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rpi-vk-driver/driver/device.c

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#include "common.h"
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#include "declarations.h"
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/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#devsandqueues-physical-device-enumeration
* If pPhysicalDevices is NULL, then the number of physical devices available is returned in pPhysicalDeviceCount. Otherwise, pPhysicalDeviceCount must point to a
* variable set by the user to the number of elements in the pPhysicalDevices array, and on return the variable is overwritten with the number of handles actually
* written to pPhysicalDevices. If pPhysicalDeviceCount is less than the number of physical devices available, at most pPhysicalDeviceCount structures will be written.
* If pPhysicalDeviceCount is smaller than the number of physical devices available, VK_INCOMPLETE will be returned instead of VK_SUCCESS, to indicate that not all the
* available physical devices were returned.
*/
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkEnumeratePhysicalDevices(
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VkInstance instance,
uint32_t* pPhysicalDeviceCount,
VkPhysicalDevice* pPhysicalDevices)
{
assert(instance);
int numGPUs = 1;
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assert(pPhysicalDeviceCount);
if(!pPhysicalDevices)
{
*pPhysicalDeviceCount = numGPUs;
return VK_SUCCESS;
}
int arraySize = *pPhysicalDeviceCount;
int elementsWritten = min(numGPUs, arraySize);
for(int c = 0; c < elementsWritten; ++c)
{
pPhysicalDevices[c] = &instance->dev;
}
*pPhysicalDeviceCount = elementsWritten;
if(arraySize < numGPUs)
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{
return VK_INCOMPLETE;
}
else
{
return VK_SUCCESS;
}
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkGetPhysicalDeviceProperties
*/
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceProperties(
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VkPhysicalDevice physicalDevice,
VkPhysicalDeviceProperties* pProperties)
{
assert(physicalDevice);
assert(pProperties);
VkPhysicalDeviceSparseProperties sparseProps =
{
.residencyStandard2DBlockShape = 1,
.residencyStandard2DMultisampleBlockShape = 1,
.residencyStandard3DBlockShape = 1,
.residencyAlignedMipSize = 1,
.residencyNonResidentStrict = 1
};
pProperties->apiVersion = VK_DRIVER_VERSION;
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pProperties->driverVersion = 1; //we'll simply call this v1
pProperties->vendorID = 0x14E4; //Broadcom
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pProperties->deviceID = 0x5250; //RP in HEX
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pProperties->deviceType = VK_PHYSICAL_DEVICE_TYPE_INTEGRATED_GPU;
strcpy(pProperties->deviceName, "VideoCore IV HW");
pProperties->limits = _limits;
pProperties->sparseProperties = sparseProps;
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkGetPhysicalDeviceFeatures
*/
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceFeatures(
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VkPhysicalDevice physicalDevice,
VkPhysicalDeviceFeatures* pFeatures)
{
assert(physicalDevice);
assert(pFeatures);
*pFeatures = _features;
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkEnumerateDeviceExtensionProperties
*/
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkEnumerateDeviceExtensionProperties(
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VkPhysicalDevice physicalDevice,
const char* pLayerName,
uint32_t* pPropertyCount,
VkExtensionProperties* pProperties)
{
assert(physicalDevice);
assert(pPropertyCount);
if(!pProperties)
{
*pPropertyCount = numDeviceExtensions;
return VK_SUCCESS;
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}
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//TODO layers
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int arraySize = *pPropertyCount;
int elementsWritten = min(numDeviceExtensions, arraySize);
for(int c = 0; c < elementsWritten; ++c)
{
pProperties[c] = deviceExtensions[c];
}
*pPropertyCount = elementsWritten;
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if(arraySize < numDeviceExtensions)
{
return VK_INCOMPLETE;
}
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return VK_SUCCESS;
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkGetPhysicalDeviceQueueFamilyProperties
* If pQueueFamilyProperties is NULL, then the number of queue families available is returned in pQueueFamilyPropertyCount.
* Otherwise, pQueueFamilyPropertyCount must point to a variable set by the user to the number of elements in the pQueueFamilyProperties array,
* and on return the variable is overwritten with the number of structures actually written to pQueueFamilyProperties. If pQueueFamilyPropertyCount
* is less than the number of queue families available, at most pQueueFamilyPropertyCount structures will be written.
*/
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceQueueFamilyProperties(
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VkPhysicalDevice physicalDevice,
uint32_t* pQueueFamilyPropertyCount,
VkQueueFamilyProperties* pQueueFamilyProperties)
{
assert(physicalDevice);
assert(pQueueFamilyPropertyCount);
if(!pQueueFamilyProperties)
{
*pQueueFamilyPropertyCount = 1;
return;
}
int arraySize = *pQueueFamilyPropertyCount;
int elementsWritten = min(numQueueFamilies, arraySize);
for(int c = 0; c < elementsWritten; ++c)
{
pQueueFamilyProperties[c] = _queueFamilyProperties[c];
}
*pQueueFamilyPropertyCount = elementsWritten;
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkCreateDevice
* vkCreateDevice verifies that extensions and features requested in the ppEnabledExtensionNames and pEnabledFeatures
* members of pCreateInfo, respectively, are supported by the implementation. If any requested extension is not supported,
* vkCreateDevice must return VK_ERROR_EXTENSION_NOT_PRESENT. If any requested feature is not supported, vkCreateDevice must return
* VK_ERROR_FEATURE_NOT_PRESENT. Support for extensions can be checked before creating a device by querying vkEnumerateDeviceExtensionProperties
* After verifying and enabling the extensions the VkDevice object is created and returned to the application.
* If a requested extension is only supported by a layer, both the layer and the extension need to be specified at vkCreateInstance
* time for the creation to succeed. Multiple logical devices can be created from the same physical device. Logical device creation may
* fail due to lack of device-specific resources (in addition to the other errors). If that occurs, vkCreateDevice will return VK_ERROR_TOO_MANY_OBJECTS.
*/
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkCreateDevice(
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VkPhysicalDevice physicalDevice,
const VkDeviceCreateInfo* pCreateInfo,
const VkAllocationCallbacks* pAllocator,
VkDevice* pDevice)
{
assert(physicalDevice);
assert(pDevice);
assert(pCreateInfo);
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//TODO store enabled features and extensions
//and check later on if they are enabled.
//check for enabled extensions
for(int c = 0; c < pCreateInfo->enabledExtensionCount; ++c)
{
int findres = findDeviceExtension(pCreateInfo->ppEnabledExtensionNames[c]);
if(findres == -1)
{
return VK_ERROR_EXTENSION_NOT_PRESENT;
}
}
//check for enabled features
VkBool32* requestedFeatures = pCreateInfo->pEnabledFeatures;
VkBool32* supportedFeatures = &_features;
if(requestedFeatures)
{
for(int c = 0; c < numFeatures; ++c)
{
if(requestedFeatures[c] && !supportedFeatures[c])
{
return VK_ERROR_FEATURE_NOT_PRESENT;
}
}
}
*pDevice = ALLOCATE(sizeof(_device), 1, VK_SYSTEM_ALLOCATION_SCOPE_DEVICE);
if(!*pDevice)
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{
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return VK_ERROR_OUT_OF_HOST_MEMORY;
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}
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set_loader_magic_value(&(*pDevice)->loaderData);
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(*pDevice)->dev = physicalDevice;
(*pDevice)->numEnabledExtensions = 0;
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for(int c = 0; c < pCreateInfo->enabledExtensionCount; ++c)
{
int findres = findDeviceExtension(pCreateInfo->ppEnabledExtensionNames[c]);
if(findres > -1)
{
(*pDevice)->enabledExtensions[(*pDevice)->numEnabledExtensions] = findres;
(*pDevice)->numEnabledExtensions++;
}
}
if(requestedFeatures)
{
for(int c = 0; c < numFeatures; ++c)
{
if(requestedFeatures[c] && !supportedFeatures[c])
{
return VK_ERROR_FEATURE_NOT_PRESENT;
}
}
(*pDevice)->enabledFeatures = *pCreateInfo->pEnabledFeatures;
}
else
{
memset(&(*pDevice)->enabledFeatures, 0, sizeof((*pDevice)->enabledFeatures)); //just disable everything
}
//layers ignored per spec
//pCreateInfo->enabledLayerCount
for(int c = 0; c < numQueueFamilies; ++c)
{
(*pDevice)->queues[c] = 0;
}
if(pCreateInfo->queueCreateInfoCount > 0)
{
for(int c = 0; c < pCreateInfo->queueCreateInfoCount; ++c)
{
(*pDevice)->queues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex] = ALLOCATE(sizeof(_queue)*pCreateInfo->pQueueCreateInfos[c].queueCount, 1, VK_SYSTEM_ALLOCATION_SCOPE_OBJECT);
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if(!(*pDevice)->queues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex])
{
return VK_ERROR_OUT_OF_HOST_MEMORY;
}
for(int d = 0; d < pCreateInfo->pQueueCreateInfos[c].queueCount; ++d)
{
(*pDevice)->queues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex][d].lastEmitSeqno = 0;
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(*pDevice)->queues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex][d].dev = *pDevice;
set_loader_magic_value(&(*pDevice)->queues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex][d].loaderData);
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}
(*pDevice)->numQueues[pCreateInfo->pQueueCreateInfos[c].queueFamilyIndex] = pCreateInfo->pQueueCreateInfos[c].queueCount;
}
}
setupEmulationResources(*pDevice);
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return VK_SUCCESS;
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkGetDeviceQueue
* vkGetDeviceQueue must only be used to get queues that were created with the flags parameter of VkDeviceQueueCreateInfo set to zero.
* To get queues that were created with a non-zero flags parameter use vkGetDeviceQueue2.
*/
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetDeviceQueue(
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VkDevice device,
uint32_t queueFamilyIndex,
uint32_t queueIndex,
VkQueue* pQueue)
{
assert(device);
assert(pQueue);
assert(queueFamilyIndex < numQueueFamilies);
assert(queueIndex < device->numQueues[queueFamilyIndex]);
*pQueue = &device->queues[queueFamilyIndex][queueIndex];
}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetDeviceQueue2(
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VkDevice device,
const VkDeviceQueueInfo2* pQueueInfo,
VkQueue* pQueue)
{
assert(device);
assert(pQueueInfo);
assert(pQueue);
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//TODO handle pNext
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rpi_vkGetDeviceQueue(device, pQueueInfo->queueFamilyIndex, pQueueInfo->queueIndex, pQueue);
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}
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/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkDestroyDevice
* To ensure that no work is active on the device, vkDeviceWaitIdle can be used to gate the destruction of the device.
* Prior to destroying a device, an application is responsible for destroying/freeing any Vulkan objects that were created using that device as the
* first parameter of the corresponding vkCreate* or vkAllocate* command
*/
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VKAPI_ATTR void VKAPI_CALL rpi_vkDestroyDevice(
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VkDevice device,
const VkAllocationCallbacks* pAllocator)
{
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_device* dev = device;
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if(dev)
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{
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for(int c = 0; c < numQueueFamilies; ++c)
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{
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for(int d = 0; d < dev->numQueues[c]; ++d)
{
FREE(dev->queues[d]);
}
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}
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FREE(dev);
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}
}
/*
* https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/vkspec.html#vkEnumeratePhysicalDeviceGroups
*/
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkEnumeratePhysicalDeviceGroups(
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VkInstance instance,
uint32_t* pPhysicalDeviceGroupCount,
VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties)
{
assert(instance);
assert(pPhysicalDeviceGroupCount);
if(!pPhysicalDeviceGroupProperties)
{
*pPhysicalDeviceGroupCount = 1;
return VK_SUCCESS;
}
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//we don't have any other devices...
assert(*pPhysicalDeviceGroupCount == 1);
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uint32_t c = 0;
for(; c < *pPhysicalDeviceGroupCount; ++c)
{
pPhysicalDeviceGroupProperties[c].physicalDeviceCount = 1;
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pPhysicalDeviceGroupProperties[c].physicalDevices[0] = &instance->dev;
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pPhysicalDeviceGroupProperties[c].subsetAllocation = 0;
}
if(c < 1)
{
return VK_INCOMPLETE;
}
return VK_SUCCESS;
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}
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extern VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL rpi_vkGetInstanceProcAddr(VkInstance instance,
const char* pName);
VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL rpi_vkGetDeviceProcAddr(
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VkDevice device,
const char* pName)
{
if(
!strcmp("vkDestroyInstance", pName) ||
!strcmp("vkEnumeratePhysicalDevices", pName) ||
!strcmp("vkGetPhysicalDeviceFeatures", pName) ||
!strcmp("vkGetPhysicalDeviceFormatProperties", pName) ||
!strcmp("vkGetPhysicalDeviceImageFormatProperties", pName) ||
!strcmp("vkGetPhysicalDeviceProperties", pName) ||
!strcmp("vkGetPhysicalDeviceQueueFamilyProperties", pName) ||
!strcmp("vkGetPhysicalDeviceMemoryProperties", pName) ||
!strcmp("vkCreateDevice", pName) ||
!strcmp("vkEnumerateDeviceExtensionProperties", pName) ||
!strcmp("vkEnumerateDeviceLayerProperties", pName) ||
!strcmp("vkGetPhysicalDeviceSparseImageFormatProperties", pName) ||
!strcmp("vkEnumeratePhysicalDeviceGroups", pName) ||
!strcmp("vkGetPhysicalDeviceFeatures2", pName) ||
!strcmp("vkGetPhysicalDeviceProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceFormatProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceImageFormatProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceQueueFamilyProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceMemoryProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceSparseImageFormatProperties2", pName) ||
!strcmp("vkGetPhysicalDeviceExternalBufferProperties", pName) ||
!strcmp("vkGetPhysicalDeviceExternalFenceProperties", pName) ||
!strcmp("vkGetPhysicalDeviceExternalSemaphoreProperties", pName)
)
{
return 0;
}
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//there can't be any other device, so this will do fine...
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_device* d = device;
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return rpi_vkGetInstanceProcAddr(d->dev->instance, pName);
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}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceProperties2(
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VkPhysicalDevice physicalDevice,
VkPhysicalDeviceProperties2* pProperties)
{
assert(physicalDevice);
assert(pProperties);
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rpi_vkGetPhysicalDeviceProperties(physicalDevice, &pProperties->properties);
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if(pProperties->pNext)
{
VkPhysicalDeviceDriverPropertiesKHR* ptr = pProperties->pNext;
if(ptr->sType == VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRIVER_PROPERTIES_KHR)
{
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ptr->driverID = 0x525049564b; //RPIVK in hex
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const char* driverName = "RPi VK";
const char* driverInfo = ""; //TODO maybe version number, git info?
strcpy(ptr->driverName, driverName);
strcpy(ptr->driverInfo, driverInfo);
//TODO this is what we are aspiring to pass...
ptr->conformanceVersion.major = 1;
ptr->conformanceVersion.minor = 1;
ptr->conformanceVersion.subminor = 2;
ptr->conformanceVersion.patch = 1;
}
}
}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceFormatProperties(
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VkPhysicalDevice physicalDevice,
VkFormat format,
VkFormatProperties* pFormatProperties)
{
assert(physicalDevice);
assert(pFormatProperties);
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switch(format)
{
//TODO what formats could we pull off
//case VK_FORMAT_D16_UNORM:
case VK_FORMAT_X8_D24_UNORM_PACK32:
//case VK_FORMAT_D32_SFLOAT:
//case VK_FORMAT_S8_UINT:
//case VK_FORMAT_D16_UNORM_S8_UINT:
case VK_FORMAT_D24_UNORM_S8_UINT:
//case VK_FORMAT_D32_SFLOAT_S8_UINT:
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{
pFormatProperties->linearTilingFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
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| VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT
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;
pFormatProperties->optimalTilingFeatures = 0
| VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT
| VK_FORMAT_FEATURE_STORAGE_IMAGE_BIT
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| VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT
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| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_BLIT_DST_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_DST_BIT
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| VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT
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;
pFormatProperties->bufferFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
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| VK_FORMAT_FEATURE_BLIT_SRC_BIT
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;
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break;
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}
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//supported texture formats
case VK_FORMAT_R8G8B8_UNORM:
case VK_FORMAT_R5G5B5A1_UNORM_PACK16:
case VK_FORMAT_R4G4B4A4_UNORM_PACK16:
case VK_FORMAT_R8G8_UNORM:
case VK_FORMAT_R16_SFLOAT:
case VK_FORMAT_R16_SINT:
case VK_FORMAT_R8_UNORM:
case VK_FORMAT_R8_SINT:
case VK_FORMAT_ETC2_R8G8B8_UNORM_BLOCK:
case VK_FORMAT_G8B8G8R8_422_UNORM:
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{
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pFormatProperties->linearTilingFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
;
pFormatProperties->optimalTilingFeatures = 0
| VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT
| VK_FORMAT_FEATURE_STORAGE_IMAGE_BIT
| VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_BLIT_DST_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_DST_BIT
;
pFormatProperties->bufferFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
;
break;
}
//supported render target formats
case VK_FORMAT_R16G16B16A16_SFLOAT:
case VK_FORMAT_R8G8B8A8_UNORM:
case VK_FORMAT_B5G6R5_UNORM_PACK16:
{
pFormatProperties->linearTilingFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
;
pFormatProperties->optimalTilingFeatures = 0
| VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT
| VK_FORMAT_FEATURE_STORAGE_IMAGE_BIT
| VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
| VK_FORMAT_FEATURE_BLIT_DST_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
| VK_FORMAT_FEATURE_TRANSFER_DST_BIT
| VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT
| VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BLEND_BIT
;
pFormatProperties->bufferFeatures = 0
| VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT
| VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT
| VK_FORMAT_FEATURE_TRANSFER_SRC_BIT
| VK_FORMAT_FEATURE_BLIT_SRC_BIT
;
break;
}
default:
pFormatProperties->linearTilingFeatures = 0;
pFormatProperties->optimalTilingFeatures = 0;
pFormatProperties->bufferFeatures = 0;
break;
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}
}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceFormatProperties2(
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VkPhysicalDevice physicalDevice,
VkFormat format,
VkFormatProperties2* pFormatProperties)
{
assert(physicalDevice);
assert(pFormatProperties);
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rpi_vkGetPhysicalDeviceFormatProperties(physicalDevice, format, &pFormatProperties->formatProperties);
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}
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkGetPhysicalDeviceImageFormatProperties(
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VkPhysicalDevice physicalDevice,
VkFormat format,
VkImageType type,
VkImageTiling tiling,
VkImageUsageFlags usage,
VkImageCreateFlags flags,
VkImageFormatProperties* pImageFormatProperties)
{
assert(physicalDevice);
assert(pImageFormatProperties);
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//TODO usage, flags tiling etc.
//do all this per format...
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VkFormat ycbcrConversionRequiredFormats[] =
{
VK_FORMAT_G8B8G8R8_422_UNORM
,VK_FORMAT_B8G8R8G8_422_UNORM
,VK_FORMAT_G8_B8_R8_3PLANE_420_UNORM
,VK_FORMAT_G8_B8R8_2PLANE_420_UNORM
,VK_FORMAT_G8_B8_R8_3PLANE_422_UNORM
,VK_FORMAT_G8_B8R8_2PLANE_422_UNORM
,VK_FORMAT_G8_B8_R8_3PLANE_444_UNORM
,VK_FORMAT_R10X6G10X6B10X6A10X6_UNORM_4PACK16
,VK_FORMAT_G10X6B10X6G10X6R10X6_422_UNORM_4PACK16
,VK_FORMAT_B10X6G10X6R10X6G10X6_422_UNORM_4PACK16
,VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_420_UNORM_3PACK16
,VK_FORMAT_G10X6_B10X6R10X6_2PLANE_420_UNORM_3PACK16
,VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_422_UNORM_3PACK16
,VK_FORMAT_G10X6_B10X6R10X6_2PLANE_422_UNORM_3PACK16
,VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_444_UNORM_3PACK16
,VK_FORMAT_R12X4G12X4B12X4A12X4_UNORM_4PACK16
,VK_FORMAT_G12X4B12X4G12X4R12X4_422_UNORM_4PACK16
,VK_FORMAT_B12X4G12X4R12X4G12X4_422_UNORM_4PACK16
,VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_420_UNORM_3PACK16
,VK_FORMAT_G12X4_B12X4R12X4_2PLANE_420_UNORM_3PACK16
,VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_422_UNORM_3PACK16
,VK_FORMAT_G12X4_B12X4R12X4_2PLANE_422_UNORM_3PACK16
,VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_444_UNORM_3PACK16
,VK_FORMAT_G16B16G16R16_422_UNORM
,VK_FORMAT_B16G16R16G16_422_UNORM
,VK_FORMAT_G16_B16_R16_3PLANE_420_UNORM
,VK_FORMAT_G16_B16R16_2PLANE_420_UNORM
,VK_FORMAT_G16_B16_R16_3PLANE_422_UNORM
,VK_FORMAT_G16_B16R16_2PLANE_422_UNORM
,VK_FORMAT_G16_B16_R16_3PLANE_444_UNORM
};
#define numYcbcrConversionRequiredFormats (sizeof(ycbcrConversionRequiredFormats)/sizeof(VkFormat))
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uint32_t supported = 0;
for(uint32_t c = 0; c < numSupportedFormats; ++c)
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{
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if(format == supportedFormats[c])
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{
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supported = 1;
break;
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}
}
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if(!supported)
{
return VK_ERROR_FORMAT_NOT_SUPPORTED;
}
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pImageFormatProperties->maxArrayLayers = _limits.maxImageArrayLayers;
pImageFormatProperties->maxExtent.width = 1;
pImageFormatProperties->maxExtent.height = 1;
pImageFormatProperties->maxExtent.depth = 1;
pImageFormatProperties->sampleCounts = _limits.framebufferColorSampleCounts;
if(type == VK_IMAGE_TYPE_1D)
{
pImageFormatProperties->maxExtent.width = _limits.maxImageDimension1D;
pImageFormatProperties->maxMipLevels = ulog2(_limits.maxImageDimension1D) + 1;
}
else if(type == VK_IMAGE_TYPE_2D)
{
pImageFormatProperties->maxExtent.width = _limits.maxImageDimension2D;
pImageFormatProperties->maxExtent.height = _limits.maxImageDimension2D;
pImageFormatProperties->maxMipLevels = ulog2(_limits.maxImageDimension2D) + 1;
}
else
{
pImageFormatProperties->maxExtent.width = _limits.maxImageDimension3D;
pImageFormatProperties->maxExtent.height = _limits.maxImageDimension3D;
pImageFormatProperties->maxExtent.depth = _limits.maxImageDimension3D;
pImageFormatProperties->maxMipLevels = ulog2(_limits.maxImageDimension3D) + 1;
}
int ycbcrConversionRequired = 0;
for(uint32_t c = 0; c < numYcbcrConversionRequiredFormats; ++c)
{
if(format == ycbcrConversionRequiredFormats[c])
{
ycbcrConversionRequired = 1;
break;
}
}
if(ycbcrConversionRequired ||
tiling == VK_IMAGE_TILING_LINEAR ||
type != VK_IMAGE_TYPE_2D ||
flags & VK_IMAGE_CREATE_CUBE_COMPATIBLE_BIT ||
flags & VK_IMAGE_CREATE_SPARSE_BINDING_BIT
)
{
pImageFormatProperties->sampleCounts = VK_SAMPLE_COUNT_1_BIT;
}
//TODO real max size?
//2^31
pImageFormatProperties->maxResourceSize = 1<<31;
return VK_SUCCESS;
}
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkGetPhysicalDeviceImageFormatProperties2(
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VkPhysicalDevice physicalDevice,
const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo,
VkImageFormatProperties2* pImageFormatProperties)
{
assert(physicalDevice);
assert(pImageFormatProperties);
assert(pImageFormatInfo);
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//TODO handle pNext
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return rpi_vkGetPhysicalDeviceImageFormatProperties(physicalDevice,
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pImageFormatInfo->format,
pImageFormatInfo->type,
pImageFormatInfo->tiling,
pImageFormatInfo->usage,
pImageFormatInfo->flags,
&pImageFormatProperties->imageFormatProperties);
}
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VKAPI_ATTR VkResult VKAPI_CALL rpi_vkEnumerateDeviceLayerProperties(
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VkPhysicalDevice physicalDevice,
uint32_t* pPropertyCount,
VkLayerProperties* pProperties)
{
//deprecated, just return instance layers
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return rpi_vkEnumerateInstanceLayerProperties(pPropertyCount, pProperties);
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}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceFeatures2(
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VkPhysicalDevice physicalDevice,
VkPhysicalDeviceFeatures2* pFeatures)
{
assert(physicalDevice);
assert(pFeatures);
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rpi_vkGetPhysicalDeviceFeatures(physicalDevice, &pFeatures->features);
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}
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VKAPI_ATTR void VKAPI_CALL rpi_vkGetPhysicalDeviceQueueFamilyProperties2(
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VkPhysicalDevice physicalDevice,
uint32_t* pQueueFamilyPropertyCount,
VkQueueFamilyProperties2* pQueueFamilyProperties)
{
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assert(physicalDevice);
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rpi_vkGetPhysicalDeviceQueueFamilyProperties(physicalDevice, pQueueFamilyPropertyCount, pQueueFamilyProperties);
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}