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Revert "[dwarfdump] Add DWARF verifiers for address ranges" 

This reverts commit r313250.

llvm-svn: 313253
This commit is contained in:
Jonas Devlieghere 2017-09-14 10:49:15 +00:00
parent 23cd4d7c17
commit a9f55bed8a
5 changed files with 6 additions and 879 deletions
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30
llvm/include/llvm/DebugInfo/DWARF/DWARFDebugRangeList.h
View File

@ -25,38 +25,8 @@ struct DWARFAddressRange {
uint64_t LowPC;
uint64_t HighPC;
uint64_t SectionIndex;
DWARFAddressRange() = default;
/// Used for unit testing.
DWARFAddressRange(uint64_t LowPC, uint64_t HighPC, uint64_t SectionIndex = 0)
: LowPC(LowPC), HighPC(HighPC), SectionIndex(SectionIndex) {}
/// Returns true if LowPC is smaller or equal to HighPC. This accounts for
/// dead-stripped ranges.
bool valid() const { return LowPC <= HighPC; }
/// Returns true if [LowPC, HighPC) intersects with [RHS.LowPC, RHS.HighPC).
bool intersects(const DWARFAddressRange &RHS) const {
// Empty ranges can't intersect.
if (LowPC == HighPC || RHS.LowPC == RHS.HighPC)
return false;
return (LowPC < RHS.HighPC) && (HighPC > RHS.LowPC);
}
/// Returns true if [LowPC, HighPC) fully contains [RHS.LowPC, RHS.HighPC).
bool contains(const DWARFAddressRange &RHS) const {
if (LowPC <= RHS.LowPC && RHS.LowPC <= HighPC)
return LowPC <= RHS.HighPC && RHS.HighPC <= HighPC;
return false;
}
};
static inline bool operator<(const DWARFAddressRange &LHS,
const DWARFAddressRange &RHS) {
return std::tie(LHS.LowPC, LHS.HighPC) < std::tie(RHS.LowPC, RHS.HighPC);
}
/// DWARFAddressRangesVector - represents a set of absolute address ranges.
using DWARFAddressRangesVector = std::vector<DWARFAddressRange>;

4
llvm/include/llvm/DebugInfo/DWARF/DWARFDie.h
View File

@ -308,10 +308,6 @@ inline bool operator!=(const DWARFDie &LHS, const DWARFDie &RHS) {
return !(LHS == RHS);
}
inline bool operator<(const DWARFDie &LHS, const DWARFDie &RHS) {
return LHS.getOffset() < RHS.getOffset();
}
class DWARFDie::iterator : public iterator_facade_base<iterator,
std::forward_iterator_tag,
const DWARFDie> {

64
llvm/include/llvm/DebugInfo/DWARF/DWARFVerifier.h
View File

@ -11,8 +11,6 @@
#define LLVM_DEBUGINFO_DWARF_DWARFVERIFIER_H
#include "llvm/DebugInfo/DIContext.h"
#include "llvm/DebugInfo/DWARF/DWARFDebugRangeList.h"
#include "llvm/DebugInfo/DWARF/DWARFDie.h"
#include <cstdint>
#include <map>
@ -32,61 +30,6 @@ struct DWARFSection;
/// A class that verifies DWARF debug information given a DWARF Context.
class DWARFVerifier {
public:
/// A class that keeps the address range information for a single DIE.
struct DieRangeInfo {
DWARFDie Die;
/// Sorted DWARFAddressRanges.
std::vector<DWARFAddressRange> Ranges;
/// Sorted DWARFAddressRangeInfo.
std::set<DieRangeInfo> Children;
DieRangeInfo() = default;
DieRangeInfo(DWARFDie Die) : Die(Die) {}
/// Used for unit testing.
DieRangeInfo(std::vector<DWARFAddressRange> Ranges)
: Ranges(std::move(Ranges)) {}
typedef std::vector<DWARFAddressRange>::const_iterator
address_range_iterator;
typedef std::set<DieRangeInfo>::const_iterator die_range_info_iterator;
/// Inserts the address range. If the range overlaps with an existing
/// range, the range is *not* added and an iterator to the overlapping
/// range is returned.
///
/// This is used for finding overlapping ranges within the same DIE.
address_range_iterator insert(const DWARFAddressRange &R);
/// Finds an address range in the sorted vector of ranges.
address_range_iterator findRange(const DWARFAddressRange &R) const {
const auto Begin = Ranges.cbegin();
const auto End = Ranges.cend();
auto Iter = std::upper_bound(Begin, End, R);
if (Iter != Begin)
--Iter;
return Iter;
}
/// Inserts the address range info. If any of its ranges overlaps with a
/// range in an existing range info, the range info is *not* added and an
/// iterator to the overlapping range info.
///
/// This is used for finding overlapping children of the same DIE.
die_range_info_iterator insert(const DieRangeInfo &RI);
/// Return true if ranges in this object contains all ranges within RHS.
bool contains(const DieRangeInfo &RHS) const;
/// Return true if any range in this object intersects with any range in
/// RHS.
bool intersects(const DieRangeInfo &RHS) const;
};
private:
raw_ostream &OS;
DWARFContext &DCtx;
DIDumpOptions DumpOpts;
@ -141,7 +84,7 @@ private:
/// - cases in which lowPC >= highPC
///
/// \returns Number of errors that occured during verification.
unsigned verifyDieRanges(const DWARFDie &Die, DieRangeInfo &ParentRI);
unsigned verifyDieRanges(const DWARFDie &Die);
/// Verifies the attribute's DWARF attribute and its value.
///
@ -253,11 +196,6 @@ public:
bool handleAccelTables();
};
static inline bool operator<(const DWARFVerifier::DieRangeInfo &LHS,
const DWARFVerifier::DieRangeInfo &RHS) {
return std::tie(LHS.Ranges, LHS.Die) < std::tie(RHS.Ranges, RHS.Die);
}
} // end namespace llvm
#endif // LLVM_DEBUGINFO_DWARF_DWARFCONTEXT_H

139
llvm/lib/DebugInfo/DWARF/DWARFVerifier.cpp
View File

@ -24,83 +24,6 @@ using namespace llvm;
using namespace dwarf;
using namespace object;
DWARFVerifier::DieRangeInfo::address_range_iterator
DWARFVerifier::DieRangeInfo::insert(const DWARFAddressRange &R) {
const auto Begin = Ranges.cbegin();
const auto End = Ranges.cend();
auto Pos = std::lower_bound(Begin, End, R);
if (Pos != End) {
if (Pos->intersects(R))
return Pos;
if (Pos != Begin) {
auto Iter = Pos - 1;
if (Iter->intersects(R))
return Iter;
}
}
Ranges.insert(Pos, R);
return Ranges.cend();
}
DWARFVerifier::DieRangeInfo::die_range_info_iterator
DWARFVerifier::DieRangeInfo::insert(const DieRangeInfo &RI) {
const auto End = Children.end();
auto Iter = Children.begin();
while (Iter != End) {
if (Iter->intersects(RI))
return Iter;
++Iter;
}
Children.insert(RI);
return Children.cend();
}
bool DWARFVerifier::DieRangeInfo::contains(const DieRangeInfo &RHS) const {
// Both list of ranges are sorted so we can make this fast.
if (Ranges.empty() || RHS.Ranges.empty())
return false;
// Since the ranges are sorted we can advance where we start searching with
// this object's ranges as we traverse RHS.Ranges.
const auto End = Ranges.cend();
auto Iter = findRange(RHS.Ranges.front());
// Now linearly walk the ranges in this object and see if they contain each
// ranges from RHS.Ranges.
for (const auto &R : RHS.Ranges) {
while (Iter != End) {
if (Iter->contains(R))
break;
++Iter;
}
if (Iter == End)
return false;
}
return true;
}
bool DWARFVerifier::DieRangeInfo::intersects(const DieRangeInfo &RHS) const {
if (Ranges.empty() || RHS.Ranges.empty())
return false;
const auto End = Ranges.end();
auto Iter = findRange(RHS.Ranges.front());
for (const auto &R : RHS.Ranges) {
if (R.HighPC <= Iter->LowPC)
continue;
while (Iter != End) {
if (Iter->intersects(R))
return true;
++Iter;
}
}
return false;
}
bool DWARFVerifier::verifyUnitHeader(const DWARFDataExtractor DebugInfoData,
uint32_t *Offset, unsigned UnitIndex,
uint8_t &UnitType, bool &isUnitDWARF64) {
@ -171,15 +94,12 @@ bool DWARFVerifier::verifyUnitContents(DWARFUnit Unit) {
auto Die = Unit.getDIEAtIndex(I);
if (Die.getTag() == DW_TAG_null)
continue;
NumUnitErrors += verifyDieRanges(Die);
for (auto AttrValue : Die.attributes()) {
NumUnitErrors += verifyDebugInfoAttribute(Die, AttrValue);
NumUnitErrors += verifyDebugInfoForm(Die, AttrValue);
}
}
DieRangeInfo RI;
DWARFDie Die = Unit.getUnitDIE(/* ExtractUnitDIEOnly = */ false);
NumUnitErrors += verifyDieRanges(Die, RI);
return NumUnitErrors == 0;
}
@ -290,67 +210,16 @@ bool DWARFVerifier::handleDebugInfo() {
return (isHeaderChainValid && NumDebugInfoErrors == 0);
}
unsigned DWARFVerifier::verifyDieRanges(const DWARFDie &Die,
DieRangeInfo &ParentRI) {
unsigned DWARFVerifier::verifyDieRanges(const DWARFDie &Die) {
unsigned NumErrors = 0;
if (!Die.isValid())
return NumErrors;
DWARFAddressRangesVector Ranges = Die.getAddressRanges();
// Build RI for this DIE and check that ranges within this DIE do not
// overlap.
DieRangeInfo RI(Die);
for (auto Range : Ranges) {
if (!Range.valid()) {
for (auto Range : Die.getAddressRanges()) {
if (Range.LowPC >= Range.HighPC) {
++NumErrors;
OS << format("error: Invalid address range [0x%08" PRIx64
" - 0x%08" PRIx64 "].\n",
Range.LowPC, Range.HighPC);
continue;
}
// Verify that ranges don't intersect.
const auto IntersectingRange = RI.insert(Range);
if (IntersectingRange != RI.Ranges.cend()) {
++NumErrors;
OS << format("error: DIE has overlapping address ranges: [0x%08" PRIx64
" - 0x%08" PRIx64 "] and [0x%08" PRIx64 " - 0x%08" PRIx64
"].\n",
Range.LowPC, Range.HighPC, IntersectingRange->LowPC,
IntersectingRange->HighPC);
break;
}
}
// Verify that children don't intersect.
const auto IntersectingChild = ParentRI.insert(RI);
if (IntersectingChild != ParentRI.Children.cend()) {
++NumErrors;
OS << "error: DIEs have overlapping address ranges:";
Die.dump(OS, 0);
IntersectingChild->Die.dump(OS, 0);
OS << "\n";
}
// Verify that ranges are contained within their parent.
bool ShouldBeContained = !Ranges.empty() && !ParentRI.Ranges.empty() &&
!(Die.getTag() == DW_TAG_subprogram &&
ParentRI.Die.getTag() == DW_TAG_subprogram);
if (ShouldBeContained && !ParentRI.contains(RI)) {
++NumErrors;
OS << "error: DIE address ranges are not "
"contained in its parent's ranges:";
Die.dump(OS, 0);
ParentRI.Die.dump(OS, 0);
OS << "\n";
}
// Recursively check children.
for (DWARFDie Child : Die)
NumErrors += verifyDieRanges(Child, RI);
return NumErrors;
}

648
llvm/unittests/DebugInfo/DWARF/DWARFDebugInfoTest.cpp
View File

@ -20,7 +20,6 @@
#include "llvm/DebugInfo/DWARF/DWARFContext.h"
#include "llvm/DebugInfo/DWARF/DWARFDie.h"
#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
#include "llvm/DebugInfo/DWARF/DWARFVerifier.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCSectionELF.h"
#include "llvm/MC/MCStreamer.h"
@ -1673,15 +1672,9 @@ void VerifyError(DWARFContext &DwarfContext, StringRef Error) {
EXPECT_TRUE(Str.str().contains(Error));
}
void VerifySuccess(DWARFContext &DwarfContext) {
SmallString<1024> Str;
raw_svector_ostream Strm(Str);
EXPECT_TRUE(DwarfContext.verify(Strm, DIDT_All));
}
TEST(DWARFDebugInfo, TestDwarfVerifyInvalidCURef) {
// Create a single compile unit with a single function that has a DW_AT_type
// that is CU relative. The CU offset is not valid because it is larger than
// that is CU relative. The CU offset is not valid becuase it is larger than
// the compile unit itself.
const char *yamldata = R"(
@ -2354,643 +2347,4 @@ TEST(DWARFDebugInfo, TestErrorReportingPolicy) {
EXPECT_TRUE(Errors == 1);
}
TEST(DWARFDebugInfo, TestDwarfVerifyCURangesIncomplete) {
// Create a single compile unit with a single function. The compile
// unit has a DW_AT_ranges attribute that doesn't fully contain the
// address range of the function. The verification should fail due to
// the CU ranges not containing all of the address ranges of all of the
// functions.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 46
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000001500
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifyError(*DwarfContext, "error: DIE address ranges are not "
"contained in its parent's ranges:");
}
TEST(DWARFDebugInfo, TestDwarfVerifyLexicalBlockRanges) {
// Create a single compile unit with a single function that has a lexical
// block whose address range is not contained in the function address range.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Code: 0x00000003
Tag: DW_TAG_lexical_block
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 52
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- AbbrCode: 0x00000003
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000002001
- AbbrCode: 0x00000000
Values:
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifyError(*DwarfContext, "error: DIE address ranges are not "
"contained in its parent's ranges:");
}
TEST(DWARFDebugInfo, TestDwarfVerifyOverlappingFunctionRanges) {
// Create a single compile unit with a two functions that have overlapping
// address ranges.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
- foo
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 55
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- AbbrCode: 0x00000002
Values:
- Value: 0x0000000000000012
- Value: 0x0000000000001FFF
- Value: 0x0000000000002000
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifyError(*DwarfContext, "error: DIEs have overlapping address ranges:");
}
TEST(DWARFDebugInfo, TestDwarfVerifyOverlappingLexicalBlockRanges) {
// Create a single compile unit with a one function that has two lexical
// blocks with overlapping address ranges.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Code: 0x00000003
Tag: DW_TAG_lexical_block
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 85
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- AbbrCode: 0x00000003
Values:
- Value: 0x0000000000001100
- Value: 0x0000000000001300
- AbbrCode: 0x00000003
Values:
- Value: 0x00000000000012FF
- Value: 0x0000000000001300
- AbbrCode: 0x00000000
Values:
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifyError(*DwarfContext, "error: DIEs have overlapping address ranges:");
}
TEST(DWARFDebugInfo, TestDwarfVerifyInvalidDIERange) {
// Create a single compile unit with a single function that has an invalid
// address range where the high PC is smaller than the low PC.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 34
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000000900
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifyError(*DwarfContext, "error: Invalid address range");
}
TEST(DWARFDebugInfo, TestDwarfVerifyElidedDoesntFail) {
// Create a single compile unit with two functions: one that has a valid range
// and one whose low and high PC are the same. When the low and high PC are
// the same, this indicates the function was dead code stripped. We want to
// ensure that verification succeeds.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
- elided
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_no
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 71
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- AbbrCode: 0x00000002
Values:
- Value: 0x0000000000000012
- Value: 0x0000000000002000
- Value: 0x0000000000002000
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifySuccess(*DwarfContext);
}
TEST(DWARFDebugInfo, TestDwarfVerifyNestedFunctions) {
// Create a single compile unit with a nested function which is not contained
// in its parent. Although LLVM doesn't generate this, it is valid accoridng
// to the DWARF standard.
StringRef yamldata = R"(
debug_str:
- ''
- /tmp/main.c
- main
- nested
debug_abbrev:
- Code: 0x00000001
Tag: DW_TAG_compile_unit
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Code: 0x00000002
Tag: DW_TAG_subprogram
Children: DW_CHILDREN_yes
Attributes:
- Attribute: DW_AT_name
Form: DW_FORM_strp
- Attribute: DW_AT_low_pc
Form: DW_FORM_addr
- Attribute: DW_AT_high_pc
Form: DW_FORM_addr
debug_info:
- Length:
TotalLength: 73
Version: 4
AbbrOffset: 0
AddrSize: 8
Entries:
- AbbrCode: 0x00000001
Values:
- Value: 0x0000000000001000
- Value: 0x0000000000002000
- Value: 0x0000000000000001
- AbbrCode: 0x00000002
Values:
- Value: 0x000000000000000D
- Value: 0x0000000000001000
- Value: 0x0000000000001500
- AbbrCode: 0x00000002
Values:
- Value: 0x0000000000000012
- Value: 0x0000000000001500
- Value: 0x0000000000002000
- AbbrCode: 0x00000000
Values:
- AbbrCode: 0x00000000
Values:
- AbbrCode: 0x00000000
Values:
)";
auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata);
ASSERT_TRUE((bool)ErrOrSections);
std::unique_ptr<DWARFContext> DwarfContext =
DWARFContext::create(*ErrOrSections, 8);
VerifySuccess(*DwarfContext);
}
TEST(DWARFDebugInfo, TestDwarfRangesContains) {
DWARFAddressRange R(0x10, 0x20);
//----------------------------------------------------------------------
// Test ranges that start before R...
//----------------------------------------------------------------------
// Other range ends before start of R
ASSERT_FALSE(R.contains({0x0f, 0x10}));
// Other range end address is start of a R
ASSERT_FALSE(R.contains({0x0f, 0x11}));
// Other range end address is at and of R
ASSERT_FALSE(R.contains({0x0f, 0x20}));
// Other range end address is past end of R
ASSERT_FALSE(R.contains({0x0f, 0x40}));
//----------------------------------------------------------------------
// Test ranges that start at R's start address
//----------------------------------------------------------------------
// Ensure empty ranges matches
ASSERT_TRUE(R.contains({0x10, 0x10}));
// 1 byte of Range
ASSERT_TRUE(R.contains({0x10, 0x11}));
// same as Range
ASSERT_TRUE(R.contains({0x10, 0x20}));
// 1 byte past Range
ASSERT_FALSE(R.contains({0x10, 0x21}));
//----------------------------------------------------------------------
// Test ranges that start inside Range
//----------------------------------------------------------------------
// empty in range
ASSERT_TRUE(R.contains({0x11, 0x11}));
// all in Range
ASSERT_TRUE(R.contains({0x11, 0x1f}));
// ends at end of Range
ASSERT_TRUE(R.contains({0x11, 0x20}));
// ends past Range
ASSERT_FALSE(R.contains({0x11, 0x21}));
//----------------------------------------------------------------------
// Test ranges that start at last bytes of Range
//----------------------------------------------------------------------
// ends at end of Range
ASSERT_TRUE(R.contains({0x1f, 0x20}));
// ends past Range
ASSERT_FALSE(R.contains({0x1f, 0x21}));
//----------------------------------------------------------------------
// Test ranges that start after Range
//----------------------------------------------------------------------
// empty considered in Range
ASSERT_TRUE(R.contains({0x20, 0x20}));
// valid past Range
ASSERT_FALSE(R.contains({0x20, 0x21}));
}
TEST(DWARFDebugInfo, TestDWARFDieRangeInfoContains) {
DWARFVerifier::DieRangeInfo Ranges({{0x10, 0x20}, {0x30, 0x40}});
ASSERT_FALSE(Ranges.contains({{{0x0f, 0x10}}}));
ASSERT_FALSE(Ranges.contains({{{0x20, 0x30}}}));
ASSERT_FALSE(Ranges.contains({{{0x40, 0x41}}}));
ASSERT_TRUE(Ranges.contains({{{0x10, 0x20}}}));
ASSERT_TRUE(Ranges.contains({{{0x11, 0x12}}}));
ASSERT_TRUE(Ranges.contains({{{0x1f, 0x20}}}));
ASSERT_TRUE(Ranges.contains({{{0x30, 0x40}}}));
ASSERT_TRUE(Ranges.contains({{{0x31, 0x32}}}));
ASSERT_TRUE(Ranges.contains({{{0x3f, 0x40}}}));
ASSERT_TRUE(Ranges.contains({{{0x10, 0x20}, {0x30, 0x40}}}));
ASSERT_TRUE(Ranges.contains({{{0x11, 0x12}, {0x31, 0x32}}}));
ASSERT_TRUE(Ranges.contains(
{{{0x11, 0x12}, {0x12, 0x13}, {0x31, 0x32}, {0x32, 0x33}}}));
ASSERT_FALSE(Ranges.contains({{{0x11, 0x12},
{0x12, 0x13},
{0x20, 0x21},
{0x31, 0x32},
{0x32, 0x33}}}));
ASSERT_FALSE(Ranges.contains(
{{{0x11, 0x12}, {0x12, 0x13}, {0x31, 0x32}, {0x32, 0x41}}}));
}
namespace {
void AssertRangesIntersect(const DWARFAddressRange &LHS,
const DWARFAddressRange &RHS) {
ASSERT_TRUE(LHS.intersects(RHS));
ASSERT_TRUE(RHS.intersects(LHS));
}
void AssertRangesDontIntersect(const DWARFAddressRange &LHS,
const DWARFAddressRange &RHS) {
ASSERT_FALSE(LHS.intersects(RHS));
ASSERT_FALSE(RHS.intersects(LHS));
}
void AssertRangesIntersect(const DWARFVerifier::DieRangeInfo &LHS,
const DWARFAddressRangesVector &Ranges) {
DWARFVerifier::DieRangeInfo RHS(Ranges);
ASSERT_TRUE(LHS.intersects(RHS));
ASSERT_TRUE(RHS.intersects(LHS));
}
void AssertRangesDontIntersect(const DWARFVerifier::DieRangeInfo &LHS,
const DWARFAddressRangesVector &Ranges) {
DWARFVerifier::DieRangeInfo RHS(Ranges);
ASSERT_FALSE(LHS.intersects(RHS));
ASSERT_FALSE(RHS.intersects(LHS));
}
} // namespace
TEST(DWARFDebugInfo, TestDwarfRangesIntersect) {
DWARFAddressRange R(0x10, 0x20);
//----------------------------------------------------------------------
// Test ranges that start before R...
//----------------------------------------------------------------------
// Other range ends before start of R
AssertRangesDontIntersect(R, {0x00, 0x10});
// Other range end address is start of a R
AssertRangesIntersect(R, {0x00, 0x11});
// Other range end address is in R
AssertRangesIntersect(R, {0x00, 0x15});
// Other range end address is at and of R
AssertRangesIntersect(R, {0x00, 0x20});
// Other range end address is past end of R
AssertRangesIntersect(R, {0x00, 0x40});
//----------------------------------------------------------------------
// Test ranges that start at R's start address
//----------------------------------------------------------------------
// Ensure empty ranges doesn't match
AssertRangesDontIntersect(R, {0x10, 0x10});
// 1 byte of Range
AssertRangesIntersect(R, {0x10, 0x11});
// same as Range
AssertRangesIntersect(R, {0x10, 0x20});
// 1 byte past Range
AssertRangesIntersect(R, {0x10, 0x21});
//----------------------------------------------------------------------
// Test ranges that start inside Range
//----------------------------------------------------------------------
// empty in range
AssertRangesDontIntersect(R, {0x11, 0x11});
// all in Range
AssertRangesIntersect(R, {0x11, 0x1f});
// ends at end of Range
AssertRangesIntersect(R, {0x11, 0x20});
// ends past Range
AssertRangesIntersect(R, {0x11, 0x21});
//----------------------------------------------------------------------
// Test ranges that start at last bytes of Range
//----------------------------------------------------------------------
// ends at end of Range
AssertRangesIntersect(R, {0x1f, 0x20});
// ends past Range
AssertRangesIntersect(R, {0x1f, 0x21});
//----------------------------------------------------------------------
// Test ranges that start after Range
//----------------------------------------------------------------------
// empty just past in Range
AssertRangesDontIntersect(R, {0x20, 0x20});
// valid past Range
AssertRangesDontIntersect(R, {0x20, 0x21});
}
TEST(DWARFDebugInfo, TestDWARFDieRangeInfoIntersects) {
DWARFVerifier::DieRangeInfo Ranges({{0x10, 0x20}, {0x30, 0x40}});
// Test empty range
AssertRangesDontIntersect(Ranges, {});
// Test range that appears before all ranges in Ranges
AssertRangesDontIntersect(Ranges, {{0x00, 0x10}});
// Test range that appears between ranges in Ranges
AssertRangesDontIntersect(Ranges, {{0x20, 0x30}});
// Test range that appears after ranges in Ranges
AssertRangesDontIntersect(Ranges, {{0x40, 0x50}});
// Test range that start before first range
AssertRangesIntersect(Ranges, {{0x00, 0x11}});
// Test range that start at first range
AssertRangesIntersect(Ranges, {{0x10, 0x11}});
// Test range that start in first range
AssertRangesIntersect(Ranges, {{0x11, 0x12}});
// Test range that start at end of first range
AssertRangesIntersect(Ranges, {{0x1f, 0x20}});
// Test range that starts at end of first range
AssertRangesDontIntersect(Ranges, {{0x20, 0x21}});
// Test range that starts at end of first range
AssertRangesIntersect(Ranges, {{0x20, 0x31}});
// Test range that start before second range and ends before second
AssertRangesDontIntersect(Ranges, {{0x2f, 0x30}});
// Test range that start before second range and ends in second
AssertRangesIntersect(Ranges, {{0x2f, 0x31}});
// Test range that start at second range
AssertRangesIntersect(Ranges, {{0x30, 0x31}});
// Test range that start in second range
AssertRangesIntersect(Ranges, {{0x31, 0x32}});
// Test range that start at end of second range
AssertRangesIntersect(Ranges, {{0x3f, 0x40}});
// Test range that starts at end of second range
AssertRangesDontIntersect(Ranges, {{0x40, 0x41}});
}
} // end anonymous namespace