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llvm-project/offload/unittests/OffloadAPI/common/Environment.cpp
Joseph Huber d62cd1b89d
[Offload] Add argument to 'olInit' for global configuration options (#181872) 
Summary:
This PR adds a pointer argument to the initialization routine to be used
for global options. Right now this is used to allow the user to
constrain which backends they wish to use.

If a null argument is passed, the same behavior as before is observed.
This is epxected to be extensible by forcing the user to encode the size
of the struct. So, old executables will encode which fields they have
access to.

We use a macro helper to get this struct rather than a runtime call so
that the current state of the size is baked into the executable rather
than something looked up by the runtime. Otherwise it would just return
the size that the (potentially newer) runtime would see
2026-02-17 14:04:00 -06:00

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//===------- Offload API tests - gtest environment ------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "Environment.hpp"
#include "Fixtures.hpp"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/MemoryBuffer.h"
#include <OffloadAPI.h>
#include <fstream>
using namespace llvm;
// Wrapper so we don't have to constantly init and shutdown Offload in every
// test, while having sensible lifetime for the platform environment
#ifndef DISABLE_WRAPPER
struct OffloadInitWrapper {
OffloadInitWrapper() { olInit(nullptr); }
~OffloadInitWrapper() { olShutDown(); }
};
static OffloadInitWrapper Wrapper{};
#endif
static cl::opt<std::string>
SelectedPlatform("platform", cl::desc("Only test the specified platform"),
cl::value_desc("platform"));
raw_ostream &operator<<(raw_ostream &Out,
const ol_platform_handle_t &Platform) {
size_t Size;
olGetPlatformInfoSize(Platform, OL_PLATFORM_INFO_NAME, &Size);
std::vector<char> Name(Size);
olGetPlatformInfo(Platform, OL_PLATFORM_INFO_NAME, Size, Name.data());
Out << Name.data();
return Out;
}
raw_ostream &operator<<(raw_ostream &Out, const ol_device_handle_t &Device) {
size_t Size;
olGetDeviceInfoSize(Device, OL_DEVICE_INFO_PRODUCT_NAME, &Size);
std::vector<char> Name(Size);
olGetDeviceInfo(Device, OL_DEVICE_INFO_PRODUCT_NAME, Size, Name.data());
Out << Name.data();
return Out;
}
void printPlatforms() {
SmallDenseSet<ol_platform_handle_t> Platforms;
using DeviceVecT = SmallVector<ol_device_handle_t, 8>;
DeviceVecT Devices{};
olIterateDevices(
[](ol_device_handle_t D, void *Data) {
static_cast<DeviceVecT *>(Data)->push_back(D);
return true;
},
&Devices);
for (auto &Device : Devices) {
ol_platform_handle_t Platform;
olGetDeviceInfo(Device, OL_DEVICE_INFO_PLATFORM, sizeof(Platform),
&Platform);
Platforms.insert(Platform);
}
for (const auto &Platform : Platforms) {
errs() << " * " << Platform << "\n";
}
}
const std::vector<TestEnvironment::Device> &TestEnvironment::getDevices() {
static std::vector<TestEnvironment::Device> Devices{};
if (Devices.empty()) {
// If a specific platform is requested, filter to devices belonging to it.
if (const char *EnvStr = getenv("OFFLOAD_UNITTEST_PLATFORM")) {
if (SelectedPlatform != "")
errs() << "Warning: --platform argument ignored as "
"OFFLOAD_UNITTEST_PLATFORM env var overrides it.\n";
SelectedPlatform = EnvStr;
}
if (SelectedPlatform != "") {
olIterateDevices(
[](ol_device_handle_t D, void *Data) {
ol_platform_handle_t Platform;
olGetDeviceInfo(D, OL_DEVICE_INFO_PLATFORM, sizeof(Platform),
&Platform);
ol_platform_backend_t Backend;
olGetPlatformInfo(Platform, OL_PLATFORM_INFO_BACKEND,
sizeof(Backend), &Backend);
std::string PlatformName;
raw_string_ostream S(PlatformName);
S << Platform;
if (PlatformName == SelectedPlatform &&
Backend != OL_PLATFORM_BACKEND_HOST) {
auto *OutDevices = static_cast<decltype(Devices) *>(Data);
std::string Name;
raw_string_ostream NameStr(Name);
NameStr << PlatformName << "_" << D << OutDevices->size();
OutDevices->push_back({D, Name});
}
return true;
},
&Devices);
} else {
// No platform specified, discover every device that isn't the host.
olIterateDevices(
[](ol_device_handle_t D, void *Data) {
ol_platform_handle_t Platform;
olGetDeviceInfo(D, OL_DEVICE_INFO_PLATFORM, sizeof(Platform),
&Platform);
ol_platform_backend_t Backend;
olGetPlatformInfo(Platform, OL_PLATFORM_INFO_BACKEND,
sizeof(Backend), &Backend);
if (Backend != OL_PLATFORM_BACKEND_HOST) {
auto *OutDevices = static_cast<decltype(Devices) *>(Data);
std::string Name;
raw_string_ostream NameStr(Name);
NameStr << Platform << "_" << D << "_" << OutDevices->size();
OutDevices->push_back({D, Name});
}
return true;
},
&Devices);
}
}
if (Devices.size() == 0)
errs() << "Warning: No devices found for OffloadAPI tests.\n";
return Devices;
}
ol_device_handle_t TestEnvironment::getHostDevice() {
static ol_device_handle_t HostDevice = nullptr;
if (!HostDevice) {
olIterateDevices(
[](ol_device_handle_t D, void *Data) {
ol_platform_handle_t Platform;
olGetDeviceInfo(D, OL_DEVICE_INFO_PLATFORM, sizeof(Platform),
&Platform);
ol_platform_backend_t Backend;
olGetPlatformInfo(Platform, OL_PLATFORM_INFO_BACKEND, sizeof(Backend),
&Backend);
if (Backend == OL_PLATFORM_BACKEND_HOST) {
*(static_cast<ol_device_handle_t *>(Data)) = D;
return false;
}
return true;
},
&HostDevice);
}
return HostDevice;
}
// TODO: Allow overriding via cmd line arg
const std::string DeviceBinsDirectory = DEVICE_CODE_PATH;
bool TestEnvironment::loadDeviceBinary(
const std::string &BinaryName, ol_device_handle_t Device,
std::unique_ptr<MemoryBuffer> &BinaryOut) {
// Get the platform type
ol_platform_handle_t Platform;
olGetDeviceInfo(Device, OL_DEVICE_INFO_PLATFORM, sizeof(Platform), &Platform);
ol_platform_backend_t Backend = OL_PLATFORM_BACKEND_UNKNOWN;
olGetPlatformInfo(Platform, OL_PLATFORM_INFO_BACKEND, sizeof(Backend),
&Backend);
std::string FileExtension;
if (Backend == OL_PLATFORM_BACKEND_AMDGPU) {
FileExtension = ".amdgpu.bin";
} else if (Backend == OL_PLATFORM_BACKEND_CUDA) {
FileExtension = ".nvptx64.bin";
} else {
errs() << "Unsupported platform type for a device binary test.\n";
return false;
}
std::string SourcePath =
DeviceBinsDirectory + "/" + BinaryName + FileExtension;
auto SourceFile = MemoryBuffer::getFile(SourcePath, false, false);
if (!SourceFile) {
errs() << "failed to read device binary file: " + SourcePath;
return false;
}
BinaryOut = std::move(SourceFile.get());
return true;
}
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