/* Copyright (c) 2023 Advanced Micro Devices, Inc. All rights reserved. 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 "hip_global.hpp" #include "hip/hip_runtime.h" #include "hip_internal.hpp" #include "hip_code_object.hpp" #include "platform/program.hpp" #include const char* amd_dbgapi_get_build_name(void) { return HIP_VERSION_BUILD_NAME; } const char* amd_dbgapi_get_git_hash() { return HIP_VERSION_GITHASH; } size_t amd_dbgapi_get_build_id() { return HIP_VERSION_BUILD_ID; } #ifdef __HIP_ENABLE_PCH extern const char __hip_pch_wave32[]; extern const char __hip_pch_wave64[]; extern unsigned __hip_pch_wave32_size; extern unsigned __hip_pch_wave64_size; void __hipGetPCH(const char** pch, unsigned int *size) { hipDeviceProp_t deviceProp; int deviceId; hipError_t error = hipGetDevice(&deviceId); error = hipGetDeviceProperties(&deviceProp, deviceId); if (deviceProp.warpSize == 32) { *pch = __hip_pch_wave32; *size = __hip_pch_wave32_size; } else { *pch = __hip_pch_wave64; *size = __hip_pch_wave64_size; } } #endif namespace hip { //Device Vars DeviceVar::DeviceVar(std::string name, hipModule_t hmod, int deviceId) : shadowVptr(nullptr), name_(name), amd_mem_obj_(nullptr), device_ptr_(nullptr), size_(0) { amd::Program* program = as_amd(reinterpret_cast(hmod)); device::Program* dev_program = program->getDeviceProgram(*g_devices.at(deviceId)->devices()[0]); guarantee (dev_program != nullptr, "Cannot get Device Program for module: 0x%x \n", hmod); if(!dev_program->createGlobalVarObj(&amd_mem_obj_, &device_ptr_, &size_, name.c_str())) { guarantee(false, "Cannot create GlobalVar Obj for symbol: %s \n", name.c_str()); } // Handle size 0 symbols if (size_ != 0) { if (amd_mem_obj_ == nullptr || device_ptr_ == nullptr) { LogPrintfError("Cannot get memory for creating device Var: %s", name.c_str()); guarantee(false, "Cannot get memory for creating device var"); } amd::MemObjMap::AddMemObj(device_ptr_, amd_mem_obj_); } } DeviceVar::~DeviceVar() { if (amd_mem_obj_ != nullptr) { amd::MemObjMap::RemoveMemObj(device_ptr_); amd_mem_obj_->release(); } if (shadowVptr != nullptr) { textureReference* texRef = reinterpret_cast(shadowVptr); hipError_t err = ihipUnbindTexture(texRef); delete texRef; shadowVptr = nullptr; } device_ptr_ = nullptr; size_ = 0; } //Device Functions DeviceFunc::DeviceFunc(std::string name, hipModule_t hmod) : dflock_("function lock"), name_(name), kernel_(nullptr) { amd::Program* program = as_amd(reinterpret_cast(hmod)); const amd::Symbol *symbol = program->findSymbol(name.c_str()); guarantee(symbol != nullptr, "Cannot find Symbol with name: %s \n", name.c_str()); kernel_ = new amd::Kernel(*program, *symbol, name); guarantee(kernel_ != nullptr, "Cannot Create kernel with name: %s \n", name.c_str()); } DeviceFunc::~DeviceFunc() { if (kernel_ != nullptr) { kernel_->release(); } } //Abstract functions Function::Function(const std::string& name, FatBinaryInfo** modules) : name_(name), modules_(modules) { dFunc_.resize(g_devices.size()); } Function::~Function() { for (auto& elem : dFunc_) { delete elem; } name_ = ""; modules_ = nullptr; } hipError_t Function::getDynFunc(hipFunction_t* hfunc, hipModule_t hmod) { guarantee((dFunc_.size() == g_devices.size()), "dFunc Size mismatch"); if (dFunc_[ihipGetDevice()] == nullptr) { dFunc_[ihipGetDevice()] = new DeviceFunc(name_, hmod); } *hfunc = dFunc_[ihipGetDevice()]->asHipFunction(); return hipSuccess; } hipError_t Function::getStatFunc(hipFunction_t* hfunc, int deviceId) { guarantee(modules_ != nullptr, "Module not initialized"); if (dFunc_.size() != g_devices.size()) { return hipErrorSharedObjectInitFailed; } hipModule_t hmod = nullptr; IHIP_RETURN_ONFAIL((*modules_)->BuildProgram(deviceId)); IHIP_RETURN_ONFAIL((*modules_)->GetModule(deviceId, &hmod)); if (dFunc_[deviceId] == nullptr) { dFunc_[deviceId] = new DeviceFunc(name_, hmod); } *hfunc = dFunc_[deviceId]->asHipFunction(); return hipSuccess; } hipError_t Function::getStatFuncAttr(hipFuncAttributes* func_attr, int deviceId) { guarantee((modules_ != nullptr), "Module not initialized"); hipModule_t hmod = nullptr; IHIP_RETURN_ONFAIL((*modules_)->BuildProgram(deviceId)); IHIP_RETURN_ONFAIL((*modules_)->GetModule(deviceId, &hmod)); if (dFunc_[deviceId] == nullptr) { dFunc_[deviceId] = new DeviceFunc(name_, hmod); } const std::vector& devices = amd::Device::getDevices(CL_DEVICE_TYPE_GPU, false); amd::Kernel* kernel = dFunc_[deviceId]->kernel(); const device::Kernel::WorkGroupInfo* wginfo = kernel->getDeviceKernel(*devices[deviceId])->workGroupInfo(); func_attr->sharedSizeBytes = static_cast(wginfo->localMemSize_); func_attr->binaryVersion = static_cast(kernel->signature().version()); func_attr->cacheModeCA = 0; func_attr->constSizeBytes = 0; func_attr->localSizeBytes = wginfo->privateMemSize_; func_attr->maxDynamicSharedSizeBytes = static_cast(wginfo->availableLDSSize_ - wginfo->localMemSize_); func_attr->maxThreadsPerBlock = static_cast(wginfo->size_); func_attr->numRegs = static_cast(wginfo->usedVGPRs_); func_attr->preferredShmemCarveout = 0; func_attr->ptxVersion = 30; return hipSuccess; } //Abstract Vars Var::Var(const std::string& name, DeviceVarKind dVarKind, size_t size, int type, int norm, FatBinaryInfo** modules) : name_(name), dVarKind_(dVarKind), size_(size), type_(type), norm_(norm), modules_(modules), managedVarPtr_(nullptr), align_(0) { dVar_.resize(g_devices.size()); } Var::Var(const std::string& name, DeviceVarKind dVarKind, void *pointer, size_t size, unsigned align, FatBinaryInfo** modules) : name_(name), dVarKind_(dVarKind), size_(size), modules_(modules), managedVarPtr_(pointer), align_(align), type_(0), norm_(0) { dVar_.resize(g_devices.size()); } Var::~Var() { for (auto& elem : dVar_) { delete elem; } modules_ = nullptr; } hipError_t Var::getDeviceVar(DeviceVar** dvar, int deviceId, hipModule_t hmod) { guarantee((deviceId >= 0), "Invalid DeviceId, less than zero"); guarantee((static_cast(deviceId) < g_devices.size()), "Invalid DeviceId, greater than no of code objects"); guarantee((dVar_.size() == g_devices.size()), "Device Var not initialized to size"); if (dVar_[deviceId] == nullptr) { dVar_[deviceId] = new DeviceVar(name_, hmod, deviceId); } *dvar = dVar_[deviceId]; return hipSuccess; } hipError_t Var::getStatDeviceVar(DeviceVar** dvar, int deviceId) { guarantee((deviceId >= 0) , "Invalid DeviceId, less than zero"); guarantee((static_cast(deviceId) < g_devices.size()), "Invalid DeviceId, greater than no of code objects"); if (dVar_[deviceId] == nullptr) { hipModule_t hmod = nullptr; IHIP_RETURN_ONFAIL((*modules_)->BuildProgram(deviceId)); IHIP_RETURN_ONFAIL((*modules_)->GetModule(deviceId, &hmod)); dVar_[deviceId] = new DeviceVar(name_, hmod, deviceId); } *dvar = dVar_[deviceId]; return hipSuccess; } }; //namespace: hip