/* Copyright (c) 2015 - 2022 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 #include "hip_internal.hpp" #include "hip_vm.hpp" static_assert(static_cast(hipMemAccessFlagsProtNone) == static_cast(amd::Device::VmmAccess::kNone), "Mem Access Flag None mismatch with ROCclr!"); static_assert(static_cast(hipMemAccessFlagsProtRead) == static_cast(amd::Device::VmmAccess::kReadOnly), "Mem Access Flag Read mismatch with ROCclr!"); static_assert(static_cast(hipMemAccessFlagsProtReadWrite) == static_cast(amd::Device::VmmAccess::kReadWrite), "Mem Access Flag Read Write mismatch with ROCclr!"); hipError_t hipMemAddressFree(void* devPtr, size_t size) { HIP_INIT_API(hipMemAddressFree, devPtr, size); if (devPtr == nullptr || size == 0) { HIP_RETURN(hipErrorInvalidValue); } // Single call frees address range for all devices. g_devices[0]->devices()[0]->virtualFree(devPtr); HIP_RETURN(hipSuccess); } hipError_t hipMemAddressReserve(void** ptr, size_t size, size_t alignment, void* addr, unsigned long long flags) { HIP_INIT_API(hipMemAddressReserve, ptr, size, alignment, addr, flags); if (ptr == nullptr || flags != 0) { HIP_RETURN(hipErrorInvalidValue); } const auto& dev_info = g_devices[0]->devices()[0]->info(); if (size == 0 || ((size % dev_info.virtualMemAllocGranularity_) != 0)) { HIP_RETURN(hipErrorMemoryAllocation); } // Initialize the ptr, single virtual alloc call would reserve va range for all devices. *ptr = nullptr; *ptr = g_devices[0]->devices()[0]->virtualAlloc(addr, size, alignment); if (*ptr == nullptr) { HIP_RETURN(hipErrorOutOfMemory); } // If requested address was not allocated, printf error message. if (addr != nullptr && addr == *ptr) { LogPrintfError("Requested address : 0x%x was not allocated. Allocated address : 0x%x ", *ptr); } HIP_RETURN(hipSuccess); } hipError_t hipMemCreate(hipMemGenericAllocationHandle_t* handle, size_t size, const hipMemAllocationProp* prop, unsigned long long flags) { HIP_INIT_API(hipMemCreate, handle, size, prop, flags); // Currently we do not support Pinned memory if (handle == nullptr || size == 0 || flags != 0 || prop == nullptr || prop->type != hipMemAllocationTypePinned || prop->location.type != hipMemLocationTypeDevice || prop->location.id >= g_devices.size()) { HIP_RETURN(hipErrorInvalidValue); } // Currently only support non-IPC allocations if (prop->requestedHandleType != hipMemHandleTypeNone) { HIP_RETURN(hipErrorNotSupported); } // Device info validation const auto& dev_info = g_devices[prop->location.id]->devices()[0]->info(); if (dev_info.maxPhysicalMemAllocSize_ < size) { HIP_RETURN(hipErrorOutOfMemory); } if (size % dev_info.memBaseAddrAlign_ != 0) { HIP_RETURN(hipErrorInvalidValue); } amd::Context* amdContext = g_devices[prop->location.id]->asContext(); // When ROCCLR_MEM_PHYMEM is set, ROCr impl gets and stores unique hsa handle. Flag no-op on PAL. void* ptr = amd::SvmBuffer::malloc(*amdContext, ROCCLR_MEM_PHYMEM, size, dev_info.memBaseAddrAlign_, nullptr); // Handle out of memory cases, if (ptr == nullptr) { size_t free = 0, total =0; hipError_t hip_error = hipMemGetInfo(&free, &total); if (hip_error == hipSuccess) { LogPrintfError("Allocation failed : Device memory : required :%zu | free :%zu" "| total :%zu \n", size, free, total); } HIP_RETURN(hipErrorOutOfMemory); } // Add this to amd::Memory object, so this ptr is accesible for other hipmemory operations. size_t offset = 0; //this is ignored amd::Memory* memObj = getMemoryObject(ptr, offset); //saves the current device id so that it can be accessed later memObj->getUserData().deviceId = prop->location.id; memObj->getUserData().data = new hip::GenericAllocation(ptr, size, *prop); *handle = reinterpret_cast(memObj->getUserData().data); HIP_RETURN(hipSuccess); } hipError_t hipMemExportToShareableHandle(void* shareableHandle, hipMemGenericAllocationHandle_t handle, hipMemAllocationHandleType handleType, unsigned long long flags) { HIP_INIT_API(hipMemExportToShareableHandle, shareableHandle, handle, handleType, flags); if (flags != 0 || handle == nullptr || shareableHandle == nullptr) { HIP_RETURN(hipErrorInvalidValue); } HIP_RETURN(hipErrorNotSupported); } hipError_t hipMemGetAccess(unsigned long long* flags, const hipMemLocation* location, void* ptr) { HIP_INIT_API(hipMemGetAccess, flags, location, ptr); if (flags == nullptr || location == nullptr || ptr == nullptr || location->type != hipMemLocationTypeDevice || location->id >= g_devices.size()) { HIP_RETURN(hipErrorInvalidValue) } // Convert the access flags to amd::Device access flag auto& dev = g_devices[location->id]; amd::Device::VmmAccess access_flags = static_cast(0); if (!dev->devices()[0]->GetMemAccess(ptr, &access_flags)) { HIP_RETURN(hipErrorInvalidValue); } *flags = static_cast(access_flags); HIP_RETURN(hipSuccess); } hipError_t hipMemGetAllocationGranularity(size_t* granularity, const hipMemAllocationProp* prop, hipMemAllocationGranularity_flags option) { HIP_INIT_API(hipMemGetAllocationGranularity, granularity, prop, option); if (granularity == nullptr || prop == nullptr || prop->type != hipMemAllocationTypePinned || prop->location.type != hipMemLocationTypeDevice || prop->location.id >= g_devices.size()) { HIP_RETURN(hipErrorInvalidValue); } const auto& dev_info = g_devices[prop->location.id]->devices()[0]->info(); *granularity = dev_info.virtualMemAllocGranularity_; HIP_RETURN(hipSuccess); } hipError_t hipMemGetAllocationPropertiesFromHandle(hipMemAllocationProp* prop, hipMemGenericAllocationHandle_t handle) { HIP_INIT_API(hipMemGetAllocationPropertiesFromHandle, prop, handle); if (handle == nullptr || prop == nullptr) { HIP_RETURN(hipErrorInvalidValue); } *prop = reinterpret_cast(handle)->GetProperties(); HIP_RETURN(hipSuccess); } hipError_t hipMemImportFromShareableHandle(hipMemGenericAllocationHandle_t* handle, void* osHandle, hipMemAllocationHandleType shHandleType) { HIP_INIT_API(hipMemImportFromShareableHandle, handle, osHandle, shHandleType); if (handle == nullptr || osHandle == nullptr) { HIP_RETURN(hipErrorInvalidValue); } HIP_RETURN(hipErrorNotSupported); } hipError_t hipMemMap(void* ptr, size_t size, size_t offset, hipMemGenericAllocationHandle_t handle, unsigned long long flags) { HIP_INIT_API(hipMemMap, ptr, size, offset, handle, flags); if (ptr == nullptr || handle == nullptr || size == 0 || offset != 0 || flags != 0) { HIP_RETURN(hipErrorInvalidValue); } // Re-interpret the ga handle and set the mapped flag hip::GenericAllocation* ga = reinterpret_cast(handle); ga->retain(); auto& queue = *g_devices[ga->GetProperties().location.id]->NullStream(); // Map the physical address to virtual address amd::Command* cmd = new amd::VirtualMapCommand(queue, amd::Command::EventWaitList{}, ptr, size, &ga->asAmdMemory()); cmd->enqueue(); cmd->awaitCompletion(); cmd->release(); // update the internal svm address to ptr ga->asAmdMemory().setSvmPtr(ptr); HIP_RETURN(hipSuccess); } hipError_t hipMemMapArrayAsync(hipArrayMapInfo* mapInfoList, unsigned int count, hipStream_t stream) { HIP_INIT_API(hipMemMapArrayAsync, mapInfoList, count, stream); if (mapInfoList == nullptr || count == 0) { HIP_RETURN(hipErrorInvalidValue); } HIP_RETURN(hipErrorNotSupported); } hipError_t hipMemRelease(hipMemGenericAllocationHandle_t handle) { HIP_INIT_API(hipMemRelease, handle); if (handle == nullptr) { HIP_RETURN(hipErrorInvalidValue); } // Re-interpret the ga handle and make sure it is not already released. hip::GenericAllocation* ga = reinterpret_cast(handle); ga->release(); HIP_RETURN(hipSuccess); } hipError_t hipMemRetainAllocationHandle(hipMemGenericAllocationHandle_t* handle, void* addr) { HIP_INIT_API(hipMemRetainAllocationHandle, handle, addr); if (handle == nullptr || addr == nullptr) { HIP_RETURN(hipErrorInvalidValue); } amd::Memory* mem = amd::MemObjMap::FindMemObj(addr); if (mem == nullptr) { HIP_RETURN(hipErrorInvalidValue); } *handle = reinterpret_cast(mem->getUserData().data); if (*handle == nullptr) { HIP_RETURN(hipErrorInvalidValue); } HIP_RETURN(hipSuccess); } hipError_t hipMemSetAccess(void* ptr, size_t size, const hipMemAccessDesc* desc, size_t count) { HIP_INIT_API(hipMemSetAccess, ptr, size, desc, count); if (ptr == nullptr || size == 0 || desc == nullptr || count == 0) { HIP_RETURN(hipErrorInvalidValue); } for (size_t desc_idx = 0; desc_idx < count; ++desc_idx) { if (desc[desc_idx].location.id >= g_devices.size()) { HIP_RETURN(hipErrorInvalidValue) } auto& dev = g_devices[desc[desc_idx].location.id]; amd::Device::VmmAccess access_flags = static_cast(desc[desc_idx].flags); if (!dev->devices()[0]->SetMemAccess(ptr, size, access_flags, count)) { HIP_RETURN(hipErrorInvalidValue); } } HIP_RETURN(hipSuccess); } hipError_t hipMemUnmap(void* ptr, size_t size) { HIP_INIT_API(hipMemUnmap, ptr, size); if (ptr == nullptr || size == 0) { HIP_RETURN(hipErrorInvalidValue); } amd::Memory* va = amd::MemObjMap::FindMemObj(ptr); if (va && va->getSize() != size) { HIP_RETURN(hipErrorInvalidValue); } auto& queue = *g_devices[va->getUserData().deviceId]->NullStream(); amd::Command* cmd = new amd::VirtualMapCommand(queue, amd::Command::EventWaitList{}, ptr, size, nullptr); cmd->enqueue(); cmd->awaitCompletion(); cmd->release(); // restore the original va of the generic allocation hip::GenericAllocation* ga = reinterpret_cast(va->getUserData().data); va->setSvmPtr(ga->genericAddress()); ga->release(); HIP_RETURN(hipSuccess); }