Files
rocm-systems/hipamd/api/hip/hip_module.cpp
T
foreman 623320cd93 P4 to Git Change 1809277 by gandryey@gera-win10 on 2019/06/11 17:34:13
SWDEV-180872 - Runtime support changes for Cooperative Group Features
	- Initial implementation of the core functionality. Disabled by default. Use GPU_ENABLE_COOP_GROUPS=1 to enable the feature.
	- Runtime uses device queue for cooperative executions with a synchronization on the launched queue.
	- The current implementation is pure runtime change and it can work if only one app uses this feature. No ROCr/KFD support was added or tested
	- Only inline assembler was tested

Affected files ...

... //depot/stg/opencl/drivers/opencl/api/hip/hip_device.cpp#20 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_device_runtime.cpp#15 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_hcc.def.in#15 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_hcc.map.in#17 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_module.cpp#28 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_platform.cpp#32 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/device.hpp#338 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpudevice.cpp#606 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpudevice.hpp#171 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palblit.cpp#31 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palblit.hpp#9 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/paldevice.cpp#142 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/paldevice.hpp#39 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palschedcl.cpp#6 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palvirtual.cpp#135 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palvirtual.hpp#61 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocblit.cpp#32 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocblit.hpp#12 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocdevice.cpp#127 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocdevice.hpp#37 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocschedcl.cpp#3 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocvirtual.cpp#75 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocvirtual.hpp#23 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/command.cpp#94 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/command.hpp#92 edit
... //depot/stg/opencl/drivers/opencl/runtime/utils/flags.hpp#311 edit
2019-06-12 10:00:38 -04:00

360 строки
13 KiB
C++

/*
Copyright (c) 2015 - present 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/hip_runtime.h>
#include <libelf.h>
#include <fstream>
#include "hip_internal.hpp"
#include "platform/program.hpp"
#include "hip_event.hpp"
hipError_t ihipModuleLoadData(hipModule_t *module, const void *image);
static uint64_t ElfSize(const void *emi)
{
const Elf64_Ehdr *ehdr = (const Elf64_Ehdr*)emi;
const Elf64_Shdr *shdr = (const Elf64_Shdr*)((char*)emi + ehdr->e_shoff);
uint64_t max_offset = ehdr->e_shoff;
uint64_t total_size = max_offset + ehdr->e_shentsize * ehdr->e_shnum;
for (uint16_t i=0; i < ehdr->e_shnum; ++i){
uint64_t cur_offset = static_cast<uint64_t>(shdr[i].sh_offset);
if (max_offset < cur_offset) {
max_offset = cur_offset;
total_size = max_offset;
if(SHT_NOBITS != shdr[i].sh_type) {
total_size += static_cast<uint64_t>(shdr[i].sh_size);
}
}
}
return total_size;
}
hipError_t hipModuleLoad(hipModule_t *module, const char *fname)
{
HIP_INIT_API(module, fname);
if (!fname) {
HIP_RETURN(hipErrorInvalidValue);
}
std::ifstream file(fname, std::ios::binary);
if (!file.is_open()) {
HIP_RETURN(hipErrorFileNotFound);
}
std::vector<char> tmp{std::istreambuf_iterator<char>{file}, std::istreambuf_iterator<char>{}};
HIP_RETURN(ihipModuleLoadData(module, tmp.data()));
}
hipError_t hipModuleUnload(hipModule_t hmod)
{
HIP_INIT_API(hmod);
if (hmod == nullptr) {
HIP_RETURN(hipErrorUnknown);
}
amd::Program* program = as_amd(reinterpret_cast<cl_program>(hmod));
program->release();
HIP_RETURN(hipSuccess);
}
hipError_t hipModuleLoadData(hipModule_t *module, const void *image)
{
HIP_INIT_API(module, image);
HIP_RETURN(ihipModuleLoadData(module, image));
}
extern bool __hipExtractCodeObjectFromFatBinary(const void* data,
const std::vector<const char*>& devices,
std::vector<std::pair<const void*, size_t>>& code_objs);
hipError_t ihipModuleLoadData(hipModule_t *module, const void *image)
{
std::vector<std::pair<const void*, size_t>> code_objs;
if (__hipExtractCodeObjectFromFatBinary(image, {hip::getCurrentContext()->devices()[0]->info().name_}, code_objs))
image = code_objs[0].first;
amd::Program* program = new amd::Program(*hip::getCurrentContext());
if (program == NULL) {
return hipErrorOutOfMemory;
}
if (CL_SUCCESS != program->addDeviceProgram(*hip::getCurrentContext()->devices()[0], image, ElfSize(image)) ||
CL_SUCCESS != program->build(hip::getCurrentContext()->devices(), nullptr, nullptr, nullptr)) {
return hipErrorUnknown;
}
*module = reinterpret_cast<hipModule_t>(as_cl(program));
return hipSuccess;
}
hipError_t hipModuleGetFunction(hipFunction_t *hfunc, hipModule_t hmod, const char *name)
{
HIP_INIT_API(hfunc, hmod, name);
amd::Program* program = as_amd(reinterpret_cast<cl_program>(hmod));
const amd::Symbol* symbol = program->findSymbol(name);
if (!symbol) {
HIP_RETURN(hipErrorNotFound);
}
amd::Kernel* kernel = new amd::Kernel(*program, *symbol, name);
if (!kernel) {
HIP_RETURN(hipErrorOutOfMemory);
}
hip::Function* f = new hip::Function(kernel);
*hfunc = f->asHipFunction();
HIP_RETURN(hipSuccess);
}
hipError_t hipModuleGetGlobal(hipDeviceptr_t* dptr, size_t* bytes, hipModule_t hmod, const char* name)
{
HIP_INIT_API(dptr, bytes, hmod, name);
/* Get address and size for the global symbol */
if (!PlatformState::instance().getGlobalVar(name, ihipGetDevice(), dptr,
bytes)) {
HIP_RETURN(hipErrorUnknown);
}
HIP_RETURN(hipSuccess);
}
hipError_t hipFuncGetAttributes(hipFuncAttributes* attr, const void* func)
{
HIP_INIT_API(attr, func);
if (!PlatformState::instance().getFuncAttr(func, attr)) {
HIP_RETURN(hipErrorUnknown);
}
HIP_RETURN(hipSuccess);
}
hipError_t ihipModuleLaunchKernel(hipFunction_t f,
uint32_t gridDimX, uint32_t gridDimY, uint32_t gridDimZ,
uint32_t blockDimX, uint32_t blockDimY, uint32_t blockDimZ,
uint32_t sharedMemBytes, hipStream_t hStream,
void **kernelParams, void **extra,
hipEvent_t startEvent, hipEvent_t stopEvent, uint32_t flags = 0,
uint32_t params = 0)
{
HIP_INIT_API(f, gridDimX, gridDimY, gridDimZ,
blockDimX, blockDimY, blockDimZ,
sharedMemBytes, hStream,
kernelParams, extra, startEvent, stopEvent, flags);
hip::Function* function = hip::Function::asFunction(f);
amd::Kernel* kernel = function->function_;
amd::Device* device = hip::getCurrentContext()->devices()[0];
amd::ScopedLock lock(function->lock_);
hip::Event* eStart = reinterpret_cast<hip::Event*>(startEvent);
hip::Event* eStop = reinterpret_cast<hip::Event*>(stopEvent);
amd::HostQueue* queue;
if (hStream == nullptr) {
hip::syncStreams();
queue = hip::getNullStream();
} else {
hip::getNullStream()->finish();
queue = as_amd(reinterpret_cast<cl_command_queue>(hStream))->asHostQueue();
}
if ((params & amd::NDRangeKernelCommand::CooperativeGroups) &&
!device->info().cooperativeGroups_) {
return hipErrorLaunchFailure;
}
if ((params & amd::NDRangeKernelCommand::CooperativeMultiDeviceGroups) &&
!device->info().cooperativeMultiDeviceGroups_) {
return hipErrorLaunchFailure;
}
if (!queue) {
return hipErrorOutOfMemory;
}
size_t globalWorkOffset[3] = {0};
size_t globalWorkSize[3] = { gridDimX, gridDimY, gridDimZ };
size_t localWorkSize[3] = { blockDimX, blockDimY, blockDimZ };
amd::NDRangeContainer ndrange(3, globalWorkOffset, globalWorkSize, localWorkSize);
amd::Command::EventWaitList waitList;
address kernargs = nullptr;
// 'extra' is a struct that contains the following info: {
// HIP_LAUNCH_PARAM_BUFFER_POINTER, kernargs,
// HIP_LAUNCH_PARAM_BUFFER_SIZE, &kernargs_size,
// HIP_LAUNCH_PARAM_END }
if (extra != nullptr) {
if (extra[0] != HIP_LAUNCH_PARAM_BUFFER_POINTER ||
extra[2] != HIP_LAUNCH_PARAM_BUFFER_SIZE || extra[4] != HIP_LAUNCH_PARAM_END) {
return hipErrorNotInitialized;
}
kernargs = reinterpret_cast<address>(extra[1]);
}
const amd::KernelSignature& signature = kernel->signature();
for (size_t i = 0; i < signature.numParameters(); ++i) {
const amd::KernelParameterDescriptor& desc = signature.at(i);
if (kernelParams == nullptr) {
assert(kernargs != nullptr);
kernel->parameters().set(i, desc.size_, kernargs + desc.offset_,
desc.type_ == T_POINTER/*svmBound*/);
} else {
assert(extra == nullptr);
kernel->parameters().set(i, desc.size_, kernelParams[i], desc.type_ == T_POINTER/*svmBound*/);
}
}
if(startEvent != nullptr) {
amd::Command* startCommand = new hip::TimerMarker(*queue);
startCommand->enqueue();
eStart->addMarker(queue, startCommand);
}
amd::NDRangeKernelCommand* command = new amd::NDRangeKernelCommand(
*queue, waitList, *kernel, ndrange, sharedMemBytes, params);
if (!command) {
return hipErrorOutOfMemory;
}
// Capture the kernel arguments
if (CL_SUCCESS != command->captureAndValidate()) {
delete command;
return hipErrorMemoryAllocation;
}
command->enqueue();
if(stopEvent != nullptr) {
eStop->addMarker(queue, command);
command->retain();
}
command->release();
return hipSuccess;
}
hipError_t hipModuleLaunchKernel(hipFunction_t f,
uint32_t gridDimX, uint32_t gridDimY, uint32_t gridDimZ,
uint32_t blockDimX, uint32_t blockDimY, uint32_t blockDimZ,
uint32_t sharedMemBytes, hipStream_t hStream,
void **kernelParams, void **extra)
{
HIP_RETURN(ihipModuleLaunchKernel(f, gridDimX * blockDimX, gridDimY * blockDimY, gridDimZ * blockDimZ,
blockDimX, blockDimY, blockDimZ,
sharedMemBytes, hStream, kernelParams, extra, nullptr, nullptr));
}
hipError_t hipExtModuleLaunchKernel(hipFunction_t f, uint32_t globalWorkSizeX,
uint32_t globalWorkSizeY, uint32_t globalWorkSizeZ,
uint32_t localWorkSizeX, uint32_t localWorkSizeY,
uint32_t localWorkSizeZ, size_t sharedMemBytes,
hipStream_t hStream, void** kernelParams, void** extra,
hipEvent_t startEvent, hipEvent_t stopEvent, uint32_t flags)
{
HIP_RETURN(ihipModuleLaunchKernel(f, globalWorkSizeX, globalWorkSizeY, globalWorkSizeZ, localWorkSizeX, localWorkSizeY,
localWorkSizeZ, sharedMemBytes, hStream, kernelParams, extra, startEvent, stopEvent, flags));
}
hipError_t hipHccModuleLaunchKernel(hipFunction_t f, uint32_t gridDimX,
uint32_t gridDimY, uint32_t gridDimZ,
uint32_t blockDimX, uint32_t blockDimY,
uint32_t blockDimZ, size_t sharedMemBytes,
hipStream_t hStream, void** kernelParams, void** extra,
hipEvent_t startEvent,
hipEvent_t stopEvent)
{
HIP_RETURN(ihipModuleLaunchKernel(f, gridDimX, gridDimY, gridDimZ, blockDimX, blockDimY, blockDimZ,
sharedMemBytes, hStream, kernelParams, extra, startEvent, stopEvent));
}
hipError_t hipModuleLaunchKernelExt(hipFunction_t f, uint32_t gridDimX,
uint32_t gridDimY, uint32_t gridDimZ,
uint32_t blockDimX, uint32_t blockDimY,
uint32_t blockDimZ, size_t sharedMemBytes,
hipStream_t hStream, void** kernelParams, void** extra,
hipEvent_t startEvent,
hipEvent_t stopEvent)
{
HIP_RETURN(ihipModuleLaunchKernel(f, gridDimX, gridDimY, gridDimZ, blockDimX, blockDimY, blockDimZ,
sharedMemBytes, hStream, kernelParams, extra, startEvent, stopEvent));
}
hipError_t hipLaunchCooperativeKernel(const void* f,
dim3 gridDim, dim3 blockDim,
void **kernelParams, uint32_t sharedMemBytes, hipStream_t hStream)
{
int deviceId = ihipGetDevice();
hipFunction_t func = PlatformState::instance().getFunc(f, deviceId);
if (func == nullptr) {
HIP_RETURN(hipErrorUnknown);
}
HIP_RETURN(ihipModuleLaunchKernel(func, gridDim.x * blockDim.x, gridDim.y * blockDim.y, gridDim.z * blockDim.z,
blockDim.x, blockDim.y, blockDim.z,
sharedMemBytes, hStream, kernelParams, nullptr, nullptr, nullptr, 0,
amd::NDRangeKernelCommand::CooperativeGroups));
}
hipError_t hipLaunchCooperativeKernelMultiDevice(hipLaunchParams* launchParamsList,
int numDevices, unsigned int flags)
{
int deviceId = ihipGetDevice();
hipError_t result = hipErrorUnknown;
for (int i = 0; i < numDevices; ++i) {
const hipLaunchParams& launch = launchParamsList[i];
amd::HostQueue* queue = as_amd(reinterpret_cast<cl_command_queue>(launch.stream))->asHostQueue();
hipFunction_t func = PlatformState::instance().getFunc(launch.func, deviceId);
if (func == nullptr) {
HIP_RETURN(result);
}
result = ihipModuleLaunchKernel(func,
launch.gridDim.x * launch.blockDim.x,
launch.gridDim.y * launch.blockDim.y,
launch.gridDim.z * launch.blockDim.z,
launch.blockDim.x, launch.blockDim.y, launch.blockDim.z,
launch.sharedMem, launch.stream,
launch.args, nullptr, nullptr, nullptr, flags,
(amd::NDRangeKernelCommand::CooperativeGroups | amd::NDRangeKernelCommand::CooperativeMultiDeviceGroups));
}
return result;
}