llvm-project/llvm/lib/DebugInfo/DWARF/DWARFDie.cpp

424 lines
13 KiB
C++

//===- DWARFDie.cpp -------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/DebugInfo/DWARF/DWARFDie.h"
#include "SyntaxHighlighting.h"
#include "llvm/ADT/None.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/BinaryFormat/Dwarf.h"
#include "llvm/DebugInfo/DWARF/DWARFAbbreviationDeclaration.h"
#include "llvm/DebugInfo/DWARF/DWARFContext.h"
#include "llvm/DebugInfo/DWARF/DWARFDebugRangeList.h"
#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
#include "llvm/DebugInfo/DWARF/DWARFUnit.h"
#include "llvm/Support/DataExtractor.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <cinttypes>
#include <cstdint>
#include <string>
#include <utility>
using namespace llvm;
using namespace dwarf;
using namespace syntax;
static void dumpApplePropertyAttribute(raw_ostream &OS, uint64_t Val) {
OS << " (";
do {
uint64_t Shift = countTrailingZeros(Val);
assert(Shift < 64 && "undefined behavior");
uint64_t Bit = 1ULL << Shift;
auto PropName = ApplePropertyString(Bit);
if (!PropName.empty())
OS << PropName;
else
OS << format("DW_APPLE_PROPERTY_0x%" PRIx64, Bit);
if (!(Val ^= Bit))
break;
OS << ", ";
} while (true);
OS << ")";
}
static void dumpRanges(raw_ostream &OS, const DWARFAddressRangesVector& Ranges,
unsigned AddressSize, unsigned Indent) {
if (Ranges.empty())
return;
for (const auto &Range: Ranges) {
OS << '\n';
OS.indent(Indent);
OS << format("[0x%0*" PRIx64 " - 0x%0*" PRIx64 ")",
AddressSize*2, Range.LowPC,
AddressSize*2, Range.HighPC);
}
}
static void dumpAttribute(raw_ostream &OS, const DWARFDie &Die,
uint32_t *OffsetPtr, dwarf::Attribute Attr,
dwarf::Form Form, unsigned Indent,
DIDumpOptions DumpOpts) {
if (!Die.isValid())
return;
const char BaseIndent[] = " ";
OS << BaseIndent;
OS.indent(Indent+2);
auto attrString = AttributeString(Attr);
if (!attrString.empty())
WithColor(OS, syntax::Attribute) << attrString;
else
WithColor(OS, syntax::Attribute).get() << format("DW_AT_Unknown_%x", Attr);
if (!DumpOpts.Brief) {
auto formString = FormEncodingString(Form);
if (!formString.empty())
OS << " [" << formString << ']';
else
OS << format(" [DW_FORM_Unknown_%x]", Form);
}
DWARFUnit *U = Die.getDwarfUnit();
DWARFFormValue formValue(Form);
if (!formValue.extractValue(U->getDebugInfoExtractor(), OffsetPtr, U))
return;
OS << "\t(";
StringRef Name;
std::string File;
auto Color = syntax::Enumerator;
if (Attr == DW_AT_decl_file || Attr == DW_AT_call_file) {
Color = syntax::String;
if (const auto *LT = U->getContext().getLineTableForUnit(U))
if (LT->getFileNameByIndex(formValue.getAsUnsignedConstant().getValue(), U->getCompilationDir(), DILineInfoSpecifier::FileLineInfoKind::AbsoluteFilePath, File)) {
File = '"' + File + '"';
Name = File;
}
} else if (Optional<uint64_t> Val = formValue.getAsUnsignedConstant())
Name = AttributeValueString(Attr, *Val);
if (!Name.empty())
WithColor(OS, Color) << Name;
else if (Attr == DW_AT_decl_line || Attr == DW_AT_call_line)
OS << *formValue.getAsUnsignedConstant();
else
formValue.dump(OS);
// We have dumped the attribute raw value. For some attributes
// having both the raw value and the pretty-printed value is
// interesting. These attributes are handled below.
if (Attr == DW_AT_specification || Attr == DW_AT_abstract_origin) {
if (const char *Name = Die.getAttributeValueAsReferencedDie(Attr).getName(DINameKind::LinkageName))
OS << " \"" << Name << '\"';
} else if (Attr == DW_AT_APPLE_property_attribute) {
if (Optional<uint64_t> OptVal = formValue.getAsUnsignedConstant())
dumpApplePropertyAttribute(OS, *OptVal);
} else if (Attr == DW_AT_ranges) {
dumpRanges(OS, Die.getAddressRanges(), U->getAddressByteSize(),
sizeof(BaseIndent)+Indent+4);
}
OS << ")\n";
}
bool DWARFDie::isSubprogramDIE() const {
return getTag() == DW_TAG_subprogram;
}
bool DWARFDie::isSubroutineDIE() const {
auto Tag = getTag();
return Tag == DW_TAG_subprogram || Tag == DW_TAG_inlined_subroutine;
}
Optional<DWARFFormValue>
DWARFDie::find(dwarf::Attribute Attr) const {
if (!isValid())
return None;
auto AbbrevDecl = getAbbreviationDeclarationPtr();
if (AbbrevDecl)
return AbbrevDecl->getAttributeValue(getOffset(), Attr, *U);
return None;
}
Optional<DWARFFormValue>
DWARFDie::find(ArrayRef<dwarf::Attribute> Attrs) const {
if (!isValid())
return None;
auto AbbrevDecl = getAbbreviationDeclarationPtr();
if (AbbrevDecl) {
for (auto Attr : Attrs) {
if (auto Value = AbbrevDecl->getAttributeValue(getOffset(), Attr, *U))
return Value;
}
}
return None;
}
Optional<DWARFFormValue>
DWARFDie::findRecursively(ArrayRef<dwarf::Attribute> Attrs) const {
if (!isValid())
return None;
auto Die = *this;
if (auto Value = Die.find(Attrs))
return Value;
if (auto D = Die.getAttributeValueAsReferencedDie(DW_AT_abstract_origin))
Die = D;
if (auto Value = Die.find(Attrs))
return Value;
if (auto D = Die.getAttributeValueAsReferencedDie(DW_AT_specification))
Die = D;
if (auto Value = Die.find(Attrs))
return Value;
return None;
}
DWARFDie
DWARFDie::getAttributeValueAsReferencedDie(dwarf::Attribute Attr) const {
auto SpecRef = toReference(find(Attr));
if (SpecRef) {
auto SpecUnit = U->getUnitSection().getUnitForOffset(*SpecRef);
if (SpecUnit)
return SpecUnit->getDIEForOffset(*SpecRef);
}
return DWARFDie();
}
Optional<uint64_t>
DWARFDie::getRangesBaseAttribute() const {
return toSectionOffset(find({DW_AT_rnglists_base, DW_AT_GNU_ranges_base}));
}
Optional<uint64_t> DWARFDie::getHighPC(uint64_t LowPC) const {
if (auto FormValue = find(DW_AT_high_pc)) {
if (auto Address = FormValue->getAsAddress()) {
// High PC is an address.
return Address;
}
if (auto Offset = FormValue->getAsUnsignedConstant()) {
// High PC is an offset from LowPC.
return LowPC + *Offset;
}
}
return None;
}
bool DWARFDie::getLowAndHighPC(uint64_t &LowPC, uint64_t &HighPC,
uint64_t &SectionIndex) const {
auto F = find(DW_AT_low_pc);
auto LowPcAddr = toAddress(F);
if (!LowPcAddr)
return false;
if (auto HighPcAddr = getHighPC(*LowPcAddr)) {
LowPC = *LowPcAddr;
HighPC = *HighPcAddr;
SectionIndex = F->getSectionIndex();
return true;
}
return false;
}
DWARFAddressRangesVector
DWARFDie::getAddressRanges() const {
if (isNULL())
return DWARFAddressRangesVector();
// Single range specified by low/high PC.
uint64_t LowPC, HighPC, Index;
if (getLowAndHighPC(LowPC, HighPC, Index))
return {{LowPC, HighPC, Index}};
// Multiple ranges from .debug_ranges section.
auto RangesOffset = toSectionOffset(find(DW_AT_ranges));
if (RangesOffset) {
DWARFDebugRangeList RangeList;
if (U->extractRangeList(*RangesOffset, RangeList))
return RangeList.getAbsoluteRanges(U->getBaseAddress());
}
return DWARFAddressRangesVector();
}
void
DWARFDie::collectChildrenAddressRanges(DWARFAddressRangesVector& Ranges) const {
if (isNULL())
return;
if (isSubprogramDIE()) {
const auto &DIERanges = getAddressRanges();
Ranges.insert(Ranges.end(), DIERanges.begin(), DIERanges.end());
}
for (auto Child: children())
Child.collectChildrenAddressRanges(Ranges);
}
bool DWARFDie::addressRangeContainsAddress(const uint64_t Address) const {
for (const auto& R : getAddressRanges()) {
if (R.LowPC <= Address && Address < R.HighPC)
return true;
}
return false;
}
const char *
DWARFDie::getSubroutineName(DINameKind Kind) const {
if (!isSubroutineDIE())
return nullptr;
return getName(Kind);
}
const char *
DWARFDie::getName(DINameKind Kind) const {
if (!isValid() || Kind == DINameKind::None)
return nullptr;
// Try to get mangled name only if it was asked for.
if (Kind == DINameKind::LinkageName) {
if (auto Name = dwarf::toString(findRecursively({DW_AT_MIPS_linkage_name,
DW_AT_linkage_name}), nullptr))
return Name;
}
if (auto Name = dwarf::toString(findRecursively(DW_AT_name), nullptr))
return Name;
return nullptr;
}
uint64_t DWARFDie::getDeclLine() const {
return toUnsigned(findRecursively(DW_AT_decl_line), 0);
}
void DWARFDie::getCallerFrame(uint32_t &CallFile, uint32_t &CallLine,
uint32_t &CallColumn,
uint32_t &CallDiscriminator) const {
CallFile = toUnsigned(find(DW_AT_call_file), 0);
CallLine = toUnsigned(find(DW_AT_call_line), 0);
CallColumn = toUnsigned(find(DW_AT_call_column), 0);
CallDiscriminator = toUnsigned(find(DW_AT_GNU_discriminator), 0);
}
void DWARFDie::dump(raw_ostream &OS, unsigned RecurseDepth, unsigned Indent,
DIDumpOptions DumpOpts) const {
if (!isValid())
return;
DWARFDataExtractor debug_info_data = U->getDebugInfoExtractor();
const uint32_t Offset = getOffset();
uint32_t offset = Offset;
if (debug_info_data.isValidOffset(offset)) {
uint32_t abbrCode = debug_info_data.getULEB128(&offset);
WithColor(OS, syntax::Address).get() << format("\n0x%8.8x: ", Offset);
if (abbrCode) {
auto AbbrevDecl = getAbbreviationDeclarationPtr();
if (AbbrevDecl) {
auto tagString = TagString(getTag());
if (!tagString.empty())
WithColor(OS, syntax::Tag).get().indent(Indent) << tagString;
else
WithColor(OS, syntax::Tag).get().indent(Indent)
<< format("DW_TAG_Unknown_%x", getTag());
if (!DumpOpts.Brief)
OS << format(" [%u] %c", abbrCode,
AbbrevDecl->hasChildren() ? '*' : ' ');
OS << '\n';
// Dump all data in the DIE for the attributes.
for (const auto &AttrSpec : AbbrevDecl->attributes()) {
if (AttrSpec.Form == DW_FORM_implicit_const) {
// We are dumping .debug_info section ,
// implicit_const attribute values are not really stored here,
// but in .debug_abbrev section. So we just skip such attrs.
continue;
}
dumpAttribute(OS, *this, &offset, AttrSpec.Attr, AttrSpec.Form,
Indent, DumpOpts);
}
DWARFDie child = getFirstChild();
if (RecurseDepth > 0 && child) {
while (child) {
child.dump(OS, RecurseDepth-1, Indent+2, DumpOpts);
child = child.getSibling();
}
}
} else {
OS << "Abbreviation code not found in 'debug_abbrev' class for code: "
<< abbrCode << '\n';
}
} else {
OS.indent(Indent) << "NULL\n";
}
}
}
DWARFDie DWARFDie::getParent() const {
if (isValid())
return U->getParent(Die);
return DWARFDie();
}
DWARFDie DWARFDie::getSibling() const {
if (isValid())
return U->getSibling(Die);
return DWARFDie();
}
iterator_range<DWARFDie::attribute_iterator>
DWARFDie::attributes() const {
return make_range(attribute_iterator(*this, false),
attribute_iterator(*this, true));
}
DWARFDie::attribute_iterator::attribute_iterator(DWARFDie D, bool End) :
Die(D), AttrValue(0), Index(0) {
auto AbbrDecl = Die.getAbbreviationDeclarationPtr();
assert(AbbrDecl && "Must have abbreviation declaration");
if (End) {
// This is the end iterator so we set the index to the attribute count.
Index = AbbrDecl->getNumAttributes();
} else {
// This is the begin iterator so we extract the value for this->Index.
AttrValue.Offset = D.getOffset() + AbbrDecl->getCodeByteSize();
updateForIndex(*AbbrDecl, 0);
}
}
void DWARFDie::attribute_iterator::updateForIndex(
const DWARFAbbreviationDeclaration &AbbrDecl, uint32_t I) {
Index = I;
// AbbrDecl must be valid before calling this function.
auto NumAttrs = AbbrDecl.getNumAttributes();
if (Index < NumAttrs) {
AttrValue.Attr = AbbrDecl.getAttrByIndex(Index);
// Add the previous byte size of any previous attribute value.
AttrValue.Offset += AttrValue.ByteSize;
AttrValue.Value.setForm(AbbrDecl.getFormByIndex(Index));
uint32_t ParseOffset = AttrValue.Offset;
auto U = Die.getDwarfUnit();
assert(U && "Die must have valid DWARF unit");
bool b = AttrValue.Value.extractValue(U->getDebugInfoExtractor(),
&ParseOffset, U);
(void)b;
assert(b && "extractValue cannot fail on fully parsed DWARF");
AttrValue.ByteSize = ParseOffset - AttrValue.Offset;
} else {
assert(Index == NumAttrs && "Indexes should be [0, NumAttrs) only");
AttrValue.clear();
}
}
DWARFDie::attribute_iterator &DWARFDie::attribute_iterator::operator++() {
if (auto AbbrDecl = Die.getAbbreviationDeclarationPtr())
updateForIndex(*AbbrDecl, Index + 1);
return *this;
}