//===--- ARMAttributeParser.cpp - ARM Attribute Information Printer -------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "ARMAttributeParser.h" #include "StreamWriter.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringExtras.h" #include "llvm/Support/LEB128.h" using namespace llvm; using namespace llvm::ARMBuildAttrs; static const EnumEntry<unsigned> TagNames[] = { { "Tag_File", ARMBuildAttrs::File }, { "Tag_Section", ARMBuildAttrs::Section }, { "Tag_Symbol", ARMBuildAttrs::Symbol }, }; namespace llvm { #define ATTRIBUTE_HANDLER(Attr_) \ { ARMBuildAttrs::Attr_, &ARMAttributeParser::Attr_ } const ARMAttributeParser::DisplayHandler ARMAttributeParser::DisplayRoutines[] = { { ARMBuildAttrs::CPU_raw_name, &ARMAttributeParser::StringAttribute, }, { ARMBuildAttrs::CPU_name, &ARMAttributeParser::StringAttribute }, ATTRIBUTE_HANDLER(CPU_arch), ATTRIBUTE_HANDLER(CPU_arch_profile), ATTRIBUTE_HANDLER(ARM_ISA_use), ATTRIBUTE_HANDLER(THUMB_ISA_use), ATTRIBUTE_HANDLER(FP_arch), ATTRIBUTE_HANDLER(WMMX_arch), ATTRIBUTE_HANDLER(Advanced_SIMD_arch), ATTRIBUTE_HANDLER(PCS_config), ATTRIBUTE_HANDLER(ABI_PCS_R9_use), ATTRIBUTE_HANDLER(ABI_PCS_RW_data), ATTRIBUTE_HANDLER(ABI_PCS_RO_data), ATTRIBUTE_HANDLER(ABI_PCS_GOT_use), ATTRIBUTE_HANDLER(ABI_PCS_wchar_t), ATTRIBUTE_HANDLER(ABI_FP_rounding), ATTRIBUTE_HANDLER(ABI_FP_denormal), ATTRIBUTE_HANDLER(ABI_FP_exceptions), ATTRIBUTE_HANDLER(ABI_FP_user_exceptions), ATTRIBUTE_HANDLER(ABI_FP_number_model), ATTRIBUTE_HANDLER(ABI_align_needed), ATTRIBUTE_HANDLER(ABI_align_preserved), ATTRIBUTE_HANDLER(ABI_enum_size), ATTRIBUTE_HANDLER(ABI_HardFP_use), ATTRIBUTE_HANDLER(ABI_VFP_args), ATTRIBUTE_HANDLER(ABI_WMMX_args), ATTRIBUTE_HANDLER(ABI_optimization_goals), ATTRIBUTE_HANDLER(ABI_FP_optimization_goals), ATTRIBUTE_HANDLER(compatibility), ATTRIBUTE_HANDLER(CPU_unaligned_access), ATTRIBUTE_HANDLER(FP_HP_extension), ATTRIBUTE_HANDLER(ABI_FP_16bit_format), ATTRIBUTE_HANDLER(MPextension_use), ATTRIBUTE_HANDLER(DIV_use), ATTRIBUTE_HANDLER(T2EE_use), ATTRIBUTE_HANDLER(Virtualization_use), ATTRIBUTE_HANDLER(nodefaults) }; #undef ATTRIBUTE_HANDLER uint64_t ARMAttributeParser::ParseInteger(const uint8_t *Data, uint32_t &Offset) { unsigned Length; uint64_t Value = decodeULEB128(Data + Offset, &Length); Offset = Offset + Length; return Value; } StringRef ARMAttributeParser::ParseString(const uint8_t *Data, uint32_t &Offset) { const char *String = reinterpret_cast<const char*>(Data + Offset); size_t Length = std::strlen(String); Offset = Offset + Length + 1; return StringRef(String, Length); } void ARMAttributeParser::IntegerAttribute(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { SW.printNumber(ARMBuildAttrs::AttrTypeAsString(Tag), ParseInteger(Data, Offset)); } void ARMAttributeParser::StringAttribute(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { StringRef TagName = ARMBuildAttrs::AttrTypeAsString(Tag, /*TagPrefix*/false); DictScope AS(SW, "Attribute"); SW.printNumber("Tag", Tag); if (!TagName.empty()) SW.printString("TagName", TagName); SW.printString("Value", ParseString(Data, Offset)); } void ARMAttributeParser::PrintAttribute(unsigned Tag, unsigned Value, StringRef ValueDesc) { StringRef TagName = ARMBuildAttrs::AttrTypeAsString(Tag, /*TagPrefix*/false); DictScope AS(SW, "Attribute"); SW.printNumber("Tag", Tag); SW.printNumber("Value", Value); if (!TagName.empty()) SW.printString("TagName", TagName); if (!ValueDesc.empty()) SW.printString("Description", ValueDesc); } void ARMAttributeParser::CPU_arch(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Pre-v4", "ARM v4", "ARM v4T", "ARM v5T", "ARM v5TE", "ARM v5TEJ", "ARM v6", "ARM v6KZ", "ARM v6T2", "ARM v6K", "ARM v7", "ARM v6-M", "ARM v6S-M", "ARM v7E-M", "ARM v8" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::CPU_arch_profile(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { uint64_t Encoded = ParseInteger(Data, Offset); StringRef Profile; switch (Encoded) { default: Profile = "Unknown"; break; case 'A': Profile = "Application"; break; case 'R': Profile = "Real-time"; break; case 'M': Profile = "Microcontroller"; break; case 'S': Profile = "Classic"; break; case '0': Profile = "None"; break; } PrintAttribute(Tag, Encoded, Profile); } void ARMAttributeParser::ARM_ISA_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::THUMB_ISA_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Thumb-1", "Thumb-2" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::FP_arch(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "VFPv1", "VFPv2", "VFPv3", "VFPv3-D16", "VFPv4", "VFPv4-D16", "ARMv8-a FP", "ARMv8-a FP-D16" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::WMMX_arch(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "WMMXv1", "WMMXv2" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::Advanced_SIMD_arch(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "NEONv1", "NEONv2+FMA", "ARMv8-a NEON" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::PCS_config(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "None", "Bare Platform", "Linux Application", "Linux DSO", "Palm OS 2004", "Reserved (Palm OS)", "Symbian OS 2004", "Reserved (Symbian OS)" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_PCS_R9_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "v6", "Static Base", "TLS", "Unused" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_PCS_RW_data(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Absolute", "PC-relative", "SB-relative", "Not Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_PCS_RO_data(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Absolute", "PC-relative", "Not Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_PCS_GOT_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Direct", "GOT-Indirect" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_PCS_wchar_t(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Unknown", "2-byte", "Unknown", "4-byte" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_rounding(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "IEEE-754", "Runtime" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_denormal(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Unsupported", "IEEE-754", "Sign Only" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_exceptions(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "IEEE-754" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_user_exceptions(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "IEEE-754" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_number_model(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Finite Only", "RTABI", "IEEE-754" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_align_needed(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "8-byte alignment", "4-byte alignment", "Reserved" }; uint64_t Value = ParseInteger(Data, Offset); std::string Description; if (Value < array_lengthof(Strings)) Description = std::string(Strings[Value]); else if (Value <= 12) Description = std::string("8-byte alignment, ") + utostr(1 << Value) + std::string("-byte extended alignment"); else Description = "Invalid"; PrintAttribute(Tag, Value, Description); } void ARMAttributeParser::ABI_align_preserved(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Required", "8-byte data alignment", "8-byte data and code alignment", "Reserved" }; uint64_t Value = ParseInteger(Data, Offset); std::string Description; if (Value < array_lengthof(Strings)) Description = std::string(Strings[Value]); else if (Value <= 12) Description = std::string("8-byte stack alignment, ") + utostr(1 << Value) + std::string("-byte data alignment"); else Description = "Invalid"; PrintAttribute(Tag, Value, Description); } void ARMAttributeParser::ABI_enum_size(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Packed", "Int32", "External Int32" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_HardFP_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Tag_FP_arch", "Single-Precision", "Reserved", "Tag_FP_arch (deprecated)" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_VFP_args(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "AAPCS", "AAPCS VFP", "Custom", "Not Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_WMMX_args(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "AAPCS", "iWMMX", "Custom" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_optimization_goals(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "None", "Speed", "Aggressive Speed", "Size", "Aggressive Size", "Debugging", "Best Debugging" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_optimization_goals(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "None", "Speed", "Aggressive Speed", "Size", "Aggressive Size", "Accuracy", "Best Accuracy" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::compatibility(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { uint64_t Integer = ParseInteger(Data, Offset); StringRef String = ParseString(Data, Offset); DictScope AS(SW, "Attribute"); SW.printNumber("Tag", Tag); SW.startLine() << "Value: " << Integer << ", " << String << '\n'; SW.printString("TagName", AttrTypeAsString(Tag, /*TagPrefix*/false)); switch (Integer) { case 0: SW.printString("Description", StringRef("No Specific Requirements")); break; case 1: SW.printString("Description", StringRef("AEABI Conformant")); break; default: SW.printString("Description", StringRef("AEABI Non-Conformant")); break; } } void ARMAttributeParser::CPU_unaligned_access(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "v6-style" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::FP_HP_extension(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "If Available", "Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::ABI_FP_16bit_format(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "IEEE-754", "VFPv3" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::MPextension_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::DIV_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "If Available", "Not Permitted", "Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::T2EE_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "Permitted" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::Virtualization_use(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { static const char *Strings[] = { "Not Permitted", "TrustZone", "Virtualization Extensions", "TrustZone + Virtualization Extensions" }; uint64_t Value = ParseInteger(Data, Offset); StringRef ValueDesc = (Value < array_lengthof(Strings)) ? Strings[Value] : nullptr; PrintAttribute(Tag, Value, ValueDesc); } void ARMAttributeParser::nodefaults(AttrType Tag, const uint8_t *Data, uint32_t &Offset) { uint64_t Value = ParseInteger(Data, Offset); PrintAttribute(Tag, Value, "Unspecified Tags UNDEFINED"); } void ARMAttributeParser::ParseIndexList(const uint8_t *Data, uint32_t &Offset, SmallVectorImpl<uint8_t> &IndexList) { for (;;) { unsigned Length; uint64_t Value = decodeULEB128(Data + Offset, &Length); Offset = Offset + Length; if (Value == 0) break; IndexList.push_back(Value); } } void ARMAttributeParser::ParseAttributeList(const uint8_t *Data, uint32_t &Offset, uint32_t Length) { while (Offset < Length) { unsigned Length; uint64_t Tag = decodeULEB128(Data + Offset, &Length); Offset += Length; bool Handled = false; for (unsigned AHI = 0, AHE = array_lengthof(DisplayRoutines); AHI != AHE && !Handled; ++AHI) { if (DisplayRoutines[AHI].Attribute == Tag) { (this->*DisplayRoutines[AHI].Routine)(ARMBuildAttrs::AttrType(Tag), Data, Offset); Handled = true; break; } } if (!Handled) { if (Tag < 32) { errs() << "unhandled AEABI Tag " << Tag << " (" << ARMBuildAttrs::AttrTypeAsString(Tag) << ")\n"; continue; } if (Tag % 2 == 0) IntegerAttribute(ARMBuildAttrs::AttrType(Tag), Data, Offset); else StringAttribute(ARMBuildAttrs::AttrType(Tag), Data, Offset); } } } void ARMAttributeParser::ParseSubsection(const uint8_t *Data, uint32_t Length) { uint32_t Offset = sizeof(uint32_t); /* SectionLength */ SW.printNumber("SectionLength", Length); const char *VendorName = reinterpret_cast<const char*>(Data + Offset); size_t VendorNameLength = std::strlen(VendorName); SW.printString("Vendor", StringRef(VendorName, VendorNameLength)); Offset = Offset + VendorNameLength + 1; if (StringRef(VendorName, VendorNameLength).lower() != "aeabi") return; while (Offset < Length) { /// Tag_File | Tag_Section | Tag_Symbol uleb128:byte-size uint8_t Tag = Data[Offset]; SW.printEnum("Tag", Tag, makeArrayRef(TagNames)); Offset = Offset + sizeof(Tag); uint32_t Size = *reinterpret_cast<const support::ulittle32_t*>(Data + Offset); SW.printNumber("Size", Size); Offset = Offset + sizeof(Size); if (Size > Length) { errs() << "subsection length greater than section length\n"; return; } StringRef ScopeName, IndexName; SmallVector<uint8_t, 8> Indicies; switch (Tag) { case ARMBuildAttrs::File: ScopeName = "FileAttributes"; break; case ARMBuildAttrs::Section: ScopeName = "SectionAttributes"; IndexName = "Sections"; ParseIndexList(Data, Offset, Indicies); break; case ARMBuildAttrs::Symbol: ScopeName = "SymbolAttributes"; IndexName = "Symbols"; ParseIndexList(Data, Offset, Indicies); break; default: errs() << "unrecognised tag: 0x" << utohexstr(Tag) << '\n'; return; } DictScope ASS(SW, ScopeName); if (!Indicies.empty()) SW.printList(IndexName, Indicies); ParseAttributeList(Data, Offset, Length); } } void ARMAttributeParser::Parse(ArrayRef<uint8_t> Section) { size_t Offset = 1; unsigned SectionNumber = 0; while (Offset < Section.size()) { uint32_t SectionLength = *reinterpret_cast<const support::ulittle32_t*>(Section.data() + Offset); SW.startLine() << "Section " << ++SectionNumber << " {\n"; SW.indent(); ParseSubsection(Section.data() + Offset, SectionLength); Offset = Offset + SectionLength; SW.unindent(); SW.startLine() << "}\n"; } } }