/* Copyright (c) 2010 - 2021 Advanced Micro Devices, Inc. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "device/pal/palconstbuf.hpp" #include "device/pal/palvirtual.hpp" #include "device/pal/paldevice.hpp" #include "device/pal/palsettings.hpp" namespace amd::pal { // ================================================================================================ ManagedBuffer::ManagedBuffer(VirtualGPU& gpu, uint32_t size) : gpu_(gpu), pool_(MaxNumberOfBuffers), activeBuffer_(0), size_(size), wrtOffset_(0), wrtAddress_(nullptr) {} // ================================================================================================ void ManagedBuffer::release() { for (auto it : pool_) { if ((it.buf != nullptr) && (it.buf->data() != nullptr)) { it.buf->unmap(&gpu_); } delete it.buf; } } // ================================================================================================ bool ManagedBuffer::create(Resource::MemoryType type) { for (uint i = 0; i < pool_.size(); ++i) { pool_[i].buf = new Memory(const_cast(gpu_.dev()), size_); if (nullptr == pool_[i].buf || !pool_[i].buf->create(type)) { LogPrintfError("We couldn't create HW constant buffer, size(%d)!", size_); return false; } // Assign virtual gpu to the allocation. Buffer will be used only on a particular queue pool_[i].buf->memRef()->gpu_ = &gpu_; void* wrtAddress = pool_[i].buf->map(&gpu_); if (wrtAddress == nullptr) { LogPrintfError("We couldn't map HW constant buffer, size(%d)!", size_); return false; } // Make sure OCL touches every buffer in the queue to avoid delays on the first submit uint dummy = 0; static constexpr bool Wait = true; // Write 0 for the buffer paging by VidMM pool_[i].buf->writeRawData(gpu_, 0, sizeof(dummy), &dummy, Wait); } wrtAddress_ = pool_[activeBuffer_].buf->data(); return true; } // ================================================================================================ address ManagedBuffer::reserve(uint32_t size, uint64_t* gpu_address) { // Align to the maximum data size available in OpenCL static constexpr uint32_t MemAlignment = sizeof(double[32]); // Align reserve size on the vector's boundary uint32_t count = amd::alignUp(size, MemAlignment); // Save previous event pinGpuEvent(); // Check if buffer has enough space for reservation if ((wrtOffset_ + count) > size_) { // Get the next buffer in the list ++activeBuffer_; activeBuffer_ %= MaxNumberOfBuffers; if (!gpu().dev().settings().disableSdma_) { // Make sure the buffer isn't busy gpu().waitForEvent(&pool_[activeBuffer_].events[SdmaEngine]); } gpu().waitForEvent(&pool_[activeBuffer_].events[MainEngine]); wrtAddress_ = pool_[activeBuffer_].buf->data(); wrtOffset_ = 0; } *gpu_address = pool_[activeBuffer_].buf->vmAddress() + wrtOffset_; address cpu_address = wrtAddress_ + wrtOffset_; // Adjust the offset by the reserved size wrtOffset_ += count; return cpu_address; } // ================================================================================================ void ManagedBuffer::pinGpuEvent() { GpuEvent* event = activeMemory()->getGpuEvent(gpu()); pool_[activeBuffer_].events[event->engineId_] = *event; activeMemory()->setBusy(gpu(), GpuEvent::InvalidID); } // ================================================================================================ ConstantBuffer::ConstantBuffer(ManagedBuffer& mbuf, uint32_t size) : mbuf_(mbuf), sys_mem_copy_(nullptr), size_(size) {} // ================================================================================================ ConstantBuffer::~ConstantBuffer() { amd::AlignedMemory::deallocate(sys_mem_copy_); } // ================================================================================================ bool ConstantBuffer::Create() { // Create sysmem copy for the constant buffer. sys_mem_copy_ = reinterpret_cast
(amd::AlignedMemory::allocate(size_, 256)); if (sys_mem_copy_ == nullptr) { LogPrintfError("We couldn't allocate sysmem copy for constant buffer, size(%d)!", size_); return false; } memset(sys_mem_copy_, 0, size_); return true; } // ================================================================================================ uint64_t ConstantBuffer::UploadDataToHw(uint32_t size) const { uint64_t vm_address; address cpu_address = mbuf_.reserve(size, &vm_address); // Update memory with new CB data memcpy(cpu_address, sys_mem_copy_, size); return vm_address; } // ================================================================================================ uint64_t ConstantBuffer::UploadDataToHw(const void* sysmem, uint32_t size) const { uint64_t vm_address; address cpu_address = mbuf_.reserve(size, &vm_address); // Update memory with new CB data memcpy(cpu_address, sysmem, size); return vm_address; } // ================================================================================================ XferBuffer::XferBuffer(const Device& device, ManagedBuffer& mbuf, uint32_t size) : buffer_view_(device, size), mbuf_(mbuf), size_(size) { // Create a view for access Resource::ViewParams params = {}; params.gpu_ = &mbuf_.gpu(); params.offset_ = 0; params.size_ = size_; params.resource_ = mbuf_.activeMemory(); bool result = buffer_view_.create(Resource::View, ¶ms); assert(result && "View creaiton should never return an error!"); } // ================================================================================================ Memory& XferBuffer::Acquire(uint32_t size) { uint64_t vm_address; // Reserve space in the managed buffer address cpu_address = mbuf_.reserve(size, &vm_address); // Update a view for access buffer_view_.updateView(mbuf_.activeMemory(), vm_address - mbuf_.vmAddress(), size); return buffer_view_; } } // namespace amd::pal