//===- SampleContextTracker.cpp - Context-sensitive Profile Tracker -------===// // // 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 // //===----------------------------------------------------------------------===// // // This file implements the SampleContextTracker used by CSSPGO. // //===----------------------------------------------------------------------===// #include "llvm/Transforms/IPO/SampleContextTracker.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/StringRef.h" #include "llvm/IR/DebugInfoMetadata.h" #include "llvm/IR/Instructions.h" #include "llvm/ProfileData/SampleProf.h" #include #include #include using namespace llvm; using namespace sampleprof; #define DEBUG_TYPE "sample-context-tracker" namespace llvm { ContextTrieNode *ContextTrieNode::getChildContext(const LineLocation &CallSite, StringRef CalleeName) { if (CalleeName.empty()) return getHottestChildContext(CallSite); uint64_t Hash = FunctionSamples::getCallSiteHash(CalleeName, CallSite); auto It = AllChildContext.find(Hash); if (It != AllChildContext.end()) return &It->second; return nullptr; } ContextTrieNode * ContextTrieNode::getHottestChildContext(const LineLocation &CallSite) { // CSFDO-TODO: This could be slow, change AllChildContext so we can // do point look up for child node by call site alone. // Retrieve the child node with max count for indirect call ContextTrieNode *ChildNodeRet = nullptr; uint64_t MaxCalleeSamples = 0; for (auto &It : AllChildContext) { ContextTrieNode &ChildNode = It.second; if (ChildNode.CallSiteLoc != CallSite) continue; FunctionSamples *Samples = ChildNode.getFunctionSamples(); if (!Samples) continue; if (Samples->getTotalSamples() > MaxCalleeSamples) { ChildNodeRet = &ChildNode; MaxCalleeSamples = Samples->getTotalSamples(); } } return ChildNodeRet; } ContextTrieNode &ContextTrieNode::moveToChildContext( const LineLocation &CallSite, ContextTrieNode &&NodeToMove, uint32_t ContextFramesToRemove, bool DeleteNode) { uint64_t Hash = FunctionSamples::getCallSiteHash(NodeToMove.getFuncName(), CallSite); assert(!AllChildContext.count(Hash) && "Node to remove must exist"); LineLocation OldCallSite = NodeToMove.CallSiteLoc; ContextTrieNode &OldParentContext = *NodeToMove.getParentContext(); AllChildContext[Hash] = NodeToMove; ContextTrieNode &NewNode = AllChildContext[Hash]; NewNode.CallSiteLoc = CallSite; // Walk through nodes in the moved the subtree, and update // FunctionSamples' context as for the context promotion. // We also need to set new parant link for all children. std::queue NodeToUpdate; NewNode.setParentContext(this); NodeToUpdate.push(&NewNode); while (!NodeToUpdate.empty()) { ContextTrieNode *Node = NodeToUpdate.front(); NodeToUpdate.pop(); FunctionSamples *FSamples = Node->getFunctionSamples(); if (FSamples) { FSamples->getContext().promoteOnPath(ContextFramesToRemove); FSamples->getContext().setState(SyntheticContext); LLVM_DEBUG(dbgs() << " Context promoted to: " << FSamples->getContext().toString() << "\n"); } for (auto &It : Node->getAllChildContext()) { ContextTrieNode *ChildNode = &It.second; ChildNode->setParentContext(Node); NodeToUpdate.push(ChildNode); } } // Original context no longer needed, destroy if requested. if (DeleteNode) OldParentContext.removeChildContext(OldCallSite, NewNode.getFuncName()); return NewNode; } void ContextTrieNode::removeChildContext(const LineLocation &CallSite, StringRef CalleeName) { uint64_t Hash = FunctionSamples::getCallSiteHash(CalleeName, CallSite); // Note this essentially calls dtor and destroys that child context AllChildContext.erase(Hash); } std::map &ContextTrieNode::getAllChildContext() { return AllChildContext; } StringRef ContextTrieNode::getFuncName() const { return FuncName; } FunctionSamples *ContextTrieNode::getFunctionSamples() const { return FuncSamples; } void ContextTrieNode::setFunctionSamples(FunctionSamples *FSamples) { FuncSamples = FSamples; } Optional ContextTrieNode::getFunctionSize() const { return FuncSize; } void ContextTrieNode::addFunctionSize(uint32_t FSize) { if (!FuncSize.hasValue()) FuncSize = 0; FuncSize = FuncSize.getValue() + FSize; } LineLocation ContextTrieNode::getCallSiteLoc() const { return CallSiteLoc; } ContextTrieNode *ContextTrieNode::getParentContext() const { return ParentContext; } void ContextTrieNode::setParentContext(ContextTrieNode *Parent) { ParentContext = Parent; } void ContextTrieNode::dumpNode() { dbgs() << "Node: " << FuncName << "\n" << " Callsite: " << CallSiteLoc << "\n" << " Size: " << FuncSize << "\n" << " Children:\n"; for (auto &It : AllChildContext) { dbgs() << " Node: " << It.second.getFuncName() << "\n"; } } void ContextTrieNode::dumpTree() { dbgs() << "Context Profile Tree:\n"; std::queue NodeQueue; NodeQueue.push(this); while (!NodeQueue.empty()) { ContextTrieNode *Node = NodeQueue.front(); NodeQueue.pop(); Node->dumpNode(); for (auto &It : Node->getAllChildContext()) { ContextTrieNode *ChildNode = &It.second; NodeQueue.push(ChildNode); } } } ContextTrieNode *ContextTrieNode::getOrCreateChildContext( const LineLocation &CallSite, StringRef CalleeName, bool AllowCreate) { uint64_t Hash = FunctionSamples::getCallSiteHash(CalleeName, CallSite); auto It = AllChildContext.find(Hash); if (It != AllChildContext.end()) { assert(It->second.getFuncName() == CalleeName && "Hash collision for child context node"); return &It->second; } if (!AllowCreate) return nullptr; AllChildContext[Hash] = ContextTrieNode(this, CalleeName, nullptr, CallSite); return &AllChildContext[Hash]; } // Profiler tracker than manages profiles and its associated context SampleContextTracker::SampleContextTracker( SampleProfileMap &Profiles, const DenseMap *GUIDToFuncNameMap) : GUIDToFuncNameMap(GUIDToFuncNameMap) { for (auto &FuncSample : Profiles) { FunctionSamples *FSamples = &FuncSample.second; SampleContext Context = FuncSample.first; LLVM_DEBUG(dbgs() << "Tracking Context for function: " << Context.toString() << "\n"); if (!Context.isBaseContext()) FuncToCtxtProfiles[Context.getName()].insert(FSamples); ContextTrieNode *NewNode = getOrCreateContextPath(Context, true); assert(!NewNode->getFunctionSamples() && "New node can't have sample profile"); NewNode->setFunctionSamples(FSamples); } } FunctionSamples * SampleContextTracker::getCalleeContextSamplesFor(const CallBase &Inst, StringRef CalleeName) { LLVM_DEBUG(dbgs() << "Getting callee context for instr: " << Inst << "\n"); DILocation *DIL = Inst.getDebugLoc(); if (!DIL) return nullptr; CalleeName = FunctionSamples::getCanonicalFnName(CalleeName); // Convert real function names to MD5 names, if the input profile is // MD5-based. std::string FGUID; CalleeName = getRepInFormat(CalleeName, FunctionSamples::UseMD5, FGUID); // For indirect call, CalleeName will be empty, in which case the context // profile for callee with largest total samples will be returned. ContextTrieNode *CalleeContext = getCalleeContextFor(DIL, CalleeName); if (CalleeContext) { FunctionSamples *FSamples = CalleeContext->getFunctionSamples(); LLVM_DEBUG(if (FSamples) { dbgs() << " Callee context found: " << FSamples->getContext().toString() << "\n"; }); return FSamples; } return nullptr; } std::vector SampleContextTracker::getIndirectCalleeContextSamplesFor( const DILocation *DIL) { std::vector R; if (!DIL) return R; ContextTrieNode *CallerNode = getContextFor(DIL); LineLocation CallSite = FunctionSamples::getCallSiteIdentifier(DIL); for (auto &It : CallerNode->getAllChildContext()) { ContextTrieNode &ChildNode = It.second; if (ChildNode.getCallSiteLoc() != CallSite) continue; if (FunctionSamples *CalleeSamples = ChildNode.getFunctionSamples()) R.push_back(CalleeSamples); } return R; } FunctionSamples * SampleContextTracker::getContextSamplesFor(const DILocation *DIL) { assert(DIL && "Expect non-null location"); ContextTrieNode *ContextNode = getContextFor(DIL); if (!ContextNode) return nullptr; // We may have inlined callees during pre-LTO compilation, in which case // we need to rely on the inline stack from !dbg to mark context profile // as inlined, instead of `MarkContextSamplesInlined` during inlining. // Sample profile loader walks through all instructions to get profile, // which calls this function. So once that is done, all previously inlined // context profile should be marked properly. FunctionSamples *Samples = ContextNode->getFunctionSamples(); if (Samples && ContextNode->getParentContext() != &RootContext) Samples->getContext().setState(InlinedContext); return Samples; } FunctionSamples * SampleContextTracker::getContextSamplesFor(const SampleContext &Context) { ContextTrieNode *Node = getContextFor(Context); if (!Node) return nullptr; return Node->getFunctionSamples(); } SampleContextTracker::ContextSamplesTy & SampleContextTracker::getAllContextSamplesFor(const Function &Func) { StringRef CanonName = FunctionSamples::getCanonicalFnName(Func); return FuncToCtxtProfiles[CanonName]; } SampleContextTracker::ContextSamplesTy & SampleContextTracker::getAllContextSamplesFor(StringRef Name) { return FuncToCtxtProfiles[Name]; } FunctionSamples *SampleContextTracker::getBaseSamplesFor(const Function &Func, bool MergeContext) { StringRef CanonName = FunctionSamples::getCanonicalFnName(Func); return getBaseSamplesFor(CanonName, MergeContext); } FunctionSamples *SampleContextTracker::getBaseSamplesFor(StringRef Name, bool MergeContext) { LLVM_DEBUG(dbgs() << "Getting base profile for function: " << Name << "\n"); // Convert real function names to MD5 names, if the input profile is // MD5-based. std::string FGUID; Name = getRepInFormat(Name, FunctionSamples::UseMD5, FGUID); // Base profile is top-level node (child of root node), so try to retrieve // existing top-level node for given function first. If it exists, it could be // that we've merged base profile before, or there's actually context-less // profile from the input (e.g. due to unreliable stack walking). ContextTrieNode *Node = getTopLevelContextNode(Name); if (MergeContext) { LLVM_DEBUG(dbgs() << " Merging context profile into base profile: " << Name << "\n"); // We have profile for function under different contexts, // create synthetic base profile and merge context profiles // into base profile. for (auto *CSamples : FuncToCtxtProfiles[Name]) { SampleContext &Context = CSamples->getContext(); // Skip inlined context profile and also don't re-merge any context if (Context.hasState(InlinedContext) || Context.hasState(MergedContext)) continue; ContextTrieNode *FromNode = getContextFor(Context); if (FromNode == Node) continue; ContextTrieNode &ToNode = promoteMergeContextSamplesTree(*FromNode); assert((!Node || Node == &ToNode) && "Expect only one base profile"); Node = &ToNode; } } // Still no profile even after merge/promotion (if allowed) if (!Node) return nullptr; return Node->getFunctionSamples(); } void SampleContextTracker::markContextSamplesInlined( const FunctionSamples *InlinedSamples) { assert(InlinedSamples && "Expect non-null inlined samples"); LLVM_DEBUG(dbgs() << "Marking context profile as inlined: " << InlinedSamples->getContext().toString() << "\n"); InlinedSamples->getContext().setState(InlinedContext); } ContextTrieNode &SampleContextTracker::getRootContext() { return RootContext; } void SampleContextTracker::promoteMergeContextSamplesTree( const Instruction &Inst, StringRef CalleeName) { LLVM_DEBUG(dbgs() << "Promoting and merging context tree for instr: \n" << Inst << "\n"); // Get the caller context for the call instruction, we don't use callee // name from call because there can be context from indirect calls too. DILocation *DIL = Inst.getDebugLoc(); ContextTrieNode *CallerNode = getContextFor(DIL); if (!CallerNode) return; // Get the context that needs to be promoted LineLocation CallSite = FunctionSamples::getCallSiteIdentifier(DIL); // For indirect call, CalleeName will be empty, in which case we need to // promote all non-inlined child context profiles. if (CalleeName.empty()) { for (auto &It : CallerNode->getAllChildContext()) { ContextTrieNode *NodeToPromo = &It.second; if (CallSite != NodeToPromo->getCallSiteLoc()) continue; FunctionSamples *FromSamples = NodeToPromo->getFunctionSamples(); if (FromSamples && FromSamples->getContext().hasState(InlinedContext)) continue; promoteMergeContextSamplesTree(*NodeToPromo); } return; } // Get the context for the given callee that needs to be promoted ContextTrieNode *NodeToPromo = CallerNode->getChildContext(CallSite, CalleeName); if (!NodeToPromo) return; promoteMergeContextSamplesTree(*NodeToPromo); } ContextTrieNode &SampleContextTracker::promoteMergeContextSamplesTree( ContextTrieNode &NodeToPromo) { // Promote the input node to be directly under root. This can happen // when we decided to not inline a function under context represented // by the input node. The promote and merge is then needed to reflect // the context profile in the base (context-less) profile. FunctionSamples *FromSamples = NodeToPromo.getFunctionSamples(); assert(FromSamples && "Shouldn't promote a context without profile"); LLVM_DEBUG(dbgs() << " Found context tree root to promote: " << FromSamples->getContext().toString() << "\n"); assert(!FromSamples->getContext().hasState(InlinedContext) && "Shouldn't promote inlined context profile"); uint32_t ContextFramesToRemove = FromSamples->getContext().getContextFrames().size() - 1; return promoteMergeContextSamplesTree(NodeToPromo, RootContext, ContextFramesToRemove); } void SampleContextTracker::dump() { RootContext.dumpTree(); } StringRef SampleContextTracker::getFuncNameFor(ContextTrieNode *Node) const { if (!FunctionSamples::UseMD5) return Node->getFuncName(); assert(GUIDToFuncNameMap && "GUIDToFuncNameMap needs to be populated first"); return GUIDToFuncNameMap->lookup(std::stoull(Node->getFuncName().data())); } ContextTrieNode * SampleContextTracker::getContextFor(const SampleContext &Context) { return getOrCreateContextPath(Context, false); } ContextTrieNode * SampleContextTracker::getCalleeContextFor(const DILocation *DIL, StringRef CalleeName) { assert(DIL && "Expect non-null location"); ContextTrieNode *CallContext = getContextFor(DIL); if (!CallContext) return nullptr; // When CalleeName is empty, the child context profile with max // total samples will be returned. return CallContext->getChildContext( FunctionSamples::getCallSiteIdentifier(DIL), CalleeName); } ContextTrieNode *SampleContextTracker::getContextFor(const DILocation *DIL) { assert(DIL && "Expect non-null location"); SmallVector, 10> S; // Use C++ linkage name if possible. const DILocation *PrevDIL = DIL; for (DIL = DIL->getInlinedAt(); DIL; DIL = DIL->getInlinedAt()) { StringRef Name = PrevDIL->getScope()->getSubprogram()->getLinkageName(); if (Name.empty()) Name = PrevDIL->getScope()->getSubprogram()->getName(); S.push_back( std::make_pair(FunctionSamples::getCallSiteIdentifier(DIL), Name)); PrevDIL = DIL; } // Push root node, note that root node like main may only // a name, but not linkage name. StringRef RootName = PrevDIL->getScope()->getSubprogram()->getLinkageName(); if (RootName.empty()) RootName = PrevDIL->getScope()->getSubprogram()->getName(); S.push_back(std::make_pair(LineLocation(0, 0), RootName)); // Convert real function names to MD5 names, if the input profile is // MD5-based. std::list MD5Names; if (FunctionSamples::UseMD5) { for (auto &Location : S) { MD5Names.emplace_back(); getRepInFormat(Location.second, FunctionSamples::UseMD5, MD5Names.back()); Location.second = MD5Names.back(); } } ContextTrieNode *ContextNode = &RootContext; int I = S.size(); while (--I >= 0 && ContextNode) { LineLocation &CallSite = S[I].first; StringRef CalleeName = S[I].second; ContextNode = ContextNode->getChildContext(CallSite, CalleeName); } if (I < 0) return ContextNode; return nullptr; } ContextTrieNode * SampleContextTracker::getOrCreateContextPath(const SampleContext &Context, bool AllowCreate) { ContextTrieNode *ContextNode = &RootContext; LineLocation CallSiteLoc(0, 0); for (auto &Callsite : Context.getContextFrames()) { // Create child node at parent line/disc location if (AllowCreate) { ContextNode = ContextNode->getOrCreateChildContext(CallSiteLoc, Callsite.FuncName); } else { ContextNode = ContextNode->getChildContext(CallSiteLoc, Callsite.FuncName); } CallSiteLoc = Callsite.Location; } assert((!AllowCreate || ContextNode) && "Node must exist if creation is allowed"); return ContextNode; } ContextTrieNode *SampleContextTracker::getTopLevelContextNode(StringRef FName) { assert(!FName.empty() && "Top level node query must provide valid name"); return RootContext.getChildContext(LineLocation(0, 0), FName); } ContextTrieNode &SampleContextTracker::addTopLevelContextNode(StringRef FName) { assert(!getTopLevelContextNode(FName) && "Node to add must not exist"); return *RootContext.getOrCreateChildContext(LineLocation(0, 0), FName); } void SampleContextTracker::mergeContextNode(ContextTrieNode &FromNode, ContextTrieNode &ToNode, uint32_t ContextFramesToRemove) { FunctionSamples *FromSamples = FromNode.getFunctionSamples(); FunctionSamples *ToSamples = ToNode.getFunctionSamples(); if (FromSamples && ToSamples) { // Merge/duplicate FromSamples into ToSamples ToSamples->merge(*FromSamples); ToSamples->getContext().setState(SyntheticContext); FromSamples->getContext().setState(MergedContext); if (FromSamples->getContext().hasAttribute(ContextShouldBeInlined)) ToSamples->getContext().setAttribute(ContextShouldBeInlined); } else if (FromSamples) { // Transfer FromSamples from FromNode to ToNode ToNode.setFunctionSamples(FromSamples); FromSamples->getContext().setState(SyntheticContext); FromSamples->getContext().promoteOnPath(ContextFramesToRemove); FromNode.setFunctionSamples(nullptr); } } ContextTrieNode &SampleContextTracker::promoteMergeContextSamplesTree( ContextTrieNode &FromNode, ContextTrieNode &ToNodeParent, uint32_t ContextFramesToRemove) { assert(ContextFramesToRemove && "Context to remove can't be empty"); // Ignore call site location if destination is top level under root LineLocation NewCallSiteLoc = LineLocation(0, 0); LineLocation OldCallSiteLoc = FromNode.getCallSiteLoc(); ContextTrieNode &FromNodeParent = *FromNode.getParentContext(); ContextTrieNode *ToNode = nullptr; bool MoveToRoot = (&ToNodeParent == &RootContext); if (!MoveToRoot) { NewCallSiteLoc = OldCallSiteLoc; } // Locate destination node, create/move if not existing ToNode = ToNodeParent.getChildContext(NewCallSiteLoc, FromNode.getFuncName()); if (!ToNode) { // Do not delete node to move from its parent here because // caller is iterating over children of that parent node. ToNode = &ToNodeParent.moveToChildContext( NewCallSiteLoc, std::move(FromNode), ContextFramesToRemove, false); } else { // Destination node exists, merge samples for the context tree mergeContextNode(FromNode, *ToNode, ContextFramesToRemove); LLVM_DEBUG({ if (ToNode->getFunctionSamples()) dbgs() << " Context promoted and merged to: " << ToNode->getFunctionSamples()->getContext().toString() << "\n"; }); // Recursively promote and merge children for (auto &It : FromNode.getAllChildContext()) { ContextTrieNode &FromChildNode = It.second; promoteMergeContextSamplesTree(FromChildNode, *ToNode, ContextFramesToRemove); } // Remove children once they're all merged FromNode.getAllChildContext().clear(); } // For root of subtree, remove itself from old parent too if (MoveToRoot) FromNodeParent.removeChildContext(OldCallSiteLoc, ToNode->getFuncName()); return *ToNode; } } // namespace llvm