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clang-p2996/offload/src/device.cpp
Joseph Huber 3abd3d6e59 [Libomptarget] Remove requires information from plugin (#80345) 
Summary:
Currently this is only used for the zero-copy handling. However, this
can easily be moved into `libomptarget` so that we do not need to bother
setting the requires flags in the plugin. The advantage here is that we
no longer need to do this for every device redundently. Additionally,
these requires flags are specifically OpenMP related, so they should
live in `libomptarget`.
2024-05-16 11:13:50 -05:00

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//===--------- device.cpp - Target independent OpenMP target RTL ----------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Functionality for managing devices that are handled by RTL plugins.
//
//===----------------------------------------------------------------------===//
#include "device.h"
#include "OffloadEntry.h"
#include "OpenMP/Mapping.h"
#include "OpenMP/OMPT/Callback.h"
#include "OpenMP/OMPT/Interface.h"
#include "PluginManager.h"
#include "Shared/APITypes.h"
#include "Shared/Debug.h"
#include "omptarget.h"
#include "private.h"
#include "rtl.h"
#include "Shared/EnvironmentVar.h"
#include "llvm/Support/Error.h"
#include <cassert>
#include <climits>
#include <cstdint>
#include <cstdio>
#include <mutex>
#include <string>
#include <thread>
#ifdef OMPT_SUPPORT
using namespace llvm::omp::target::ompt;
#endif
int HostDataToTargetTy::addEventIfNecessary(DeviceTy &Device,
AsyncInfoTy &AsyncInfo) const {
// First, check if the user disabled atomic map transfer/malloc/dealloc.
if (!MappingConfig::get().UseEventsForAtomicTransfers)
return OFFLOAD_SUCCESS;
void *Event = getEvent();
bool NeedNewEvent = Event == nullptr;
if (NeedNewEvent && Device.createEvent(&Event) != OFFLOAD_SUCCESS) {
REPORT("Failed to create event\n");
return OFFLOAD_FAIL;
}
// We cannot assume the event should not be nullptr because we don't
// know if the target support event. But if a target doesn't,
// recordEvent should always return success.
if (Device.recordEvent(Event, AsyncInfo) != OFFLOAD_SUCCESS) {
REPORT("Failed to set dependence on event " DPxMOD "\n", DPxPTR(Event));
return OFFLOAD_FAIL;
}
if (NeedNewEvent)
setEvent(Event);
return OFFLOAD_SUCCESS;
}
DeviceTy::DeviceTy(GenericPluginTy *RTL, int32_t DeviceID, int32_t RTLDeviceID)
: DeviceID(DeviceID), RTL(RTL), RTLDeviceID(RTLDeviceID),
MappingInfo(*this) {}
DeviceTy::~DeviceTy() {
if (DeviceID == -1 || !(getInfoLevel() & OMP_INFOTYPE_DUMP_TABLE))
return;
ident_t Loc = {0, 0, 0, 0, ";libomptarget;libomptarget;0;0;;"};
dumpTargetPointerMappings(&Loc, *this);
}
llvm::Error DeviceTy::init() {
int32_t Ret = RTL->init_device(RTLDeviceID);
if (Ret != OFFLOAD_SUCCESS)
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"Failed to initialize device %d\n",
DeviceID);
// Enables recording kernels if set.
BoolEnvar OMPX_RecordKernel("LIBOMPTARGET_RECORD", false);
if (OMPX_RecordKernel) {
// Enables saving the device memory kernel output post execution if set.
BoolEnvar OMPX_ReplaySaveOutput("LIBOMPTARGET_RR_SAVE_OUTPUT", false);
uint64_t ReqPtrArgOffset;
RTL->initialize_record_replay(RTLDeviceID, 0, nullptr, true,
OMPX_ReplaySaveOutput, ReqPtrArgOffset);
}
return llvm::Error::success();
}
// Load binary to device.
llvm::Expected<__tgt_device_binary>
DeviceTy::loadBinary(__tgt_device_image *Img) {
__tgt_device_binary Binary;
if (RTL->load_binary(RTLDeviceID, Img, &Binary) != OFFLOAD_SUCCESS)
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"Failed to load binary %p", Img);
return Binary;
}
void *DeviceTy::allocData(int64_t Size, void *HstPtr, int32_t Kind) {
/// RAII to establish tool anchors before and after data allocation
void *TargetPtr = nullptr;
OMPT_IF_BUILT(InterfaceRAII TargetDataAllocRAII(
RegionInterface.getCallbacks<ompt_target_data_alloc>(),
DeviceID, HstPtr, &TargetPtr, Size,
/*CodePtr=*/OMPT_GET_RETURN_ADDRESS);)
TargetPtr = RTL->data_alloc(RTLDeviceID, Size, HstPtr, Kind);
return TargetPtr;
}
int32_t DeviceTy::deleteData(void *TgtAllocBegin, int32_t Kind) {
/// RAII to establish tool anchors before and after data deletion
OMPT_IF_BUILT(InterfaceRAII TargetDataDeleteRAII(
RegionInterface.getCallbacks<ompt_target_data_delete>(),
DeviceID, TgtAllocBegin,
/*CodePtr=*/OMPT_GET_RETURN_ADDRESS);)
return RTL->data_delete(RTLDeviceID, TgtAllocBegin, Kind);
}
// Submit data to device
int32_t DeviceTy::submitData(void *TgtPtrBegin, void *HstPtrBegin, int64_t Size,
AsyncInfoTy &AsyncInfo, HostDataToTargetTy *Entry,
MappingInfoTy::HDTTMapAccessorTy *HDTTMapPtr) {
if (getInfoLevel() & OMP_INFOTYPE_DATA_TRANSFER)
MappingInfo.printCopyInfo(TgtPtrBegin, HstPtrBegin, Size, /*H2D=*/true,
Entry, HDTTMapPtr);
/// RAII to establish tool anchors before and after data submit
OMPT_IF_BUILT(
InterfaceRAII TargetDataSubmitRAII(
RegionInterface.getCallbacks<ompt_target_data_transfer_to_device>(),
omp_get_initial_device(), HstPtrBegin, DeviceID, TgtPtrBegin, Size,
/*CodePtr=*/OMPT_GET_RETURN_ADDRESS);)
return RTL->data_submit_async(RTLDeviceID, TgtPtrBegin, HstPtrBegin, Size,
AsyncInfo);
}
// Retrieve data from device
int32_t DeviceTy::retrieveData(void *HstPtrBegin, void *TgtPtrBegin,
int64_t Size, AsyncInfoTy &AsyncInfo,
HostDataToTargetTy *Entry,
MappingInfoTy::HDTTMapAccessorTy *HDTTMapPtr) {
if (getInfoLevel() & OMP_INFOTYPE_DATA_TRANSFER)
MappingInfo.printCopyInfo(TgtPtrBegin, HstPtrBegin, Size, /*H2D=*/false,
Entry, HDTTMapPtr);
/// RAII to establish tool anchors before and after data retrieval
OMPT_IF_BUILT(
InterfaceRAII TargetDataRetrieveRAII(
RegionInterface.getCallbacks<ompt_target_data_transfer_from_device>(),
DeviceID, TgtPtrBegin, omp_get_initial_device(), HstPtrBegin, Size,
/*CodePtr=*/OMPT_GET_RETURN_ADDRESS);)
return RTL->data_retrieve_async(RTLDeviceID, HstPtrBegin, TgtPtrBegin, Size,
AsyncInfo);
}
// Copy data from current device to destination device directly
int32_t DeviceTy::dataExchange(void *SrcPtr, DeviceTy &DstDev, void *DstPtr,
int64_t Size, AsyncInfoTy &AsyncInfo) {
/// RAII to establish tool anchors before and after data exchange
/// Note: Despite the fact that this is a data exchange, we use 'from_device'
/// operation enum (w.r.t. ompt_target_data_op_t) as there is currently
/// no better alternative. It is still possible to distinguish this
/// scenario from a real data retrieve by checking if both involved
/// device numbers are less than omp_get_num_devices().
OMPT_IF_BUILT(
InterfaceRAII TargetDataExchangeRAII(
RegionInterface.getCallbacks<ompt_target_data_transfer_from_device>(),
RTLDeviceID, SrcPtr, DstDev.RTLDeviceID, DstPtr, Size,
/*CodePtr=*/OMPT_GET_RETURN_ADDRESS);)
if (!AsyncInfo) {
return RTL->data_exchange(RTLDeviceID, SrcPtr, DstDev.RTLDeviceID, DstPtr,
Size);
}
return RTL->data_exchange_async(RTLDeviceID, SrcPtr, DstDev.RTLDeviceID,
DstPtr, Size, AsyncInfo);
}
int32_t DeviceTy::notifyDataMapped(void *HstPtr, int64_t Size) {
DP("Notifying about new mapping: HstPtr=" DPxMOD ", Size=%" PRId64 "\n",
DPxPTR(HstPtr), Size);
if (RTL->data_notify_mapped(RTLDeviceID, HstPtr, Size)) {
REPORT("Notifiying about data mapping failed.\n");
return OFFLOAD_FAIL;
}
return OFFLOAD_SUCCESS;
}
int32_t DeviceTy::notifyDataUnmapped(void *HstPtr) {
DP("Notifying about an unmapping: HstPtr=" DPxMOD "\n", DPxPTR(HstPtr));
if (RTL->data_notify_unmapped(RTLDeviceID, HstPtr)) {
REPORT("Notifiying about data unmapping failed.\n");
return OFFLOAD_FAIL;
}
return OFFLOAD_SUCCESS;
}
// Run region on device
int32_t DeviceTy::launchKernel(void *TgtEntryPtr, void **TgtVarsPtr,
ptrdiff_t *TgtOffsets, KernelArgsTy &KernelArgs,
AsyncInfoTy &AsyncInfo) {
return RTL->launch_kernel(RTLDeviceID, TgtEntryPtr, TgtVarsPtr, TgtOffsets,
&KernelArgs, AsyncInfo);
}
// Run region on device
bool DeviceTy::printDeviceInfo() {
RTL->print_device_info(RTLDeviceID);
return true;
}
// Whether data can be copied to DstDevice directly
bool DeviceTy::isDataExchangable(const DeviceTy &DstDevice) {
if (RTL != DstDevice.RTL)
return false;
if (RTL->is_data_exchangable(RTLDeviceID, DstDevice.RTLDeviceID))
return true;
return false;
}
int32_t DeviceTy::synchronize(AsyncInfoTy &AsyncInfo) {
return RTL->synchronize(RTLDeviceID, AsyncInfo);
}
int32_t DeviceTy::queryAsync(AsyncInfoTy &AsyncInfo) {
return RTL->query_async(RTLDeviceID, AsyncInfo);
}
int32_t DeviceTy::createEvent(void **Event) {
return RTL->create_event(RTLDeviceID, Event);
}
int32_t DeviceTy::recordEvent(void *Event, AsyncInfoTy &AsyncInfo) {
return RTL->record_event(RTLDeviceID, Event, AsyncInfo);
}
int32_t DeviceTy::waitEvent(void *Event, AsyncInfoTy &AsyncInfo) {
return RTL->wait_event(RTLDeviceID, Event, AsyncInfo);
}
int32_t DeviceTy::syncEvent(void *Event) {
return RTL->sync_event(RTLDeviceID, Event);
}
int32_t DeviceTy::destroyEvent(void *Event) {
return RTL->destroy_event(RTLDeviceID, Event);
}
void DeviceTy::dumpOffloadEntries() {
fprintf(stderr, "Device %i offload entries:\n", DeviceID);
for (auto &It : *DeviceOffloadEntries.getExclusiveAccessor()) {
const char *Kind = "kernel";
if (It.second.isLink())
Kind = "link";
else if (It.second.isGlobal())
Kind = "global var.";
fprintf(stderr, " %11s: %s\n", Kind, It.second.getNameAsCStr());
}
}
bool DeviceTy::useAutoZeroCopy() {
if (PM->getRequirements() & OMP_REQ_UNIFIED_SHARED_MEMORY)
return false;
return RTL->use_auto_zero_copy(RTLDeviceID);
}
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