         VK_FALSE,  // shaderSampledImageArrayDynamicIndexing
630         VK_FALSE,  // shaderStorageBufferArrayDynamicIndexing
631         VK_FALSE,  // shaderStorageImageArrayDynamicIndexing
632         VK_FALSE,  // shaderClipDistance
633         VK_FALSE,  // shaderCullDistance
634         VK_FALSE,  // shaderFloat64
635         VK_FALSE,  // shaderInt64
636         VK_FALSE,  // shaderInt16
637         VK_FALSE,  // shaderResourceResidency
638         VK_FALSE,  // shaderResourceMinLod
639         VK_FALSE,  // sparseBinding
640         VK_FALSE,  // sparseResidencyBuffer
641         VK_FALSE,  // sparseResidencyImage2D
642         VK_FALSE,  // sparseResidencyImage3D
643         VK_FALSE,  // sparseResidency2Samples
644         VK_FALSE,  // sparseResidency4Samples
645         VK_FALSE,  // sparseResidency8Samples
646         VK_FALSE,  // sparseResidency16Samples
647         VK_FALSE,  // sparseResidencyAliased
648         VK_FALSE,  // variableMultisampleRate
649         VK_FALSE,  // inheritedQueries
650     };
651 }
652 
GetPhysicalDeviceFeatures2KHR(VkPhysicalDevice physical_device,VkPhysicalDeviceFeatures2KHR * features)653 void GetPhysicalDeviceFeatures2KHR(VkPhysicalDevice physical_device, VkPhysicalDeviceFeatures2KHR* features) {
654     GetPhysicalDeviceFeatures(physical_device, &features->features);
655 }
656 
657 // -----------------------------------------------------------------------------
658 // Device
659 
CreateDevice(VkPhysicalDevice physical_device,const VkDeviceCreateInfo * create_info,const VkAllocationCallbacks * allocator,VkDevice * out_device)660 VkResult CreateDevice(VkPhysicalDevice physical_device,
661                       const VkDeviceCreateInfo* create_info,
662                       const VkAllocationCallbacks* allocator,
663                       VkDevice* out_device) {
664     VkInstance_T* instance = GetInstanceFromPhysicalDevice(physical_device);
665     if (!allocator)
666         allocator = &instance->allocator;
667     VkDevice_T* device = static_cast<VkDevice_T*>(allocator->pfnAllocation(
668         allocator->pUserData, sizeof(VkDevice_T), alignof(VkDevice_T),
669         VK_SYSTEM_ALLOCATION_SCOPE_DEVICE));
670     if (!device)
671         return VK_ERROR_OUT_OF_HOST_MEMORY;
672 
673     device->dispatch.magic = HWVULKAN_DISPATCH_MAGIC;
674     device->allocator = *allocator;
675     device->instance = instance;
676     device->queue.dispatch.magic = HWVULKAN_DISPATCH_MAGIC;
677     std::fill(device->next_handle.begin(), device->next_handle.end(),
678               UINT64_C(0));
679 
680     for (uint32_t i = 0; i < create_info->enabledExtensionCount; i++) {
681         if (strcmp(create_info->ppEnabledExtensionNames[i],
682                    VK_ANDROID_NATIVE_BUFFER_EXTENSION_NAME) == 0) {
683             ALOGV("Enabling " VK_ANDROID_NATIVE_BUFFER_EXTENSION_NAME);
684         }
685     }
686 
687     *out_device = device;
688     return VK_SUCCESS;
689 }
690 
DestroyDevice(VkDevice device,const VkAllocationCallbacks *)691 void DestroyDevice(VkDevice device,
692                    const VkAllocationCallbacks* /*allocator*/) {
693     if (!device)
694         return;
695     device->allocator.pfnFree(device->allocator.pUserData, device);
696 }
697 
GetDeviceQueue(VkDevice device,uint32_t,uint32_t,VkQueue * queue)698 void GetDeviceQueue(VkDevice device, uint32_t, uint32_t, VkQueue* queue) {
699     *queue = &device->queue;
700 }
701 
702 // -----------------------------------------------------------------------------
703 // CommandPool
704 
705 struct CommandPool {
706     typedef VkCommandPool HandleType;
707     VkAllocationCallbacks allocator;
708 };
DEFINE_OBJECT_HANDLE_CONVERSION(CommandPool)709 DEFINE_OBJECT_HANDLE_CONVERSION(CommandPool)
710 
711 VkResult CreateCommandPool(VkDevice device,
712                            const VkCommandPoolCreateInfo* /*create_info*/,
713                            const VkAllocationCallbacks* allocator,
714                            VkCommandPool* cmd_pool) {
715     if (!allocator)
716         allocator = &device->allocator;
717     CommandPool* pool = static_cast<CommandPool*>(allocator->pfnAllocation(
718         allocator->pUserData, sizeof(CommandPool), alignof(CommandPool),
719         VK_SYSTEM_ALLOCATION_SCOPE_OBJECT));
720     if (!pool)
721         return VK_ERROR_OUT_OF_HOST_MEMORY;
722     pool->allocator = *allocator;
723     *cmd_pool = GetHandleToCommandPool(pool);
724     return VK_SUCCESS;
725 }
726 
DestroyCommandPool(VkDevice,VkCommandPool cmd_pool,const VkAllocationCallbacks *)727 void DestroyCommandPool(VkDevice /*device*/,
728                         VkCommandPool cmd_pool,
729                         const VkAllocationCallbacks* /*allocator*/) {
730     CommandPool* pool = GetCommandPoolFromHandle(cmd_pool);
731     pool->allocator.pfnFree(pool->allocator.pUserData, pool);
732 }
733 
734 // -----------------------------------------------------------------------------
735 // CmdBuffer
736 
AllocateCommandBuffers(VkDevice,const VkCommandBufferAllocateInfo * alloc_info,VkCommandBuffer * cmdbufs)737 VkResult AllocateCommandBuffers(VkDevice /*device*/,
738                                 const VkCommandBufferAllocateInfo* alloc_info,
739                                 VkCommandBuffer* cmdbufs) {
740     VkResult result = VK_SUCCESS;
741     CommandPool& pool = *GetCommandPoolFromHandle(alloc_info->commandPool);
742     std::fill(cmdbufs, cmdbufs + alloc_info->commandBufferCount, nullptr);
743     for (uint32_t i = 0; i < alloc_info->commandBufferCount; i++) {
744         cmdbufs[i] =
745             static_cast<VkCommandBuffer_T*>(pool.allocator.pfnAllocation(
746                 pool.allocator.pUserData, sizeof(VkCommandBuffer_T),
747                 alignof(VkCommandBuffer_T), VK_SYSTEM_ALLOCATION_SCOPE_OBJECT));
748         if (!cmdbufs[i]) {
749             result = VK_ERROR_OUT_OF_HOST_MEMORY;
750             break;
751         }
752         cmdbufs[i]->dispatch.magic = HWVULKAN_DISPATCH_MAGIC;
753     }
754     if (result != VK_SUCCESS) {
755         for (uint32_t i = 0; i < alloc_info->commandBufferCount; i++) {
756             if (!cmdbufs[i])
757                 break;
758             pool.allocator.pfnFree(pool.allocator.pUserData, cmdbufs[i]);
759         }
760     }
761     return result;
762 }
763 
FreeCommandBuffers(VkDevice,VkCommandPool cmd_pool,uint32_t count,const VkCommandBuffer * cmdbufs)764 void FreeCommandBuffers(VkDevice /*device*/,
765                         VkCommandPool cmd_pool,
766                         uint32_t count,
767                         const VkCommandBuffer* cmdbufs) {
768     CommandPool& pool = *GetCommandPoolFromHandle(cmd_pool);
769     for (uint32_t i = 0; i < count; i++)
770         pool.allocator.pfnFree(pool.allocator.pUserData, cmdbufs[i]);
771 }
772 
773 // -----------------------------------------------------------------------------
774 // DeviceMemory
775 
776 struct DeviceMemory {
777     typedef VkDeviceMemory HandleType;
778     VkDeviceSize size;
779     alignas(16) uint8_t data[0];
780 };
DEFINE_OBJECT_HANDLE_CONVERSION(DeviceMemory)781 DEFINE_OBJECT_HANDLE_CONVERSION(DeviceMemory)
782 
783 VkResult AllocateMemory(VkDevice device,
784                         const VkMemoryAllocateInfo* alloc_info,
785                         const VkAllocationCallbacks* allocator,
786                         VkDeviceMemory* mem_handle) {
787     if (SIZE_MAX - sizeof(DeviceMemory) <= alloc_info->allocationSize)
788         return VK_ERROR_OUT_OF_HOST_MEMORY;
789     if (!allocator)
790         allocator = &device->allocator;
791 
792     size_t size = sizeof(DeviceMemory) + size_t(alloc_info->allocationSize);
793     DeviceMemory* mem = static_cast<DeviceMemory*>(allocator->pfnAllocation(
794         allocator->pUserData, size, alignof(DeviceMemory),
795         VK_SYSTEM_ALLOCATION_SCOPE_OBJECT));
796     if (!mem)
797         return VK_ERROR_OUT_OF_HOST_MEMORY;
798     mem->size = size;
799     *mem_handle = GetHandleToDeviceMemory(mem);
800     return VK_SUCCESS;
801 }
802 
FreeMemory(VkDevice device,VkDeviceMemory mem_handle,const VkAllocationCallbacks * allocator)803 void FreeMemory(VkDevice device,
804                 VkDeviceMemory mem_handle,
805                 const VkAllocationCallbacks* allocator) {
806     if (!allocator)
807         allocator = &device->allocator;
808     DeviceMemory* mem = GetDeviceMemoryFromHandle(mem_handle);
809     allocator->pfnFree(allocator->pUserData, mem);
810 }
811 
MapMemory(VkDevice,VkDeviceMemory mem_handle,VkDeviceSize offset,VkDeviceSize,VkMemoryMapFlags,void ** out_ptr)812 VkResult MapMemory(VkDevice,
813                    VkDeviceMemory mem_handle,
814                    VkDeviceSize offset,
815                    VkDeviceSize,
816                    VkMemoryMapFlags,
817                    void** out_ptr) {
818     DeviceMemory* mem = GetDeviceMemoryFromHandle(mem_handle);
819     *out_ptr = &mem->data[0] + offset;
820     return VK_SUCCESS;
821 }
822 
823 // -----------------------------------------------------------------------------
824 // Buffer
825 
826 struct Buffer {
827     typedef VkBuffer HandleType;
828     VkDeviceSize size;
829 };
DEFINE_OBJECT_HANDLE_CONVERSION(Buffer)830 DEFINE_OBJECT_HANDLE_CONVERSION(Buffer)
831 
832 VkResult CreateBuffer(VkDevice device,
833                       const VkBufferCreateInfo* create_info,
834                       const VkAllocationCallbacks* allocator,
835                       VkBuffer* buffer_handle) {
836     ALOGW_IF(create_info->size > kMaxDeviceMemory,
837              "CreateBuffer: requested size 0x%" PRIx64
838              " exceeds max device memory size 0x%" PRIx64,
839              create_info->size, kMaxDeviceMemory);
840     if (!allocator)
841         allocator = &device->allocator;
842     Buffer* buffer = static_cast<Buffer*>(allocator->pfnAllocation(
843         allocator->pUserData, sizeof(Buffer), alignof(Buffer),
844         VK_SYSTEM_ALLOCATION_SCOPE_OBJECT));
845     if (!buffer)
846         return VK_ERROR_OUT_OF_HOST_MEMORY;
847     buffer->size = create_info->size;
848     *buffer_handle = GetHandleToBuffer(buffer);
849     return VK_SUCCESS;
850 }
851 
GetBufferMemoryRequirements(VkDevice,VkBuffer buffer_handle,VkMemoryRequirements * requirements)852 void GetBufferMemoryRequirements(VkDevice,
853                                  VkBuffer buffer_handle,
854                                  VkMemoryRequirements* requirements) {
855     Buffer* buffer = GetBufferFromHandle(buffer_handle);
856     requirements->size = buffer->size;
857     requirements->alignment = 16;  // allow fast Neon/SSE memcpy
858     requirements->memoryTypeBits = 0x1;
859 }
860 
DestroyBuffer(VkDevice device,VkBuffer buffer_handle,const VkAllocationCallbacks * allocator)861 void DestroyBuffer(VkDevice device,
862                    VkBuffer buffer_handle,
863                    const VkAllocationCallbacks* allocator) {
864     if (!allocator)
865         allocator = &device->allocator;
866     Buffer* buffer = GetBufferFromHandle(buffer_handle);
867     allocator->pfnFree(allocator->pUserData, buffer);
868 }
869 
870 // -----------------------------------------------------------------------------
871 // Image
872 
873 struct Image {
874     typedef VkImage HandleType;
875     VkDeviceSize size;
876 };
DEFINE_OBJECT_HANDLE_CONVERSION(Image)877 DEFINE_OBJECT_HANDLE_CONVERSION(Image)
878 
879 VkResult CreateImage(VkDevice device,
880                      const VkImageCreateInfo* create_info,
881                      const VkAllocationCallbacks* allocator,
882                      VkImage* image_handle) {
883     if (create_info->imageType != VK_IMAGE_TYPE_2D ||
884         create_info->format != VK_FORMAT_R8G8B8A8_UNORM ||
885         create_info->mipLevels != 1) {
886         ALOGE("CreateImage: not yet implemented: type=%d format=%d mips=%u",
887               create_info->imageType, create_info->format,
888               create_info->mipLevels);
889         return VK_ERROR_OUT_OF_HOST_MEMORY;
890     }
891 
892     VkDeviceSize size =
893         VkDeviceSize(create_info->extent.width * create_info->extent.height) *
894         create_info->arrayLayers * create_info->samples * 4u;
895     ALOGW_IF(size > kMaxDeviceMemory,
896              "CreateImage: image size 0x%" PRIx64
897              " exceeds max device memory size 0x%" PRIx64,
898              size, kMaxDeviceMemory);
899 
900     if (!allocator)
901         allocator = &device->allocator;
902     Image* image = static_cast<Image*>(allocator->pfnAllocation(
903         allocator->pUserData, sizeof(Image), alignof(Image),
904         VK_SYSTEM_ALLOCATION_SCOPE_OBJECT));
905     if (!image)
906         return VK_ERROR_OUT_OF_HOST_MEMORY;
907     image->size = size;
908     *image_handle = GetHandleToImage(image);
909     return VK_SUCCESS;
910 }
911 
GetImageMemoryRequirements(VkDevice,VkImage image_handle,VkMemoryRequirements * requirements)912 void GetImageMemoryRequirements(VkDevice,
913                                 VkImage image_handle,
914                                 VkMemoryRequirements* requirements) {
915     Image* image = GetImageFromHandle(image_handle);
916     requirements->size = image->size;
917     requirements->alignment = 16;  // allow fast Neon/SSE memcpy
918     requirements->memoryTypeBits = 0x1;
919 }
920 
DestroyImage(VkDevice device,VkImage image_handle,const VkAllocationCallbacks * allocator)921 void DestroyImage(VkDevice device,
922                   VkImage image_handle,
923                   const VkAllocationCallbacks* allocator) {
924     if (!allocator)
925         allocator = &device->allocator;
926     Image* image = GetImageFromHandle(image_handle);
927     allocator->pfnFree(allocator->pUserData, image);
928 }
929 
GetSwapchainGrallocUsageANDROID(VkDevice,VkFormat,VkImageUsageFlags,int * grallocUsage)930 VkResult GetSwapchainGrallocUsageANDROID(VkDevice,
931                                          VkFormat,
932                                          VkImageUsageFlags,
933                                          int* grallocUsage) {
934     // The null driver never reads or writes the gralloc buffer
935     *grallocUsage = 0;
936     return VK_SUCCESS;
937 }
938 
GetSwapchainGrallocUsage2ANDROID(VkDevice,VkFormat,VkImageUsageFlags,VkSwapchainImageUsageFlagsANDROID,uint64_t * grallocConsumerUsage,uint64_t * grallocProducerUsage)939 VkResult GetSwapchainGrallocUsage2ANDROID(VkDevice,
940                                           VkFormat,
941                                           VkImageUsageFlags,
942                                           VkSwapchainImageUsageFlagsANDROID,
943                                           uint64_t* grallocConsumerUsage,
944                                           uint64_t* grallocProducerUsage) {
945     // The null driver never reads or writes the gralloc buffer
946     *grallocConsumerUsage = 0;
947     *grallocProducerUsage = 0;
948     return VK_SUCCESS;
949 }
950 
AcquireImageANDROID(VkDevice,VkImage,int fence,VkSemaphore,VkFence)951 VkResult AcquireImageANDROID(VkDevice,
952                              VkImage,
953                              int fence,
954                              VkSemaphore,
955                              VkFence) {
956     close(fence);
957     return VK_SUCCESS;
958 }
959 
QueueSignalReleaseImageANDROID(VkQueue,uint32_t,const VkSemaphore *,VkImage,int * fence)960 VkResult QueueSignalReleaseImageANDROID(VkQueue,
961                                         uint32_t,
962                                         const VkSemaphore*,
963                                         VkImage,
964                                         int* fence) {
965     *fence = -1;
966     return VK_SUCCESS;
967 }
968 
969 // -----------------------------------------------------------------------------
970 // No-op types
971 
CreateBufferView(VkDevice device,const VkBufferViewCreateInfo *,const VkAllocationCallbacks *,VkBufferView * view)972 VkResult CreateBufferView(VkDevice device,
973                           const VkBufferViewCreateInfo*,
974                           const VkAllocationCallbacks* /*allocator*/,
975                           VkBufferView* view) {
976     *view = AllocHandle<VkBufferView>(device, HandleType::kBufferView);
977     return VK_SUCCESS;
978 }
979 
CreateDescriptorPool(VkDevice device,const VkDescriptorPoolCreateInfo *,const VkAllocationCallbacks *,VkDescriptorPool * pool)980 VkResult CreateDescriptorPool(VkDevice device,
981                               const VkDescriptorPoolCreateInfo*,
982                               const VkAllocationCallbacks* /*allocator*/,
983                               VkDescriptorPool* pool) {
984     *pool = AllocHandle<VkDescriptorPool>(device, HandleType::kDescriptorPool);
985     return VK_SUCCESS;
986 }
987 
AllocateDescriptorSets(VkDevice device,const VkDescriptorSetAllocateInfo * alloc_info,VkDescriptorSet * descriptor_sets)988 VkResult AllocateDescriptorSets(VkDevice device,
989                                 const VkDescriptorSetAllocateInfo* alloc_info,
990                                 VkDescriptorSet* descriptor_sets) {
991     for (uint32_t i = 0; i < alloc_info->descriptorSetCount; i++)
992         descriptor_sets[i] =
993             AllocHandle<VkDescriptorSet>(device, HandleType::kDescriptorSet);
994     return VK_SUCCESS;
995 }
996 
CreateDescriptorSetLayout(VkDevice device,const VkDescriptorSetLayoutCreateInfo *,const VkAllocationCallbacks *,VkDescriptorSetLayout * layout)997 VkResult CreateDescriptorSetLayout(VkDevice device,
998                                    const VkDescriptorSetLayoutCreateInfo*,
999                                    const VkAllocationCallbacks* /*allocator*/,
1000                                    VkDescriptorSetLayout* layout) {
1001     *layout = AllocHandle<VkDescriptorSetLayout>(
1002         device, HandleType::kDescriptorSetLayout);
1003     return VK_SUCCESS;
1004 }
1005 
CreateEvent(VkDevice device,const VkEventCreateInfo *,const VkAllocationCallbacks *,VkEvent * event)1006 VkResult CreateEvent(VkDevice device,
1007                      const VkEventCreateInfo*,
1008                      const VkAllocationCallbacks* /*allocator*/,
1009                      VkEvent* event) {
1010     *event = AllocHandle<VkEvent>(device, HandleType::kEvent);
1011     return VK_SUCCESS;
1012 }
1013 
CreateFence(VkDevice device,const VkFenceCreateInfo *,const VkAllocationCallbacks *,VkFence * fence)1014 VkResult CreateFence(VkDevice device,
1015                      const VkFenceCreateInfo*,
1016                      const VkAllocationCallbacks* /*allocator*/,
1017                      VkFence* fence) {
1018     *fence = AllocHandle<VkFence>(device, HandleType::kFence);
1019     return VK_SUCCESS;
1020 }
1021 
CreateFramebuffer(VkDevice device,const VkFramebufferCreateInfo *,const VkAllocationCallbacks *,VkFramebuffer * framebuffer)1022 VkResult CreateFramebuffer(VkDevice device,
1023                            const VkFramebufferCreateInfo*,
1024                            const VkAllocationCallbacks* /*allocator*/,
1025                            VkFramebuffer* framebuffer) {
1026     *framebuffer = AllocHandle<VkFramebuffer>(device, HandleType::kFramebuffer);
1027     return VK_SUCCESS;
1028 }
1029 
CreateImageView(VkDevice device,const VkImageViewCreateInfo *,const VkAllocationCallbacks *,VkImageView * view)1030 VkResult CreateImageView(VkDevice device,
1031                          const VkImageViewCreateInfo*,
1032                          const VkAllocationCallbacks* /*allocator*/,
1033                          VkImageView* view) {
1034     *view = AllocHandle<VkImageView>(device, HandleType::kImageView);
1035     return VK_SUCCESS;
1036 }
1037 
CreateGraphicsPipelines(VkDevice device,VkPipelineCache,uint32_t count,const VkGraphicsPipelineCreateInfo *,const VkAllocationCallbacks *,VkPipeline * pipelines)1038 VkResult CreateGraphicsPipelines(VkDevice device,
1039                                  VkPipelineCache,
1040                                  uint32_t count,
1041                                  const VkGraphicsPipelineCreateInfo*,
1042                                  const VkAllocationCallbacks* /*allocator*/,
1043                                  VkPipeline* pipelines) {
1044     for (uint32_t i = 0; i < count; i++)
1045         pipelines[i] = AllocHandle<VkPipeline>(device, HandleType::kPipeline);
1046     return VK_SUCCESS;
1047 }
1048 
CreateComputePipelines(VkDevice device,VkPipelineCache,uint32_t count,const VkComputePipelineCreateInfo *,const VkAllocationCallbacks *,VkPipeline * pipelines)1049 VkResult CreateComputePipelines(VkDevice device,
1050                                 VkPipelineCache,
1051                                 uint32_t count,
1052                                 const VkComputePipelineCreateInfo*,
1053                                 const VkAllocationCallbacks* /*allocator*/,
1054                                 VkPipeline* pipelines) {
1055     for (uint32_t i = 0; i < count; i++)
1056         pipelines[i] = AllocHandle<VkPipeline>(device, HandleType::kPipeline);
1057     return VK_SUCCESS;
1058 }
1059 
CreatePipelineCache(VkDevice device,const VkPipelineCacheCreateInfo *,const VkAllocationCallbacks *,VkPipelineCache * cache)1060 VkResult CreatePipelineCache(VkDevice device,
1061                              const VkPipelineCacheCreateInfo*,
1062                              const VkAllocationCallbacks* /*allocator*/,
1063                              VkPipelineCache* cache) {
1064     *cache = AllocHandle<VkPipelineCache>(device, HandleType::kPipelineCache);
1065     return VK_SUCCESS;
1066 }
1067 
CreatePipelineLayout(VkDevice device,const VkPipelineLayoutCreateInfo *,const VkAllocationCallbacks *,VkPipelineLayout * layout)1068 VkResult CreatePipelineLayout(VkDevice device,
1069                               const VkPipelineLayoutCreateInfo*,
1070                               const VkAllocationCallbacks* /*allocator*/,
1071                               VkPipelineLayout* layout) {
1072     *layout =
1073         AllocHandle<VkPipelineLayout>(device, HandleType::kPipelineLayout);
1074     return VK_SUCCESS;
1075 }
1076 
CreateQueryPool(VkDevice device,const VkQueryPoolCreateInfo *,const VkAllocationCallbacks *,VkQueryPool * pool)1077 VkResult CreateQueryPool(VkDevice device,
1078                          const VkQueryPoolCreateInfo*,
1079                          const VkAllocationCallbacks* /*allocator*/,
1080                          VkQueryPool* pool) {
1081     *pool = AllocHandle<VkQueryPool>(device, HandleType::kQueryPool);
1082     return VK_SUCCESS;
1083 }
1084 
CreateRenderPass(VkDevice device,const VkRenderPassCreateInfo *,const VkAllocationCallbacks *,VkRenderPass * renderpass)1085 VkResult CreateRenderPass(VkDevice device,
1086                           const VkRenderPassCreateInfo*,
1087                           const VkAllocationCallbacks* /*allocator*/,
1088                           VkRenderPass* renderpass) {
1089     *renderpass = AllocHandle<VkRenderPass>(device, HandleType::kRenderPass);
1090     return VK_SUCCESS;
1091 }
1092 
CreateSampler(VkDevice device,const VkSamplerCreateInfo *,const VkAllocationCallbacks *,VkSampler * sampler)1093 VkResult CreateSampler(VkDevice device,
1094                        const VkSamplerCreateInfo*,
1095                        const VkAllocationCallbacks* /*allocator*/,
1096                        VkSampler* sampler) {
1097     *sampler = AllocHandle<VkSampler>(device, HandleType::kSampler);
1098     return VK_SUCCESS;
1099 }
1100 
CreateSemaphore(VkDevice device,const VkSemaphoreCreateInfo *,const VkAllocationCallbacks *,VkSemaphore * semaphore)1101 VkResult CreateSemaphore(VkDevice device,
1102                          const VkSemaphoreCreateInfo*,
1103                          const VkAllocationCallbacks* /*allocator*/,
1104                          VkSemaphore* semaphore) {
1105     *semaphore = AllocHandle<VkSemaphore>(device, HandleType::kSemaphore);
1106     return VK_SUCCESS;
1107 }
1108 
CreateShaderModule(VkDevice device,const VkShaderModuleCreateInfo *,const VkAllocationCallbacks *,VkShaderModule * module)1109 VkResult CreateShaderModule(VkDevice device,
1110                             const VkShaderModuleCreateInfo*,
1111                             const VkAllocationCallbacks* /*allocator*/,
1112                             VkShaderModule* module) {
1113     *module = AllocHandle<VkShaderModule>(device, HandleType::kShaderModule);
1114     return VK_SUCCESS;
1115 }
1116 
CreateDebugReportCallbackEXT(VkInstance instance,const VkDebugReportCallbackCreateInfoEXT *,const VkAllocationCallbacks *,VkDebugReportCallbackEXT * callback)1117 VkResult CreateDebugReportCallbackEXT(VkInstance instance,
1118                                       const VkDebugReportCallbackCreateInfoEXT*,
1119                                       const VkAllocationCallbacks*,
1120                                       VkDebugReportCallbackEXT* callback) {
1121     *callback = AllocHandle<VkDebugReportCallbackEXT>(
1122         instance, HandleType::kDebugReportCallbackEXT);
1123     return VK_SUCCESS;
1124 }
1125 
1126 // -----------------------------------------------------------------------------
1127 // No-op entrypoints
1128 
1129 // clang-format off
1130 #pragma clang diagnostic push
1131 #pragma clang diagnostic ignored "-Wunused-parameter"
1132 
GetPhysicalDeviceFormatProperties(VkPhysicalDevice physicalDevice,VkFormat format,VkFormatProperties * pFormatProperties)1133 void GetPhysicalDeviceFormatProperties(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties* pFormatProperties) {
1134     ALOGV("TODO: vk%s", __FUNCTION__);
1135 }
1136 
GetPhysicalDeviceFormatProperties2KHR(VkPhysicalDevice physicalDevice,VkFormat format,VkFormatProperties2KHR * pFormatProperties)1137 void GetPhysicalDeviceFormatProperties2KHR(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2KHR* pFormatProperties) {
1138     ALOGV("TODO: vk%s", __FUNCTION__);
1139 }
1140 
GetPhysicalDeviceImageFormatProperties(VkPhysicalDevice physicalDevice,VkFormat format,VkImageType type,VkImageTiling tiling,VkImageUsageFlags usage,VkImageCreateFlags flags,VkImageFormatProperties * pImageFormatProperties)1141 VkResult GetPhysicalDeviceImageFormatProperties(VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkImageTiling tiling, VkImageUsageFlags usage, VkImageCreateFlags flags, VkImageFormatProperties* pImageFormatProperties) {
1142     ALOGV("TODO: vk%s", __FUNCTION__);
1143     return VK_SUCCESS;
1144 }
1145 
GetPhysicalDeviceImageFormatProperties2KHR(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceImageFormatInfo2KHR * pImageFormatInfo,VkImageFormatProperties2KHR * pImageFormatProperties)1146 VkResult GetPhysicalDeviceImageFormatProperties2KHR(VkPhysicalDevice physicalDevice,
1147                                                     const VkPhysicalDeviceImageFormatInfo2KHR* pImageFormatInfo,
1148                                                     VkImageFormatProperties2KHR* pImageFormatProperties) {
1149     ALOGV("TODO: vk%s", __FUNCTION__);
1150     return VK_SUCCESS;
1151 }
1152 
EnumerateInstanceLayerProperties(uint32_t * pCount,VkLayerProperties * pProperties)1153 VkResult EnumerateInstanceLayerProperties(uint32_t* pCount, VkLayerProperties* pProperties) {
1154     ALOGV("TODO: vk%s", __FUNCTION__);
1155     return VK_SUCCESS;
1156 }
1157 
QueueSubmit(VkQueue queue,uint32_t submitCount,const VkSubmitInfo * pSubmitInfo,VkFence fence)1158 VkResult QueueSubmit(VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmitInfo, VkFence fence) {
1159     return VK_SUCCESS;
1160 }
1161 
QueueWaitIdle(VkQueue queue)1162 VkResult QueueWaitIdle(VkQueue queue) {
1163     ALOGV("TODO: vk%s", __FUNCTION__);
1164     return VK_SUCCESS;
1165 }
1166 
DeviceWaitIdle(VkDevice device)1167 VkResult DeviceWaitIdle(VkDevice device) {
1168     ALOGV("TODO: vk%s", __FUNCTION__);
1169     return VK_SUCCESS;
1170 }
1171 
UnmapMemory(VkDevice device,VkDeviceMemory mem)1172 void UnmapMemory(VkDevice device, VkDeviceMemory mem) {
1173 }
1174 
FlushMappedMemoryRanges(VkDevice device,uint32_t memRangeCount,const VkMappedMemoryRange * pMemRanges)1175 VkResult FlushMappedMemoryRanges(VkDevice device, uint32_t memRangeCount, const VkMappedMemoryRange* pMemRanges) {
1176     ALOGV("TODO: vk%s", __FUNCTION__);
1177     return VK_SUCCESS;
1178 }
1179 
InvalidateMappedMemoryRanges(VkDevice device,uint32_t memRangeCount,const VkMappedMemoryRange * pMemRanges)1180 VkResult InvalidateMappedMemoryRanges(VkDevice device, uint32_t memRangeCount, const VkMappedMemoryRange* pMemRanges) {
1181     ALOGV("TODO: vk%s", __FUNCTION__);
1182     return VK_SUCCESS;
1183 }
1184 
GetDeviceMemoryCommitment(VkDevice device,VkDeviceMemory memory,VkDeviceSize * pCommittedMemoryInBytes)1185 void GetDeviceMemoryCommitment(VkDevice device, VkDeviceMemory memory, VkDeviceSize* pCommittedMemoryInBytes) {
1186     ALOGV("TODO: vk%s", __FUNCTION__);
1187 }
1188 
BindBufferMemory(VkDevice device,VkBuffer buffer,VkDeviceMemory mem,VkDeviceSize memOffset)1189 VkResult BindBufferMemory(VkDevice device, VkBuffer buffer, VkDeviceMemory mem, VkDeviceSize memOffset) {
1190     return VK_SUCCESS;
1191 }
1192 
BindImageMemory(VkDevice device,VkImage image,VkDeviceMemory mem,VkDeviceSize memOffset)1193 VkResult BindImageMemory(VkDevice device, VkImage image, VkDeviceMemory mem, VkDeviceSize memOffset) {
1194     return VK_SUCCESS;
1195 }
1196 
GetImageSparseMemoryRequirements(VkDevice device,VkImage image,uint32_t * pNumRequirements,VkSparseImageMemoryRequirements * pSparseMemoryRequirements)1197 void GetImageSparseMemoryRequirements(VkDevice device, VkImage image, uint32_t* pNumRequirements, VkSparseImageMemoryRequirements* pSparseMemoryRequirements) {
1198     ALOGV("TODO: vk%s", __FUNCTION__);
1199 }
1200 
GetPhysicalDeviceSparseImageFormatProperties(VkPhysicalDevice physicalDevice,VkFormat format,VkImageType type,VkSampleCountFlagBits samples,VkImageUsageFlags usage,VkImageTiling tiling,uint32_t * pNumProperties,VkSparseImageFormatProperties * pProperties)1201 void GetPhysicalDeviceSparseImageFormatProperties(VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkSampleCountFlagBits samples, VkImageUsageFlags usage, VkImageTiling tiling, uint32_t* pNumProperties, VkSparseImageFormatProperties* pProperties) {
1202     ALOGV("TODO: vk%s", __FUNCTION__);
1203 }
1204 
GetPhysicalDeviceSparseImageFormatProperties2KHR(VkPhysicalDevice physicalDevice,VkPhysicalDeviceSparseImageFormatInfo2KHR const * pInfo,unsigned int * pNumProperties,VkSparseImageFormatProperties2KHR * pProperties)1205 void GetPhysicalDeviceSparseImageFormatProperties2KHR(VkPhysicalDevice physicalDevice,
1206                                                       VkPhysicalDeviceSparseImageFormatInfo2KHR const* pInfo,
1207                                                       unsigned int* pNumProperties,
1208                                                       VkSparseImageFormatProperties2KHR* pProperties) {
1209     ALOGV("TODO: vk%s", __FUNCTION__);
1210 }
1211 
1212 
QueueBindSparse(VkQueue queue,uint32_t bindInfoCount,const VkBindSparseInfo * pBindInfo,VkFence fence)1213 VkResult QueueBindSparse(VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) {
1214     ALOGV("TODO: vk%s", __FUNCTION__);
1215     return VK_SUCCESS;
1216 }
1217 
DestroyFence(VkDevice device,VkFence fence,const VkAllocationCallbacks * allocator)1218 void DestroyFence(VkDevice device, VkFence fence, const VkAllocationCallbacks* allocator) {
1219 }
1220 
ResetFences(VkDevice device,uint32_t fenceCount,const VkFence * pFences)1221 VkResult ResetFences(VkDevice device, uint32_t fenceCount, const VkFence* pFences) {
1222     return VK_SUCCESS;
1223 }
1224 
GetFenceStatus(VkDevice device,VkFence fence)1225 VkResult GetFenceStatus(VkDevice device, VkFence fence) {
1226     ALOGV("TODO: vk%s", __FUNCTION__);
1227     return VK_SUCCESS;
1228 }
1229 
WaitForFences(VkDevice device,uint32_t fenceCount,const VkFence * pFences,VkBool32 waitAll,uint64_t timeout)1230 VkResult WaitForFences(VkDevice device, uint32_t fenceCount, const VkFence* pFences, VkBool32 waitAll, uint64_t timeout) {
1231     return VK_SUCCESS;
1232 }
1233 
DestroySemaphore(VkDevice device,VkSemaphore semaphore,const VkAllocationCallbacks * allocator)1234 void DestroySemaphore(VkDevice device, VkSemaphore semaphore, const VkAllocationCallbacks* allocator) {
1235 }
1236 
DestroyEvent(VkDevice device,VkEvent event,const VkAllocationCallbacks * allocator)1237 void DestroyEvent(VkDevice device, VkEvent event, const VkAllocationCallbacks* allocator) {
1238 }
1239 
GetEventStatus(VkDevice device,VkEvent event)1240 VkResult GetEventStatus(VkDevice device, VkEvent event) {
1241     ALOGV("TODO: vk%s", __FUNCTION__);
1242     return VK_SUCCESS;
1243 }
1244 
SetEvent(VkDevice device,VkEvent event)1245 VkResult SetEvent(VkDevice device, VkEvent event) {
1246     ALOGV("TODO: vk%s", __FUNCTION__);
1247     return VK_SUCCESS;
1248 }
1249 
ResetEvent(VkDevice device,VkEvent event)1250 VkResult ResetEvent(VkDevice device, VkEvent event) {
1251     ALOGV("TODO: vk%s", __FUNCTION__);
1252     return VK_SUCCESS;
1253 }
1254 
DestroyQueryPool(VkDevice device,VkQueryPool queryPool,const VkAllocationCallbacks * allocator)1255 void DestroyQueryPool(VkDevice device, VkQueryPool queryPool, const VkAllocationCallbacks* allocator) {
1256 }
1257 
GetQueryPoolResults(VkDevice device,VkQueryPool queryPool,uint32_t startQuery,uint32_t queryCount,size_t dataSize,void * pData,VkDeviceSize stride,VkQueryResultFlags flags)1258 VkResult GetQueryPoolResults(VkDevice device, VkQueryPool queryPool, uint32_t startQuery, uint32_t queryCount, size_t dataSize, void* pData, VkDeviceSize stride, VkQueryResultFlags flags) {
1259     ALOGV("TODO: vk%s", __FUNCTION__);
1260     return VK_SUCCESS;
1261 }
1262 
DestroyBufferView(VkDevice device,VkBufferView bufferView,const VkAllocationCallbacks * allocator)1263 void DestroyBufferView(VkDevice device, VkBufferView bufferView, const VkAllocationCallbacks* allocator) {
1264 }
1265 
GetImageSubresourceLayout(VkDevice device,VkImage image,const VkImageSubresource * pSubresource,VkSubresourceLayout * pLayout)1266 void GetImageSubresourceLayout(VkDevice device, VkImage image, const VkImageSubresource* pSubresource, VkSubresourceLayout* pLayout) {
1267     ALOGV("TODO: vk%s", __FUNCTION__);
1268 }
1269 
DestroyImageView(VkDevice device,VkImageView imageView,const VkAllocationCallbacks * allocator)1270 void DestroyImageView(VkDevice device, VkImageView imageView, const VkAllocationCallbacks* allocator) {
1271 }
1272 
DestroyShaderModule(VkDevice device,VkShaderModule shaderModule,const VkAllocationCallbacks * allocator)1273 void DestroyShaderModule(VkDevice device, VkShaderModule shaderModule, const VkAllocationCallbacks* allocator) {
1274 }
1275 
DestroyPipelineCache(VkDevice device,VkPipelineCache pipelineCache,const VkAllocationCallbacks * allocator)1276 void DestroyPipelineCache(VkDevice device, VkPipelineCache pipelineCache, const VkAllocationCallbacks* allocator) {
1277 }
1278 
GetPipelineCacheData(VkDevice device,VkPipelineCache pipelineCache,size_t * pDataSize,void * pData)1279 VkResult GetPipelineCacheData(VkDevice device, VkPipelineCache pipelineCache, size_t* pDataSize, void* pData) {
1280     ALOGV("TODO: vk%s", __FUNCTION__);
1281     return VK_SUCCESS;
1282 }
1283 
MergePipelineCaches(VkDevice device,VkPipelineCache destCache,uint32_t srcCacheCount,const VkPipelineCache * pSrcCaches)1284 VkResult MergePipelineCaches(VkDevice device, VkPipelineCache destCache, uint32_t srcCacheCount, const VkPipelineCache* pSrcCaches) {
1285     ALOGV("TODO: vk%s", __FUNCTION__);
1286     return VK_SUCCESS;
1287 }
1288 
DestroyPipeline(VkDevice device,VkPipeline pipeline,const VkAllocationCallbacks * allocator)1289 void DestroyPipeline(VkDevice device, VkPipeline pipeline, const VkAllocationCallbacks* allocator) {
1290 }
1291 
DestroyPipelineLayout(VkDevice device,VkPipelineLayout pipelineLayout,const VkAllocationCallbacks * allocator)1292 void DestroyPipelineLayout(VkDevice device, VkPipelineLayout pipelineLayout, const VkAllocationCallbacks* allocator) {
1293 }
1294 
DestroySampler(VkDevice device,VkSampler sampler,const VkAllocationCallbacks * allocator)1295 void DestroySampler(VkDevice device, VkSampler sampler, const VkAllocationCallbacks* allocator) {
1296 }
1297 
DestroyDescriptorSetLayout(VkDevice device,VkDescriptorSetLayout descriptorSetLayout,const VkAllocationCallbacks * allocator)1298 void DestroyDescriptorSetLayout(VkDevice device, VkDescriptorSetLayout descriptorSetLayout, const VkAllocationCallbacks* allocator) {
1299 }
1300 
DestroyDescriptorPool(VkDevice device,VkDescriptorPool descriptorPool,const VkAllocationCallbacks * allocator)1301 void DestroyDescriptorPool(VkDevice device, VkDescriptorPool descriptorPool, const VkAllocationCallbacks* allocator) {
1302 }
1303 
ResetDescriptorPool(VkDevice device,VkDescriptorPool descriptorPool,VkDescriptorPoolResetFlags flags)1304 VkResult ResetDescriptorPool(VkDevice device, VkDescriptorPool descriptorPool, VkDescriptorPoolResetFlags flags) {
1305     ALOGV("TODO: vk%s", __FUNCTION__);
1306     return VK_SUCCESS;
1307 }
1308 
UpdateDescriptorSets(VkDevice device,uint32_t writeCount,const VkWriteDescriptorSet * pDescriptorWrites,uint32_t copyCount,const VkCopyDescriptorSet * pDescriptorCopies)1309 void UpdateDescriptorSets(VkDevice device, uint32_t writeCount, const VkWriteDescriptorSet* pDescriptorWrites, uint32_t copyCount, const VkCopyDescriptorSet* pDescriptorCopies) {
1310     ALOGV("TODO: vk%s", __FUNCTION__);
1311 }
1312 
FreeDescriptorSets(VkDevice device,VkDescriptorPool descriptorPool,uint32_t count,const VkDescriptorSet * pDescriptorSets)1313 VkResult FreeDescriptorSets(VkDevice device, VkDescriptorPool descriptorPool, uint32_t count, const VkDescriptorSet* pDescriptorSets) {
1314     ALOGV("TODO: vk%s", __FUNCTION__);
1315     return VK_SUCCESS;
1316 }
1317 
DestroyFramebuffer(VkDevice device,VkFramebuffer framebuffer,const VkAllocationCallbacks * allocator)1318 void DestroyFramebuffer(VkDevice device, VkFramebuffer framebuffer, const VkAllocationCallbacks* allocator) {
1319 }
1320 
DestroyRenderPass(VkDevice device,VkRenderPass renderPass,const VkAllocationCallbacks * allocator)1321 void DestroyRenderPass(VkDevice device, VkRenderPass renderPass, const VkAllocationCallbacks* allocator) {
1322 }
1323 
GetRenderAreaGranularity(VkDevice device,VkRenderPass renderPass,VkExtent2D * pGranularity)1324 void GetRenderAreaGranularity(VkDevice device, VkRenderPass renderPass, VkExtent2D* pGranularity) {
1325     ALOGV("TODO: vk%s", __FUNCTION__);
1326 }
1327 
ResetCommandPool(VkDevice device,VkCommandPool cmdPool,VkCommandPoolResetFlags flags)1328 VkResult ResetCommandPool(VkDevice device, VkCommandPool cmdPool, VkCommandPoolResetFlags flags) {
1329     ALOGV("TODO: vk%s", __FUNCTION__);
1330     return VK_SUCCESS;
1331 }
1332 
BeginCommandBuffer(VkCommandBuffer cmdBuffer,const VkCommandBufferBeginInfo * pBeginInfo)1333 VkResult BeginCommandBuffer(VkCommandBuffer cmdBuffer, const VkCommandBufferBeginInfo* pBeginInfo) {
1334     return VK_SUCCESS;
1335 }
1336 
EndCommandBuffer(VkCommandBuffer cmdBuffer)1337 VkResult EndCommandBuffer(VkCommandBuffer cmdBuffer) {
1338     return VK_SUCCESS;
1339 }
1340 
ResetCommandBuffer(VkCommandBuffer cmdBuffer,VkCommandBufferResetFlags flags)1341 VkResult ResetCommandBuffer(VkCommandBuffer cmdBuffer, VkCommandBufferResetFlags flags) {
1342     ALOGV("TODO: vk%s", __FUNCTION__);
1343     return VK_SUCCESS;
1344 }
1345 
CmdBindPipeline(VkCommandBuffer cmdBuffer,VkPipelineBindPoint pipelineBindPoint,VkPipeline pipeline)1346 void CmdBindPipeline(VkCommandBuffer cmdBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipeline pipeline) {
1347 }
1348 
CmdSetViewport(VkCommandBuffer cmdBuffer,uint32_t firstViewport,uint32_t viewportCount,const VkViewport * pViewports)1349 void CmdSetViewport(VkCommandBuffer cmdBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewport* pViewports) {
1350 }
1351 
CmdSetScissor(VkCommandBuffer cmdBuffer,uint32_t firstScissor,uint32_t scissorCount,const VkRect2D * pScissors)1352 void CmdSetScissor(VkCommandBuffer cmdBuffer, uint32_t firstScissor, uint32_t scissorCount, const VkRect2D* pScissors) {
1353 }
1354 
CmdSetLineWidth(VkCommandBuffer cmdBuffer,float lineWidth)1355 void CmdSetLineWidth(VkCommandBuffer cmdBuffer, float lineWidth) {
1356 }
1357 
CmdSetDepthBias(VkCommandBuffer cmdBuffer,float depthBias,float depthBiasClamp,float slopeScaledDepthBias)1358 void CmdSetDepthBias(VkCommandBuffer cmdBuffer, float depthBias, float depthBiasClamp, float slopeScaledDepthBias) {
1359 }
1360 
CmdSetBlendConstants(VkCommandBuffer cmdBuffer,const float blendConst[4])1361 void CmdSetBlendConstants(VkCommandBuffer cmdBuffer, const float blendConst[4]) {
1362 }
1363 
CmdSetDepthBounds(VkCommandBuffer cmdBuffer,float minDepthBounds,float maxDepthBounds)1364 void CmdSetDepthBounds(VkCommandBuffer cmdBuffer, float minDepthBounds, float maxDepthBounds) {
1365 }
1366 
CmdSetStencilCompareMask(VkCommandBuffer cmdBuffer,VkStencilFaceFlags faceMask,uint32_t stencilCompareMask)1367 void CmdSetStencilCompareMask(VkCommandBuffer cmdBuffer, VkStencilFaceFlags faceMask, uint32_t stencilCompareMask) {
1368 }
1369 
CmdSetStencilWriteMask(VkCommandBuffer cmdBuffer,VkStencilFaceFlags faceMask,uint32_t stencilWriteMask)1370 void CmdSetStencilWriteMask(VkCommandBuffer cmdBuffer, VkStencilFaceFlags faceMask, uint32_t stencilWriteMask) {
1371 }
1372 
CmdSetStencilReference(VkCommandBuffer cmdBuffer,VkStencilFaceFlags faceMask,uint32_t stencilReference)1373 void CmdSetStencilReference(VkCommandBuffer cmdBuffer, VkStencilFaceFlags faceMask, uint32_t stencilReference) {
1374 }
1375 
CmdBindDescriptorSets(VkCommandBuffer cmdBuffer,VkPipelineBindPoint pipelineBindPoint,VkPipelineLayout layout,uint32_t firstSet,uint32_t setCount,const VkDescriptorSet * pDescriptorSets,uint32_t dynamicOffsetCount,const uint32_t * pDynamicOffsets)1376 void CmdBindDescriptorSets(VkCommandBuffer cmdBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipelineLayout layout, uint32_t firstSet, uint32_t setCount, const VkDescriptorSet* pDescriptorSets, uint32_t dynamicOffsetCount, const uint32_t* pDynamicOffsets) {
1377 }
1378 
CmdBindIndexBuffer(VkCommandBuffer cmdBuffer,VkBuffer buffer,VkDeviceSize offset,VkIndexType indexType)1379 void CmdBindIndexBuffer(VkCommandBuffer cmdBuffer, VkBuffer buffer, VkDeviceSize offset, VkIndexType indexType) {
1380 }
1381 
CmdBindVertexBuffers(VkCommandBuffer cmdBuffer,uint32_t startBinding,uint32_t bindingCount,const VkBuffer * pBuffers,const VkDeviceSize * pOffsets)1382 void CmdBindVertexBuffers(VkCommandBuffer cmdBuffer, uint32_t startBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets) {
1383 }
1384 
CmdDraw(VkCommandBuffer cmdBuffer,uint32_t vertexCount,uint32_t instanceCount,uint32_t firstVertex,uint32_t firstInstance)1385 void CmdDraw(VkCommandBuffer cmdBuffer, uint32_t vertexCount, uint32_t instanceCount, uint32_t firstVertex, uint32_t firstInstance) {
1386 }
1387 
CmdDrawIndexed(VkCommandBuffer cmdBuffer,uint32_t indexCount,uint32_t instanceCount,uint32_t firstIndex,int32_t vertexOffset,uint32_t firstInstance)1388 void CmdDrawIndexed(VkCommandBuffer cmdBuffer, uint32_t indexCount, uint32_t instanceCount, uint32_t firstIndex, int32_t vertexOffset, uint32_t firstInstance) {
1389 }
1390 
CmdDrawIndirect(VkCommandBuffer cmdBuffer,VkBuffer buffer,VkDeviceSize offset,uint32_t count,uint32_t stride)1391 void CmdDrawIndirect(VkCommandBuffer cmdBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t count, uint32_t stride) {
1392 }
1393 
CmdDrawIndexedIndirect(VkCommandBuffer cmdBuffer,VkBuffer buffer,VkDeviceSize offset,uint32_t count,uint32_t stride)1394 void CmdDrawIndexedIndirect(VkCommandBuffer cmdBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t count, uint32_t stride) {
1395 }
1396 
CmdDispatch(VkCommandBuffer cmdBuffer,uint32_t x,uint32_t y,uint32_t z)1397 void CmdDispatch(VkCommandBuffer cmdBuffer, uint32_t x, uint32_t y, uint32_t z) {
1398 }
1399 
CmdDispatchIndirect(VkCommandBuffer cmdBuffer,VkBuffer buffer,VkDeviceSize offset)1400 void CmdDispatchIndirect(VkCommandBuffer cmdBuffer, VkBuffer buffer, VkDeviceSize offset) {
1401 }
1402 
CmdCopyBuffer(VkCommandBuffer cmdBuffer,VkBuffer srcBuffer,VkBuffer destBuffer,uint32_t regionCount,const VkBufferCopy * pRegions)1403 void CmdCopyBuffer(VkCommandBuffer cmdBuffer, VkBuffer srcBuffer, VkBuffer destBuffer, uint32_t regionCount, const VkBufferCopy* pRegions) {
1404 }
1405 
CmdCopyImage(VkCommandBuffer cmdBuffer,VkImage srcImage,VkImageLayout srcImageLayout,VkImage destImage,VkImageLayout destImageLayout,uint32_t regionCount,const VkImageCopy * pRegions)1406 void CmdCopyImage(VkCommandBuffer cmdBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage destImage, VkImageLayout destImageLayout, uint32_t regionCount, const VkImageCopy* pRegions) {
1407 }
1408 
CmdBlitImage(VkCommandBuffer cmdBuffer,VkImage srcImage,VkImageLayout srcImageLayout,VkImage destImage,VkImageLayout destImageLayout,uint32_t regionCount,const VkImageBlit * pRegions,VkFilter filter)1409 void CmdBlitImage(VkCommandBuffer cmdBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage destImage, VkImageLayout destImageLayout, uint32_t regionCount, const VkImageBlit* pRegions, VkFilter filter) {
1410 }
1411 
CmdCopyBufferToImage(VkCommandBuffer cmdBuffer,VkBuffer srcBuffer,VkImage destImage,VkImageLayout destImageLayout,uint32_t regionCount,const VkBufferImageCopy * pRegions)1412 void CmdCopyBufferToImage(VkCommandBuffer cmdBuffer, VkBuffer srcBuffer, VkImage destImage, VkImageLayout destImageLayout, uint32_t regionCount, const VkBufferImageCopy* pRegions) {
1413 }
1414 
CmdCopyImageToBuffer(VkCommandBuffer cmdBuffer,VkImage srcImage,VkImageLayout srcImageLayout,VkBuffer destBuffer,uint32_t regionCount,const VkBufferImageCopy * pRegions)1415 void CmdCopyImageToBuffer(VkCommandBuffer cmdBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkBuffer destBuffer, uint32_t regionCount, const VkBufferImageCopy* pRegions) {
1416 }
1417 
CmdUpdateBuffer(VkCommandBuffer cmdBuffer,VkBuffer destBuffer,VkDeviceSize destOffset,VkDeviceSize dataSize,const void * pData)1418 void CmdUpdateBuffer(VkCommandBuffer cmdBuffer, VkBuffer destBuffer, VkDeviceSize destOffset, VkDeviceSize dataSize, const void* pData) {
1419 }
1420 
CmdFillBuffer(VkCommandBuffer cmdBuffer,VkBuffer destBuffer,VkDeviceSize destOffset,VkDeviceSize fillSize,uint32_t data)1421 void CmdFillBuffer(VkCommandBuffer cmdBuffer, VkBuffer destBuffer, VkDeviceSize destOffset, VkDeviceSize fillSize, uint32_t data) {
1422 }
1423 
CmdClearColorImage(VkCommandBuffer cmdBuffer,VkImage image,VkImageLayout imageLayout,const VkClearColorValue * pColor,uint32_t rangeCount,const VkImageSubresourceRange * pRanges)1424 void CmdClearColorImage(VkCommandBuffer cmdBuffer, VkImage image, VkImageLayout imageLayout, const VkClearColorValue* pColor, uint32_t rangeCount, const VkImageSubresourceRange* pRanges) {
1425 }
1426 
CmdClearDepthStencilImage(VkCommandBuffer cmdBuffer,VkImage image,VkImageLayout imageLayout,const VkClearDepthStencilValue * pDepthStencil,uint32_t rangeCount,const VkImageSubresourceRange * pRanges)1427 void CmdClearDepthStencilImage(VkCommandBuffer cmdBuffer, VkImage image, VkImageLayout imageLayout, const VkClearDepthStencilValue* pDepthStencil, uint32_t rangeCount, const VkImageSubresourceRange* pRanges) {
1428 }
1429 
CmdClearAttachments(VkCommandBuffer cmdBuffer,uint32_t attachmentCount,const VkClearAttachment * pAttachments,uint32_t rectCount,const VkClearRect * pRects)1430 void CmdClearAttachments(VkCommandBuffer cmdBuffer, uint32_t attachmentCount, const VkClearAttachment* pAttachments, uint32_t rectCount, const VkClearRect* pRects) {
1431 }
1432 
CmdResolveImage(VkCommandBuffer cmdBuffer,VkImage srcImage,VkImageLayout srcImageLayout,VkImage destImage,VkImageLayout destImageLayout,uint32_t regionCount,const VkImageResolve * pRegions)1433 void CmdResolveImage(VkCommandBuffer cmdBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage destImage, VkImageLayout destImageLayout, uint32_t regionCount, const VkImageResolve* pRegions) {
1434 }
1435 
CmdSetEvent(VkCommandBuffer cmdBuffer,VkEvent event,VkPipelineStageFlags stageMask)1436 void CmdSetEvent(VkCommandBuffer cmdBuffer, VkEvent event, VkPipelineStageFlags stageMask) {
1437 }
1438 
CmdResetEvent(VkCommandBuffer cmdBuffer,VkEvent event,VkPipelineStageFlags stageMask)1439 void CmdResetEvent(VkCommandBuffer cmdBuffer, VkEvent event, VkPipelineStageFlags stageMask) {
1440 }
1441 
CmdWaitEvents(VkCommandBuffer commandBuffer,uint32_t eventCount,const VkEvent * pEvents,VkPipelineStageFlags srcStageMask,VkPipelineStageFlags dstStageMask,uint32_t memoryBarrierCount,const VkMemoryBarrier * pMemoryBarriers,uint32_t bufferMemoryBarrierCount,const VkBufferMemoryBarrier * pBufferMemoryBarriers,uint32_t imageMemoryBarrierCount,const VkImageMemoryBarrier * pImageMemoryBarriers)1442 void CmdWaitEvents(VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers) {
1443 }
1444 
CmdPipelineBarrier(VkCommandBuffer commandBuffer,VkPipelineStageFlags srcStageMask,VkPipelineStageFlags dstStageMask,VkDependencyFlags dependencyFlags,uint32_t memoryBarrierCount,const VkMemoryBarrier * pMemoryBarriers,uint32_t bufferMemoryBarrierCount,const VkBufferMemoryBarrier * pBufferMemoryBarriers,uint32_t imageMemoryBarrierCount,const VkImageMemoryBarrier * pImageMemoryBarriers)1445 void CmdPipelineBarrier(VkCommandBuffer commandBuffer, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, VkDependencyFlags dependencyFlags, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers) {
1446 }
1447 
CmdBeginQuery(VkCommandBuffer cmdBuffer,VkQueryPool queryPool,uint32_t slot,VkQueryControlFlags flags)1448 void CmdBeginQuery(VkCommandBuffer cmdBuffer, VkQueryPool queryPool, uint32_t slot, VkQueryControlFlags flags) {
1449 }
1450 
CmdEndQuery(VkCommandBuffer cmdBuffer,VkQueryPool queryPool,uint32_t slot)1451 void CmdEndQuery(VkCommandBuffer cmdBuffer, VkQueryPool queryPool, uint32_t slot) {
1452 }
1453 
CmdResetQueryPool(VkCommandBuffer cmdBuffer,VkQueryPool queryPool,uint32_t startQuery,uint32_t queryCount)1454 void CmdResetQueryPool(VkCommandBuffer cmdBuffer, VkQueryPool queryPool, uint32_t startQuery, uint32_t queryCount) {
1455 }
1456 
CmdWriteTimestamp(VkCommandBuffer cmdBuffer,VkPipelineStageFlagBits pipelineStage,VkQueryPool queryPool,uint32_t slot)1457 void CmdWriteTimestamp(VkCommandBuffer cmdBuffer, VkPipelineStageFlagBits pipelineStage, VkQueryPool queryPool, uint32_t slot) {
1458 }
1459 
CmdCopyQueryPoolResults(VkCommandBuffer cmdBuffer,VkQueryPool queryPool,uint32_t startQuery,uint32_t queryCount,VkBuffer destBuffer,VkDeviceSize destOffset,VkDeviceSize destStride,VkQueryResultFlags flags)1460 void CmdCopyQueryPoolResults(VkCommandBuffer cmdBuffer, VkQueryPool queryPool, uint32_t startQuery, uint32_t queryCount, VkBuffer destBuffer, VkDeviceSize destOffset, VkDeviceSize destStride, VkQueryResultFlags flags) {
1461 }
1462 
CmdPushConstants(VkCommandBuffer cmdBuffer,VkPipelineLayout layout,VkShaderStageFlags stageFlags,uint32_t start,uint32_t length,const void * values)1463 void CmdPushConstants(VkCommandBuffer cmdBuffer, VkPipelineLayout layout, VkShaderStageFlags stageFlags, uint32_t start, uint32_t length, const void* values) {
1464 }
1465 
CmdBeginRenderPass(VkCommandBuffer cmdBuffer,const VkRenderPassBeginInfo * pRenderPassBegin,VkSubpassContents contents)1466 void CmdBeginRenderPass(VkCommandBuffer cmdBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, VkSubpassContents contents) {
1467 }
1468 
CmdNextSubpass(VkCommandBuffer cmdBuffer,VkSubpassContents contents)1469 void CmdNextSubpass(VkCommandBuffer cmdBuffer, VkSubpassContents contents) {
1470 }
1471 
CmdEndRenderPass(VkCommandBuffer cmdBuffer)1472 void CmdEndRenderPass(VkCommandBuffer cmdBuffer) {
1473 }
1474 
CmdExecuteCommands(VkCommandBuffer cmdBuffer,uint32_t cmdBuffersCount,const VkCommandBuffer * pCmdBuffers)1475 void CmdExecuteCommands(VkCommandBuffer cmdBuffer, uint32_t cmdBuffersCount, const VkCommandBuffer* pCmdBuffers) {
1476 }
1477 
DestroyDebugReportCallbackEXT(VkInstance instance,VkDebugReportCallbackEXT callback,const VkAllocationCallbacks * pAllocator)1478 void DestroyDebugReportCallbackEXT(VkInstance instance, VkDebugReportCallbackEXT callback, const VkAllocationCallbacks* pAllocator) {
1479 }
1480 
DebugReportMessageEXT(VkInstance instance,VkDebugReportFlagsEXT flags,VkDebugReportObjectTypeEXT objectType,uint64_t object,size_t location,int32_t messageCode,const char * pLayerPrefix,const char * pMessage)1481 void DebugReportMessageEXT(VkInstance instance, VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objectType, uint64_t object, size_t location, int32_t messageCode, const char* pLayerPrefix, const char* pMessage) {
1482 }
1483 
BindBufferMemory2(VkDevice device,uint32_t bindInfoCount,const VkBindBufferMemoryInfo * pBindInfos)1484 VkResult BindBufferMemory2(VkDevice device, uint32_t bindInfoCount, const VkBindBufferMemoryInfo* pBindInfos) {
1485     return VK_SUCCESS;
1486 }
1487 
BindImageMemory2(VkDevice device,uint32_t bindInfoCount,const VkBindImageMemoryInfo * pBindInfos)1488 VkResult BindImageMemory2(VkDevice device, uint32_t bindInfoCount, const VkBindImageMemoryInfo* pBindInfos) {
1489     return VK_SUCCESS;
1490 }
1491 
GetDeviceGroupPeerMemoryFeatures(VkDevice device,uint32_t heapIndex,uint32_t localDeviceIndex,uint32_t remoteDeviceIndex,VkPeerMemoryFeatureFlags * pPeerMemoryFeatures)1492 void GetDeviceGroupPeerMemoryFeatures(VkDevice device, uint32_t heapIndex, uint32_t localDeviceIndex, uint32_t remoteDeviceIndex, VkPeerMemoryFeatureFlags* pPeerMemoryFeatures) {
1493 }
1494 
CmdSetDeviceMask(VkCommandBuffer commandBuffer,uint32_t deviceMask)1495 void CmdSetDeviceMask(VkCommandBuffer commandBuffer, uint32_t deviceMask) {
1496 }
1497 
CmdDispatchBase(VkCommandBuffer commandBuffer,uint32_t baseGroupX,uint32_t baseGroupY,uint32_t baseGroupZ,uint32_t groupCountX,uint32_t groupCountY,uint32_t groupCountZ)1498 void CmdDispatchBase(VkCommandBuffer commandBuffer, uint32_t baseGroupX, uint32_t baseGroupY, uint32_t baseGroupZ, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ) {
1499 }
1500 
EnumeratePhysicalDeviceGroups(VkInstance instance,uint32_t * pPhysicalDeviceGroupCount,VkPhysicalDeviceGroupProperties * pPhysicalDeviceGroupProperties)1501 VkResult EnumeratePhysicalDeviceGroups(VkInstance instance, uint32_t* pPhysicalDeviceGroupCount, VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties) {
1502     return VK_SUCCESS;
1503 }
1504 
GetImageMemoryRequirements2(VkDevice device,const VkImageMemoryRequirementsInfo2 * pInfo,VkMemoryRequirements2 * pMemoryRequirements)1505 void GetImageMemoryRequirements2(VkDevice device, const VkImageMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements) {
1506 }
1507 
GetBufferMemoryRequirements2(VkDevice device,const VkBufferMemoryRequirementsInfo2 * pInfo,VkMemoryRequirements2 * pMemoryRequirements)1508 void GetBufferMemoryRequirements2(VkDevice device, const VkBufferMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements) {
1509 }
1510 
GetImageSparseMemoryRequirements2(VkDevice device,const VkImageSparseMemoryRequirementsInfo2 * pInfo,uint32_t * pSparseMemoryRequirementCount,VkSparseImageMemoryRequirements2 * pSparseMemoryRequirements)1511 void GetImageSparseMemoryRequirements2(VkDevice device, const VkImageSparseMemoryRequirementsInfo2* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements) {
1512 }
1513 
GetPhysicalDeviceFeatures2(VkPhysicalDevice physicalDevice,VkPhysicalDeviceFeatures2 * pFeatures)1514 void GetPhysicalDeviceFeatures2(VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures2* pFeatures) {
1515 }
1516 
GetPhysicalDeviceProperties2(VkPhysicalDevice physicalDevice,VkPhysicalDeviceProperties2 * pProperties)1517 void GetPhysicalDeviceProperties2(VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties2* pProperties) {
1518 }
1519 
GetPhysicalDeviceFormatProperties2(VkPhysicalDevice physicalDevice,VkFormat format,VkFormatProperties2 * pFormatProperties)1520 void GetPhysicalDeviceFormatProperties2(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2* pFormatProperties) {
1521 }
1522 
GetPhysicalDeviceImageFormatProperties2(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceImageFormatInfo2 * pImageFormatInfo,VkImageFormatProperties2 * pImageFormatProperties)1523 VkResult GetPhysicalDeviceImageFormatProperties2(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo, VkImageFormatProperties2* pImageFormatProperties) {
1524     return VK_SUCCESS;
1525 }
1526 
GetPhysicalDeviceQueueFamilyProperties2(VkPhysicalDevice physicalDevice,uint32_t * pQueueFamilyPropertyCount,VkQueueFamilyProperties2 * pQueueFamilyProperties)1527 void GetPhysicalDeviceQueueFamilyProperties2(VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties2* pQueueFamilyProperties) {
1528 }
1529 
GetPhysicalDeviceMemoryProperties2(VkPhysicalDevice physicalDevice,VkPhysicalDeviceMemoryProperties2 * pMemoryProperties)1530 void GetPhysicalDeviceMemoryProperties2(VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties2* pMemoryProperties) {
1531 }
1532 
GetPhysicalDeviceSparseImageFormatProperties2(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceSparseImageFormatInfo2 * pFormatInfo,uint32_t * pPropertyCount,VkSparseImageFormatProperties2 * pProperties)1533 void GetPhysicalDeviceSparseImageFormatProperties2(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSparseImageFormatInfo2* pFormatInfo, uint32_t* pPropertyCount, VkSparseImageFormatProperties2* pProperties) {
1534 }
1535 
TrimCommandPool(VkDevice device,VkCommandPool commandPool,VkCommandPoolTrimFlags flags)1536 void TrimCommandPool(VkDevice device, VkCommandPool commandPool, VkCommandPoolTrimFlags flags) {
1537 }
1538 
GetDeviceQueue2(VkDevice device,const VkDeviceQueueInfo2 * pQueueInfo,VkQueue * pQueue)1539 void GetDeviceQueue2(VkDevice device, const VkDeviceQueueInfo2* pQueueInfo, VkQueue* pQueue) {
1540 }
1541 
CreateSamplerYcbcrConversion(VkDevice device,const VkSamplerYcbcrConversionCreateInfo * pCreateInfo,const VkAllocationCallbacks * pAllocator,VkSamplerYcbcrConversion * pYcbcrConversion)1542 VkResult CreateSamplerYcbcrConversion(VkDevice device, const VkSamplerYcbcrConversionCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSamplerYcbcrConversion* pYcbcrConversion) {
1543     return VK_SUCCESS;
1544 }
1545 
DestroySamplerYcbcrConversion(VkDevice device,VkSamplerYcbcrConversion ycbcrConversion,const VkAllocationCallbacks * pAllocator)1546 void DestroySamplerYcbcrConversion(VkDevice device, VkSamplerYcbcrConversion ycbcrConversion, const VkAllocationCallbacks* pAllocator) {
1547 }
1548 
CreateDescriptorUpdateTemplate(VkDevice device,const VkDescriptorUpdateTemplateCreateInfo * pCreateInfo,const VkAllocationCallbacks * pAllocator,VkDescriptorUpdateTemplate * pDescriptorUpdateTemplate)1549 VkResult CreateDescriptorUpdateTemplate(VkDevice device, const VkDescriptorUpdateTemplateCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorUpdateTemplate* pDescriptorUpdateTemplate) {
1550     return VK_SUCCESS;
1551 }
1552 
DestroyDescriptorUpdateTemplate(VkDevice device,VkDescriptorUpdateTemplate descriptorUpdateTemplate,const VkAllocationCallbacks * pAllocator)1553 void DestroyDescriptorUpdateTemplate(VkDevice device, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const VkAllocationCallbacks* pAllocator) {
1554 }
1555 
UpdateDescriptorSetWithTemplate(VkDevice device,VkDescriptorSet descriptorSet,VkDescriptorUpdateTemplate descriptorUpdateTemplate,const void * pData)1556 void UpdateDescriptorSetWithTemplate(VkDevice device, VkDescriptorSet descriptorSet, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const void* pData) {
1557 }
1558 
GetPhysicalDeviceExternalBufferProperties(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceExternalBufferInfo * pExternalBufferInfo,VkExternalBufferProperties * pExternalBufferProperties)1559 void GetPhysicalDeviceExternalBufferProperties(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalBufferInfo* pExternalBufferInfo, VkExternalBufferProperties* pExternalBufferProperties) {
1560 }
1561 
GetPhysicalDeviceExternalFenceProperties(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceExternalFenceInfo * pExternalFenceInfo,VkExternalFenceProperties * pExternalFenceProperties)1562 void GetPhysicalDeviceExternalFenceProperties(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalFenceInfo* pExternalFenceInfo, VkExternalFenceProperties* pExternalFenceProperties) {
1563 }
1564 
GetPhysicalDeviceExternalSemaphoreProperties(VkPhysicalDevice physicalDevice,const VkPhysicalDeviceExternalSemaphoreInfo * pExternalSemaphoreInfo,VkExternalSemaphoreProperties * pExternalSemaphoreProperties)1565 void GetPhysicalDeviceExternalSemaphoreProperties(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalSemaphoreInfo* pExternalSemaphoreInfo, VkExternalSemaphoreProperties* pExternalSemaphoreProperties) {
1566 }
1567 
GetDescriptorSetLayoutSupport(VkDevice device,const VkDescriptorSetLayoutCreateInfo * pCreateInfo,VkDescriptorSetLayoutSupport * pSupport)1568 void GetDescriptorSetLayoutSupport(VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, VkDescriptorSetLayoutSupport* pSupport) {
1569 }
1570 
1571 #pragma clang diagnostic pop
1572 // clang-format on
1573 
1574 }  // namespace null_driver
1575