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

 //===----------- device.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 managing devices that are handled by RTL plugins.
 //
 //===----------------------------------------------------------------------===//

 #ifndef _OMPTARGET_DEVICE_H
 #define _OMPTARGET_DEVICE_H

 #include <cassert>
 #include <cstddef>
 #include <list>
 #include <map>
 #include <memory>
 #include <mutex>
 #include <set>
 #include <vector>

 #include "rtl.h"

 // Forward declarations.
 struct RTLInfoTy;
 struct __tgt_bin_desc;
 struct __tgt_target_table;
 struct __tgt_async_info;

 using map_var_info_t = void *;

 // enum for OMP_TARGET_OFFLOAD; keep in sync with kmp.h definition
 enum kmp_target_offload_kind {
   tgt_disabled = 0,
   tgt_default = 1,
   tgt_mandatory = 2
 };
 typedef enum kmp_target_offload_kind kmp_target_offload_kind_t;

 /// Map between host data and target data.
 struct HostDataToTargetTy {
   uintptr_t HstPtrBase; // host info.
   uintptr_t HstPtrBegin;
   uintptr_t HstPtrEnd; // non-inclusive.
   map_var_info_t HstPtrName; // Optional source name of mapped variable.

   uintptr_t TgtPtrBegin; // target info.

 private:
   /// use mutable to allow modification via std::set iterator which is const.
   mutable uint64_t RefCount;
   static const uint64_t INFRefCount = ~(uint64_t)0;

 public:
   HostDataToTargetTy(uintptr_t BP, uintptr_t B, uintptr_t E, uintptr_t TB,
                      map_var_info_t Name = nullptr, bool IsINF = false)
       : HstPtrBase(BP), HstPtrBegin(B), HstPtrEnd(E), HstPtrName(Name),
         TgtPtrBegin(TB), RefCount(IsINF ? INFRefCount : 1) {}

   uint64_t getRefCount() const {
     return RefCount;
   }

   uint64_t resetRefCount() const {
     if (RefCount != INFRefCount)
       RefCount = 1;

     return RefCount;
   }

   uint64_t incRefCount() const {
     if (RefCount != INFRefCount) {
       ++RefCount;
       assert(RefCount < INFRefCount && "refcount overflow");
     }

     return RefCount;
   }

   uint64_t decRefCount() const {
     if (RefCount != INFRefCount) {
       assert(RefCount > 0 && "refcount underflow");
       --RefCount;
     }

     return RefCount;
   }

   bool isRefCountInf() const {
     return RefCount == INFRefCount;
   }
 };

 typedef uintptr_t HstPtrBeginTy;
 inline bool operator<(const HostDataToTargetTy &lhs, const HstPtrBeginTy &rhs) {
   return lhs.HstPtrBegin < rhs;
 }
 inline bool operator<(const HstPtrBeginTy &lhs, const HostDataToTargetTy &rhs) {
   return lhs < rhs.HstPtrBegin;
 }
 inline bool operator<(const HostDataToTargetTy &lhs,
                       const HostDataToTargetTy &rhs) {
   return lhs.HstPtrBegin < rhs.HstPtrBegin;
 }

 typedef std::set<HostDataToTargetTy, std::less<>> HostDataToTargetListTy;

 struct LookupResult {
   struct {
     unsigned IsContained   : 1;
     unsigned ExtendsBefore : 1;
     unsigned ExtendsAfter  : 1;
   } Flags;

   HostDataToTargetListTy::iterator Entry;

   LookupResult() : Flags({0,0,0}), Entry() {}
 };

 /// Map for shadow pointers
 struct ShadowPtrValTy {
   void *HstPtrVal;
   void *TgtPtrAddr;
   void *TgtPtrVal;
 };
 typedef std::map<void *, ShadowPtrValTy> ShadowPtrListTy;

 ///
 struct PendingCtorDtorListsTy {
   std::list<void *> PendingCtors;
   std::list<void *> PendingDtors;
 };
 typedef std::map<__tgt_bin_desc *, PendingCtorDtorListsTy>
     PendingCtorsDtorsPerLibrary;

 struct DeviceTy {
   int32_t DeviceID;
   RTLInfoTy *RTL;
   int32_t RTLDeviceID;

   bool IsInit;
   std::once_flag InitFlag;
   bool HasPendingGlobals;

   HostDataToTargetListTy HostDataToTargetMap;
   PendingCtorsDtorsPerLibrary PendingCtorsDtors;

   ShadowPtrListTy ShadowPtrMap;

   std::mutex DataMapMtx, PendingGlobalsMtx, ShadowMtx;

   // NOTE: Once libomp gains full target-task support, this state should be
   // moved into the target task in libomp.
   std::map<int32_t, uint64_t> LoopTripCnt;

   DeviceTy(RTLInfoTy *RTL);

   // The existence of mutexes makes DeviceTy non-copyable. We need to
   // provide a copy constructor and an assignment operator explicitly.
   DeviceTy(const DeviceTy &D);

   DeviceTy &operator=(const DeviceTy &D);

   ~DeviceTy();

   // Return true if data can be copied to DstDevice directly
   bool isDataExchangable(const DeviceTy& DstDevice);

   uint64_t getMapEntryRefCnt(void *HstPtrBegin);
   LookupResult lookupMapping(void *HstPtrBegin, int64_t Size);
   void *getOrAllocTgtPtr(void *HstPtrBegin, void *HstPtrBase, int64_t Size,
                          map_var_info_t HstPtrName, bool &IsNew,
                          bool &IsHostPtr, bool IsImplicit, bool UpdateRefCount,
                          bool HasCloseModifier, bool HasPresentModifier);
   void *getTgtPtrBegin(void *HstPtrBegin, int64_t Size);
   void *getTgtPtrBegin(void *HstPtrBegin, int64_t Size, bool &IsLast,
                        bool UpdateRefCount, bool &IsHostPtr,
                        bool MustContain = false);
   int deallocTgtPtr(void *TgtPtrBegin, int64_t Size, bool ForceDelete,
                     bool HasCloseModifier = false);
   int associatePtr(void *HstPtrBegin, void *TgtPtrBegin, int64_t Size);
   int disassociatePtr(void *HstPtrBegin);

   // calls to RTL
   int32_t initOnce();
   __tgt_target_table *load_binary(void *Img);

   // device memory allocation/deallocation routines
   /// Allocates \p Size bytes on the device and returns the address/nullptr when
   /// succeeds/fails. \p HstPtr is an address of the host data which the
   /// allocated target data will be associated with. If it is unknown, the
   /// default value of \p HstPtr is nullptr. Note: this function doesn't do
   /// pointer association. Actually, all the __tgt_rtl_data_alloc
   /// implementations ignore \p HstPtr.
   void *allocData(int64_t Size, void *HstPtr = nullptr);
   /// Deallocates memory which \p TgtPtrBegin points at and returns
   /// OFFLOAD_SUCCESS/OFFLOAD_FAIL when succeeds/fails.
   int32_t deleteData(void *TgtPtrBegin);

   // Data transfer. When AsyncInfoPtr is nullptr, the transfer will be
   // synchronous.
   // Copy data from host to device
   int32_t submitData(void *TgtPtrBegin, void *HstPtrBegin, int64_t Size,
                      __tgt_async_info *AsyncInfoPtr);
   // Copy data from device back to host
   int32_t retrieveData(void *HstPtrBegin, void *TgtPtrBegin, int64_t Size,
                        __tgt_async_info *AsyncInfoPtr);
   // Copy data from current device to destination device directly
   int32_t dataExchange(void *SrcPtr, DeviceTy &DstDev, void *DstPtr,
                        int64_t Size, __tgt_async_info *AsyncInfo);

   int32_t runRegion(void *TgtEntryPtr, void **TgtVarsPtr, ptrdiff_t *TgtOffsets,
                     int32_t TgtVarsSize, __tgt_async_info *AsyncInfoPtr);
   int32_t runTeamRegion(void *TgtEntryPtr, void **TgtVarsPtr,
                         ptrdiff_t *TgtOffsets, int32_t TgtVarsSize,
                         int32_t NumTeams, int32_t ThreadLimit,
                         uint64_t LoopTripCount, __tgt_async_info *AsyncInfoPtr);

   /// Synchronize device/queue/event based on \p AsyncInfoPtr and return
   /// OFFLOAD_SUCCESS/OFFLOAD_FAIL when succeeds/fails.
   int32_t synchronize(__tgt_async_info *AsyncInfoPtr);

 private:
   // Call to RTL
   void init(); // To be called only via DeviceTy::initOnce()
 };

 /// Map between Device ID (i.e. openmp device id) and its DeviceTy.
 typedef std::vector<DeviceTy> DevicesTy;

 extern bool device_is_ready(int device_num);

 /// Struct for the data required to handle plugins
 struct PluginManager {
   /// RTLs identified on the host
   RTLsTy RTLs;

   /// Devices associated with RTLs
   DevicesTy Devices;
   std::mutex RTLsMtx; ///< For RTLs and Devices

   /// Translation table retreived from the binary
   HostEntriesBeginToTransTableTy HostEntriesBeginToTransTable;
   std::mutex TrlTblMtx; ///< For Translation Table

   /// Map from ptrs on the host to an entry in the Translation Table
   HostPtrToTableMapTy HostPtrToTableMap;
   std::mutex TblMapMtx; ///< For HostPtrToTableMap

   // Store target policy (disabled, mandatory, default)
   kmp_target_offload_kind_t TargetOffloadPolicy = tgt_default;
   std::mutex TargetOffloadMtx; ///< For TargetOffloadPolicy
 };

 extern PluginManager *PM;

 #endif
	//===----------- device.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 managing devices that are handled by RTL plugins.
	//
	//===----------------------------------------------------------------------===//

	#ifndef _OMPTARGET_DEVICE_H
	#define _OMPTARGET_DEVICE_H

	#include <cassert>
	#include <cstddef>
	#include <list>
	#include <map>
	#include <memory>
	#include <mutex>
	#include <set>
	#include <vector>

	#include "rtl.h"

	// Forward declarations.
	struct RTLInfoTy;
	struct __tgt_bin_desc;
	struct __tgt_target_table;
	struct __tgt_async_info;

	using map_var_info_t = void *;

	// enum for OMP_TARGET_OFFLOAD; keep in sync with kmp.h definition
	enum kmp_target_offload_kind {
	tgt_disabled = 0,
	tgt_default = 1,
	tgt_mandatory = 2
	};
	typedef enum kmp_target_offload_kind kmp_target_offload_kind_t;

	/// Map between host data and target data.
	struct HostDataToTargetTy {
	uintptr_t HstPtrBase; // host info.
	uintptr_t HstPtrBegin;
	uintptr_t HstPtrEnd; // non-inclusive.
	map_var_info_t HstPtrName; // Optional source name of mapped variable.

	uintptr_t TgtPtrBegin; // target info.

	private:
	/// use mutable to allow modification via std::set iterator which is const.
	mutable uint64_t RefCount;
	static const uint64_t INFRefCount = ~(uint64_t)0;

	public:
	HostDataToTargetTy(uintptr_t BP, uintptr_t B, uintptr_t E, uintptr_t TB,
	map_var_info_t Name = nullptr, bool IsINF = false)
	: HstPtrBase(BP), HstPtrBegin(B), HstPtrEnd(E), HstPtrName(Name),
	TgtPtrBegin(TB), RefCount(IsINF ? INFRefCount : 1) {}

	uint64_t getRefCount() const {
	return RefCount;
	}

	uint64_t resetRefCount() const {
	if (RefCount != INFRefCount)
	RefCount = 1;

	return RefCount;
	}

	uint64_t incRefCount() const {
	if (RefCount != INFRefCount) {
	++RefCount;
	assert(RefCount < INFRefCount && "refcount overflow");
	}

	return RefCount;
	}

	uint64_t decRefCount() const {
	if (RefCount != INFRefCount) {
	assert(RefCount > 0 && "refcount underflow");
	--RefCount;
	}

	return RefCount;
	}

	bool isRefCountInf() const {
	return RefCount == INFRefCount;
	}
	};

	typedef uintptr_t HstPtrBeginTy;
	inline bool operator<(const HostDataToTargetTy &lhs, const HstPtrBeginTy &rhs) {
	return lhs.HstPtrBegin < rhs;
	}
	inline bool operator<(const HstPtrBeginTy &lhs, const HostDataToTargetTy &rhs) {
	return lhs < rhs.HstPtrBegin;
	}
	inline bool operator<(const HostDataToTargetTy &lhs,
	const HostDataToTargetTy &rhs) {
	return lhs.HstPtrBegin < rhs.HstPtrBegin;
	}

	typedef std::set<HostDataToTargetTy, std::less<>> HostDataToTargetListTy;

	struct LookupResult {
	struct {
	unsigned IsContained : 1;
	unsigned ExtendsBefore : 1;
	unsigned ExtendsAfter : 1;
	} Flags;

	HostDataToTargetListTy::iterator Entry;

	LookupResult() : Flags({0,0,0}), Entry() {}
	};

	/// Map for shadow pointers
	struct ShadowPtrValTy {
	void *HstPtrVal;
	void *TgtPtrAddr;
	void *TgtPtrVal;
	};
	typedef std::map<void *, ShadowPtrValTy> ShadowPtrListTy;

	///
	struct PendingCtorDtorListsTy {
	std::list<void *> PendingCtors;
	std::list<void *> PendingDtors;
	};
	typedef std::map<__tgt_bin_desc *, PendingCtorDtorListsTy>
	PendingCtorsDtorsPerLibrary;

	struct DeviceTy {
	int32_t DeviceID;
	RTLInfoTy *RTL;
	int32_t RTLDeviceID;

	bool IsInit;
	std::once_flag InitFlag;
	bool HasPendingGlobals;

	HostDataToTargetListTy HostDataToTargetMap;
	PendingCtorsDtorsPerLibrary PendingCtorsDtors;

	ShadowPtrListTy ShadowPtrMap;

	std::mutex DataMapMtx, PendingGlobalsMtx, ShadowMtx;

	// NOTE: Once libomp gains full target-task support, this state should be
	// moved into the target task in libomp.
	std::map<int32_t, uint64_t> LoopTripCnt;

	DeviceTy(RTLInfoTy *RTL);

	// The existence of mutexes makes DeviceTy non-copyable. We need to
	// provide a copy constructor and an assignment operator explicitly.
	DeviceTy(const DeviceTy &D);

	DeviceTy &operator=(const DeviceTy &D);

	~DeviceTy();

	// Return true if data can be copied to DstDevice directly
	bool isDataExchangable(const DeviceTy& DstDevice);

	uint64_t getMapEntryRefCnt(void *HstPtrBegin);
	LookupResult lookupMapping(void *HstPtrBegin, int64_t Size);
	void getOrAllocTgtPtr(void HstPtrBegin, void *HstPtrBase, int64_t Size,
	map_var_info_t HstPtrName, bool &IsNew,
	bool &IsHostPtr, bool IsImplicit, bool UpdateRefCount,
	bool HasCloseModifier, bool HasPresentModifier);
	void getTgtPtrBegin(void HstPtrBegin, int64_t Size);
	void getTgtPtrBegin(void HstPtrBegin, int64_t Size, bool &IsLast,
	bool UpdateRefCount, bool &IsHostPtr,
	bool MustContain = false);
	int deallocTgtPtr(void *TgtPtrBegin, int64_t Size, bool ForceDelete,
	bool HasCloseModifier = false);
	int associatePtr(void HstPtrBegin, void TgtPtrBegin, int64_t Size);
	int disassociatePtr(void *HstPtrBegin);

	// calls to RTL
	int32_t initOnce();
	__tgt_target_table load_binary(void Img);

	// device memory allocation/deallocation routines
	/// Allocates \p Size bytes on the device and returns the address/nullptr when
	/// succeeds/fails. \p HstPtr is an address of the host data which the
	/// allocated target data will be associated with. If it is unknown, the
	/// default value of \p HstPtr is nullptr. Note: this function doesn't do
	/// pointer association. Actually, all the __tgt_rtl_data_alloc
	/// implementations ignore \p HstPtr.
	void allocData(int64_t Size, void HstPtr = nullptr);
	/// Deallocates memory which \p TgtPtrBegin points at and returns
	/// OFFLOAD_SUCCESS/OFFLOAD_FAIL when succeeds/fails.
	int32_t deleteData(void *TgtPtrBegin);

	// Data transfer. When AsyncInfoPtr is nullptr, the transfer will be
	// synchronous.
	// Copy data from host to device
	int32_t submitData(void TgtPtrBegin, void HstPtrBegin, int64_t Size,
	__tgt_async_info *AsyncInfoPtr);
	// Copy data from device back to host
	int32_t retrieveData(void HstPtrBegin, void TgtPtrBegin, int64_t Size,
	__tgt_async_info *AsyncInfoPtr);
	// Copy data from current device to destination device directly
	int32_t dataExchange(void SrcPtr, DeviceTy &DstDev, void DstPtr,
	int64_t Size, __tgt_async_info *AsyncInfo);

	int32_t runRegion(void TgtEntryPtr, void TgtVarsPtr, ptrdiff_t TgtOffsets,
	int32_t TgtVarsSize, __tgt_async_info *AsyncInfoPtr);
	int32_t runTeamRegion(void TgtEntryPtr, void *TgtVarsPtr,
	ptrdiff_t *TgtOffsets, int32_t TgtVarsSize,
	int32_t NumTeams, int32_t ThreadLimit,
	uint64_t LoopTripCount, __tgt_async_info *AsyncInfoPtr);

	/// Synchronize device/queue/event based on \p AsyncInfoPtr and return
	/// OFFLOAD_SUCCESS/OFFLOAD_FAIL when succeeds/fails.
	int32_t synchronize(__tgt_async_info *AsyncInfoPtr);

	private:
	// Call to RTL
	void init(); // To be called only via DeviceTy::initOnce()
	};

	/// Map between Device ID (i.e. openmp device id) and its DeviceTy.
	typedef std::vector<DeviceTy> DevicesTy;

	extern bool device_is_ready(int device_num);

	/// Struct for the data required to handle plugins
	struct PluginManager {
	/// RTLs identified on the host
	RTLsTy RTLs;

	/// Devices associated with RTLs
	DevicesTy Devices;
	std::mutex RTLsMtx; ///< For RTLs and Devices

	/// Translation table retreived from the binary
	HostEntriesBeginToTransTableTy HostEntriesBeginToTransTable;
	std::mutex TrlTblMtx; ///< For Translation Table

	/// Map from ptrs on the host to an entry in the Translation Table
	HostPtrToTableMapTy HostPtrToTableMap;
	std::mutex TblMapMtx; ///< For HostPtrToTableMap

	// Store target policy (disabled, mandatory, default)
	kmp_target_offload_kind_t TargetOffloadPolicy = tgt_default;
	std::mutex TargetOffloadMtx; ///< For TargetOffloadPolicy
	};

	extern PluginManager *PM;

	#endif