diff --git a/bolt/include/bolt/Profile/BoltAddressTranslation.h b/bolt/include/bolt/Profile/BoltAddressTranslation.h --- a/bolt/include/bolt/Profile/BoltAddressTranslation.h +++ b/bolt/include/bolt/Profile/BoltAddressTranslation.h @@ -76,26 +76,29 @@ /// output binary static const char *SECTION_NAME; - BoltAddressTranslation(BinaryContext &BC) : BC(BC) {} + BoltAddressTranslation() {} /// Write the serialized address translation tables for each reordered /// function - void write(raw_ostream &OS); + void write(const BinaryContext &BC, raw_ostream &OS); /// Read the serialized address translation tables and load them internally /// in memory. Return a parse error if failed. std::error_code parse(StringRef Buf); + /// Dump the parsed address translation tables + void dump(raw_ostream &OS); + /// If the maps are loaded in memory, perform the lookup to translate LBR - /// addresses in \p Func. - uint64_t translate(const BinaryFunction &Func, uint64_t Offset, + /// addresses in function located at \p FuncAddress. + uint64_t translate(uint64_t FuncAddress, uint64_t Offset, bool IsBranchSrc) const; /// Use the map keys containing basic block addresses to infer fall-throughs /// taken in the path started at FirstLBR.To and ending at SecondLBR.From. /// Return NoneType if trace is invalid or the list of fall-throughs /// otherwise. - Optional getFallthroughsInTrace(const BinaryFunction &Func, + Optional getFallthroughsInTrace(uint64_t FuncAddress, uint64_t From, uint64_t To) const; @@ -115,8 +118,6 @@ void writeEntriesForBB(MapTy &Map, const BinaryBasicBlock &BB, uint64_t FuncAddress); - BinaryContext &BC; - std::map Maps; /// Links outlined cold bocks to their original function diff --git a/bolt/lib/Passes/ValidateInternalCalls.cpp b/bolt/lib/Passes/ValidateInternalCalls.cpp --- a/bolt/lib/Passes/ValidateInternalCalls.cpp +++ b/bolt/lib/Passes/ValidateInternalCalls.cpp @@ -117,7 +117,6 @@ if (!MovedInsts.empty()) { // Split this block at the call instruction. std::unique_ptr NewBB = Function.createBasicBlock(); - NewBB->setOffset(0); NewBB->addInstructions(MovedInsts.begin(), MovedInsts.end()); BB.moveAllSuccessorsTo(NewBB.get()); diff --git a/bolt/lib/Profile/BoltAddressTranslation.cpp b/bolt/lib/Profile/BoltAddressTranslation.cpp --- a/bolt/lib/Profile/BoltAddressTranslation.cpp +++ b/bolt/lib/Profile/BoltAddressTranslation.cpp @@ -25,9 +25,14 @@ BB.getOutputAddressRange().first - FuncAddress; const uint32_t BBInputOffset = BB.getInputOffset(); - assert(BBInputOffset != BinaryBasicBlock::INVALID_OFFSET && - "Every output BB must track back to an input BB for profile " - "collection in bolted binaries"); + // Every output BB must track back to an input BB for profile collection + // in bolted binaries. If we are missing an offset, it means this block was + // created by a pass. We will skip writing any entries for it, and this means + // any traffic happening in this block will map to the previous block in the + // layout. This covers the case where an input basic block is split into two, + // and the second one lacks any offset. + if (BBInputOffset == BinaryBasicBlock::INVALID_OFFSET) + return; LLVM_DEBUG(dbgs() << "BB " << BB.getName() << "\n"); LLVM_DEBUG(dbgs() << " Key: " << Twine::utohexstr(BBOutputOffset) @@ -56,13 +61,13 @@ } } -void BoltAddressTranslation::write(raw_ostream &OS) { +void BoltAddressTranslation::write(const BinaryContext &BC, raw_ostream &OS) { LLVM_DEBUG(dbgs() << "BOLT-DEBUG: Writing BOLT Address Translation Tables\n"); for (auto &BFI : BC.getBinaryFunctions()) { - BinaryFunction &Function = BFI.second; + const BinaryFunction &Function = BFI.second; // We don't need a translation table if the body of the function hasn't // changed - if (!BC.HasRelocations && !Function.isSimple()) + if (Function.isIgnored() || (!BC.HasRelocations && !Function.isSimple())) continue; LLVM_DEBUG(dbgs() << "Function name: " << Function.getPrintName() << "\n"); @@ -70,7 +75,7 @@ << Twine::utohexstr(Function.getOutputAddress()) << "\n"); MapTy Map; const bool IsSplit = Function.isSplit(); - for (const BinaryBasicBlock *BB : Function.getLayout().blocks()) { + for (const BinaryBasicBlock *const BB : Function.getLayout().blocks()) { if (IsSplit && BB->isCold()) break; writeEntriesForBB(Map, *BB, Function.getOutputAddress()); @@ -83,7 +88,7 @@ // Cold map Map.clear(); LLVM_DEBUG(dbgs() << " Cold part\n"); - for (const BinaryBasicBlock *BB : Function.getLayout().blocks()) { + for (const BinaryBasicBlock *const BB : Function.getLayout().blocks()) { if (!BB->isCold()) continue; writeEntriesForBB(Map, *BB, Function.cold().getAddress()); @@ -193,10 +198,39 @@ return std::error_code(); } -uint64_t BoltAddressTranslation::translate(const BinaryFunction &Func, +void BoltAddressTranslation::dump(raw_ostream &OS) { + const size_t NumTables = Maps.size(); + OS << "BAT tables for " << NumTables << " functions:\n"; + for (const auto &MapEntry : Maps) { + OS << "Function Address: 0x" << Twine::utohexstr(MapEntry.first) << "\n"; + OS << "BB mappings:\n"; + for (const auto &Entry : MapEntry.second) { + const bool IsBranch = Entry.second & BRANCHENTRY; + const uint32_t Val = Entry.second & ~BRANCHENTRY; + OS << "0x" << Twine::utohexstr(Entry.first) << " -> " + << "0x" << Twine::utohexstr(Val); + if (IsBranch) + OS << " (branch)"; + OS << "\n"; + } + OS << "\n"; + } + const size_t NumColdParts = ColdPartSource.size(); + if (!NumColdParts) + return; + + OS << NumColdParts << " cold mappings:\n"; + for (const auto &Entry : ColdPartSource) { + OS << "0x" << Twine::utohexstr(Entry.first) << " -> " + << Twine::utohexstr(Entry.second) << "\n"; + } + OS << "\n"; +} + +uint64_t BoltAddressTranslation::translate(uint64_t FuncAddress, uint64_t Offset, bool IsBranchSrc) const { - auto Iter = Maps.find(Func.getAddress()); + auto Iter = Maps.find(FuncAddress); if (Iter == Maps.end()) return Offset; @@ -217,7 +251,7 @@ } Optional -BoltAddressTranslation::getFallthroughsInTrace(const BinaryFunction &Func, +BoltAddressTranslation::getFallthroughsInTrace(uint64_t FuncAddress, uint64_t From, uint64_t To) const { SmallVector, 16> Res; @@ -226,10 +260,10 @@ if (From >= To) return Res; - From -= Func.getAddress(); - To -= Func.getAddress(); + From -= FuncAddress; + To -= FuncAddress; - auto Iter = Maps.find(Func.getAddress()); + auto Iter = Maps.find(FuncAddress); if (Iter == Maps.end()) return NoneType(); diff --git a/bolt/lib/Profile/DataAggregator.cpp b/bolt/lib/Profile/DataAggregator.cpp --- a/bolt/lib/Profile/DataAggregator.cpp +++ b/bolt/lib/Profile/DataAggregator.cpp @@ -699,7 +699,7 @@ Address -= Func.getAddress(); if (BAT) - Address = BAT->translate(Func, Address, /*IsBranchSrc=*/false); + Address = BAT->translate(Func.getAddress(), Address, /*IsBranchSrc=*/false); I->second.bumpCount(Address, Count); return true; @@ -722,8 +722,8 @@ << Func.getPrintName() << " @ " << Twine::utohexstr(To) << '\n'); if (BAT) { - From = BAT->translate(Func, From, /*IsBranchSrc=*/true); - To = BAT->translate(Func, To, /*IsBranchSrc=*/false); + From = BAT->translate(Func.getAddress(), From, /*IsBranchSrc=*/true); + To = BAT->translate(Func.getAddress(), To, /*IsBranchSrc=*/false); LLVM_DEBUG(dbgs() << "BOLT-DEBUG: BAT translation on bumpBranchCount: " << Func.getPrintName() << " @ " << Twine::utohexstr(From) << " -> " << Func.getPrintName() << " @ " @@ -752,7 +752,7 @@ } From -= FromFunc->getAddress(); if (BAT) - From = BAT->translate(*FromFunc, From, /*IsBranchSrc=*/true); + From = BAT->translate(FromFunc->getAddress(), From, /*IsBranchSrc=*/true); recordExit(*FromFunc, From, Mispreds, Count); } @@ -766,7 +766,7 @@ } To -= ToFunc->getAddress(); if (BAT) - To = BAT->translate(*ToFunc, To, /*IsBranchSrc=*/false); + To = BAT->translate(ToFunc->getAddress(), To, /*IsBranchSrc=*/false); recordEntry(*ToFunc, To, Mispreds, Count); } @@ -822,7 +822,8 @@ } Optional FTs = - BAT ? BAT->getFallthroughsInTrace(*FromFunc, First.To, Second.From) + BAT ? BAT->getFallthroughsInTrace(FromFunc->getAddress(), First.To, + Second.From) : getFallthroughsInTrace(*FromFunc, First, Second, Count); if (!FTs) { LLVM_DEBUG( diff --git a/bolt/lib/Rewrite/RewriteInstance.cpp b/bolt/lib/Rewrite/RewriteInstance.cpp --- a/bolt/lib/Rewrite/RewriteInstance.cpp +++ b/bolt/lib/Rewrite/RewriteInstance.cpp @@ -356,7 +356,7 @@ BC->initializeTarget(std::unique_ptr(createMCPlusBuilder( BC->TheTriple->getArch(), BC->MIA.get(), BC->MII.get(), BC->MRI.get()))); - BAT = std::make_unique(*BC); + BAT = std::make_unique(); if (opts::UpdateDebugSections) DebugInfoRewriter = std::make_unique(*BC); @@ -4163,7 +4163,7 @@ std::string DescStr; raw_string_ostream DescOS(DescStr); - BAT->write(DescOS); + BAT->write(*BC, DescOS); DescOS.flush(); const std::string BoltInfo = diff --git a/bolt/test/CMakeLists.txt b/bolt/test/CMakeLists.txt --- a/bolt/test/CMakeLists.txt +++ b/bolt/test/CMakeLists.txt @@ -39,6 +39,7 @@ llvm-bolt llvm-boltdiff llvm-bolt-heatmap + llvm-bat-dump llvm-dwarfdump llvm-dwp llvm-mc diff --git a/bolt/test/X86/bolt-address-translation-internal-call.test b/bolt/test/X86/bolt-address-translation-internal-call.test new file mode 100644 --- /dev/null +++ b/bolt/test/X86/bolt-address-translation-internal-call.test @@ -0,0 +1,52 @@ +# This checks for an issue with internal calls and BAT (BOLT address +# translation). BAT needs to map every output block back to an input +# block, but passes that introduce new blocks (such as validate +# internal calls) might create new blocks without a mapping to an +# input block. + +# REQUIRES: system-linux,bolt-runtime + +# RUN: llvm-mc -filetype=obj -triple x86_64-unknown-unknown %s -o %t.o +# Delete our BB symbols so BOLT doesn't mark them as entry points +# RUN: llvm-strip --strip-unneeded %t.o +# RUN: %clang %t.o -o %t.exe -Wl,-q + +# RUN: llvm-bolt --enable-bat %t.exe --relocs -o %t.out | FileCheck %s +# CHECK: BOLT-INFO: Wrote {{.*}} BAT maps + +# RUN: llvm-bat-dump %t.out --dump-all | \ +# RUN: FileCheck %s --check-prefix=CHECK-BAT-DUMP +# CHECK-BAT-DUMP: BAT tables for {{.*}} functions + + .text + .globl main + .type main, %function + .p2align 4 +main: + push %rbp + mov %rsp,%rbp + push %r12 + push %rbx + sub $0x120,%rsp + mov $0x3,%rbx +.J1: + cmp $0x0,%rbx + je .J2 + callq .J3 + nopl (%rax,%rax,1) + movabs $0xdeadbeef,%rax + retq +.J2: + add $0x120,%rsp + pop %rbx + pop %r12 + jmp .J4 +.J3: + pop %rax + add $0x4,%rax + dec %rbx + jmp .J1 +.J4: + pop %rbp + retq + .size main, .-main diff --git a/bolt/test/X86/bolt-address-translation.test b/bolt/test/X86/bolt-address-translation.test new file mode 100644 --- /dev/null +++ b/bolt/test/X86/bolt-address-translation.test @@ -0,0 +1,146 @@ +# Check a common case for BOLT address translation tables. These tables are used +# to translate profile activity happening in a bolted binary back to the +# original binary, so you can run BOLT again, with updated profile collected +# in a production environment that only runs bolted binaries. As BOLT only +# takes no-bolt binaries as inputs, this translation is necessary to cover +# this scenario. +# +# RUN: yaml2obj %p/Inputs/blarge.yaml &> %t.exe +# RUN: llvm-bolt %t.exe -o %t.out --data %p/Inputs/blarge.fdata \ +# RUN: --reorder-blocks=normal --split-functions --enable-bat 2>&1 | FileCheck %s +# RUN: llvm-bat-dump %t.out --dump-all \ +# RUN: --translate=0x401180 | FileCheck %s --check-prefix=CHECK-BAT-DUMP +# +# In this test we focus on function usqrt at address 0x401170. This is a +# non-reloc binary case, so we don't expect this address to change, that's +# why we hardcode its address here. This address also comes hardcoded in the +# blarge.yaml input file. +# +# This is the layout of the function before BOLT reorder blocks: +# +# BB Layout : .LBB02, .Ltmp39, .LFT1, .Ltmp38, .LFT2 +# +# This is the layout of the function after BOLT reorder blocks: +# +# BB Layout : .LBB02, .Ltmp38, .Ltmp39, .LFT2, .LFT3 +# +# .Ltmp38 is originally at offset 0x39 but gets moved to 0xc (see full dump +# below). +# +# We check that BAT is able to translate references happening in .Ltmp38 to +# its original offset. +# + +# This binary has 3 functions with profile, all of them are split, so 6 maps. +# BAT creates one map per function fragment. +# +# CHECK: BOLT: 3 out of 7 functions were overwritten. +# CHECK: BOLT-INFO: Wrote 6 BAT maps +# CHECK: BOLT-INFO: Wrote 3 BAT cold-to-hot entries +# +# usqrt mappings (hot part). We match against any key (left side containing +# the bolted binary offsets) because BOLT may change where it puts instructions +# depending on whether it is relaxing a branch or not. But the original input +# binary offsets (right side) should be the same because these addresses are +# hardcoded in the blarge.yaml file. +# +# CHECK-BAT-DUMP: Function Address: 0x401170 +# CHECK-BAT-DUMP-NEXT: BB mappings: +# CHECK-BAT-DUMP-NEXT: 0x0 -> 0x0 +# CHECK-BAT-DUMP-NEXT: 0x8 -> 0x8 (branch) +# CHECK-BAT-DUMP-NEXT: 0x{{.*}} -> 0x39 +# CHECK-BAT-DUMP-NEXT: 0x{{.*}} -> 0x3d (branch) +# CHECK-BAT-DUMP-NEXT: 0x{{.*}} -> 0x10 +# CHECK-BAT-DUMP-NEXT: 0x{{.*}} -> 0x30 (branch) +# +# CHECK-BAT-DUMP: 3 cold mappings +# +# Now check that the translation 0x401180 maps back to its correct +# input offset (offset 3d in the usqrt input function). +# +# COM: CHECK-BAT-DUMP: Translating addresses according to parsed BAT tables: +# CHECK-BAT-DUMP: 0x401180 -> usqrt + 0x3d + +# ------------------------- +# Full dump for reference (this is not checked): +# ------------------------- + +Binary Function "usqrt" after finalize-functions + Number : 7 + State : CFG finalized + Address : 0x401170 + Size : 0x43 + MaxSize : 0x43 + Offset : 0xcb0 + Section : .text + Orc Section : .local.text.usqrt + LSDA : 0x0 + IsSimple : 1 + IsMultiEntry: 0 + IsSplit : 1 + BB Count : 5 + Hash : a6468f132ec176ca + BB Layout : .LBB02, .Ltmp38, .Ltmp39, .LFT2, .LFT3 + Exec Count : 199 + Profile Acc : 100.0% + +.LBB02 (4 instructions, align : 1) + Entry Point + Exec Count : 199 + CFI State : 0 + Input offset: 0 + 00000000: movl $0x20, %r8d + 00000006: xorl %eax, %eax + 00000008: xorl %edx, %edx # Offset: 8 + 0000000a: jmp .Ltmp39 + Successors: .Ltmp39 (mispreds: 0, count: 0) + +.Ltmp38 (2 instructions, align : 1) + Exec Count : 4711 + CFI State : 0 + Input offset: 39 + Predecessors: .Ltmp39, .LFT2 + 0000000c: subl $0x1, %r8d + 00000010: je .LFT3 # Offset: 61 + Successors: .LFT3 (mispreds: 0, count: 0), .Ltmp39 (mispreds: 33, count: 4711) + +.Ltmp39 (10 instructions, align : 1) + Exec Count : 4711 + CFI State : 0 + Input offset: 10 + Predecessors: .Ltmp38, .LBB02 + 00000012: movq %rdi, %rcx + 00000015: addq %rax, %rax + 00000018: shlq $0x2, %rdi + 0000001c: andl $0xc0000000, %ecx + 00000022: shrq $0x1e, %rcx + 00000026: leaq (%rcx,%rdx,4), %rdx + 0000002a: leaq 0x1(%rax,%rax), %rcx + 0000002f: cmpq %rcx, %rdx + 00000032: jb .Ltmp38 # Offset: 48 + 00000034: jmp .LFT2 + Successors: .Ltmp38 (mispreds: 171, count: 2886), .LFT2 (mispreds: 0, count: 0) + +------- HOT-COLD SPLIT POINT ------- + +.LFT2 (3 instructions, align : 1) + Exec Count : 0 + CFI State : 0 + Input offset: 32 + Predecessors: .Ltmp39 + 00000036: subq %rcx, %rdx + 00000039: addq $0x1, %rax # Offset: 53 + 0000003d: jmp .Ltmp38 + Successors: .Ltmp38 (mispreds: 0, count: 0) + +.LFT3 (2 instructions, align : 1) + Exec Count : 0 + CFI State : 0 + Input offset: 3f + Predecessors: .Ltmp38 + 0000003f: movq %rax, (%rsi) + 00000042: retq # Offset: 66 + +DWARF CFI Instructions: + +End of Function "usqrt" diff --git a/bolt/test/lit.cfg.py b/bolt/test/lit.cfg.py --- a/bolt/test/lit.cfg.py +++ b/bolt/test/lit.cfg.py @@ -80,6 +80,7 @@ ToolSubst('llvm-bolt', unresolved='fatal'), ToolSubst('llvm-boltdiff', unresolved='fatal'), ToolSubst('llvm-bolt-heatmap', unresolved='fatal'), + ToolSubst('llvm-bat-dump', unresolved='fatal'), ToolSubst('perf2bolt', unresolved='fatal'), ToolSubst('yaml2obj', unresolved='fatal'), ToolSubst('llvm-mc', unresolved='fatal'), diff --git a/bolt/tools/CMakeLists.txt b/bolt/tools/CMakeLists.txt --- a/bolt/tools/CMakeLists.txt +++ b/bolt/tools/CMakeLists.txt @@ -14,5 +14,6 @@ add_subdirectory(driver) add_subdirectory(llvm-bolt-fuzzer) +add_subdirectory(bat-dump) add_subdirectory(merge-fdata) add_subdirectory(heatmap) diff --git a/bolt/tools/bat-dump/CMakeLists.txt b/bolt/tools/bat-dump/CMakeLists.txt new file mode 100644 --- /dev/null +++ b/bolt/tools/bat-dump/CMakeLists.txt @@ -0,0 +1,15 @@ +set(LLVM_LINK_COMPONENTS + Object + Support + ) + +add_llvm_tool(llvm-bat-dump + bat-dump.cpp + ) + +target_link_libraries(llvm-bat-dump + PRIVATE + LLVMBOLTProfile + ) + +set_target_properties(llvm-bat-dump PROPERTIES FOLDER "BOLT") diff --git a/bolt/tools/bat-dump/bat-dump.cpp b/bolt/tools/bat-dump/bat-dump.cpp new file mode 100644 --- /dev/null +++ b/bolt/tools/bat-dump/bat-dump.cpp @@ -0,0 +1,175 @@ +#include "bolt/Profile/BoltAddressTranslation.h" +#include "llvm/ADT/ArrayRef.h" +#include "llvm/ADT/SmallString.h" +#include "llvm/ADT/StringRef.h" +#include "llvm/ADT/Twine.h" +#include "llvm/ADT/iterator_range.h" +#include "llvm/Object/Binary.h" +#include "llvm/Object/ELFObjectFile.h" +#include "llvm/Object/Error.h" +#include "llvm/Object/ObjectFile.h" +#include "llvm/Object/SymbolicFile.h" +#include "llvm/Support/Casting.h" +#include "llvm/Support/CommandLine.h" +#include "llvm/Support/Errc.h" +#include "llvm/Support/Error.h" +#include "llvm/Support/ErrorHandling.h" +#include "llvm/Support/ErrorOr.h" +#include "llvm/Support/FileSystem.h" +#include "llvm/Support/Program.h" +#include "llvm/Support/raw_ostream.h" +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +using namespace llvm; +using namespace bolt; + +namespace opts { + +cl::OptionCategory BatDumpCategory("BAT dump options"); + +static cl::OptionCategory *BatDumpCategories[] = {&BatDumpCategory}; + +static cl::opt InputFilename(cl::Positional, + cl::desc(""), + cl::Required, + cl::cat(BatDumpCategory)); + +static cl::list Translate("translate", + cl::desc("translate addresses using BAT"), + cl::value_desc("addr"), + cl::cat(BatDumpCategory)); + +static cl::opt DumpAll("dump-all", cl::desc("dump all BAT tables"), + cl::cat(BatDumpCategory)); + +} // namespace opts + +static StringRef ToolName; + +static void report_error(StringRef Message, std::error_code EC) { + assert(EC); + errs() << ToolName << ": '" << Message << "': " << EC.message() << ".\n"; + exit(1); +} + +static void report_error(StringRef Message, Error E) { + assert(E); + errs() << ToolName << ": '" << Message << "': " << toString(std::move(E)) + << ".\n"; + exit(1); +} + +static std::string GetExecutablePath(const char *Argv0) { + SmallString<256> ExecutablePath(Argv0); + // Do a PATH lookup if Argv0 isn't a valid path. + if (!llvm::sys::fs::exists(ExecutablePath)) + if (llvm::ErrorOr P = + llvm::sys::findProgramByName(ExecutablePath)) + ExecutablePath = *P; + return std::string(ExecutablePath.str()); +} + +void dumpBATFor(llvm::object::ELFObjectFileBase *InputFile) { + BoltAddressTranslation BAT; + if (!BAT.enabledFor(InputFile)) { + errs() << "error: no BAT table found.\n"; + exit(1); + } + + // Look for BAT section + bool Found = false; + StringRef SectionContents; + for (const llvm::object::SectionRef &Section : InputFile->sections()) { + Expected SectionNameOrErr = Section.getName(); + if (Error E = SectionNameOrErr.takeError()) + continue; + + if (SectionNameOrErr.get() != BoltAddressTranslation::SECTION_NAME) + continue; + + Found = true; + Expected ContentsOrErr = Section.getContents(); + if (Error E = ContentsOrErr.takeError()) + continue; + SectionContents = ContentsOrErr.get(); + } + + if (!Found) { + errs() << "BOLT-ERROR: failed to parse BOLT address translation " + "table. No BAT section found\n"; + exit(1); + } + + if (std::error_code EC = BAT.parse(SectionContents)) { + errs() << "BOLT-ERROR: failed to parse BOLT address translation " + "table. Malformed BAT section\n"; + exit(1); + } + + if (opts::DumpAll) + BAT.dump(outs()); + + if (!opts::Translate.empty()) { + // Build map of for InputFile + std::map FunctionsMap; + for (const llvm::object::ELFSymbolRef &Symbol : InputFile->symbols()) { + Expected NameOrError = Symbol.getName(); + if (NameOrError.takeError()) + continue; + if (cantFail(Symbol.getType()) != llvm::object::SymbolRef::ST_Function) + continue; + const StringRef Name = *NameOrError; + const uint64_t Address = cantFail(Symbol.getAddress()); + FunctionsMap[Address] = Name; + } + + outs() << "Translating addresses according to parsed BAT tables:\n"; + for (uint64_t Address : opts::Translate) { + auto FI = FunctionsMap.upper_bound(Address); + if (FI == FunctionsMap.begin()) { + outs() << "No function symbol found for 0x" << Twine::utohexstr(Address) + << "\n"; + continue; + } + --FI; + outs() << "0x" << Twine::utohexstr(Address) << " -> " << FI->second + << " + 0x" + << Twine::utohexstr( + BAT.translate(FI->first, Address - FI->first, false)) + << "\n"; + } + } +} + +int main(int argc, char **argv) { + cl::HideUnrelatedOptions(makeArrayRef(opts::BatDumpCategories)); + cl::ParseCommandLineOptions(argc, argv, ""); + + if (!sys::fs::exists(opts::InputFilename)) + report_error(opts::InputFilename, errc::no_such_file_or_directory); + + ToolName = argv[0]; + std::string ToolPath = GetExecutablePath(argv[0]); + Expected> BinaryOrErr = + llvm::object::createBinary(opts::InputFilename); + if (Error E = BinaryOrErr.takeError()) + report_error(opts::InputFilename, std::move(E)); + llvm::object::Binary &Binary = *BinaryOrErr.get().getBinary(); + + if (auto *InputFile = dyn_cast(&Binary)) + dumpBATFor(InputFile); + else + report_error(opts::InputFilename, + llvm::object::object_error::invalid_file_type); + + return EXIT_SUCCESS; +}