libomptarget/src/rtl.h - llvm-project/openmp - Git at Google

 //===------------ rtl.h - 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Declarations for handling RTL plugins.
 //
 //===----------------------------------------------------------------------===//

 #ifndef _OMPTARGET_RTL_H
 #define _OMPTARGET_RTL_H

 #include "omptarget.h"
 #include <list>
 #include <map>
 #include <mutex>
 #include <string>
 #include <vector>

 // Forward declarations.
 struct DeviceTy;
 struct __tgt_bin_desc;

 struct RTLInfoTy {
   typedef int32_t(is_valid_binary_ty)(void *);
   typedef int32_t(is_data_exchangable_ty)(int32_t, int32_t);
   typedef int32_t(number_of_devices_ty)();
   typedef int32_t(init_device_ty)(int32_t);
   typedef __tgt_target_table *(load_binary_ty)(int32_t, void *);
   typedef void *(data_alloc_ty)(int32_t, int64_t, void *);
   typedef int32_t(data_submit_ty)(int32_t, void *, void *, int64_t);
   typedef int32_t(data_submit_async_ty)(int32_t, void *, void *, int64_t,
                                         __tgt_async_info *);
   typedef int32_t(data_retrieve_ty)(int32_t, void *, void *, int64_t);
   typedef int32_t(data_retrieve_async_ty)(int32_t, void *, void *, int64_t,
                                           __tgt_async_info *);
   typedef int32_t(data_exchange_ty)(int32_t, void *, int32_t, void *, int64_t);
   typedef int32_t(data_exchange_async_ty)(int32_t, void *, int32_t, void *,
                                           int64_t, __tgt_async_info *);
   typedef int32_t(data_delete_ty)(int32_t, void *);
   typedef int32_t(run_region_ty)(int32_t, void *, void **, ptrdiff_t *,
                                  int32_t);
   typedef int32_t(run_region_async_ty)(int32_t, void *, void **, ptrdiff_t *,
                                        int32_t, __tgt_async_info *);
   typedef int32_t(run_team_region_ty)(int32_t, void *, void **, ptrdiff_t *,
                                       int32_t, int32_t, int32_t, uint64_t);
   typedef int32_t(run_team_region_async_ty)(int32_t, void *, void **,
                                             ptrdiff_t *, int32_t, int32_t,
                                             int32_t, uint64_t,
                                             __tgt_async_info *);
   typedef int64_t(init_requires_ty)(int64_t);
   typedef int64_t(synchronize_ty)(int32_t, __tgt_async_info *);
   typedef int32_t (*register_lib_ty)(__tgt_bin_desc *);

   int32_t Idx = -1;             // RTL index, index is the number of devices
                                 // of other RTLs that were registered before,
                                 // i.e. the OpenMP index of the first device
                                 // to be registered with this RTL.
   int32_t NumberOfDevices = -1; // Number of devices this RTL deals with.

   void *LibraryHandler = nullptr;

 #ifdef OMPTARGET_DEBUG
   std::string RTLName;
 #endif

   // Functions implemented in the RTL.
   is_valid_binary_ty *is_valid_binary = nullptr;
   is_data_exchangable_ty *is_data_exchangable = nullptr;
   number_of_devices_ty *number_of_devices = nullptr;
   init_device_ty *init_device = nullptr;
   load_binary_ty *load_binary = nullptr;
   data_alloc_ty *data_alloc = nullptr;
   data_submit_ty *data_submit = nullptr;
   data_submit_async_ty *data_submit_async = nullptr;
   data_retrieve_ty *data_retrieve = nullptr;
   data_retrieve_async_ty *data_retrieve_async = nullptr;
   data_exchange_ty *data_exchange = nullptr;
   data_exchange_async_ty *data_exchange_async = nullptr;
   data_delete_ty *data_delete = nullptr;
   run_region_ty *run_region = nullptr;
   run_region_async_ty *run_region_async = nullptr;
   run_team_region_ty *run_team_region = nullptr;
   run_team_region_async_ty *run_team_region_async = nullptr;
   init_requires_ty *init_requires = nullptr;
   synchronize_ty *synchronize = nullptr;
   register_lib_ty register_lib = nullptr;
   register_lib_ty unregister_lib = nullptr;

   // Are there images associated with this RTL.
   bool isUsed = false;

   // Mutex for thread-safety when calling RTL interface functions.
   // It is easier to enforce thread-safety at the libomptarget level,
   // so that developers of new RTLs do not have to worry about it.
   std::mutex Mtx;
 };

 /// RTLs identified in the system.
 struct RTLsTy {
   // List of the detected runtime libraries.
   std::list<RTLInfoTy> AllRTLs;

   // Array of pointers to the detected runtime libraries that have compatible
   // binaries.
   std::vector<RTLInfoTy *> UsedRTLs;

   int64_t RequiresFlags = OMP_REQ_UNDEFINED;

   explicit RTLsTy() = default;

   // Register the clauses of the requires directive.
   void RegisterRequires(int64_t flags);

   // Register a shared library with all (compatible) RTLs.
   void RegisterLib(__tgt_bin_desc *desc);

   // Unregister a shared library from all RTLs.
   void UnregisterLib(__tgt_bin_desc *desc);

   // Mutex-like object to guarantee thread-safety and unique initialization
   // (i.e. the library attempts to load the RTLs (plugins) only once).
   std::once_flag initFlag;
   void LoadRTLs(); // not thread-safe
 };

 /// Map between the host entry begin and the translation table. Each
 /// registered library gets one TranslationTable. Use the map from
 /// __tgt_offload_entry so that we may quickly determine whether we
 /// are trying to (re)register an existing lib or really have a new one.
 struct TranslationTable {
   __tgt_target_table HostTable;

   // Image assigned to a given device.
   std::vector<__tgt_device_image *> TargetsImages; // One image per device ID.

   // Table of entry points or NULL if it was not already computed.
   std::vector<__tgt_target_table *> TargetsTable; // One table per device ID.
 };
 typedef std::map<__tgt_offload_entry *, TranslationTable>
     HostEntriesBeginToTransTableTy;

 /// Map between the host ptr and a table index
 struct TableMap {
   TranslationTable *Table = nullptr; // table associated with the host ptr.
   uint32_t Index = 0; // index in which the host ptr translated entry is found.
   TableMap() = default;
   TableMap(TranslationTable *table, uint32_t index)
       : Table(table), Index(index) {}
 };
 typedef std::map<void *, TableMap> HostPtrToTableMapTy;

 #endif
	//===------------ rtl.h - 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Declarations for handling RTL plugins.
	//
	//===----------------------------------------------------------------------===//

	#ifndef _OMPTARGET_RTL_H
	#define _OMPTARGET_RTL_H

	#include "omptarget.h"
	#include <list>
	#include <map>
	#include <mutex>
	#include <string>
	#include <vector>

	// Forward declarations.
	struct DeviceTy;
	struct __tgt_bin_desc;

	struct RTLInfoTy {
	typedef int32_t(is_valid_binary_ty)(void *);
	typedef int32_t(is_data_exchangable_ty)(int32_t, int32_t);
	typedef int32_t(number_of_devices_ty)();
	typedef int32_t(init_device_ty)(int32_t);
	typedef __tgt_target_table (load_binary_ty)(int32_t, void );
	typedef void (data_alloc_ty)(int32_t, int64_t, void );
	typedef int32_t(data_submit_ty)(int32_t, void , void , int64_t);
	typedef int32_t(data_submit_async_ty)(int32_t, void , void , int64_t,
	__tgt_async_info *);
	typedef int32_t(data_retrieve_ty)(int32_t, void , void , int64_t);
	typedef int32_t(data_retrieve_async_ty)(int32_t, void , void , int64_t,
	__tgt_async_info *);
	typedef int32_t(data_exchange_ty)(int32_t, void , int32_t, void , int64_t);
	typedef int32_t(data_exchange_async_ty)(int32_t, void , int32_t, void ,
	int64_t, __tgt_async_info *);
	typedef int32_t(data_delete_ty)(int32_t, void *);
	typedef int32_t(run_region_ty)(int32_t, void , void , ptrdiff_t ,
	int32_t);
	typedef int32_t(run_region_async_ty)(int32_t, void , void , ptrdiff_t ,
	int32_t, __tgt_async_info *);
	typedef int32_t(run_team_region_ty)(int32_t, void , void , ptrdiff_t ,
	int32_t, int32_t, int32_t, uint64_t);
	typedef int32_t(run_team_region_async_ty)(int32_t, void , void *,
	ptrdiff_t *, int32_t, int32_t,
	int32_t, uint64_t,
	__tgt_async_info *);
	typedef int64_t(init_requires_ty)(int64_t);
	typedef int64_t(synchronize_ty)(int32_t, __tgt_async_info *);
	typedef int32_t (register_lib_ty)(__tgt_bin_desc );

	int32_t Idx = -1; // RTL index, index is the number of devices
	// of other RTLs that were registered before,
	// i.e. the OpenMP index of the first device
	// to be registered with this RTL.
	int32_t NumberOfDevices = -1; // Number of devices this RTL deals with.

	void *LibraryHandler = nullptr;

	#ifdef OMPTARGET_DEBUG
	std::string RTLName;
	#endif

	// Functions implemented in the RTL.
	is_valid_binary_ty *is_valid_binary = nullptr;
	is_data_exchangable_ty *is_data_exchangable = nullptr;
	number_of_devices_ty *number_of_devices = nullptr;
	init_device_ty *init_device = nullptr;
	load_binary_ty *load_binary = nullptr;
	data_alloc_ty *data_alloc = nullptr;
	data_submit_ty *data_submit = nullptr;
	data_submit_async_ty *data_submit_async = nullptr;
	data_retrieve_ty *data_retrieve = nullptr;
	data_retrieve_async_ty *data_retrieve_async = nullptr;
	data_exchange_ty *data_exchange = nullptr;
	data_exchange_async_ty *data_exchange_async = nullptr;
	data_delete_ty *data_delete = nullptr;
	run_region_ty *run_region = nullptr;
	run_region_async_ty *run_region_async = nullptr;
	run_team_region_ty *run_team_region = nullptr;
	run_team_region_async_ty *run_team_region_async = nullptr;
	init_requires_ty *init_requires = nullptr;
	synchronize_ty *synchronize = nullptr;
	register_lib_ty register_lib = nullptr;
	register_lib_ty unregister_lib = nullptr;

	// Are there images associated with this RTL.
	bool isUsed = false;

	// Mutex for thread-safety when calling RTL interface functions.
	// It is easier to enforce thread-safety at the libomptarget level,
	// so that developers of new RTLs do not have to worry about it.
	std::mutex Mtx;
	};

	/// RTLs identified in the system.
	struct RTLsTy {
	// List of the detected runtime libraries.
	std::list<RTLInfoTy> AllRTLs;

	// Array of pointers to the detected runtime libraries that have compatible
	// binaries.
	std::vector<RTLInfoTy *> UsedRTLs;

	int64_t RequiresFlags = OMP_REQ_UNDEFINED;

	explicit RTLsTy() = default;

	// Register the clauses of the requires directive.
	void RegisterRequires(int64_t flags);

	// Register a shared library with all (compatible) RTLs.
	void RegisterLib(__tgt_bin_desc *desc);

	// Unregister a shared library from all RTLs.
	void UnregisterLib(__tgt_bin_desc *desc);

	// Mutex-like object to guarantee thread-safety and unique initialization
	// (i.e. the library attempts to load the RTLs (plugins) only once).
	std::once_flag initFlag;
	void LoadRTLs(); // not thread-safe
	};

	/// Map between the host entry begin and the translation table. Each
	/// registered library gets one TranslationTable. Use the map from
	/// __tgt_offload_entry so that we may quickly determine whether we
	/// are trying to (re)register an existing lib or really have a new one.
	struct TranslationTable {
	__tgt_target_table HostTable;

	// Image assigned to a given device.
	std::vector<__tgt_device_image *> TargetsImages; // One image per device ID.

	// Table of entry points or NULL if it was not already computed.
	std::vector<__tgt_target_table *> TargetsTable; // One table per device ID.
	};
	typedef std::map<__tgt_offload_entry *, TranslationTable>
	HostEntriesBeginToTransTableTy;

	/// Map between the host ptr and a table index
	struct TableMap {
	TranslationTable *Table = nullptr; // table associated with the host ptr.
	uint32_t Index = 0; // index in which the host ptr translated entry is found.
	TableMap() = default;
	TableMap(TranslationTable *table, uint32_t index)
	: Table(table), Index(index) {}
	};
	typedef std::map<void *, TableMap> HostPtrToTableMapTy;

	#endif