Comhaid
rocm-systems/samples/library-implementation/demo.cpp
T
Jonathan R. Madsen fa4295db6b Initial Implementation: include (#10)
* Initial Implementation: include

* Initial Implementation: lib details (#11)

* Initial Implementation: lib details

* Initial Implementation: lib (#12)

* Initial Implementation: lib

* Initial Implementation: source (#13)

* Initial Implementation: source

* Initial Implementation: samples (#14)

* Initial Implementation: samples

* Initial Implementation: tests (#15)

* Initial Implementation: tests

* Initial Implementation: scripts (#16)

* Initial Implementation: scripts

* Initial Implementation: cmake (#17)

* Initial Implementation: cmake

* Initial Implementation: top-level files (#18)

* Initial Implementation: top-level files

- clang-format
- clang-tidy
- cmake-format
- ignore build and cache directories
- main CMakeLists.txt
- pyproject.toml (python formatting)
- VERSION file

* Initial Implementation: workflow (#19)

* Fix unused variable

- rocprofiler_register_warn_level
2023-08-17 14:59:24 -05:00

121 línte
4.5 KiB
C++

#include "demo.hpp"
#include <rocprofiler-register/rocprofiler-register.h>
#include <atomic>
#include <iostream>
#include <mutex>
#define ROCP_REG_VERSION \
ROCPROFILER_REGISTER_COMPUTE_VERSION_3( \
HIP_VERSION_MAJOR, HIP_VERSION_MINOR, HIP_VERSION_PATCH)
ROCPROFILER_REGISTER_DEFINE_IMPORT(hip, ROCP_REG_VERSION)
namespace hip
{
namespace
{
auto&
get_hip_api_table_impl()
{
static auto _table = std::atomic<HipApiTable*>{ nullptr };
return _table;
}
void
register_profiler_impl()
{
static auto _const_api_table = HipApiTable{};
initialize_hip_api_table(&_const_api_table);
// set this before any recursive opportunity arises
get_hip_api_table_impl().exchange(&_const_api_table);
// create a copy of the api table for modification by registration
static auto _profiler_api_table = HipApiTable{};
copy_hip_api_table(&_profiler_api_table, &_const_api_table);
void* _profiler_api_table_v = static_cast<void*>(&_profiler_api_table);
auto lib_id = rocprofiler_register_library_indentifier_t{};
auto success =
rocprofiler_register_library_api_table("hip",
&ROCPROFILER_REGISTER_IMPORT_FUNC(hip),
ROCP_REG_VERSION,
&_profiler_api_table_v,
1,
&lib_id);
if(success == 0)
{
auto* _api_table = &_const_api_table;
if(!get_hip_api_table_impl().compare_exchange_strong(_api_table,
&_profiler_api_table))
{
// with the current impl, if we ever get here, someone is calling one the
// functions in this anonymous namespace that shouldn't
std::cerr
<< "register_profiler_impl expected the API table to be the internal "
"implementation and yet it is not. something went wrong.\n";
abort();
}
}
}
void
register_profiler()
{
// this registration scheme is designed to minimize overhead once
// registered (only pay cost of checking atomic boolean)
// once the profiler is registered. If the library has not
// been registered and two or more threads try to register concurrently
// the first thread to acquire the lock below, will block the
// threads until registration is complete. However,
// if the same thread performing the registration re-enters this function
// i.e. this library's API is called during registration, this function
// will prevent a deadlock by not attempting to re-enter the
// the call-once and not releasing any waiting threads by flipping
// the _is_registered field to true.
static auto _is_registered = std::atomic<bool>{ false };
if(!_is_registered.load(std::memory_order_acquire))
{
using mutex_t = std::recursive_mutex;
using auto_lock_t = std::unique_lock<mutex_t>;
static auto _once = std::once_flag{};
static auto _mutex = mutex_t{};
// defer the lock so we can check for recursion
auto _lk = auto_lock_t{ _mutex, std::defer_lock };
// this will be true if the same thread currently executing the call_once invokes
// the library's API while registering the profiler (e.g. tool which wants to
// instrument HIP API invokes a HIP function while registering with the profiler)
// we allow this thread to proceed and access the "const" API table but
// return so it does not flip _is_registered to true, which would result
// in any subsequent threads not waiting until the library is fully registered,
// resulting in missed callbacks for the tools
if(_lk.owns_lock()) return;
// ensures any subsequent threads wait until the first thread
// finishes registration
_lk.lock();
// call_once to ensure that we only register once
std::call_once(_once, register_profiler_impl);
// the first thread has completed registration and all
// threads waiting on lock will be released and this
// block will not be entered again
_is_registered.exchange(true, std::memory_order_release);
}
}
} // namespace
HipApiTable*
get_hip_api_table()
{
register_profiler();
return get_hip_api_table_impl().load(std::memory_order_relaxed);
}
} // namespace hip