tree: c26666537833c2a100dccbf19414d40fd9b113b5 [path history] [tgz]
  1. third_party/
  2. vendor/
  3. .clang-format
  4. .gitignore
  5. CMakeLists.txt
  6. cpu_profiler.h
  7. gpu_profiler.h
  8. hwcpipe.cpp
  9. hwcpipe.h
  10. hwcpipe_log.h
  11. LICENSE
  12. README.md
  13. value.h
README.md

HWCPipe

Introduction

HWCPipe is a simple and extensible interface for reading CPU and GPU hardware counters.

License

The software is provided under an MIT license.

This project has a third-party dependency, which may have independent licensing:

Contributions

All contributions are accepted under the same LICENSE.

Building

To use HWCPipe, build it as a shared library in your project.

If your project uses CMake, you can add the following to your CMakeLists.txt:

add_subdirectory(hwcpipe)

Usage

Using HWCPipe

Basic usage for HWCPipe is simple:

// HWCPipe performs automated platform detection for CPU/GPU counters
hwcpipe::HWCPipe h;

// Start HWCPipe once at the beginning of the profiling session
h.run();

while (main_loop) {
    // Call sample() to sample counters with the frequency you need
    auto measurements = h.sample();

    [...]
}

// At the end of the profiling session, stop HWCPipe
h.stop();

The sample function returns a Measurements struct, which can be accessed like this:

// Check if CPU measurements are available
if (measurements.cpu)
{
    // Look for a counter in the map
    const auto &counter = measurements.cpu->find(CpuCounter::Cycles);
    if (counter != measurements.cpu->end())
    {
        // Get the data stored in the counter, casted to the type you need
        auto value = counter->second.get<float>();
    }
}

Enabling counters

The available counters are specified in the CpuCounter and GpuCounter enums (cpu_profiler.h and gpu_profiler.h respectively).

Platforms will support a subset of these counters, which can be queried via:

auto cpu_counters = h.cpu_profiler()->supported_counters();
auto gpu_counters = h.gpu_profiler()->supported_counters()

You can specify the counters to be enabled in the following ways:

// Enable a default set of counters
auto h = hwcpipe::HWCPipe();

// Pass sets of CPU and GPU counters to be enabled
auto h = hwcpipe::HWCPipe({CpuCounter::Cycles, CpuCounter::Instructions}, {GpuCounter::GpuCycles});

// Pass a JSON string
auto h = hwcpipe::HWCPipe(json);

The JSON string should be formatted like this:

{
    "cpu": ["Cycles", "Instructions"],
    "gpu": ["GpuCycles"]
}

Available counter names can be found in cpu_counter_names (cpu_profiler.h) and gpu_counter_names (gpu_profiler.h).

For more information regarding Mali counters, see Mali Performance Counters.

Enabling profiling on Android

In order for performance data to be displayed, profiling needs to be enabled on the device. Some devices may disable it by default.

Profiling can be enabled via adb:

adb shell setprop security.perf_harden 0

Adding support for a new platform

If the counters provided in CpuCounter and GpuCounter are enough for the new platform, the process is simple:

  • Add an implementation of either CpuProfiler of GpuProfiler (you can use PmuProfiler and MaliProfiler as references).
  • Add your platform to the automated platform detection in hwcpipe.cpp. For consistency in platform detection, the constructor for your platform should throw if the platform is not available.
  • Add your platform to the build system.

Adding new counters

If you need to add new counters to the existing ones, you should update the following variables:

  • Add the counter to the CpuCounter/GpuCounter enum.
  • Add the counter name to the cpu_counter_names/gpu_counter_names map (necessary for JSON initialization).
  • Add a description and the unit for your counter to the cpu_counter_info/gpu_counter_info map.

The CpuCounter and GpuCounter enums are meant to be expanded. Platforms must not break if new counters are added.