/* This file is generated by venus-protocol. See vn_protocol_driver.h. */ /* * Copyright 2020 Google LLC * SPDX-License-Identifier: MIT */ #ifndef VN_PROTOCOL_DRIVER_QUEUE_H #define VN_PROTOCOL_DRIVER_QUEUE_H #include "vn_instance.h" #include "vn_protocol_driver_structs.h" /* struct VkDeviceGroupSubmitInfo chain */ static inline size_t vn_sizeof_VkDeviceGroupSubmitInfo_pnext(const void *val) { /* no known/supported struct */ return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkDeviceGroupSubmitInfo_self(const VkDeviceGroupSubmitInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_uint32_t(&val->waitSemaphoreCount); if (val->pWaitSemaphoreDeviceIndices) { size += vn_sizeof_array_size(val->waitSemaphoreCount); size += vn_sizeof_uint32_t_array(val->pWaitSemaphoreDeviceIndices, val->waitSemaphoreCount); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->commandBufferCount); if (val->pCommandBufferDeviceMasks) { size += vn_sizeof_array_size(val->commandBufferCount); size += vn_sizeof_uint32_t_array(val->pCommandBufferDeviceMasks, val->commandBufferCount); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->signalSemaphoreCount); if (val->pSignalSemaphoreDeviceIndices) { size += vn_sizeof_array_size(val->signalSemaphoreCount); size += vn_sizeof_uint32_t_array(val->pSignalSemaphoreDeviceIndices, val->signalSemaphoreCount); } else { size += vn_sizeof_array_size(0); } return size; } static inline size_t vn_sizeof_VkDeviceGroupSubmitInfo(const VkDeviceGroupSubmitInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkDeviceGroupSubmitInfo_pnext(val->pNext); size += vn_sizeof_VkDeviceGroupSubmitInfo_self(val); return size; } static inline void vn_encode_VkDeviceGroupSubmitInfo_pnext(struct vn_cs_encoder *enc, const void *val) { /* no known/supported struct */ vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkDeviceGroupSubmitInfo_self(struct vn_cs_encoder *enc, const VkDeviceGroupSubmitInfo *val) { /* skip val->{sType,pNext} */ vn_encode_uint32_t(enc, &val->waitSemaphoreCount); if (val->pWaitSemaphoreDeviceIndices) { vn_encode_array_size(enc, val->waitSemaphoreCount); vn_encode_uint32_t_array(enc, val->pWaitSemaphoreDeviceIndices, val->waitSemaphoreCount); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->commandBufferCount); if (val->pCommandBufferDeviceMasks) { vn_encode_array_size(enc, val->commandBufferCount); vn_encode_uint32_t_array(enc, val->pCommandBufferDeviceMasks, val->commandBufferCount); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->signalSemaphoreCount); if (val->pSignalSemaphoreDeviceIndices) { vn_encode_array_size(enc, val->signalSemaphoreCount); vn_encode_uint32_t_array(enc, val->pSignalSemaphoreDeviceIndices, val->signalSemaphoreCount); } else { vn_encode_array_size(enc, 0); } } static inline void vn_encode_VkDeviceGroupSubmitInfo(struct vn_cs_encoder *enc, const VkDeviceGroupSubmitInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO }); vn_encode_VkDeviceGroupSubmitInfo_pnext(enc, val->pNext); vn_encode_VkDeviceGroupSubmitInfo_self(enc, val); } /* struct VkProtectedSubmitInfo chain */ static inline size_t vn_sizeof_VkProtectedSubmitInfo_pnext(const void *val) { /* no known/supported struct */ return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkProtectedSubmitInfo_self(const VkProtectedSubmitInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_VkBool32(&val->protectedSubmit); return size; } static inline size_t vn_sizeof_VkProtectedSubmitInfo(const VkProtectedSubmitInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkProtectedSubmitInfo_pnext(val->pNext); size += vn_sizeof_VkProtectedSubmitInfo_self(val); return size; } static inline void vn_encode_VkProtectedSubmitInfo_pnext(struct vn_cs_encoder *enc, const void *val) { /* no known/supported struct */ vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkProtectedSubmitInfo_self(struct vn_cs_encoder *enc, const VkProtectedSubmitInfo *val) { /* skip val->{sType,pNext} */ vn_encode_VkBool32(enc, &val->protectedSubmit); } static inline void vn_encode_VkProtectedSubmitInfo(struct vn_cs_encoder *enc, const VkProtectedSubmitInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_PROTECTED_SUBMIT_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_PROTECTED_SUBMIT_INFO }); vn_encode_VkProtectedSubmitInfo_pnext(enc, val->pNext); vn_encode_VkProtectedSubmitInfo_self(enc, val); } /* struct VkTimelineSemaphoreSubmitInfo chain */ static inline size_t vn_sizeof_VkTimelineSemaphoreSubmitInfo_pnext(const void *val) { /* no known/supported struct */ return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkTimelineSemaphoreSubmitInfo_self(const VkTimelineSemaphoreSubmitInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_uint32_t(&val->waitSemaphoreValueCount); if (val->pWaitSemaphoreValues) { size += vn_sizeof_array_size(val->waitSemaphoreValueCount); size += vn_sizeof_uint64_t_array(val->pWaitSemaphoreValues, val->waitSemaphoreValueCount); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->signalSemaphoreValueCount); if (val->pSignalSemaphoreValues) { size += vn_sizeof_array_size(val->signalSemaphoreValueCount); size += vn_sizeof_uint64_t_array(val->pSignalSemaphoreValues, val->signalSemaphoreValueCount); } else { size += vn_sizeof_array_size(0); } return size; } static inline size_t vn_sizeof_VkTimelineSemaphoreSubmitInfo(const VkTimelineSemaphoreSubmitInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkTimelineSemaphoreSubmitInfo_pnext(val->pNext); size += vn_sizeof_VkTimelineSemaphoreSubmitInfo_self(val); return size; } static inline void vn_encode_VkTimelineSemaphoreSubmitInfo_pnext(struct vn_cs_encoder *enc, const void *val) { /* no known/supported struct */ vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkTimelineSemaphoreSubmitInfo_self(struct vn_cs_encoder *enc, const VkTimelineSemaphoreSubmitInfo *val) { /* skip val->{sType,pNext} */ vn_encode_uint32_t(enc, &val->waitSemaphoreValueCount); if (val->pWaitSemaphoreValues) { vn_encode_array_size(enc, val->waitSemaphoreValueCount); vn_encode_uint64_t_array(enc, val->pWaitSemaphoreValues, val->waitSemaphoreValueCount); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->signalSemaphoreValueCount); if (val->pSignalSemaphoreValues) { vn_encode_array_size(enc, val->signalSemaphoreValueCount); vn_encode_uint64_t_array(enc, val->pSignalSemaphoreValues, val->signalSemaphoreValueCount); } else { vn_encode_array_size(enc, 0); } } static inline void vn_encode_VkTimelineSemaphoreSubmitInfo(struct vn_cs_encoder *enc, const VkTimelineSemaphoreSubmitInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO }); vn_encode_VkTimelineSemaphoreSubmitInfo_pnext(enc, val->pNext); vn_encode_VkTimelineSemaphoreSubmitInfo_self(enc, val); } /* struct VkSubmitInfo chain */ static inline size_t vn_sizeof_VkSubmitInfo_pnext(const void *val) { const VkBaseInStructure *pnext = val; size_t size = 0; while (pnext) { switch ((int32_t)pnext->sType) { case VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO: size += vn_sizeof_simple_pointer(pnext); size += vn_sizeof_VkStructureType(&pnext->sType); size += vn_sizeof_VkSubmitInfo_pnext(pnext->pNext); size += vn_sizeof_VkDeviceGroupSubmitInfo_self((const VkDeviceGroupSubmitInfo *)pnext); return size; case VK_STRUCTURE_TYPE_PROTECTED_SUBMIT_INFO: size += vn_sizeof_simple_pointer(pnext); size += vn_sizeof_VkStructureType(&pnext->sType); size += vn_sizeof_VkSubmitInfo_pnext(pnext->pNext); size += vn_sizeof_VkProtectedSubmitInfo_self((const VkProtectedSubmitInfo *)pnext); return size; case VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO: size += vn_sizeof_simple_pointer(pnext); size += vn_sizeof_VkStructureType(&pnext->sType); size += vn_sizeof_VkSubmitInfo_pnext(pnext->pNext); size += vn_sizeof_VkTimelineSemaphoreSubmitInfo_self((const VkTimelineSemaphoreSubmitInfo *)pnext); return size; default: /* ignore unknown/unsupported struct */ break; } pnext = pnext->pNext; } return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkSubmitInfo_self(const VkSubmitInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_uint32_t(&val->waitSemaphoreCount); if (val->pWaitSemaphores) { size += vn_sizeof_array_size(val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) size += vn_sizeof_VkSemaphore(&val->pWaitSemaphores[i]); } else { size += vn_sizeof_array_size(0); } if (val->pWaitDstStageMask) { size += vn_sizeof_array_size(val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) size += vn_sizeof_VkFlags(&val->pWaitDstStageMask[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->commandBufferCount); if (val->pCommandBuffers) { size += vn_sizeof_array_size(val->commandBufferCount); for (uint32_t i = 0; i < val->commandBufferCount; i++) size += vn_sizeof_VkCommandBuffer(&val->pCommandBuffers[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->signalSemaphoreCount); if (val->pSignalSemaphores) { size += vn_sizeof_array_size(val->signalSemaphoreCount); for (uint32_t i = 0; i < val->signalSemaphoreCount; i++) size += vn_sizeof_VkSemaphore(&val->pSignalSemaphores[i]); } else { size += vn_sizeof_array_size(0); } return size; } static inline size_t vn_sizeof_VkSubmitInfo(const VkSubmitInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkSubmitInfo_pnext(val->pNext); size += vn_sizeof_VkSubmitInfo_self(val); return size; } static inline void vn_encode_VkSubmitInfo_pnext(struct vn_cs_encoder *enc, const void *val) { const VkBaseInStructure *pnext = val; while (pnext) { switch ((int32_t)pnext->sType) { case VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO: vn_encode_simple_pointer(enc, pnext); vn_encode_VkStructureType(enc, &pnext->sType); vn_encode_VkSubmitInfo_pnext(enc, pnext->pNext); vn_encode_VkDeviceGroupSubmitInfo_self(enc, (const VkDeviceGroupSubmitInfo *)pnext); return; case VK_STRUCTURE_TYPE_PROTECTED_SUBMIT_INFO: vn_encode_simple_pointer(enc, pnext); vn_encode_VkStructureType(enc, &pnext->sType); vn_encode_VkSubmitInfo_pnext(enc, pnext->pNext); vn_encode_VkProtectedSubmitInfo_self(enc, (const VkProtectedSubmitInfo *)pnext); return; case VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO: vn_encode_simple_pointer(enc, pnext); vn_encode_VkStructureType(enc, &pnext->sType); vn_encode_VkSubmitInfo_pnext(enc, pnext->pNext); vn_encode_VkTimelineSemaphoreSubmitInfo_self(enc, (const VkTimelineSemaphoreSubmitInfo *)pnext); return; default: /* ignore unknown/unsupported struct */ break; } pnext = pnext->pNext; } vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkSubmitInfo_self(struct vn_cs_encoder *enc, const VkSubmitInfo *val) { /* skip val->{sType,pNext} */ vn_encode_uint32_t(enc, &val->waitSemaphoreCount); if (val->pWaitSemaphores) { vn_encode_array_size(enc, val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) vn_encode_VkSemaphore(enc, &val->pWaitSemaphores[i]); } else { vn_encode_array_size(enc, 0); } if (val->pWaitDstStageMask) { vn_encode_array_size(enc, val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) vn_encode_VkFlags(enc, &val->pWaitDstStageMask[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->commandBufferCount); if (val->pCommandBuffers) { vn_encode_array_size(enc, val->commandBufferCount); for (uint32_t i = 0; i < val->commandBufferCount; i++) vn_encode_VkCommandBuffer(enc, &val->pCommandBuffers[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->signalSemaphoreCount); if (val->pSignalSemaphores) { vn_encode_array_size(enc, val->signalSemaphoreCount); for (uint32_t i = 0; i < val->signalSemaphoreCount; i++) vn_encode_VkSemaphore(enc, &val->pSignalSemaphores[i]); } else { vn_encode_array_size(enc, 0); } } static inline void vn_encode_VkSubmitInfo(struct vn_cs_encoder *enc, const VkSubmitInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_SUBMIT_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_SUBMIT_INFO }); vn_encode_VkSubmitInfo_pnext(enc, val->pNext); vn_encode_VkSubmitInfo_self(enc, val); } /* struct VkSparseMemoryBind */ static inline size_t vn_sizeof_VkSparseMemoryBind(const VkSparseMemoryBind *val) { size_t size = 0; size += vn_sizeof_VkDeviceSize(&val->resourceOffset); size += vn_sizeof_VkDeviceSize(&val->size); size += vn_sizeof_VkDeviceMemory(&val->memory); size += vn_sizeof_VkDeviceSize(&val->memoryOffset); size += vn_sizeof_VkFlags(&val->flags); return size; } static inline void vn_encode_VkSparseMemoryBind(struct vn_cs_encoder *enc, const VkSparseMemoryBind *val) { vn_encode_VkDeviceSize(enc, &val->resourceOffset); vn_encode_VkDeviceSize(enc, &val->size); vn_encode_VkDeviceMemory(enc, &val->memory); vn_encode_VkDeviceSize(enc, &val->memoryOffset); vn_encode_VkFlags(enc, &val->flags); } /* struct VkSparseBufferMemoryBindInfo */ static inline size_t vn_sizeof_VkSparseBufferMemoryBindInfo(const VkSparseBufferMemoryBindInfo *val) { size_t size = 0; size += vn_sizeof_VkBuffer(&val->buffer); size += vn_sizeof_uint32_t(&val->bindCount); if (val->pBinds) { size += vn_sizeof_array_size(val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) size += vn_sizeof_VkSparseMemoryBind(&val->pBinds[i]); } else { size += vn_sizeof_array_size(0); } return size; } static inline void vn_encode_VkSparseBufferMemoryBindInfo(struct vn_cs_encoder *enc, const VkSparseBufferMemoryBindInfo *val) { vn_encode_VkBuffer(enc, &val->buffer); vn_encode_uint32_t(enc, &val->bindCount); if (val->pBinds) { vn_encode_array_size(enc, val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) vn_encode_VkSparseMemoryBind(enc, &val->pBinds[i]); } else { vn_encode_array_size(enc, 0); } } /* struct VkSparseImageOpaqueMemoryBindInfo */ static inline size_t vn_sizeof_VkSparseImageOpaqueMemoryBindInfo(const VkSparseImageOpaqueMemoryBindInfo *val) { size_t size = 0; size += vn_sizeof_VkImage(&val->image); size += vn_sizeof_uint32_t(&val->bindCount); if (val->pBinds) { size += vn_sizeof_array_size(val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) size += vn_sizeof_VkSparseMemoryBind(&val->pBinds[i]); } else { size += vn_sizeof_array_size(0); } return size; } static inline void vn_encode_VkSparseImageOpaqueMemoryBindInfo(struct vn_cs_encoder *enc, const VkSparseImageOpaqueMemoryBindInfo *val) { vn_encode_VkImage(enc, &val->image); vn_encode_uint32_t(enc, &val->bindCount); if (val->pBinds) { vn_encode_array_size(enc, val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) vn_encode_VkSparseMemoryBind(enc, &val->pBinds[i]); } else { vn_encode_array_size(enc, 0); } } /* struct VkSparseImageMemoryBind */ static inline size_t vn_sizeof_VkSparseImageMemoryBind(const VkSparseImageMemoryBind *val) { size_t size = 0; size += vn_sizeof_VkImageSubresource(&val->subresource); size += vn_sizeof_VkOffset3D(&val->offset); size += vn_sizeof_VkExtent3D(&val->extent); size += vn_sizeof_VkDeviceMemory(&val->memory); size += vn_sizeof_VkDeviceSize(&val->memoryOffset); size += vn_sizeof_VkFlags(&val->flags); return size; } static inline void vn_encode_VkSparseImageMemoryBind(struct vn_cs_encoder *enc, const VkSparseImageMemoryBind *val) { vn_encode_VkImageSubresource(enc, &val->subresource); vn_encode_VkOffset3D(enc, &val->offset); vn_encode_VkExtent3D(enc, &val->extent); vn_encode_VkDeviceMemory(enc, &val->memory); vn_encode_VkDeviceSize(enc, &val->memoryOffset); vn_encode_VkFlags(enc, &val->flags); } /* struct VkSparseImageMemoryBindInfo */ static inline size_t vn_sizeof_VkSparseImageMemoryBindInfo(const VkSparseImageMemoryBindInfo *val) { size_t size = 0; size += vn_sizeof_VkImage(&val->image); size += vn_sizeof_uint32_t(&val->bindCount); if (val->pBinds) { size += vn_sizeof_array_size(val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) size += vn_sizeof_VkSparseImageMemoryBind(&val->pBinds[i]); } else { size += vn_sizeof_array_size(0); } return size; } static inline void vn_encode_VkSparseImageMemoryBindInfo(struct vn_cs_encoder *enc, const VkSparseImageMemoryBindInfo *val) { vn_encode_VkImage(enc, &val->image); vn_encode_uint32_t(enc, &val->bindCount); if (val->pBinds) { vn_encode_array_size(enc, val->bindCount); for (uint32_t i = 0; i < val->bindCount; i++) vn_encode_VkSparseImageMemoryBind(enc, &val->pBinds[i]); } else { vn_encode_array_size(enc, 0); } } /* struct VkDeviceGroupBindSparseInfo chain */ static inline size_t vn_sizeof_VkDeviceGroupBindSparseInfo_pnext(const void *val) { /* no known/supported struct */ return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkDeviceGroupBindSparseInfo_self(const VkDeviceGroupBindSparseInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_uint32_t(&val->resourceDeviceIndex); size += vn_sizeof_uint32_t(&val->memoryDeviceIndex); return size; } static inline size_t vn_sizeof_VkDeviceGroupBindSparseInfo(const VkDeviceGroupBindSparseInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkDeviceGroupBindSparseInfo_pnext(val->pNext); size += vn_sizeof_VkDeviceGroupBindSparseInfo_self(val); return size; } static inline void vn_encode_VkDeviceGroupBindSparseInfo_pnext(struct vn_cs_encoder *enc, const void *val) { /* no known/supported struct */ vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkDeviceGroupBindSparseInfo_self(struct vn_cs_encoder *enc, const VkDeviceGroupBindSparseInfo *val) { /* skip val->{sType,pNext} */ vn_encode_uint32_t(enc, &val->resourceDeviceIndex); vn_encode_uint32_t(enc, &val->memoryDeviceIndex); } static inline void vn_encode_VkDeviceGroupBindSparseInfo(struct vn_cs_encoder *enc, const VkDeviceGroupBindSparseInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO }); vn_encode_VkDeviceGroupBindSparseInfo_pnext(enc, val->pNext); vn_encode_VkDeviceGroupBindSparseInfo_self(enc, val); } /* struct VkBindSparseInfo chain */ static inline size_t vn_sizeof_VkBindSparseInfo_pnext(const void *val) { const VkBaseInStructure *pnext = val; size_t size = 0; while (pnext) { switch ((int32_t)pnext->sType) { case VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO: size += vn_sizeof_simple_pointer(pnext); size += vn_sizeof_VkStructureType(&pnext->sType); size += vn_sizeof_VkBindSparseInfo_pnext(pnext->pNext); size += vn_sizeof_VkDeviceGroupBindSparseInfo_self((const VkDeviceGroupBindSparseInfo *)pnext); return size; case VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO: size += vn_sizeof_simple_pointer(pnext); size += vn_sizeof_VkStructureType(&pnext->sType); size += vn_sizeof_VkBindSparseInfo_pnext(pnext->pNext); size += vn_sizeof_VkTimelineSemaphoreSubmitInfo_self((const VkTimelineSemaphoreSubmitInfo *)pnext); return size; default: /* ignore unknown/unsupported struct */ break; } pnext = pnext->pNext; } return vn_sizeof_simple_pointer(NULL); } static inline size_t vn_sizeof_VkBindSparseInfo_self(const VkBindSparseInfo *val) { size_t size = 0; /* skip val->{sType,pNext} */ size += vn_sizeof_uint32_t(&val->waitSemaphoreCount); if (val->pWaitSemaphores) { size += vn_sizeof_array_size(val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) size += vn_sizeof_VkSemaphore(&val->pWaitSemaphores[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->bufferBindCount); if (val->pBufferBinds) { size += vn_sizeof_array_size(val->bufferBindCount); for (uint32_t i = 0; i < val->bufferBindCount; i++) size += vn_sizeof_VkSparseBufferMemoryBindInfo(&val->pBufferBinds[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->imageOpaqueBindCount); if (val->pImageOpaqueBinds) { size += vn_sizeof_array_size(val->imageOpaqueBindCount); for (uint32_t i = 0; i < val->imageOpaqueBindCount; i++) size += vn_sizeof_VkSparseImageOpaqueMemoryBindInfo(&val->pImageOpaqueBinds[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->imageBindCount); if (val->pImageBinds) { size += vn_sizeof_array_size(val->imageBindCount); for (uint32_t i = 0; i < val->imageBindCount; i++) size += vn_sizeof_VkSparseImageMemoryBindInfo(&val->pImageBinds[i]); } else { size += vn_sizeof_array_size(0); } size += vn_sizeof_uint32_t(&val->signalSemaphoreCount); if (val->pSignalSemaphores) { size += vn_sizeof_array_size(val->signalSemaphoreCount); for (uint32_t i = 0; i < val->signalSemaphoreCount; i++) size += vn_sizeof_VkSemaphore(&val->pSignalSemaphores[i]); } else { size += vn_sizeof_array_size(0); } return size; } static inline size_t vn_sizeof_VkBindSparseInfo(const VkBindSparseInfo *val) { size_t size = 0; size += vn_sizeof_VkStructureType(&val->sType); size += vn_sizeof_VkBindSparseInfo_pnext(val->pNext); size += vn_sizeof_VkBindSparseInfo_self(val); return size; } static inline void vn_encode_VkBindSparseInfo_pnext(struct vn_cs_encoder *enc, const void *val) { const VkBaseInStructure *pnext = val; while (pnext) { switch ((int32_t)pnext->sType) { case VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO: vn_encode_simple_pointer(enc, pnext); vn_encode_VkStructureType(enc, &pnext->sType); vn_encode_VkBindSparseInfo_pnext(enc, pnext->pNext); vn_encode_VkDeviceGroupBindSparseInfo_self(enc, (const VkDeviceGroupBindSparseInfo *)pnext); return; case VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO: vn_encode_simple_pointer(enc, pnext); vn_encode_VkStructureType(enc, &pnext->sType); vn_encode_VkBindSparseInfo_pnext(enc, pnext->pNext); vn_encode_VkTimelineSemaphoreSubmitInfo_self(enc, (const VkTimelineSemaphoreSubmitInfo *)pnext); return; default: /* ignore unknown/unsupported struct */ break; } pnext = pnext->pNext; } vn_encode_simple_pointer(enc, NULL); } static inline void vn_encode_VkBindSparseInfo_self(struct vn_cs_encoder *enc, const VkBindSparseInfo *val) { /* skip val->{sType,pNext} */ vn_encode_uint32_t(enc, &val->waitSemaphoreCount); if (val->pWaitSemaphores) { vn_encode_array_size(enc, val->waitSemaphoreCount); for (uint32_t i = 0; i < val->waitSemaphoreCount; i++) vn_encode_VkSemaphore(enc, &val->pWaitSemaphores[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->bufferBindCount); if (val->pBufferBinds) { vn_encode_array_size(enc, val->bufferBindCount); for (uint32_t i = 0; i < val->bufferBindCount; i++) vn_encode_VkSparseBufferMemoryBindInfo(enc, &val->pBufferBinds[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->imageOpaqueBindCount); if (val->pImageOpaqueBinds) { vn_encode_array_size(enc, val->imageOpaqueBindCount); for (uint32_t i = 0; i < val->imageOpaqueBindCount; i++) vn_encode_VkSparseImageOpaqueMemoryBindInfo(enc, &val->pImageOpaqueBinds[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->imageBindCount); if (val->pImageBinds) { vn_encode_array_size(enc, val->imageBindCount); for (uint32_t i = 0; i < val->imageBindCount; i++) vn_encode_VkSparseImageMemoryBindInfo(enc, &val->pImageBinds[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_uint32_t(enc, &val->signalSemaphoreCount); if (val->pSignalSemaphores) { vn_encode_array_size(enc, val->signalSemaphoreCount); for (uint32_t i = 0; i < val->signalSemaphoreCount; i++) vn_encode_VkSemaphore(enc, &val->pSignalSemaphores[i]); } else { vn_encode_array_size(enc, 0); } } static inline void vn_encode_VkBindSparseInfo(struct vn_cs_encoder *enc, const VkBindSparseInfo *val) { assert(val->sType == VK_STRUCTURE_TYPE_BIND_SPARSE_INFO); vn_encode_VkStructureType(enc, &(VkStructureType){ VK_STRUCTURE_TYPE_BIND_SPARSE_INFO }); vn_encode_VkBindSparseInfo_pnext(enc, val->pNext); vn_encode_VkBindSparseInfo_self(enc, val); } static inline size_t vn_sizeof_vkQueueSubmit(VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueSubmit_EXT; const VkFlags cmd_flags = 0; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type) + vn_sizeof_VkFlags(&cmd_flags); cmd_size += vn_sizeof_VkQueue(&queue); cmd_size += vn_sizeof_uint32_t(&submitCount); if (pSubmits) { cmd_size += vn_sizeof_array_size(submitCount); for (uint32_t i = 0; i < submitCount; i++) cmd_size += vn_sizeof_VkSubmitInfo(&pSubmits[i]); } else { cmd_size += vn_sizeof_array_size(0); } cmd_size += vn_sizeof_VkFence(&fence); return cmd_size; } static inline void vn_encode_vkQueueSubmit(struct vn_cs_encoder *enc, VkCommandFlagsEXT cmd_flags, VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueSubmit_EXT; vn_encode_VkCommandTypeEXT(enc, &cmd_type); vn_encode_VkFlags(enc, &cmd_flags); vn_encode_VkQueue(enc, &queue); vn_encode_uint32_t(enc, &submitCount); if (pSubmits) { vn_encode_array_size(enc, submitCount); for (uint32_t i = 0; i < submitCount; i++) vn_encode_VkSubmitInfo(enc, &pSubmits[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_VkFence(enc, &fence); } static inline size_t vn_sizeof_vkQueueSubmit_reply(VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueSubmit_EXT; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type); VkResult ret; cmd_size += vn_sizeof_VkResult(&ret); /* skip queue */ /* skip submitCount */ /* skip pSubmits */ /* skip fence */ return cmd_size; } static inline VkResult vn_decode_vkQueueSubmit_reply(struct vn_cs_decoder *dec, VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { VkCommandTypeEXT command_type; vn_decode_VkCommandTypeEXT(dec, &command_type); assert(command_type == VK_COMMAND_TYPE_vkQueueSubmit_EXT); VkResult ret; vn_decode_VkResult(dec, &ret); /* skip queue */ /* skip submitCount */ /* skip pSubmits */ /* skip fence */ return ret; } static inline size_t vn_sizeof_vkQueueWaitIdle(VkQueue queue) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueWaitIdle_EXT; const VkFlags cmd_flags = 0; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type) + vn_sizeof_VkFlags(&cmd_flags); cmd_size += vn_sizeof_VkQueue(&queue); return cmd_size; } static inline void vn_encode_vkQueueWaitIdle(struct vn_cs_encoder *enc, VkCommandFlagsEXT cmd_flags, VkQueue queue) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueWaitIdle_EXT; vn_encode_VkCommandTypeEXT(enc, &cmd_type); vn_encode_VkFlags(enc, &cmd_flags); vn_encode_VkQueue(enc, &queue); } static inline size_t vn_sizeof_vkQueueWaitIdle_reply(VkQueue queue) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueWaitIdle_EXT; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type); VkResult ret; cmd_size += vn_sizeof_VkResult(&ret); /* skip queue */ return cmd_size; } static inline VkResult vn_decode_vkQueueWaitIdle_reply(struct vn_cs_decoder *dec, VkQueue queue) { VkCommandTypeEXT command_type; vn_decode_VkCommandTypeEXT(dec, &command_type); assert(command_type == VK_COMMAND_TYPE_vkQueueWaitIdle_EXT); VkResult ret; vn_decode_VkResult(dec, &ret); /* skip queue */ return ret; } static inline size_t vn_sizeof_vkQueueBindSparse(VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueBindSparse_EXT; const VkFlags cmd_flags = 0; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type) + vn_sizeof_VkFlags(&cmd_flags); cmd_size += vn_sizeof_VkQueue(&queue); cmd_size += vn_sizeof_uint32_t(&bindInfoCount); if (pBindInfo) { cmd_size += vn_sizeof_array_size(bindInfoCount); for (uint32_t i = 0; i < bindInfoCount; i++) cmd_size += vn_sizeof_VkBindSparseInfo(&pBindInfo[i]); } else { cmd_size += vn_sizeof_array_size(0); } cmd_size += vn_sizeof_VkFence(&fence); return cmd_size; } static inline void vn_encode_vkQueueBindSparse(struct vn_cs_encoder *enc, VkCommandFlagsEXT cmd_flags, VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueBindSparse_EXT; vn_encode_VkCommandTypeEXT(enc, &cmd_type); vn_encode_VkFlags(enc, &cmd_flags); vn_encode_VkQueue(enc, &queue); vn_encode_uint32_t(enc, &bindInfoCount); if (pBindInfo) { vn_encode_array_size(enc, bindInfoCount); for (uint32_t i = 0; i < bindInfoCount; i++) vn_encode_VkBindSparseInfo(enc, &pBindInfo[i]); } else { vn_encode_array_size(enc, 0); } vn_encode_VkFence(enc, &fence); } static inline size_t vn_sizeof_vkQueueBindSparse_reply(VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { const VkCommandTypeEXT cmd_type = VK_COMMAND_TYPE_vkQueueBindSparse_EXT; size_t cmd_size = vn_sizeof_VkCommandTypeEXT(&cmd_type); VkResult ret; cmd_size += vn_sizeof_VkResult(&ret); /* skip queue */ /* skip bindInfoCount */ /* skip pBindInfo */ /* skip fence */ return cmd_size; } static inline VkResult vn_decode_vkQueueBindSparse_reply(struct vn_cs_decoder *dec, VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { VkCommandTypeEXT command_type; vn_decode_VkCommandTypeEXT(dec, &command_type); assert(command_type == VK_COMMAND_TYPE_vkQueueBindSparse_EXT); VkResult ret; vn_decode_VkResult(dec, &ret); /* skip queue */ /* skip bindInfoCount */ /* skip pBindInfo */ /* skip fence */ return ret; } static inline void vn_submit_vkQueueSubmit(struct vn_instance *vn_instance, VkCommandFlagsEXT cmd_flags, VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence, struct vn_instance_submit_command *submit) { uint8_t local_cmd_data[VN_SUBMIT_LOCAL_CMD_SIZE]; void *cmd_data = local_cmd_data; size_t cmd_size = vn_sizeof_vkQueueSubmit(queue, submitCount, pSubmits, fence); if (cmd_size > sizeof(local_cmd_data)) { cmd_data = malloc(cmd_size); if (!cmd_data) cmd_size = 0; } const size_t reply_size = cmd_flags & VK_COMMAND_GENERATE_REPLY_BIT_EXT ? vn_sizeof_vkQueueSubmit_reply(queue, submitCount, pSubmits, fence) : 0; struct vn_cs_encoder *enc = vn_instance_submit_command_init(vn_instance, submit, cmd_data, cmd_size, reply_size); if (cmd_size) { vn_encode_vkQueueSubmit(enc, cmd_flags, queue, submitCount, pSubmits, fence); vn_instance_submit_command(vn_instance, submit); if (cmd_data != local_cmd_data) free(cmd_data); } } static inline void vn_submit_vkQueueWaitIdle(struct vn_instance *vn_instance, VkCommandFlagsEXT cmd_flags, VkQueue queue, struct vn_instance_submit_command *submit) { uint8_t local_cmd_data[VN_SUBMIT_LOCAL_CMD_SIZE]; void *cmd_data = local_cmd_data; size_t cmd_size = vn_sizeof_vkQueueWaitIdle(queue); if (cmd_size > sizeof(local_cmd_data)) { cmd_data = malloc(cmd_size); if (!cmd_data) cmd_size = 0; } const size_t reply_size = cmd_flags & VK_COMMAND_GENERATE_REPLY_BIT_EXT ? vn_sizeof_vkQueueWaitIdle_reply(queue) : 0; struct vn_cs_encoder *enc = vn_instance_submit_command_init(vn_instance, submit, cmd_data, cmd_size, reply_size); if (cmd_size) { vn_encode_vkQueueWaitIdle(enc, cmd_flags, queue); vn_instance_submit_command(vn_instance, submit); if (cmd_data != local_cmd_data) free(cmd_data); } } static inline void vn_submit_vkQueueBindSparse(struct vn_instance *vn_instance, VkCommandFlagsEXT cmd_flags, VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence, struct vn_instance_submit_command *submit) { uint8_t local_cmd_data[VN_SUBMIT_LOCAL_CMD_SIZE]; void *cmd_data = local_cmd_data; size_t cmd_size = vn_sizeof_vkQueueBindSparse(queue, bindInfoCount, pBindInfo, fence); if (cmd_size > sizeof(local_cmd_data)) { cmd_data = malloc(cmd_size); if (!cmd_data) cmd_size = 0; } const size_t reply_size = cmd_flags & VK_COMMAND_GENERATE_REPLY_BIT_EXT ? vn_sizeof_vkQueueBindSparse_reply(queue, bindInfoCount, pBindInfo, fence) : 0; struct vn_cs_encoder *enc = vn_instance_submit_command_init(vn_instance, submit, cmd_data, cmd_size, reply_size); if (cmd_size) { vn_encode_vkQueueBindSparse(enc, cmd_flags, queue, bindInfoCount, pBindInfo, fence); vn_instance_submit_command(vn_instance, submit); if (cmd_data != local_cmd_data) free(cmd_data); } } static inline VkResult vn_call_vkQueueSubmit(struct vn_instance *vn_instance, VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { VN_TRACE_FUNC(); struct vn_instance_submit_command submit; vn_submit_vkQueueSubmit(vn_instance, VK_COMMAND_GENERATE_REPLY_BIT_EXT, queue, submitCount, pSubmits, fence, &submit); struct vn_cs_decoder *dec = vn_instance_get_command_reply(vn_instance, &submit); if (dec) { const VkResult ret = vn_decode_vkQueueSubmit_reply(dec, queue, submitCount, pSubmits, fence); vn_instance_free_command_reply(vn_instance, &submit); return ret; } else { return VK_ERROR_OUT_OF_HOST_MEMORY; } } static inline void vn_async_vkQueueSubmit(struct vn_instance *vn_instance, VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence) { struct vn_instance_submit_command submit; vn_submit_vkQueueSubmit(vn_instance, 0, queue, submitCount, pSubmits, fence, &submit); } static inline VkResult vn_call_vkQueueWaitIdle(struct vn_instance *vn_instance, VkQueue queue) { VN_TRACE_FUNC(); struct vn_instance_submit_command submit; vn_submit_vkQueueWaitIdle(vn_instance, VK_COMMAND_GENERATE_REPLY_BIT_EXT, queue, &submit); struct vn_cs_decoder *dec = vn_instance_get_command_reply(vn_instance, &submit); if (dec) { const VkResult ret = vn_decode_vkQueueWaitIdle_reply(dec, queue); vn_instance_free_command_reply(vn_instance, &submit); return ret; } else { return VK_ERROR_OUT_OF_HOST_MEMORY; } } static inline void vn_async_vkQueueWaitIdle(struct vn_instance *vn_instance, VkQueue queue) { struct vn_instance_submit_command submit; vn_submit_vkQueueWaitIdle(vn_instance, 0, queue, &submit); } static inline VkResult vn_call_vkQueueBindSparse(struct vn_instance *vn_instance, VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { VN_TRACE_FUNC(); struct vn_instance_submit_command submit; vn_submit_vkQueueBindSparse(vn_instance, VK_COMMAND_GENERATE_REPLY_BIT_EXT, queue, bindInfoCount, pBindInfo, fence, &submit); struct vn_cs_decoder *dec = vn_instance_get_command_reply(vn_instance, &submit); if (dec) { const VkResult ret = vn_decode_vkQueueBindSparse_reply(dec, queue, bindInfoCount, pBindInfo, fence); vn_instance_free_command_reply(vn_instance, &submit); return ret; } else { return VK_ERROR_OUT_OF_HOST_MEMORY; } } static inline void vn_async_vkQueueBindSparse(struct vn_instance *vn_instance, VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence) { struct vn_instance_submit_command submit; vn_submit_vkQueueBindSparse(vn_instance, 0, queue, bindInfoCount, pBindInfo, fence, &submit); } #endif /* VN_PROTOCOL_DRIVER_QUEUE_H */