//===-- BasicBlockSectionsProfileReader.cpp -------------------------------===// // // 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 // //===----------------------------------------------------------------------===// // // Implementation of the basic block sections profile reader pass. It parses // and stores the basic block sections profile file (which is specified via the // `-basic-block-sections` flag). // //===----------------------------------------------------------------------===// #include "llvm/CodeGen/BasicBlockSectionsProfileReader.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/SmallSet.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/StringRef.h" #include "llvm/IR/DebugInfoMetadata.h" #include "llvm/Pass.h" #include "llvm/Support/Error.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/LineIterator.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Path.h" #include using namespace llvm; char BasicBlockSectionsProfileReaderWrapperPass::ID = 0; INITIALIZE_PASS(BasicBlockSectionsProfileReaderWrapperPass, "bbsections-profile-reader", "Reads and parses a basic block sections profile.", false, false) Expected BasicBlockSectionsProfileReader::parseUniqueBBID(StringRef S) const { SmallVector Parts; S.split(Parts, '.'); if (Parts.size() > 2) return createProfileParseError(Twine("unable to parse basic block id: '") + S + "'"); unsigned long long BaseBBID; if (getAsUnsignedInteger(Parts[0], 10, BaseBBID)) return createProfileParseError( Twine("unable to parse BB id: '" + Parts[0]) + "': unsigned integer expected"); unsigned long long CloneID = 0; if (Parts.size() > 1 && getAsUnsignedInteger(Parts[1], 10, CloneID)) return createProfileParseError(Twine("unable to parse clone id: '") + Parts[1] + "': unsigned integer expected"); return UniqueBBID{static_cast(BaseBBID), static_cast(CloneID)}; } bool BasicBlockSectionsProfileReader::isFunctionHot(StringRef FuncName) const { return getClusterInfoForFunction(FuncName).first; } std::pair> BasicBlockSectionsProfileReader::getClusterInfoForFunction( StringRef FuncName) const { auto R = ProgramPathAndClusterInfo.find(getAliasName(FuncName)); return R != ProgramPathAndClusterInfo.end() ? std::pair(true, R->second.ClusterInfo) : std::pair(false, SmallVector()); } SmallVector> BasicBlockSectionsProfileReader::getClonePathsForFunction( StringRef FuncName) const { return ProgramPathAndClusterInfo.lookup(getAliasName(FuncName)).ClonePaths; } // Reads the version 1 basic block sections profile. Profile for each function // is encoded as follows: // m // f ... // c // c // ... // Module name specifier (starting with 'm') is optional and allows // distinguishing profile for internal-linkage functions with the same name. If // not specified, it will apply to any function with the same name. Function // name specifier (starting with 'f') can specify multiple function name // aliases. Basic block clusters are specified by 'c' and specify the cluster of // basic blocks, and the internal order in which they must be placed in the same // section. // This profile can also specify cloning paths which instruct the compiler to // clone basic blocks along a path. The cloned blocks are then specified in the // cluster information. // The following profile lists two cloning paths (starting with 'p') for // function bar and places the total 9 blocks within two clusters. The first two // blocks of a cloning path specify the edge along which the path is cloned. For // instance, path 1 (1 -> 3 -> 4) instructs that 3 and 4 must be cloned along // the edge 1->3. Within the given clusters, each cloned block is identified by // ".". For instance, 3.1 represents the first // clone of block 3. Original blocks are specified just with their block ids. A // block cloned multiple times appears with distinct clone ids. The CFG for bar // is shown below before and after cloning with its final clusters labeled. // // f main // f bar // p 1 3 4 # cloning path 1 // p 4 2 # cloning path 2 // c 1 3.1 4.1 6 # basic block cluster 1 // c 0 2 3 4 2.1 5 # basic block cluster 2 // **************************************************************************** // function bar before and after cloning with basic block clusters shown. // **************************************************************************** // .... .............. // 0 -------+ : 0 :---->: 1 ---> 3.1 : // | | : | : :........ | : // v v : v : : v : // +--> 2 --> 5 1 ~~~~~~> +---: 2 : : 4.1: clsuter 1 // | | | | : | : : | : // | v | | : v ....... : v : // | 3 <------+ | : 3 <--+ : : 6 : // | | | : | | : :....: // | v | : v | : // +--- 4 ---> 6 | : 4 | : // | : | | : // | : v | : // | :2.1---+ : cluster 2 // | : | ......: // | : v : // +-->: 5 : // .... // **************************************************************************** Error BasicBlockSectionsProfileReader::ReadV1Profile() { auto FI = ProgramPathAndClusterInfo.end(); // Current cluster ID corresponding to this function. unsigned CurrentCluster = 0; // Current position in the current cluster. unsigned CurrentPosition = 0; // Temporary set to ensure every basic block ID appears once in the clusters // of a function. DenseSet FuncBBIDs; // Debug-info-based module filename for the current function. Empty string // means no filename. StringRef DIFilename; for (; !LineIt.is_at_eof(); ++LineIt) { StringRef S(*LineIt); char Specifier = S[0]; S = S.drop_front().trim(); SmallVector Values; S.split(Values, ' '); switch (Specifier) { case '@': continue; case 'm': // Module name speicifer. if (Values.size() != 1) { return createProfileParseError(Twine("invalid module name value: '") + S + "'"); } DIFilename = sys::path::remove_leading_dotslash(Values[0]); continue; case 'f': { // Function names specifier. bool FunctionFound = any_of(Values, [&](StringRef Alias) { auto It = FunctionNameToDIFilename.find(Alias); // No match if this function name is not found in this module. if (It == FunctionNameToDIFilename.end()) return false; // Return a match if debug-info-filename is not specified. Otherwise, // check for equality. return DIFilename.empty() || It->second == DIFilename; }); if (!FunctionFound) { // Skip the following profile by setting the profile iterator (FI) to // the past-the-end element. FI = ProgramPathAndClusterInfo.end(); DIFilename = ""; continue; } for (size_t i = 1; i < Values.size(); ++i) FuncAliasMap.try_emplace(Values[i], Values.front()); // Prepare for parsing clusters of this function name. // Start a new cluster map for this function name. auto R = ProgramPathAndClusterInfo.try_emplace(Values.front()); // Report error when multiple profiles have been specified for the same // function. if (!R.second) return createProfileParseError("duplicate profile for function '" + Values.front() + "'"); FI = R.first; CurrentCluster = 0; FuncBBIDs.clear(); // We won't need DIFilename anymore. Clean it up to avoid its application // on the next function. DIFilename = ""; continue; } case 'c': // Basic block cluster specifier. // Skip the profile when we the profile iterator (FI) refers to the // past-the-end element. if (FI == ProgramPathAndClusterInfo.end()) continue; // Reset current cluster position. CurrentPosition = 0; for (auto BasicBlockIDStr : Values) { auto BasicBlockID = parseUniqueBBID(BasicBlockIDStr); if (!BasicBlockID) return BasicBlockID.takeError(); if (!FuncBBIDs.insert(*BasicBlockID).second) return createProfileParseError( Twine("duplicate basic block id found '") + BasicBlockIDStr + "'"); FI->second.ClusterInfo.emplace_back(BBClusterInfo{ *std::move(BasicBlockID), CurrentCluster, CurrentPosition++}); } CurrentCluster++; continue; case 'p': { // Basic block cloning path specifier. // Skip the profile when we the profile iterator (FI) refers to the // past-the-end element. if (FI == ProgramPathAndClusterInfo.end()) continue; SmallSet BBsInPath; FI->second.ClonePaths.push_back({}); for (size_t I = 0; I < Values.size(); ++I) { auto BaseBBIDStr = Values[I]; unsigned long long BaseBBID = 0; if (getAsUnsignedInteger(BaseBBIDStr, 10, BaseBBID)) return createProfileParseError(Twine("unsigned integer expected: '") + BaseBBIDStr + "'"); if (I != 0 && !BBsInPath.insert(BaseBBID).second) return createProfileParseError( Twine("duplicate cloned block in path: '") + BaseBBIDStr + "'"); FI->second.ClonePaths.back().push_back(BaseBBID); } continue; } default: return createProfileParseError(Twine("invalid specifier: '") + Twine(Specifier) + "'"); } llvm_unreachable("should not break from this switch statement"); } return Error::success(); } Error BasicBlockSectionsProfileReader::ReadV0Profile() { auto FI = ProgramPathAndClusterInfo.end(); // Current cluster ID corresponding to this function. unsigned CurrentCluster = 0; // Current position in the current cluster. unsigned CurrentPosition = 0; // Temporary set to ensure every basic block ID appears once in the clusters // of a function. SmallSet FuncBBIDs; for (; !LineIt.is_at_eof(); ++LineIt) { StringRef S(*LineIt); if (S[0] == '@') continue; // Check for the leading "!" if (!S.consume_front("!") || S.empty()) break; // Check for second "!" which indicates a cluster of basic blocks. if (S.consume_front("!")) { // Skip the profile when we the profile iterator (FI) refers to the // past-the-end element. if (FI == ProgramPathAndClusterInfo.end()) continue; SmallVector BBIDs; S.split(BBIDs, ' '); // Reset current cluster position. CurrentPosition = 0; for (auto BBIDStr : BBIDs) { unsigned long long BBID; if (getAsUnsignedInteger(BBIDStr, 10, BBID)) return createProfileParseError(Twine("unsigned integer expected: '") + BBIDStr + "'"); if (!FuncBBIDs.insert(BBID).second) return createProfileParseError( Twine("duplicate basic block id found '") + BBIDStr + "'"); FI->second.ClusterInfo.emplace_back( BBClusterInfo({{static_cast(BBID), 0}, CurrentCluster, CurrentPosition++})); } CurrentCluster++; } else { // This is a function name specifier. It may include a debug info filename // specifier starting with `M=`. auto [AliasesStr, DIFilenameStr] = S.split(' '); SmallString<128> DIFilename; if (DIFilenameStr.starts_with("M=")) { DIFilename = sys::path::remove_leading_dotslash(DIFilenameStr.substr(2)); if (DIFilename.empty()) return createProfileParseError("empty module name specifier"); } else if (!DIFilenameStr.empty()) { return createProfileParseError("unknown string found: '" + DIFilenameStr + "'"); } // Function aliases are separated using '/'. We use the first function // name for the cluster info mapping and delegate all other aliases to // this one. SmallVector Aliases; AliasesStr.split(Aliases, '/'); bool FunctionFound = any_of(Aliases, [&](StringRef Alias) { auto It = FunctionNameToDIFilename.find(Alias); // No match if this function name is not found in this module. if (It == FunctionNameToDIFilename.end()) return false; // Return a match if debug-info-filename is not specified. Otherwise, // check for equality. return DIFilename.empty() || It->second == DIFilename; }); if (!FunctionFound) { // Skip the following profile by setting the profile iterator (FI) to // the past-the-end element. FI = ProgramPathAndClusterInfo.end(); continue; } for (size_t i = 1; i < Aliases.size(); ++i) FuncAliasMap.try_emplace(Aliases[i], Aliases.front()); // Prepare for parsing clusters of this function name. // Start a new cluster map for this function name. auto R = ProgramPathAndClusterInfo.try_emplace(Aliases.front()); // Report error when multiple profiles have been specified for the same // function. if (!R.second) return createProfileParseError("duplicate profile for function '" + Aliases.front() + "'"); FI = R.first; CurrentCluster = 0; FuncBBIDs.clear(); } } return Error::success(); } // Basic Block Sections can be enabled for a subset of machine basic blocks. // This is done by passing a file containing names of functions for which basic // block sections are desired. Additionally, machine basic block ids of the // functions can also be specified for a finer granularity. Moreover, a cluster // of basic blocks could be assigned to the same section. // Optionally, a debug-info filename can be specified for each function to allow // distinguishing internal-linkage functions of the same name. // A file with basic block sections for all of function main and three blocks // for function foo (of which 1 and 2 are placed in a cluster) looks like this: // (Profile for function foo is only loaded when its debug-info filename // matches 'path/to/foo_file.cc'). // ---------------------------- // list.txt: // !main // !foo M=path/to/foo_file.cc // !!1 2 // !!4 Error BasicBlockSectionsProfileReader::ReadProfile() { assert(MBuf); unsigned long long Version = 0; StringRef FirstLine(*LineIt); if (FirstLine.consume_front("v")) { if (getAsUnsignedInteger(FirstLine, 10, Version)) { return createProfileParseError(Twine("version number expected: '") + FirstLine + "'"); } if (Version > 1) { return createProfileParseError(Twine("invalid profile version: ") + Twine(Version)); } ++LineIt; } switch (Version) { case 0: // TODO: Deprecate V0 once V1 is fully integrated downstream. return ReadV0Profile(); case 1: return ReadV1Profile(); default: llvm_unreachable("Invalid profile version."); } } bool BasicBlockSectionsProfileReaderWrapperPass::doInitialization(Module &M) { if (!BBSPR.MBuf) return false; // Get the function name to debug info filename mapping. BBSPR.FunctionNameToDIFilename.clear(); for (const Function &F : M) { SmallString<128> DIFilename; if (F.isDeclaration()) continue; DISubprogram *Subprogram = F.getSubprogram(); if (Subprogram) { llvm::DICompileUnit *CU = Subprogram->getUnit(); if (CU) DIFilename = sys::path::remove_leading_dotslash(CU->getFilename()); } [[maybe_unused]] bool inserted = BBSPR.FunctionNameToDIFilename.try_emplace(F.getName(), DIFilename) .second; assert(inserted); } if (auto Err = BBSPR.ReadProfile()) report_fatal_error(std::move(Err)); return false; } AnalysisKey BasicBlockSectionsProfileReaderAnalysis::Key; BasicBlockSectionsProfileReader BasicBlockSectionsProfileReaderAnalysis::run(Function &F, FunctionAnalysisManager &AM) { return BasicBlockSectionsProfileReader(TM->getBBSectionsFuncListBuf()); } bool BasicBlockSectionsProfileReaderWrapperPass::isFunctionHot( StringRef FuncName) const { return BBSPR.isFunctionHot(FuncName); } std::pair> BasicBlockSectionsProfileReaderWrapperPass::getClusterInfoForFunction( StringRef FuncName) const { return BBSPR.getClusterInfoForFunction(FuncName); } SmallVector> BasicBlockSectionsProfileReaderWrapperPass::getClonePathsForFunction( StringRef FuncName) const { return BBSPR.getClonePathsForFunction(FuncName); } BasicBlockSectionsProfileReader & BasicBlockSectionsProfileReaderWrapperPass::getBBSPR() { return BBSPR; } ImmutablePass *llvm::createBasicBlockSectionsProfileReaderWrapperPass( const MemoryBuffer *Buf) { return new BasicBlockSectionsProfileReaderWrapperPass(Buf); }