//===----- EPCGenericRTDyldMemoryManager.cpp - EPC-bbasde MemMgr -----===// // // 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 "llvm/ExecutionEngine/Orc/EPCGenericRTDyldMemoryManager.h" #include "llvm/ExecutionEngine/Orc/EPCGenericMemoryAccess.h" #include "llvm/ExecutionEngine/Orc/Shared/OrcRTBridge.h" #include "llvm/Support/Alignment.h" #include "llvm/Support/FormatVariadic.h" #define DEBUG_TYPE "orc" using namespace llvm::orc::shared; namespace llvm { namespace orc { Expected> EPCGenericRTDyldMemoryManager::CreateWithDefaultBootstrapSymbols( ExecutorProcessControl &EPC) { SymbolAddrs SAs; if (auto Err = EPC.getBootstrapSymbols( {{SAs.Instance, rt::SimpleExecutorMemoryManagerInstanceName}, {SAs.Reserve, rt::SimpleExecutorMemoryManagerReserveWrapperName}, {SAs.Finalize, rt::SimpleExecutorMemoryManagerFinalizeWrapperName}, {SAs.Deallocate, rt::SimpleExecutorMemoryManagerDeallocateWrapperName}, {SAs.RegisterEHFrame, rt::RegisterEHFrameSectionWrapperName}, {SAs.DeregisterEHFrame, rt::DeregisterEHFrameSectionWrapperName}})) return std::move(Err); return std::make_unique(EPC, std::move(SAs)); } EPCGenericRTDyldMemoryManager::EPCGenericRTDyldMemoryManager( ExecutorProcessControl &EPC, SymbolAddrs SAs) : EPC(EPC), SAs(std::move(SAs)) { LLVM_DEBUG(dbgs() << "Created remote allocator " << (void *)this << "\n"); } EPCGenericRTDyldMemoryManager::~EPCGenericRTDyldMemoryManager() { LLVM_DEBUG(dbgs() << "Destroyed remote allocator " << (void *)this << "\n"); if (!ErrMsg.empty()) errs() << "Destroying with existing errors:\n" << ErrMsg << "\n"; Error Err = Error::success(); if (auto Err2 = EPC.callSPSWrapper< rt::SPSSimpleExecutorMemoryManagerDeallocateSignature>( SAs.Reserve, Err, SAs.Instance, FinalizedAllocs)) { // FIXME: Report errors through EPC once that functionality is available. logAllUnhandledErrors(std::move(Err2), errs(), ""); return; } if (Err) logAllUnhandledErrors(std::move(Err), errs(), ""); } uint8_t *EPCGenericRTDyldMemoryManager::allocateCodeSection( uintptr_t Size, unsigned Alignment, unsigned SectionID, StringRef SectionName) { std::lock_guard Lock(M); LLVM_DEBUG({ dbgs() << "Allocator " << (void *)this << " allocating code section " << SectionName << ": size = " << formatv("{0:x}", Size) << " bytes, alignment = " << Alignment << "\n"; }); auto &Seg = Unmapped.back().CodeAllocs; Seg.emplace_back(Size, Alignment); return reinterpret_cast( alignAddr(Seg.back().Contents.get(), Align(Alignment))); } uint8_t *EPCGenericRTDyldMemoryManager::allocateDataSection( uintptr_t Size, unsigned Alignment, unsigned SectionID, StringRef SectionName, bool IsReadOnly) { std::lock_guard Lock(M); LLVM_DEBUG({ dbgs() << "Allocator " << (void *)this << " allocating " << (IsReadOnly ? "ro" : "rw") << "-data section " << SectionName << ": size = " << formatv("{0:x}", Size) << " bytes, alignment " << Alignment << ")\n"; }); auto &Seg = IsReadOnly ? Unmapped.back().RODataAllocs : Unmapped.back().RWDataAllocs; Seg.emplace_back(Size, Alignment); return reinterpret_cast( alignAddr(Seg.back().Contents.get(), Align(Alignment))); } void EPCGenericRTDyldMemoryManager::reserveAllocationSpace( uintptr_t CodeSize, Align CodeAlign, uintptr_t RODataSize, Align RODataAlign, uintptr_t RWDataSize, Align RWDataAlign) { { std::lock_guard Lock(M); // If there's already an error then bail out. if (!ErrMsg.empty()) return; if (CodeAlign > EPC.getPageSize()) { ErrMsg = "Invalid code alignment in reserveAllocationSpace"; return; } if (RODataAlign > EPC.getPageSize()) { ErrMsg = "Invalid ro-data alignment in reserveAllocationSpace"; return; } if (RWDataAlign > EPC.getPageSize()) { ErrMsg = "Invalid rw-data alignment in reserveAllocationSpace"; return; } } uint64_t TotalSize = 0; TotalSize += alignTo(CodeSize, EPC.getPageSize()); TotalSize += alignTo(RODataSize, EPC.getPageSize()); TotalSize += alignTo(RWDataSize, EPC.getPageSize()); LLVM_DEBUG({ dbgs() << "Allocator " << (void *)this << " reserving " << formatv("{0:x}", TotalSize) << " bytes.\n"; }); Expected TargetAllocAddr((ExecutorAddr())); if (auto Err = EPC.callSPSWrapper< rt::SPSSimpleExecutorMemoryManagerReserveSignature>( SAs.Reserve, TargetAllocAddr, SAs.Instance, TotalSize)) { std::lock_guard Lock(M); ErrMsg = toString(std::move(Err)); return; } if (!TargetAllocAddr) { std::lock_guard Lock(M); ErrMsg = toString(TargetAllocAddr.takeError()); return; } std::lock_guard Lock(M); Unmapped.push_back(SectionAllocGroup()); Unmapped.back().RemoteCode = { *TargetAllocAddr, ExecutorAddrDiff(alignTo(CodeSize, EPC.getPageSize()))}; Unmapped.back().RemoteROData = { Unmapped.back().RemoteCode.End, ExecutorAddrDiff(alignTo(RODataSize, EPC.getPageSize()))}; Unmapped.back().RemoteRWData = { Unmapped.back().RemoteROData.End, ExecutorAddrDiff(alignTo(RWDataSize, EPC.getPageSize()))}; } bool EPCGenericRTDyldMemoryManager::needsToReserveAllocationSpace() { return true; } void EPCGenericRTDyldMemoryManager::registerEHFrames(uint8_t *Addr, uint64_t LoadAddr, size_t Size) { LLVM_DEBUG({ dbgs() << "Allocator " << (void *)this << " added unfinalized eh-frame " << formatv("[ {0:x} {1:x} ]", LoadAddr, LoadAddr + Size) << "\n"; }); std::lock_guard Lock(M); // Bail out early if there's already an error. if (!ErrMsg.empty()) return; ExecutorAddr LA(LoadAddr); for (auto &SecAllocGroup : llvm::reverse(Unfinalized)) { if (SecAllocGroup.RemoteCode.contains(LA) || SecAllocGroup.RemoteROData.contains(LA) || SecAllocGroup.RemoteRWData.contains(LA)) { SecAllocGroup.UnfinalizedEHFrames.push_back({LA, Size}); return; } } ErrMsg = "eh-frame does not lie inside unfinalized alloc"; } void EPCGenericRTDyldMemoryManager::deregisterEHFrames() { // This is a no-op for us: We've registered a deallocation action for it. } void EPCGenericRTDyldMemoryManager::notifyObjectLoaded( RuntimeDyld &Dyld, const object::ObjectFile &Obj) { std::lock_guard Lock(M); LLVM_DEBUG(dbgs() << "Allocator " << (void *)this << " applied mappings:\n"); for (auto &ObjAllocs : Unmapped) { mapAllocsToRemoteAddrs(Dyld, ObjAllocs.CodeAllocs, ObjAllocs.RemoteCode.Start); mapAllocsToRemoteAddrs(Dyld, ObjAllocs.RODataAllocs, ObjAllocs.RemoteROData.Start); mapAllocsToRemoteAddrs(Dyld, ObjAllocs.RWDataAllocs, ObjAllocs.RemoteRWData.Start); Unfinalized.push_back(std::move(ObjAllocs)); } Unmapped.clear(); } bool EPCGenericRTDyldMemoryManager::finalizeMemory(std::string *ErrMsg) { LLVM_DEBUG(dbgs() << "Allocator " << (void *)this << " finalizing:\n"); // If there's an error then bail out here. std::vector SecAllocGroups; { std::lock_guard Lock(M); if (ErrMsg && !this->ErrMsg.empty()) { *ErrMsg = std::move(this->ErrMsg); return true; } std::swap(SecAllocGroups, Unfinalized); } // Loop over unfinalized objects to make finalization requests. for (auto &SecAllocGroup : SecAllocGroups) { MemProt SegMemProts[3] = {MemProt::Read | MemProt::Exec, MemProt::Read, MemProt::Read | MemProt::Write}; ExecutorAddrRange *RemoteAddrs[3] = {&SecAllocGroup.RemoteCode, &SecAllocGroup.RemoteROData, &SecAllocGroup.RemoteRWData}; std::vector *SegSections[3] = {&SecAllocGroup.CodeAllocs, &SecAllocGroup.RODataAllocs, &SecAllocGroup.RWDataAllocs}; tpctypes::FinalizeRequest FR; std::unique_ptr AggregateContents[3]; for (unsigned I = 0; I != 3; ++I) { FR.Segments.push_back({}); auto &Seg = FR.Segments.back(); Seg.RAG = SegMemProts[I]; Seg.Addr = RemoteAddrs[I]->Start; for (auto &SecAlloc : *SegSections[I]) { Seg.Size = alignTo(Seg.Size, SecAlloc.Align); Seg.Size += SecAlloc.Size; } AggregateContents[I] = std::make_unique(Seg.Size); size_t SecOffset = 0; for (auto &SecAlloc : *SegSections[I]) { SecOffset = alignTo(SecOffset, SecAlloc.Align); memcpy(&AggregateContents[I][SecOffset], reinterpret_cast( alignAddr(SecAlloc.Contents.get(), Align(SecAlloc.Align))), SecAlloc.Size); SecOffset += SecAlloc.Size; // FIXME: Can we reset SecAlloc.Content here, now that it's copied into // the aggregated content? } Seg.Content = {AggregateContents[I].get(), SecOffset}; } for (auto &Frame : SecAllocGroup.UnfinalizedEHFrames) FR.Actions.push_back( {cantFail( WrapperFunctionCall::Create>( SAs.RegisterEHFrame, Frame)), cantFail( WrapperFunctionCall::Create>( SAs.DeregisterEHFrame, Frame))}); // We'll also need to make an extra allocation for the eh-frame wrapper call // arguments. Error FinalizeErr = Error::success(); if (auto Err = EPC.callSPSWrapper< rt::SPSSimpleExecutorMemoryManagerFinalizeSignature>( SAs.Finalize, FinalizeErr, SAs.Instance, std::move(FR))) { std::lock_guard Lock(M); this->ErrMsg = toString(std::move(Err)); dbgs() << "Serialization error: " << this->ErrMsg << "\n"; if (ErrMsg) *ErrMsg = this->ErrMsg; return true; } if (FinalizeErr) { std::lock_guard Lock(M); this->ErrMsg = toString(std::move(FinalizeErr)); dbgs() << "Finalization error: " << this->ErrMsg << "\n"; if (ErrMsg) *ErrMsg = this->ErrMsg; return true; } } return false; } void EPCGenericRTDyldMemoryManager::mapAllocsToRemoteAddrs( RuntimeDyld &Dyld, std::vector &Allocs, ExecutorAddr NextAddr) { for (auto &Alloc : Allocs) { NextAddr.setValue(alignTo(NextAddr.getValue(), Alloc.Align)); LLVM_DEBUG({ dbgs() << " " << static_cast(Alloc.Contents.get()) << " -> " << format("0x%016" PRIx64, NextAddr.getValue()) << "\n"; }); Dyld.mapSectionAddress(reinterpret_cast(alignAddr( Alloc.Contents.get(), Align(Alloc.Align))), NextAddr.getValue()); Alloc.RemoteAddr = NextAddr; // Only advance NextAddr if it was non-null to begin with, // otherwise leave it as null. if (NextAddr) NextAddr += ExecutorAddrDiff(Alloc.Size); } } } // end namespace orc } // end namespace llvm