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-rw-r--r--tools/profiler/tests/gtest/LulTestDwarf.cpp2597
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diff --git a/tools/profiler/tests/gtest/LulTestDwarf.cpp b/tools/profiler/tests/gtest/LulTestDwarf.cpp
new file mode 100644
index 000000000..5cfd71fd4
--- /dev/null
+++ b/tools/profiler/tests/gtest/LulTestDwarf.cpp
@@ -0,0 +1,2597 @@
+/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#include "gtest/gtest.h"
+#include "gmock/gmock.h"
+#include "LulCommonExt.h"
+#include "LulDwarfExt.h"
+#include "LulDwarfInt.h"
+#include "LulTestInfrastructure.h"
+
+using testing::Test;
+using testing::Return;
+using testing::Sequence;
+using testing::InSequence;
+using testing::_;
+using lul_test::CFISection;
+using lul_test::test_assembler::kBigEndian;
+using lul_test::test_assembler::kLittleEndian;
+using lul_test::test_assembler::Label;
+
+#define PERHAPS_WRITE_DEBUG_FRAME_FILE(name, section) /**/
+#define PERHAPS_WRITE_EH_FRAME_FILE(name, section) /**/
+
+// Set this to 0 to make LUL be completely silent during tests.
+// Set it to 1 to get logging output from LUL, presumably for
+// the purpose of debugging it.
+#define DEBUG_LUL_TEST_DWARF 0
+
+// LUL needs a callback for its logging sink.
+static void
+gtest_logging_sink_for_LulTestDwarf(const char* str) {
+ if (DEBUG_LUL_TEST_DWARF == 0) {
+ return;
+ }
+ // Ignore any trailing \n, since LOG will add one anyway.
+ size_t n = strlen(str);
+ if (n > 0 && str[n-1] == '\n') {
+ char* tmp = strdup(str);
+ tmp[n-1] = 0;
+ fprintf(stderr, "LUL-in-gtest: %s\n", tmp);
+ free(tmp);
+ } else {
+ fprintf(stderr, "LUL-in-gtest: %s\n", str);
+ }
+}
+
+namespace lul {
+
+class MockCallFrameInfoHandler : public CallFrameInfo::Handler {
+ public:
+ MOCK_METHOD6(Entry, bool(size_t offset, uint64 address, uint64 length,
+ uint8 version, const std::string &augmentation,
+ unsigned return_address));
+ MOCK_METHOD2(UndefinedRule, bool(uint64 address, int reg));
+ MOCK_METHOD2(SameValueRule, bool(uint64 address, int reg));
+ MOCK_METHOD4(OffsetRule, bool(uint64 address, int reg, int base_register,
+ long offset));
+ MOCK_METHOD4(ValOffsetRule, bool(uint64 address, int reg, int base_register,
+ long offset));
+ MOCK_METHOD3(RegisterRule, bool(uint64 address, int reg, int base_register));
+ MOCK_METHOD3(ExpressionRule, bool(uint64 address, int reg,
+ const std::string &expression));
+ MOCK_METHOD3(ValExpressionRule, bool(uint64 address, int reg,
+ const std::string &expression));
+ MOCK_METHOD0(End, bool());
+ MOCK_METHOD2(PersonalityRoutine, bool(uint64 address, bool indirect));
+ MOCK_METHOD2(LanguageSpecificDataArea, bool(uint64 address, bool indirect));
+ MOCK_METHOD0(SignalHandler, bool());
+};
+
+class MockCallFrameErrorReporter : public CallFrameInfo::Reporter {
+ public:
+ MockCallFrameErrorReporter()
+ : Reporter(gtest_logging_sink_for_LulTestDwarf,
+ "mock filename", "mock section")
+ { }
+ MOCK_METHOD2(Incomplete, void(uint64, CallFrameInfo::EntryKind));
+ MOCK_METHOD1(EarlyEHTerminator, void(uint64));
+ MOCK_METHOD2(CIEPointerOutOfRange, void(uint64, uint64));
+ MOCK_METHOD2(BadCIEId, void(uint64, uint64));
+ MOCK_METHOD2(UnrecognizedVersion, void(uint64, int version));
+ MOCK_METHOD2(UnrecognizedAugmentation, void(uint64, const string &));
+ MOCK_METHOD2(InvalidPointerEncoding, void(uint64, uint8));
+ MOCK_METHOD2(UnusablePointerEncoding, void(uint64, uint8));
+ MOCK_METHOD2(RestoreInCIE, void(uint64, uint64));
+ MOCK_METHOD3(BadInstruction, void(uint64, CallFrameInfo::EntryKind, uint64));
+ MOCK_METHOD3(NoCFARule, void(uint64, CallFrameInfo::EntryKind, uint64));
+ MOCK_METHOD3(EmptyStateStack, void(uint64, CallFrameInfo::EntryKind, uint64));
+ MOCK_METHOD3(ClearingCFARule, void(uint64, CallFrameInfo::EntryKind, uint64));
+};
+
+struct CFIFixture {
+
+ enum { kCFARegister = CallFrameInfo::Handler::kCFARegister };
+
+ CFIFixture() {
+ // Default expectations for the data handler.
+ //
+ // - Leave Entry and End without expectations, as it's probably a
+ // good idea to set those explicitly in each test.
+ //
+ // - Expect the *Rule functions to not be called,
+ // so that each test can simply list the calls they expect.
+ //
+ // I gather I could use StrictMock for this, but the manual seems
+ // to suggest using that only as a last resort, and this isn't so
+ // bad.
+ EXPECT_CALL(handler, UndefinedRule(_, _)).Times(0);
+ EXPECT_CALL(handler, SameValueRule(_, _)).Times(0);
+ EXPECT_CALL(handler, OffsetRule(_, _, _, _)).Times(0);
+ EXPECT_CALL(handler, ValOffsetRule(_, _, _, _)).Times(0);
+ EXPECT_CALL(handler, RegisterRule(_, _, _)).Times(0);
+ EXPECT_CALL(handler, ExpressionRule(_, _, _)).Times(0);
+ EXPECT_CALL(handler, ValExpressionRule(_, _, _)).Times(0);
+ EXPECT_CALL(handler, PersonalityRoutine(_, _)).Times(0);
+ EXPECT_CALL(handler, LanguageSpecificDataArea(_, _)).Times(0);
+ EXPECT_CALL(handler, SignalHandler()).Times(0);
+
+ // Default expectations for the error/warning reporer.
+ EXPECT_CALL(reporter, Incomplete(_, _)).Times(0);
+ EXPECT_CALL(reporter, EarlyEHTerminator(_)).Times(0);
+ EXPECT_CALL(reporter, CIEPointerOutOfRange(_, _)).Times(0);
+ EXPECT_CALL(reporter, BadCIEId(_, _)).Times(0);
+ EXPECT_CALL(reporter, UnrecognizedVersion(_, _)).Times(0);
+ EXPECT_CALL(reporter, UnrecognizedAugmentation(_, _)).Times(0);
+ EXPECT_CALL(reporter, InvalidPointerEncoding(_, _)).Times(0);
+ EXPECT_CALL(reporter, UnusablePointerEncoding(_, _)).Times(0);
+ EXPECT_CALL(reporter, RestoreInCIE(_, _)).Times(0);
+ EXPECT_CALL(reporter, BadInstruction(_, _, _)).Times(0);
+ EXPECT_CALL(reporter, NoCFARule(_, _, _)).Times(0);
+ EXPECT_CALL(reporter, EmptyStateStack(_, _, _)).Times(0);
+ EXPECT_CALL(reporter, ClearingCFARule(_, _, _)).Times(0);
+ }
+
+ MockCallFrameInfoHandler handler;
+ MockCallFrameErrorReporter reporter;
+};
+
+class LulDwarfCFI: public CFIFixture, public Test { };
+
+TEST_F(LulDwarfCFI, EmptyRegion) {
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+ static const char data[1] = { 42 };
+
+ ByteReader reader(ENDIANNESS_BIG);
+ CallFrameInfo parser(data, 0, &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+TEST_F(LulDwarfCFI, IncompleteLength32) {
+ CFISection section(kBigEndian, 8);
+ section
+ // Not even long enough for an initial length.
+ .D16(0xa0f)
+ // Padding to keep valgrind happy. We subtract these off when we
+ // construct the parser.
+ .D16(0);
+
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+
+ EXPECT_CALL(reporter, Incomplete(_, CallFrameInfo::kUnknown))
+ .WillOnce(Return());
+
+ string contents;
+ ASSERT_TRUE(section.GetContents(&contents));
+
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(8);
+ CallFrameInfo parser(contents.data(), contents.size() - 2,
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+TEST_F(LulDwarfCFI, IncompleteLength64) {
+ CFISection section(kLittleEndian, 4);
+ section
+ // An incomplete 64-bit DWARF initial length.
+ .D32(0xffffffff).D32(0x71fbaec2)
+ // Padding to keep valgrind happy. We subtract these off when we
+ // construct the parser.
+ .D32(0);
+
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+
+ EXPECT_CALL(reporter, Incomplete(_, CallFrameInfo::kUnknown))
+ .WillOnce(Return());
+
+ string contents;
+ ASSERT_TRUE(section.GetContents(&contents));
+
+ ByteReader reader(ENDIANNESS_LITTLE);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size() - 4,
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+TEST_F(LulDwarfCFI, IncompleteId32) {
+ CFISection section(kBigEndian, 8);
+ section
+ .D32(3) // Initial length, not long enough for id
+ .D8(0xd7).D8(0xe5).D8(0xf1) // incomplete id
+ .CIEHeader(8727, 3983, 8889, 3, "")
+ .FinishEntry();
+
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+
+ EXPECT_CALL(reporter, Incomplete(_, CallFrameInfo::kUnknown))
+ .WillOnce(Return());
+
+ string contents;
+ ASSERT_TRUE(section.GetContents(&contents));
+
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(8);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+TEST_F(LulDwarfCFI, BadId32) {
+ CFISection section(kBigEndian, 8);
+ section
+ .D32(0x100) // Initial length
+ .D32(0xe802fade) // bogus ID
+ .Append(0x100 - 4, 0x42); // make the length true
+ section
+ .CIEHeader(1672, 9872, 8529, 3, "")
+ .FinishEntry();
+
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+
+ EXPECT_CALL(reporter, CIEPointerOutOfRange(_, 0xe802fade))
+ .WillOnce(Return());
+
+ string contents;
+ ASSERT_TRUE(section.GetContents(&contents));
+
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(8);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+// A lone CIE shouldn't cause any handler calls.
+TEST_F(LulDwarfCFI, SingleCIE) {
+ CFISection section(kLittleEndian, 4);
+ section.CIEHeader(0xffe799a8, 0x3398dcdd, 0x6e9683de, 3, "");
+ section.Append(10, lul::DW_CFA_nop);
+ section.FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("SingleCIE", section);
+
+ EXPECT_CALL(handler, Entry(_, _, _, _, _, _)).Times(0);
+ EXPECT_CALL(handler, End()).Times(0);
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_LITTLE);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+// One FDE, one CIE.
+TEST_F(LulDwarfCFI, OneFDE) {
+ CFISection section(kBigEndian, 4);
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(0x4be22f75, 0x2492236e, 0x6b6efb87, 3, "")
+ .FinishEntry()
+ .FDEHeader(cie, 0x7714740d, 0x3d5a10cd)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("OneFDE", section);
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, 0x7714740d, 0x3d5a10cd, 3, "", 0x6b6efb87))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+// Two FDEs share a CIE.
+TEST_F(LulDwarfCFI, TwoFDEsOneCIE) {
+ CFISection section(kBigEndian, 4);
+ Label cie;
+ section
+ // First FDE. readelf complains about this one because it makes
+ // a forward reference to its CIE.
+ .FDEHeader(cie, 0xa42744df, 0xa3b42121)
+ .FinishEntry()
+ // CIE.
+ .Mark(&cie)
+ .CIEHeader(0x04f7dc7b, 0x3d00c05f, 0xbd43cb59, 3, "")
+ .FinishEntry()
+ // Second FDE.
+ .FDEHeader(cie, 0x6057d391, 0x700f608d)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("TwoFDEsOneCIE", section);
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, 0xa42744df, 0xa3b42121, 3, "", 0xbd43cb59))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, 0x6057d391, 0x700f608d, 3, "", 0xbd43cb59))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+// Two FDEs, two CIEs.
+TEST_F(LulDwarfCFI, TwoFDEsTwoCIEs) {
+ CFISection section(kLittleEndian, 8);
+ Label cie1, cie2;
+ section
+ // First CIE.
+ .Mark(&cie1)
+ .CIEHeader(0x694d5d45, 0x4233221b, 0xbf45e65a, 3, "")
+ .FinishEntry()
+ // First FDE which cites second CIE. readelf complains about
+ // this one because it makes a forward reference to its CIE.
+ .FDEHeader(cie2, 0x778b27dfe5871f05ULL, 0x324ace3448070926ULL)
+ .FinishEntry()
+ // Second FDE, which cites first CIE.
+ .FDEHeader(cie1, 0xf6054ca18b10bf5fULL, 0x45fdb970d8bca342ULL)
+ .FinishEntry()
+ // Second CIE.
+ .Mark(&cie2)
+ .CIEHeader(0xfba3fad7, 0x6287e1fd, 0x61d2c581, 2, "")
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("TwoFDEsTwoCIEs", section);
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, 0x778b27dfe5871f05ULL, 0x324ace3448070926ULL, 2,
+ "", 0x61d2c581))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, 0xf6054ca18b10bf5fULL, 0x45fdb970d8bca342ULL, 3,
+ "", 0xbf45e65a))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_LITTLE);
+ reader.SetAddressSize(8);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+// An FDE whose CIE specifies a version we don't recognize.
+TEST_F(LulDwarfCFI, BadVersion) {
+ CFISection section(kBigEndian, 4);
+ Label cie1, cie2;
+ section
+ .Mark(&cie1)
+ .CIEHeader(0xca878cf0, 0x7698ec04, 0x7b616f54, 0x52, "")
+ .FinishEntry()
+ // We should skip this entry, as its CIE specifies a version we
+ // don't recognize.
+ .FDEHeader(cie1, 0x08852292, 0x2204004a)
+ .FinishEntry()
+ // Despite the above, we should visit this entry.
+ .Mark(&cie2)
+ .CIEHeader(0x7c3ae7c9, 0xb9b9a512, 0x96cb3264, 3, "")
+ .FinishEntry()
+ .FDEHeader(cie2, 0x2094735a, 0x6e875501)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("BadVersion", section);
+
+ EXPECT_CALL(reporter, UnrecognizedVersion(_, 0x52))
+ .WillOnce(Return());
+
+ {
+ InSequence s;
+ // We should see no mention of the first FDE, but we should get
+ // a call to Entry for the second.
+ EXPECT_CALL(handler, Entry(_, 0x2094735a, 0x6e875501, 3, "",
+ 0x96cb3264))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+// An FDE whose CIE specifies an augmentation we don't recognize.
+TEST_F(LulDwarfCFI, BadAugmentation) {
+ CFISection section(kBigEndian, 4);
+ Label cie1, cie2;
+ section
+ .Mark(&cie1)
+ .CIEHeader(0x4be22f75, 0x2492236e, 0x6b6efb87, 3, "spaniels!")
+ .FinishEntry()
+ // We should skip this entry, as its CIE specifies an
+ // augmentation we don't recognize.
+ .FDEHeader(cie1, 0x7714740d, 0x3d5a10cd)
+ .FinishEntry()
+ // Despite the above, we should visit this entry.
+ .Mark(&cie2)
+ .CIEHeader(0xf8bc4399, 0x8cf09931, 0xf2f519b2, 3, "")
+ .FinishEntry()
+ .FDEHeader(cie2, 0x7bf0fda0, 0xcbcd28d8)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("BadAugmentation", section);
+
+ EXPECT_CALL(reporter, UnrecognizedAugmentation(_, "spaniels!"))
+ .WillOnce(Return());
+
+ {
+ InSequence s;
+ // We should see no mention of the first FDE, but we should get
+ // a call to Entry for the second.
+ EXPECT_CALL(handler, Entry(_, 0x7bf0fda0, 0xcbcd28d8, 3, "",
+ 0xf2f519b2))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_FALSE(parser.Start());
+}
+
+// The return address column field is a byte in CFI version 1
+// (DWARF2), but a ULEB128 value in version 3 (DWARF3).
+TEST_F(LulDwarfCFI, CIEVersion1ReturnColumn) {
+ CFISection section(kBigEndian, 4);
+ Label cie;
+ section
+ // CIE, using the version 1 format: return column is a ubyte.
+ .Mark(&cie)
+ // Use a value for the return column that is parsed differently
+ // as a ubyte and as a ULEB128.
+ .CIEHeader(0xbcdea24f, 0x5be28286, 0x9f, 1, "")
+ .FinishEntry()
+ // FDE, citing that CIE.
+ .FDEHeader(cie, 0xb8d347b5, 0x825e55dc)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("CIEVersion1ReturnColumn", section);
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler, Entry(_, 0xb8d347b5, 0x825e55dc, 1, "", 0x9f))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+// The return address column field is a byte in CFI version 1
+// (DWARF2), but a ULEB128 value in version 3 (DWARF3).
+TEST_F(LulDwarfCFI, CIEVersion3ReturnColumn) {
+ CFISection section(kBigEndian, 4);
+ Label cie;
+ section
+ // CIE, using the version 3 format: return column is a ULEB128.
+ .Mark(&cie)
+ // Use a value for the return column that is parsed differently
+ // as a ubyte and as a ULEB128.
+ .CIEHeader(0x0ab4758d, 0xc010fdf7, 0x89, 3, "")
+ .FinishEntry()
+ // FDE, citing that CIE.
+ .FDEHeader(cie, 0x86763f2b, 0x2a66dc23)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("CIEVersion3ReturnColumn", section);
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler, Entry(_, 0x86763f2b, 0x2a66dc23, 3, "", 0x89))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ string contents;
+ EXPECT_TRUE(section.GetContents(&contents));
+ ByteReader reader(ENDIANNESS_BIG);
+ reader.SetAddressSize(4);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter);
+ EXPECT_TRUE(parser.Start());
+}
+
+struct CFIInsnFixture: public CFIFixture {
+ CFIInsnFixture() : CFIFixture() {
+ data_factor = 0xb6f;
+ return_register = 0x9be1ed9f;
+ version = 3;
+ cfa_base_register = 0x383a3aa;
+ cfa_offset = 0xf748;
+ }
+
+ // Prepare SECTION to receive FDE instructions.
+ //
+ // - Append a stock CIE header that establishes the fixture's
+ // code_factor, data_factor, return_register, version, and
+ // augmentation values.
+ // - Have the CIE set up a CFA rule using cfa_base_register and
+ // cfa_offset.
+ // - Append a stock FDE header, referring to the above CIE, for the
+ // fde_size bytes at fde_start. Choose fde_start and fde_size
+ // appropriately for the section's address size.
+ // - Set appropriate expectations on handler in sequence s for the
+ // frame description entry and the CIE's CFA rule.
+ //
+ // On return, SECTION is ready to have FDE instructions appended to
+ // it, and its FinishEntry member called.
+ void StockCIEAndFDE(CFISection *section) {
+ // Choose appropriate constants for our address size.
+ if (section->AddressSize() == 4) {
+ fde_start = 0xc628ecfbU;
+ fde_size = 0x5dee04a2;
+ code_factor = 0x60b;
+ } else {
+ assert(section->AddressSize() == 8);
+ fde_start = 0x0005c57ce7806bd3ULL;
+ fde_size = 0x2699521b5e333100ULL;
+ code_factor = 0x01008e32855274a8ULL;
+ }
+
+ // Create the CIE.
+ (*section)
+ .Mark(&cie_label)
+ .CIEHeader(code_factor, data_factor, return_register, version,
+ "")
+ .D8(lul::DW_CFA_def_cfa)
+ .ULEB128(cfa_base_register)
+ .ULEB128(cfa_offset)
+ .FinishEntry();
+
+ // Create the FDE.
+ section->FDEHeader(cie_label, fde_start, fde_size);
+
+ // Expect an Entry call for the FDE and a ValOffsetRule call for the
+ // CIE's CFA rule.
+ EXPECT_CALL(handler, Entry(_, fde_start, fde_size, version, "",
+ return_register))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(fde_start, kCFARegister,
+ cfa_base_register, cfa_offset))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ }
+
+ // Run the contents of SECTION through a CallFrameInfo parser,
+ // expecting parser.Start to return SUCCEEDS. Caller may optionally
+ // supply, via READER, its own ByteReader. If that's absent, a
+ // local one is used.
+ void ParseSection(CFISection *section,
+ bool succeeds = true, ByteReader* reader = nullptr) {
+ string contents;
+ EXPECT_TRUE(section->GetContents(&contents));
+ lul::Endianness endianness;
+ if (section->endianness() == kBigEndian)
+ endianness = ENDIANNESS_BIG;
+ else {
+ assert(section->endianness() == kLittleEndian);
+ endianness = ENDIANNESS_LITTLE;
+ }
+ ByteReader local_reader(endianness);
+ ByteReader* reader_to_use = reader ? reader : &local_reader;
+ reader_to_use->SetAddressSize(section->AddressSize());
+ CallFrameInfo parser(contents.data(), contents.size(),
+ reader_to_use, &handler, &reporter);
+ if (succeeds)
+ EXPECT_TRUE(parser.Start());
+ else
+ EXPECT_FALSE(parser.Start());
+ }
+
+ Label cie_label;
+ Sequence s;
+ uint64 code_factor;
+ int data_factor;
+ unsigned return_register;
+ unsigned version;
+ unsigned cfa_base_register;
+ int cfa_offset;
+ uint64 fde_start, fde_size;
+};
+
+class LulDwarfCFIInsn: public CFIInsnFixture, public Test { };
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_set_loc) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_set_loc).D32(0xb1ee3e7a)
+ // Use DW_CFA_def_cfa to force a handler call that we can use to
+ // check the effect of the DW_CFA_set_loc.
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x4defb431).ULEB128(0x6d17b0ee)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_set_loc", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(0xb1ee3e7a, kCFARegister, 0x4defb431, 0x6d17b0ee))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_advance_loc) {
+ CFISection section(kBigEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_advance_loc | 0x2a)
+ // Use DW_CFA_def_cfa to force a handler call that we can use to
+ // check the effect of the DW_CFA_advance_loc.
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x5bbb3715).ULEB128(0x0186c7bf)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_advance_loc", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start + 0x2a * code_factor,
+ kCFARegister, 0x5bbb3715, 0x0186c7bf))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_advance_loc1) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_advance_loc1).D8(0xd8)
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x69d5696a).ULEB128(0x1eb7fc93)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_advance_loc1", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule((fde_start + 0xd8 * code_factor),
+ kCFARegister, 0x69d5696a, 0x1eb7fc93))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_advance_loc2) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_advance_loc2).D16(0x3adb)
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x3a368bed).ULEB128(0x3194ee37)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_advance_loc2", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule((fde_start + 0x3adb * code_factor),
+ kCFARegister, 0x3a368bed, 0x3194ee37))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_advance_loc4) {
+ CFISection section(kBigEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_advance_loc4).D32(0x15813c88)
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x135270c5).ULEB128(0x24bad7cb)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_advance_loc4", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule((fde_start + 0x15813c88ULL * code_factor),
+ kCFARegister, 0x135270c5, 0x24bad7cb))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_MIPS_advance_loc8) {
+ code_factor = 0x2d;
+ CFISection section(kBigEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_MIPS_advance_loc8).D64(0x3c4f3945b92c14ULL)
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0xe17ed602).ULEB128(0x3d162e7f)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_advance_loc8", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule((fde_start + 0x3c4f3945b92c14ULL * code_factor),
+ kCFARegister, 0xe17ed602, 0x3d162e7f))
+ .InSequence(s)
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x4e363a85).ULEB128(0x815f9aa7)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("DW_CFA_def_cfa", section);
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x4e363a85, 0x815f9aa7))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_sf) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_sf).ULEB128(0x8ccb32b7).LEB128(0x9ea)
+ .D8(lul::DW_CFA_def_cfa_sf).ULEB128(0x9b40f5da).LEB128(-0x40a2)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x8ccb32b7,
+ 0x9ea * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x9b40f5da,
+ -0x40a2 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_register) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_register).ULEB128(0x3e7e9363)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x3e7e9363, cfa_offset))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+// DW_CFA_def_cfa_register should have no effect when applied to a
+// non-base/offset rule.
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_registerBadRule) {
+ ByteReader reader(ENDIANNESS_BIG);
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_expression).Block("needle in a haystack")
+ .D8(lul::DW_CFA_def_cfa_register).ULEB128(0xf1b49e49)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValExpressionRule(fde_start, kCFARegister,
+ "needle in a haystack"))
+ .WillRepeatedly(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_offset) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_offset).ULEB128(0x1e8e3b9b)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, cfa_base_register,
+ 0x1e8e3b9b))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_offset_sf) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_offset_sf).LEB128(0x970)
+ .D8(lul::DW_CFA_def_cfa_offset_sf).LEB128(-0x2cd)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, cfa_base_register,
+ 0x970 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, cfa_base_register,
+ -0x2cd * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+// DW_CFA_def_cfa_offset should have no effect when applied to a
+// non-base/offset rule.
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_offsetBadRule) {
+ ByteReader reader(ENDIANNESS_BIG);
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_expression).Block("six ways to Sunday")
+ .D8(lul::DW_CFA_def_cfa_offset).ULEB128(0x1e8e3b9b)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValExpressionRule(fde_start, kCFARegister,
+ "six ways to Sunday"))
+ .WillRepeatedly(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_def_cfa_expression) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_def_cfa_expression).Block("eating crow")
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValExpressionRule(fde_start, kCFARegister,
+ "eating crow"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_undefined) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_undefined).ULEB128(0x300ce45d)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, UndefinedRule(fde_start, 0x300ce45d))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_same_value) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_same_value).ULEB128(0x3865a760)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, SameValueRule(fde_start, 0x3865a760))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_offset) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset | 0x2c).ULEB128(0x9f6)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x2c, kCFARegister, 0x9f6 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_offset_extended) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset_extended).ULEB128(0x402b).ULEB128(0xb48)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start,
+ 0x402b, kCFARegister, 0xb48 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_offset_extended_sf) {
+ CFISection section(kBigEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset_extended_sf)
+ .ULEB128(0x997c23ee).LEB128(0x2d00)
+ .D8(lul::DW_CFA_offset_extended_sf)
+ .ULEB128(0x9519eb82).LEB128(-0xa77)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x997c23ee,
+ kCFARegister, 0x2d00 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x9519eb82,
+ kCFARegister, -0xa77 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_val_offset) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_offset).ULEB128(0x623562fe).ULEB128(0x673)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, 0x623562fe,
+ kCFARegister, 0x673 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_val_offset_sf) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_offset_sf).ULEB128(0x6f4f).LEB128(0xaab)
+ .D8(lul::DW_CFA_val_offset_sf).ULEB128(0x2483).LEB128(-0x8a2)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, 0x6f4f,
+ kCFARegister, 0xaab * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, 0x2483,
+ kCFARegister, -0x8a2 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_register) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_register).ULEB128(0x278d18f9).ULEB128(0x1a684414)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, RegisterRule(fde_start, 0x278d18f9, 0x1a684414))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_expression) {
+ ByteReader reader(ENDIANNESS_BIG);
+ CFISection section(kBigEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_expression).ULEB128(0xa1619fb2)
+ .Block("plus ça change, plus c'est la même chose")
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ExpressionRule(fde_start, 0xa1619fb2,
+ "plus ça change, plus c'est la même chose"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_val_expression) {
+ ByteReader reader(ENDIANNESS_BIG);
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_expression).ULEB128(0xc5e4a9e3)
+ .Block("he who has the gold makes the rules")
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValExpressionRule(fde_start, 0xc5e4a9e3,
+ "he who has the gold makes the rules"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_restore) {
+ CFISection section(kLittleEndian, 8);
+ code_factor = 0x01bd188a9b1fa083ULL;
+ data_factor = -0x1ac8;
+ return_register = 0x8c35b049;
+ version = 2;
+ fde_start = 0x2d70fe998298bbb1ULL;
+ fde_size = 0x46ccc2e63cf0b108ULL;
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(code_factor, data_factor, return_register, version,
+ "")
+ // Provide a CFA rule, because register rules require them.
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x6ca1d50e).ULEB128(0x372e38e8)
+ // Provide an offset(N) rule for register 0x3c.
+ .D8(lul::DW_CFA_offset | 0x3c).ULEB128(0xb348)
+ .FinishEntry()
+ // In the FDE...
+ .FDEHeader(cie, fde_start, fde_size)
+ // At a second address, provide a new offset(N) rule for register 0x3c.
+ .D8(lul::DW_CFA_advance_loc | 0x13)
+ .D8(lul::DW_CFA_offset | 0x3c).ULEB128(0x9a50)
+ // At a third address, restore the original rule for register 0x3c.
+ .D8(lul::DW_CFA_advance_loc | 0x01)
+ .D8(lul::DW_CFA_restore | 0x3c)
+ .FinishEntry();
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, fde_start, fde_size, version, "", return_register))
+ .WillOnce(Return(true));
+ // CIE's CFA rule.
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start,
+ kCFARegister, 0x6ca1d50e, 0x372e38e8))
+ .WillOnce(Return(true));
+ // CIE's rule for register 0x3c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x3c,
+ kCFARegister, 0xb348 * data_factor))
+ .WillOnce(Return(true));
+ // FDE's rule for register 0x3c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start + 0x13 * code_factor, 0x3c,
+ kCFARegister, 0x9a50 * data_factor))
+ .WillOnce(Return(true));
+ // Restore CIE's rule for register 0x3c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start + (0x13 + 0x01) * code_factor, 0x3c,
+ kCFARegister, 0xb348 * data_factor))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_restoreNoRule) {
+ CFISection section(kBigEndian, 4);
+ code_factor = 0x005f78143c1c3b82ULL;
+ data_factor = 0x25d0;
+ return_register = 0xe8;
+ version = 1;
+ fde_start = 0x4062e30f;
+ fde_size = 0x5302a389;
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(code_factor, data_factor, return_register, version, "")
+ // Provide a CFA rule, because register rules require them.
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x470aa334).ULEB128(0x099ef127)
+ .FinishEntry()
+ // In the FDE...
+ .FDEHeader(cie, fde_start, fde_size)
+ // At a second address, provide an offset(N) rule for register 0x2c.
+ .D8(lul::DW_CFA_advance_loc | 0x7)
+ .D8(lul::DW_CFA_offset | 0x2c).ULEB128(0x1f47)
+ // At a third address, restore the (missing) CIE rule for register 0x2c.
+ .D8(lul::DW_CFA_advance_loc | 0xb)
+ .D8(lul::DW_CFA_restore | 0x2c)
+ .FinishEntry();
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, fde_start, fde_size, version, "", return_register))
+ .WillOnce(Return(true));
+ // CIE's CFA rule.
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start,
+ kCFARegister, 0x470aa334, 0x099ef127))
+ .WillOnce(Return(true));
+ // FDE's rule for register 0x2c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start + 0x7 * code_factor, 0x2c,
+ kCFARegister, 0x1f47 * data_factor))
+ .WillOnce(Return(true));
+ // Restore CIE's (missing) rule for register 0x2c.
+ EXPECT_CALL(handler,
+ SameValueRule(fde_start + (0x7 + 0xb) * code_factor, 0x2c))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_restore_extended) {
+ CFISection section(kBigEndian, 4);
+ code_factor = 0x126e;
+ data_factor = -0xd8b;
+ return_register = 0x77711787;
+ version = 3;
+ fde_start = 0x01f55a45;
+ fde_size = 0x452adb80;
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(code_factor, data_factor, return_register, version,
+ "", true /* dwarf64 */ )
+ // Provide a CFA rule, because register rules require them.
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x56fa0edd).ULEB128(0x097f78a5)
+ // Provide an offset(N) rule for register 0x0f9b8a1c.
+ .D8(lul::DW_CFA_offset_extended)
+ .ULEB128(0x0f9b8a1c).ULEB128(0xc979)
+ .FinishEntry()
+ // In the FDE...
+ .FDEHeader(cie, fde_start, fde_size)
+ // At a second address, provide a new offset(N) rule for reg 0x0f9b8a1c.
+ .D8(lul::DW_CFA_advance_loc | 0x3)
+ .D8(lul::DW_CFA_offset_extended)
+ .ULEB128(0x0f9b8a1c).ULEB128(0x3b7b)
+ // At a third address, restore the original rule for register 0x0f9b8a1c.
+ .D8(lul::DW_CFA_advance_loc | 0x04)
+ .D8(lul::DW_CFA_restore_extended).ULEB128(0x0f9b8a1c)
+ .FinishEntry();
+
+ {
+ InSequence s;
+ EXPECT_CALL(handler,
+ Entry(_, fde_start, fde_size, version, "", return_register))
+ .WillOnce(Return(true));
+ // CIE's CFA rule.
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x56fa0edd, 0x097f78a5))
+ .WillOnce(Return(true));
+ // CIE's rule for register 0x0f9b8a1c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x0f9b8a1c, kCFARegister,
+ 0xc979 * data_factor))
+ .WillOnce(Return(true));
+ // FDE's rule for register 0x0f9b8a1c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start + 0x3 * code_factor, 0x0f9b8a1c,
+ kCFARegister, 0x3b7b * data_factor))
+ .WillOnce(Return(true));
+ // Restore CIE's rule for register 0x0f9b8a1c.
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start + (0x3 + 0x4) * code_factor, 0x0f9b8a1c,
+ kCFARegister, 0xc979 * data_factor))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+ }
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_remember_and_restore_state) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+
+ // We create a state, save it, modify it, and then restore. We
+ // refer to the state that is overridden the restore as the
+ // "outgoing" state, and the restored state the "incoming" state.
+ //
+ // Register outgoing incoming expect
+ // 1 offset(N) no rule new "same value" rule
+ // 2 register(R) offset(N) report changed rule
+ // 3 offset(N) offset(M) report changed offset
+ // 4 offset(N) offset(N) no report
+ // 5 offset(N) no rule new "same value" rule
+ section
+ // Create the "incoming" state, which we will save and later restore.
+ .D8(lul::DW_CFA_offset | 2).ULEB128(0x9806)
+ .D8(lul::DW_CFA_offset | 3).ULEB128(0x995d)
+ .D8(lul::DW_CFA_offset | 4).ULEB128(0x7055)
+ .D8(lul::DW_CFA_remember_state)
+ // Advance to a new instruction; an implementation could legitimately
+ // ignore all but the final rule for a given register at a given address.
+ .D8(lul::DW_CFA_advance_loc | 1)
+ // Create the "outgoing" state, which we will discard.
+ .D8(lul::DW_CFA_offset | 1).ULEB128(0xea1a)
+ .D8(lul::DW_CFA_register).ULEB128(2).ULEB128(0x1d2a3767)
+ .D8(lul::DW_CFA_offset | 3).ULEB128(0xdd29)
+ .D8(lul::DW_CFA_offset | 5).ULEB128(0xf1ce)
+ // At a third address, restore the incoming state.
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ uint64 addr = fde_start;
+
+ // Expect the incoming rules to be reported.
+ EXPECT_CALL(handler, OffsetRule(addr, 2, kCFARegister, 0x9806 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 3, kCFARegister, 0x995d * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 4, kCFARegister, 0x7055 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+
+ addr += code_factor;
+
+ // After the save, we establish the outgoing rule set.
+ EXPECT_CALL(handler, OffsetRule(addr, 1, kCFARegister, 0xea1a * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(addr, 2, 0x1d2a3767))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 3, kCFARegister, 0xdd29 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 5, kCFARegister, 0xf1ce * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+
+ addr += code_factor;
+
+ // Finally, after the restore, expect to see the differences from
+ // the outgoing to the incoming rules reported.
+ EXPECT_CALL(handler, SameValueRule(addr, 1))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 2, kCFARegister, 0x9806 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(addr, 3, kCFARegister, 0x995d * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, SameValueRule(addr, 5))
+ .InSequence(s).WillOnce(Return(true));
+
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+// Check that restoring a rule set reports changes to the CFA rule.
+TEST_F(LulDwarfCFIInsn, DW_CFA_remember_and_restore_stateCFA) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+
+ section
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_def_cfa_offset).ULEB128(0x90481102)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValOffsetRule(fde_start + code_factor, kCFARegister,
+ cfa_base_register, 0x90481102))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(fde_start + code_factor * 2, kCFARegister,
+ cfa_base_register, cfa_offset))
+ .InSequence(s).WillOnce(Return(true));
+
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_nop) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_nop)
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x3fb8d4f1).ULEB128(0x078dc67b)
+ .D8(lul::DW_CFA_nop)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ ValOffsetRule(fde_start, kCFARegister, 0x3fb8d4f1, 0x078dc67b))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_GNU_window_save) {
+ CFISection section(kBigEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_GNU_window_save)
+ .FinishEntry();
+
+ // Don't include all the rules in any particular sequence.
+
+ // The caller's %o0-%o7 have become the callee's %i0-%i7. This is
+ // the GCC register numbering.
+ for (int i = 8; i < 16; i++)
+ EXPECT_CALL(handler, RegisterRule(fde_start, i, i + 16))
+ .WillOnce(Return(true));
+ // The caller's %l0-%l7 and %i0-%i7 have been saved at the top of
+ // its frame.
+ for (int i = 16; i < 32; i++)
+ EXPECT_CALL(handler, OffsetRule(fde_start, i, kCFARegister, (i-16) * 4))
+ .WillOnce(Return(true));
+
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_GNU_args_size) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_GNU_args_size).ULEB128(0xeddfa520)
+ // Verify that we see this, meaning we parsed the above properly.
+ .D8(lul::DW_CFA_offset | 0x23).ULEB128(0x269)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x23, kCFARegister, 0x269 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIInsn, DW_CFA_GNU_negative_offset_extended) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_GNU_negative_offset_extended)
+ .ULEB128(0x430cc87a).ULEB128(0x613)
+ .FinishEntry();
+
+ EXPECT_CALL(handler,
+ OffsetRule(fde_start, 0x430cc87a,
+ kCFARegister, -0x613 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+// Three FDEs: skip the second
+TEST_F(LulDwarfCFIInsn, SkipFDE) {
+ CFISection section(kBigEndian, 4);
+ Label cie;
+ section
+ // CIE, used by all FDEs.
+ .Mark(&cie)
+ .CIEHeader(0x010269f2, 0x9177, 0xedca5849, 2, "")
+ .D8(lul::DW_CFA_def_cfa).ULEB128(0x42ed390b).ULEB128(0x98f43aad)
+ .FinishEntry()
+ // First FDE.
+ .FDEHeader(cie, 0xa870ebdd, 0x60f6aa4)
+ .D8(lul::DW_CFA_register).ULEB128(0x3a860351).ULEB128(0x6c9a6bcf)
+ .FinishEntry()
+ // Second FDE.
+ .FDEHeader(cie, 0xc534f7c0, 0xf6552e9, true /* dwarf64 */)
+ .D8(lul::DW_CFA_register).ULEB128(0x1b62c234).ULEB128(0x26586b18)
+ .FinishEntry()
+ // Third FDE.
+ .FDEHeader(cie, 0xf681cfc8, 0x7e4594e)
+ .D8(lul::DW_CFA_register).ULEB128(0x26c53934).ULEB128(0x18eeb8a4)
+ .FinishEntry();
+
+ {
+ InSequence s;
+
+ // Process the first FDE.
+ EXPECT_CALL(handler, Entry(_, 0xa870ebdd, 0x60f6aa4, 2, "", 0xedca5849))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(0xa870ebdd, kCFARegister,
+ 0x42ed390b, 0x98f43aad))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(0xa870ebdd, 0x3a860351, 0x6c9a6bcf))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .WillOnce(Return(true));
+
+ // Skip the second FDE.
+ EXPECT_CALL(handler, Entry(_, 0xc534f7c0, 0xf6552e9, 2, "", 0xedca5849))
+ .WillOnce(Return(false));
+
+ // Process the third FDE.
+ EXPECT_CALL(handler, Entry(_, 0xf681cfc8, 0x7e4594e, 2, "", 0xedca5849))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(0xf681cfc8, kCFARegister,
+ 0x42ed390b, 0x98f43aad))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(0xf681cfc8, 0x26c53934, 0x18eeb8a4))
+ .WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .WillOnce(Return(true));
+ }
+
+ ParseSection(&section);
+}
+
+// Quit processing in the middle of an entry's instructions.
+TEST_F(LulDwarfCFIInsn, QuitMidentry) {
+ CFISection section(kLittleEndian, 8);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_register).ULEB128(0xe0cf850d).ULEB128(0x15aab431)
+ .D8(lul::DW_CFA_expression).ULEB128(0x46750aa5).Block("meat")
+ .FinishEntry();
+
+ EXPECT_CALL(handler, RegisterRule(fde_start, 0xe0cf850d, 0x15aab431))
+ .InSequence(s).WillOnce(Return(false));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseSection(&section, false);
+}
+
+class LulDwarfCFIRestore: public CFIInsnFixture, public Test { };
+
+TEST_F(LulDwarfCFIRestore, RestoreUndefinedRuleUnchanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_undefined).ULEB128(0x0bac878e)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, UndefinedRule(fde_start, 0x0bac878e))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreUndefinedRuleChanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_undefined).ULEB128(0x7dedff5f)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_same_value).ULEB128(0x7dedff5f)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, UndefinedRule(fde_start, 0x7dedff5f))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, SameValueRule(fde_start + code_factor, 0x7dedff5f))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + 2 * code_factor, 0x7dedff5f))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreSameValueRuleUnchanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_same_value).ULEB128(0xadbc9b3a)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, SameValueRule(fde_start, 0xadbc9b3a))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreSameValueRuleChanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_same_value).ULEB128(0x3d90dcb5)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0x3d90dcb5)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, SameValueRule(fde_start, 0x3d90dcb5))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0x3d90dcb5))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, SameValueRule(fde_start + 2 * code_factor, 0x3d90dcb5))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreOffsetRuleUnchanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset | 0x14).ULEB128(0xb6f)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, OffsetRule(fde_start, 0x14,
+ kCFARegister, 0xb6f * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreOffsetRuleChanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset | 0x21).ULEB128(0xeb7)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0x21)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, OffsetRule(fde_start, 0x21,
+ kCFARegister, 0xeb7 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0x21))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(fde_start + 2 * code_factor, 0x21,
+ kCFARegister, 0xeb7 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreOffsetRuleChangedOffset) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_offset | 0x21).ULEB128(0x134)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_offset | 0x21).ULEB128(0xf4f)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, OffsetRule(fde_start, 0x21,
+ kCFARegister, 0x134 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(fde_start + code_factor, 0x21,
+ kCFARegister, 0xf4f * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, OffsetRule(fde_start + 2 * code_factor, 0x21,
+ kCFARegister, 0x134 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValOffsetRuleUnchanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_offset).ULEB128(0x829caee6).ULEB128(0xe4c)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValOffsetRule(fde_start, 0x829caee6,
+ kCFARegister, 0xe4c * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValOffsetRuleChanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_offset).ULEB128(0xf17c36d6).ULEB128(0xeb7)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0xf17c36d6)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValOffsetRule(fde_start, 0xf17c36d6,
+ kCFARegister, 0xeb7 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0xf17c36d6))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(fde_start + 2 * code_factor, 0xf17c36d6,
+ kCFARegister, 0xeb7 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValOffsetRuleChangedValOffset) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_offset).ULEB128(0x2cf0ab1b).ULEB128(0x562)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_val_offset).ULEB128(0x2cf0ab1b).ULEB128(0xe88)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValOffsetRule(fde_start, 0x2cf0ab1b,
+ kCFARegister, 0x562 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(fde_start + code_factor, 0x2cf0ab1b,
+ kCFARegister, 0xe88 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(fde_start + 2 * code_factor, 0x2cf0ab1b,
+ kCFARegister, 0x562 * data_factor))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreRegisterRuleUnchanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_register).ULEB128(0x77514acc).ULEB128(0x464de4ce)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, RegisterRule(fde_start, 0x77514acc, 0x464de4ce))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreRegisterRuleChanged) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_register).ULEB128(0xe39acce5).ULEB128(0x095f1559)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0xe39acce5)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, RegisterRule(fde_start, 0xe39acce5, 0x095f1559))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0xe39acce5))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(fde_start + 2 * code_factor, 0xe39acce5,
+ 0x095f1559))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreRegisterRuleChangedRegister) {
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_register).ULEB128(0xd40e21b1).ULEB128(0x16607d6a)
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_register).ULEB128(0xd40e21b1).ULEB128(0xbabb4742)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, RegisterRule(fde_start, 0xd40e21b1, 0x16607d6a))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(fde_start + code_factor, 0xd40e21b1,
+ 0xbabb4742))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, RegisterRule(fde_start + 2 * code_factor, 0xd40e21b1,
+ 0x16607d6a))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreExpressionRuleUnchanged) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_expression).ULEB128(0x666ae152).Block("dwarf")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ExpressionRule(fde_start, 0x666ae152, "dwarf"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreExpressionRuleChanged) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_expression).ULEB128(0xb5ca5c46).Block("elf")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0xb5ca5c46)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ExpressionRule(fde_start, 0xb5ca5c46, "elf"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0xb5ca5c46))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ExpressionRule(fde_start + 2 * code_factor, 0xb5ca5c46,
+ "elf"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreExpressionRuleChangedExpression) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_expression).ULEB128(0x500f5739).Block("smurf")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_expression).ULEB128(0x500f5739).Block("orc")
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ExpressionRule(fde_start, 0x500f5739, "smurf"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ExpressionRule(fde_start + code_factor, 0x500f5739,
+ "orc"))
+ .InSequence(s).WillOnce(Return(true));
+ // Expectations are not wishes.
+ EXPECT_CALL(handler, ExpressionRule(fde_start + 2 * code_factor, 0x500f5739,
+ "smurf"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValExpressionRuleUnchanged) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_expression).ULEB128(0x666ae152)
+ .Block("hideous")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ EXPECT_CALL(handler, ValExpressionRule(fde_start, 0x666ae152, "hideous"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValExpressionRuleChanged) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_expression).ULEB128(0xb5ca5c46)
+ .Block("revolting")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_undefined).ULEB128(0xb5ca5c46)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("RestoreValExpressionRuleChanged", section);
+
+ EXPECT_CALL(handler, ValExpressionRule(fde_start, 0xb5ca5c46, "revolting"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(fde_start + code_factor, 0xb5ca5c46))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValExpressionRule(fde_start + 2 * code_factor, 0xb5ca5c46,
+ "revolting"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+TEST_F(LulDwarfCFIRestore, RestoreValExpressionRuleChangedValExpression) {
+ ByteReader reader(ENDIANNESS_LITTLE);
+ CFISection section(kLittleEndian, 4);
+ StockCIEAndFDE(&section);
+ section
+ .D8(lul::DW_CFA_val_expression).ULEB128(0x500f5739)
+ .Block("repulsive")
+ .D8(lul::DW_CFA_remember_state)
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_val_expression).ULEB128(0x500f5739)
+ .Block("nauseous")
+ .D8(lul::DW_CFA_advance_loc | 1)
+ .D8(lul::DW_CFA_restore_state)
+ .FinishEntry();
+
+ PERHAPS_WRITE_DEBUG_FRAME_FILE("RestoreValExpressionRuleChangedValExpression",
+ section);
+
+ EXPECT_CALL(handler, ValExpressionRule(fde_start, 0x500f5739, "repulsive"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValExpressionRule(fde_start + code_factor, 0x500f5739,
+ "nauseous"))
+ .InSequence(s).WillOnce(Return(true));
+ // Expectations are not wishes.
+ EXPECT_CALL(handler, ValExpressionRule(fde_start + 2 * code_factor, 0x500f5739,
+ "repulsive"))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End()).WillOnce(Return(true));
+
+ ParseSection(&section, true, &reader);
+}
+
+struct EHFrameFixture: public CFIInsnFixture {
+ EHFrameFixture()
+ : CFIInsnFixture(), section(kBigEndian, 4, true) {
+ encoded_pointer_bases.cfi = 0x7f496cb2;
+ encoded_pointer_bases.text = 0x540f67b6;
+ encoded_pointer_bases.data = 0xe3eab768;
+ section.SetEncodedPointerBases(encoded_pointer_bases);
+ }
+ CFISection section;
+ CFISection::EncodedPointerBases encoded_pointer_bases;
+
+ // Parse CFIInsnFixture::ParseSection, but parse the section as
+ // .eh_frame data, supplying stock base addresses.
+ void ParseEHFrameSection(CFISection *section, bool succeeds = true) {
+ EXPECT_TRUE(section->ContainsEHFrame());
+ string contents;
+ EXPECT_TRUE(section->GetContents(&contents));
+ lul::Endianness endianness;
+ if (section->endianness() == kBigEndian)
+ endianness = ENDIANNESS_BIG;
+ else {
+ assert(section->endianness() == kLittleEndian);
+ endianness = ENDIANNESS_LITTLE;
+ }
+ ByteReader reader(endianness);
+ reader.SetAddressSize(section->AddressSize());
+ reader.SetCFIDataBase(encoded_pointer_bases.cfi, contents.data());
+ reader.SetTextBase(encoded_pointer_bases.text);
+ reader.SetDataBase(encoded_pointer_bases.data);
+ CallFrameInfo parser(contents.data(), contents.size(),
+ &reader, &handler, &reporter, true);
+ if (succeeds)
+ EXPECT_TRUE(parser.Start());
+ else
+ EXPECT_FALSE(parser.Start());
+ }
+
+};
+
+class LulDwarfEHFrame: public EHFrameFixture, public Test { };
+
+// A simple CIE, an FDE, and a terminator.
+TEST_F(LulDwarfEHFrame, Terminator) {
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(9968, 2466, 67, 1, "")
+ .D8(lul::DW_CFA_def_cfa).ULEB128(3772).ULEB128(1372)
+ .FinishEntry()
+ .FDEHeader(cie, 0x848037a1, 0x7b30475e)
+ .D8(lul::DW_CFA_set_loc).D32(0x17713850)
+ .D8(lul::DW_CFA_undefined).ULEB128(5721)
+ .FinishEntry()
+ .D32(0) // Terminate the sequence.
+ // This FDE should be ignored.
+ .FDEHeader(cie, 0xf19629fe, 0x439fb09b)
+ .FinishEntry();
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.Terminator", section);
+
+ EXPECT_CALL(handler, Entry(_, 0x848037a1, 0x7b30475e, 1, "", 67))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(0x848037a1, kCFARegister, 3772, 1372))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(0x17713850, 5721))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(reporter, EarlyEHTerminator(_))
+ .InSequence(s).WillOnce(Return());
+
+ ParseEHFrameSection(&section);
+}
+
+// The parser should recognize the Linux Standards Base 'z' augmentations.
+TEST_F(LulDwarfEHFrame, SimpleFDE) {
+ lul::DwarfPointerEncoding lsda_encoding =
+ lul::DwarfPointerEncoding(lul::DW_EH_PE_indirect
+ | lul::DW_EH_PE_datarel
+ | lul::DW_EH_PE_sdata2);
+ lul::DwarfPointerEncoding fde_encoding =
+ lul::DwarfPointerEncoding(lul::DW_EH_PE_textrel
+ | lul::DW_EH_PE_udata2);
+
+ section.SetPointerEncoding(fde_encoding);
+ section.SetEncodedPointerBases(encoded_pointer_bases);
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(4873, 7012, 100, 1, "zSLPR")
+ .ULEB128(7) // Augmentation data length
+ .D8(lsda_encoding) // LSDA pointer format
+ .D8(lul::DW_EH_PE_pcrel) // personality pointer format
+ .EncodedPointer(0x97baa00, lul::DW_EH_PE_pcrel) // and value
+ .D8(fde_encoding) // FDE pointer format
+ .D8(lul::DW_CFA_def_cfa).ULEB128(6706).ULEB128(31)
+ .FinishEntry()
+ .FDEHeader(cie, 0x540f6b56, 0xf686)
+ .ULEB128(2) // Augmentation data length
+ .EncodedPointer(0xe3eab475, lsda_encoding) // LSDA pointer, signed
+ .D8(lul::DW_CFA_set_loc)
+ .EncodedPointer(0x540fa4ce, fde_encoding)
+ .D8(lul::DW_CFA_undefined).ULEB128(0x675e)
+ .FinishEntry()
+ .D32(0); // terminator
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.SimpleFDE", section);
+
+ EXPECT_CALL(handler, Entry(_, 0x540f6b56, 0xf686, 1, "zSLPR", 100))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, PersonalityRoutine(0x97baa00, false))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, LanguageSpecificDataArea(0xe3eab475, true))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, SignalHandler())
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(0x540f6b56, kCFARegister, 6706, 31))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(0x540fa4ce, 0x675e))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+// Check that we can handle an empty 'z' augmentation.
+TEST_F(LulDwarfEHFrame, EmptyZ) {
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(5955, 5805, 228, 1, "z")
+ .ULEB128(0) // Augmentation data length
+ .D8(lul::DW_CFA_def_cfa).ULEB128(3629).ULEB128(247)
+ .FinishEntry()
+ .FDEHeader(cie, 0xda007738, 0xfb55c641)
+ .ULEB128(0) // Augmentation data length
+ .D8(lul::DW_CFA_advance_loc1).D8(11)
+ .D8(lul::DW_CFA_undefined).ULEB128(3769)
+ .FinishEntry();
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.EmptyZ", section);
+
+ EXPECT_CALL(handler, Entry(_, 0xda007738, 0xfb55c641, 1, "z", 228))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, ValOffsetRule(0xda007738, kCFARegister, 3629, 247))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, UndefinedRule(0xda007738 + 11 * 5955, 3769))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+// Check that we recognize bad 'z' augmentation characters.
+TEST_F(LulDwarfEHFrame, BadZ) {
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(6937, 1045, 142, 1, "zQ")
+ .ULEB128(0) // Augmentation data length
+ .D8(lul::DW_CFA_def_cfa).ULEB128(9006).ULEB128(7725)
+ .FinishEntry()
+ .FDEHeader(cie, 0x1293efa8, 0x236f53f2)
+ .ULEB128(0) // Augmentation data length
+ .D8(lul::DW_CFA_advance_loc | 12)
+ .D8(lul::DW_CFA_register).ULEB128(5667).ULEB128(3462)
+ .FinishEntry();
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.BadZ", section);
+
+ EXPECT_CALL(reporter, UnrecognizedAugmentation(_, "zQ"))
+ .WillOnce(Return());
+
+ ParseEHFrameSection(&section, false);
+}
+
+TEST_F(LulDwarfEHFrame, zL) {
+ Label cie;
+ lul::DwarfPointerEncoding lsda_encoding =
+ lul::DwarfPointerEncoding(lul::DW_EH_PE_funcrel | lul::DW_EH_PE_udata2);
+ section
+ .Mark(&cie)
+ .CIEHeader(9285, 9959, 54, 1, "zL")
+ .ULEB128(1) // Augmentation data length
+ .D8(lsda_encoding) // encoding for LSDA pointer in FDE
+
+ .FinishEntry()
+ .FDEHeader(cie, 0xd40091aa, 0x9aa6e746)
+ .ULEB128(2) // Augmentation data length
+ .EncodedPointer(0xd40099cd, lsda_encoding) // LSDA pointer
+ .FinishEntry()
+ .D32(0); // terminator
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.zL", section);
+
+ EXPECT_CALL(handler, Entry(_, 0xd40091aa, 0x9aa6e746, 1, "zL", 54))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, LanguageSpecificDataArea(0xd40099cd, false))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+TEST_F(LulDwarfEHFrame, zP) {
+ Label cie;
+ lul::DwarfPointerEncoding personality_encoding =
+ lul::DwarfPointerEncoding(lul::DW_EH_PE_datarel | lul::DW_EH_PE_udata2);
+ section
+ .Mark(&cie)
+ .CIEHeader(1097, 6313, 17, 1, "zP")
+ .ULEB128(3) // Augmentation data length
+ .D8(personality_encoding) // encoding for personality routine
+ .EncodedPointer(0xe3eaccac, personality_encoding) // value
+ .FinishEntry()
+ .FDEHeader(cie, 0x0c8350c9, 0xbef11087)
+ .ULEB128(0) // Augmentation data length
+ .FinishEntry()
+ .D32(0); // terminator
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.zP", section);
+
+ EXPECT_CALL(handler, Entry(_, 0x0c8350c9, 0xbef11087, 1, "zP", 17))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, PersonalityRoutine(0xe3eaccac, false))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+TEST_F(LulDwarfEHFrame, zR) {
+ Label cie;
+ lul::DwarfPointerEncoding pointer_encoding =
+ lul::DwarfPointerEncoding(lul::DW_EH_PE_textrel | lul::DW_EH_PE_sdata2);
+ section.SetPointerEncoding(pointer_encoding);
+ section
+ .Mark(&cie)
+ .CIEHeader(8011, 5496, 75, 1, "zR")
+ .ULEB128(1) // Augmentation data length
+ .D8(pointer_encoding) // encoding for FDE addresses
+ .FinishEntry()
+ .FDEHeader(cie, 0x540f9431, 0xbd0)
+ .ULEB128(0) // Augmentation data length
+ .FinishEntry()
+ .D32(0); // terminator
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.zR", section);
+
+ EXPECT_CALL(handler, Entry(_, 0x540f9431, 0xbd0, 1, "zR", 75))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+TEST_F(LulDwarfEHFrame, zS) {
+ Label cie;
+ section
+ .Mark(&cie)
+ .CIEHeader(9217, 7694, 57, 1, "zS")
+ .ULEB128(0) // Augmentation data length
+ .FinishEntry()
+ .FDEHeader(cie, 0xd40091aa, 0x9aa6e746)
+ .ULEB128(0) // Augmentation data length
+ .FinishEntry()
+ .D32(0); // terminator
+
+ PERHAPS_WRITE_EH_FRAME_FILE("EHFrame.zS", section);
+
+ EXPECT_CALL(handler, Entry(_, 0xd40091aa, 0x9aa6e746, 1, "zS", 57))
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, SignalHandler())
+ .InSequence(s).WillOnce(Return(true));
+ EXPECT_CALL(handler, End())
+ .InSequence(s).WillOnce(Return(true));
+
+ ParseEHFrameSection(&section);
+}
+
+// These tests require manual inspection of the test output.
+struct CFIReporterFixture {
+ CFIReporterFixture() : reporter(gtest_logging_sink_for_LulTestDwarf,
+ "test file name", "test section name") { }
+ CallFrameInfo::Reporter reporter;
+};
+
+class LulDwarfCFIReporter: public CFIReporterFixture, public Test { };
+
+TEST_F(LulDwarfCFIReporter, Incomplete) {
+ reporter.Incomplete(0x0102030405060708ULL, CallFrameInfo::kUnknown);
+}
+
+TEST_F(LulDwarfCFIReporter, EarlyEHTerminator) {
+ reporter.EarlyEHTerminator(0x0102030405060708ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, CIEPointerOutOfRange) {
+ reporter.CIEPointerOutOfRange(0x0123456789abcdefULL, 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, BadCIEId) {
+ reporter.BadCIEId(0x0123456789abcdefULL, 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, UnrecognizedVersion) {
+ reporter.UnrecognizedVersion(0x0123456789abcdefULL, 43);
+}
+
+TEST_F(LulDwarfCFIReporter, UnrecognizedAugmentation) {
+ reporter.UnrecognizedAugmentation(0x0123456789abcdefULL, "poodles");
+}
+
+TEST_F(LulDwarfCFIReporter, InvalidPointerEncoding) {
+ reporter.InvalidPointerEncoding(0x0123456789abcdefULL, 0x42);
+}
+
+TEST_F(LulDwarfCFIReporter, UnusablePointerEncoding) {
+ reporter.UnusablePointerEncoding(0x0123456789abcdefULL, 0x42);
+}
+
+TEST_F(LulDwarfCFIReporter, RestoreInCIE) {
+ reporter.RestoreInCIE(0x0123456789abcdefULL, 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, BadInstruction) {
+ reporter.BadInstruction(0x0123456789abcdefULL, CallFrameInfo::kFDE,
+ 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, NoCFARule) {
+ reporter.NoCFARule(0x0123456789abcdefULL, CallFrameInfo::kCIE,
+ 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, EmptyStateStack) {
+ reporter.EmptyStateStack(0x0123456789abcdefULL, CallFrameInfo::kTerminator,
+ 0xfedcba9876543210ULL);
+}
+
+TEST_F(LulDwarfCFIReporter, ClearingCFARule) {
+ reporter.ClearingCFARule(0x0123456789abcdefULL, CallFrameInfo::kFDE,
+ 0xfedcba9876543210ULL);
+}
+class LulDwarfExpr : public Test { };
+
+class MockSummariser : public Summariser {
+public:
+ MockSummariser() : Summariser(nullptr, 0, nullptr) {}
+ MOCK_METHOD2(Entry, void(uintptr_t, uintptr_t));
+ MOCK_METHOD0(End, void());
+ MOCK_METHOD5(Rule, void(uintptr_t, int, LExprHow, int16_t, int64_t));
+ MOCK_METHOD1(AddPfxInstr, uint32_t(PfxInstr));
+};
+
+TEST_F(LulDwarfExpr, SimpleTransliteration) {
+ MockSummariser summ;
+ ByteReader reader(ENDIANNESS_LITTLE);
+
+ CFISection section(kLittleEndian, 8);
+ section
+ .D8(DW_OP_lit0)
+ .D8(DW_OP_lit31)
+ .D8(DW_OP_breg0 + 17).LEB128(-1234)
+ .D8(DW_OP_const4s).D32(0xFEDC9876)
+ .D8(DW_OP_deref)
+ .D8(DW_OP_and)
+ .D8(DW_OP_plus)
+ .D8(DW_OP_minus)
+ .D8(DW_OP_shl)
+ .D8(DW_OP_ge);
+ string expr;
+ bool ok = section.GetContents(&expr);
+ EXPECT_TRUE(ok);
+
+ {
+ InSequence s;
+ // required start marker
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Start, 0)));
+ // DW_OP_lit0
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_SImm32, 0)));
+ // DW_OP_lit31
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_SImm32, 31)));
+ // DW_OP_breg17 -1234
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_DwReg, 17)));
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_SImm32, -1234)));
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Add)));
+ // DW_OP_const4s 0xFEDC9876
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_SImm32, 0xFEDC9876)));
+ // DW_OP_deref
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Deref)));
+ // DW_OP_and
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_And)));
+ // DW_OP_plus
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Add)));
+ // DW_OP_minus
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Sub)));
+ // DW_OP_shl
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Shl)));
+ // DW_OP_ge
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_CmpGES)));
+ // required end marker
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_End)));
+ }
+
+ int32_t ix = parseDwarfExpr(&summ, &reader, expr, false, false, false);
+ EXPECT_TRUE(ix >= 0);
+}
+
+TEST_F(LulDwarfExpr, UnknownOpcode) {
+ MockSummariser summ;
+ ByteReader reader(ENDIANNESS_LITTLE);
+
+ CFISection section(kLittleEndian, 8);
+ section
+ .D8(DW_OP_lo_user - 1);
+ string expr;
+ bool ok = section.GetContents(&expr);
+ EXPECT_TRUE(ok);
+
+ {
+ InSequence s;
+ // required start marker
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Start, 0)));
+ }
+
+ int32_t ix = parseDwarfExpr(&summ, &reader, expr, false, false, false);
+ EXPECT_TRUE(ix == -1);
+}
+
+TEST_F(LulDwarfExpr, ExpressionOverrun) {
+ MockSummariser summ;
+ ByteReader reader(ENDIANNESS_LITTLE);
+
+ CFISection section(kLittleEndian, 8);
+ section
+ .D8(DW_OP_const4s).D8(0x12).D8(0x34).D8(0x56);
+ string expr;
+ bool ok = section.GetContents(&expr);
+ EXPECT_TRUE(ok);
+
+ {
+ InSequence s;
+ // required start marker
+ EXPECT_CALL(summ, AddPfxInstr(PfxInstr(PX_Start, 0)));
+ // DW_OP_const4s followed by 3 (a.k.a. not enough) bytes
+ // We expect PfxInstr(PX_Simm32, not-known-for-sure-32-bit-immediate)
+ // Hence must use _ as the argument.
+ EXPECT_CALL(summ, AddPfxInstr(_));
+ }
+
+ int32_t ix = parseDwarfExpr(&summ, &reader, expr, false, false, false);
+ EXPECT_TRUE(ix == -1);
+}
+
+// We'll need to mention specific Dwarf registers in the EvaluatePfxExpr tests,
+// and those names are arch-specific, so a bit of macro magic is helpful.
+#if defined(LUL_ARCH_arm)
+# define TESTED_REG_STRUCT_NAME r11
+# define TESTED_REG_DWARF_NAME DW_REG_ARM_R11
+#elif defined(LUL_ARCH_x64) || defined(LUL_ARCH_x86)
+# define TESTED_REG_STRUCT_NAME xbp
+# define TESTED_REG_DWARF_NAME DW_REG_INTEL_XBP
+#else
+# error "Unknown plat"
+#endif
+
+struct EvaluatePfxExprFixture {
+ // Creates:
+ // initial stack, AVMA 0x12345678, at offset 4 bytes = 0xdeadbeef
+ // initial regs, with XBP = 0x14141356
+ // initial CFA = 0x5432ABCD
+ EvaluatePfxExprFixture() {
+ // The test stack.
+ si.mStartAvma = 0x12345678;
+ si.mLen = 0;
+# define XX(_byte) do { si.mContents[si.mLen++] = (_byte); } while (0)
+ XX(0x55); XX(0x55); XX(0x55); XX(0x55);
+ if (sizeof(void*) == 8) {
+ // le64
+ XX(0xEF); XX(0xBE); XX(0xAD); XX(0xDE); XX(0); XX(0); XX(0); XX(0);
+ } else {
+ // le32
+ XX(0xEF); XX(0xBE); XX(0xAD); XX(0xDE);
+ }
+ XX(0xAA); XX(0xAA); XX(0xAA); XX(0xAA);
+# undef XX
+ // The initial CFA.
+ initialCFA = TaggedUWord(0x5432ABCD);
+ // The initial register state.
+ memset(&regs, 0, sizeof(regs));
+ regs.TESTED_REG_STRUCT_NAME = TaggedUWord(0x14141356);
+ }
+
+ StackImage si;
+ TaggedUWord initialCFA;
+ UnwindRegs regs;
+};
+
+class LulDwarfEvaluatePfxExpr : public EvaluatePfxExprFixture, public Test { };
+
+TEST_F(LulDwarfEvaluatePfxExpr, NormalEvaluation) {
+ vector<PfxInstr> instrs;
+ // Put some junk at the start of the insn sequence.
+ instrs.push_back(PfxInstr(PX_End));
+ instrs.push_back(PfxInstr(PX_End));
+
+ // Now the real sequence
+ // stack is empty
+ instrs.push_back(PfxInstr(PX_Start, 1));
+ // 0x5432ABCD
+ instrs.push_back(PfxInstr(PX_SImm32, 0x31415927));
+ // 0x5432ABCD 0x31415927
+ instrs.push_back(PfxInstr(PX_DwReg, TESTED_REG_DWARF_NAME));
+ // 0x5432ABCD 0x31415927 0x14141356
+ instrs.push_back(PfxInstr(PX_SImm32, 42));
+ // 0x5432ABCD 0x31415927 0x14141356 42
+ instrs.push_back(PfxInstr(PX_Sub));
+ // 0x5432ABCD 0x31415927 0x1414132c
+ instrs.push_back(PfxInstr(PX_Add));
+ // 0x5432ABCD 0x45556c53
+ instrs.push_back(PfxInstr(PX_SImm32, si.mStartAvma + 4));
+ // 0x5432ABCD 0x45556c53 0x1234567c
+ instrs.push_back(PfxInstr(PX_Deref));
+ // 0x5432ABCD 0x45556c53 0xdeadbeef
+ instrs.push_back(PfxInstr(PX_SImm32, 0xFE01DC23));
+ // 0x5432ABCD 0x45556c53 0xdeadbeef 0xFE01DC23
+ instrs.push_back(PfxInstr(PX_And));
+ // 0x5432ABCD 0x45556c53 0xde019c23
+ instrs.push_back(PfxInstr(PX_SImm32, 7));
+ // 0x5432ABCD 0x45556c53 0xde019c23 7
+ instrs.push_back(PfxInstr(PX_Shl));
+ // 0x5432ABCD 0x45556c53 0x6f00ce1180
+ instrs.push_back(PfxInstr(PX_SImm32, 0x7fffffff));
+ // 0x5432ABCD 0x45556c53 0x6f00ce1180 7fffffff
+ instrs.push_back(PfxInstr(PX_And));
+ // 0x5432ABCD 0x45556c53 0x00ce1180
+ instrs.push_back(PfxInstr(PX_Add));
+ // 0x5432ABCD 0x46237dd3
+ instrs.push_back(PfxInstr(PX_Sub));
+ // 0xe0f2dfa
+
+ instrs.push_back(PfxInstr(PX_End));
+
+ TaggedUWord res = EvaluatePfxExpr(2/*offset of start insn*/,
+ &regs, initialCFA, &si, instrs);
+ EXPECT_TRUE(res.Valid());
+ EXPECT_TRUE(res.Value() == 0xe0f2dfa);
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, EmptySequence) {
+ vector<PfxInstr> instrs;
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_FALSE(res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, BogusStartPoint) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_SImm32, 42));
+ instrs.push_back(PfxInstr(PX_SImm32, 24));
+ instrs.push_back(PfxInstr(PX_SImm32, 4224));
+ TaggedUWord res = EvaluatePfxExpr(1, &regs, initialCFA, &si, instrs);
+ EXPECT_FALSE(res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, MissingEndMarker) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ instrs.push_back(PfxInstr(PX_SImm32, 24));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_FALSE(res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, StackUnderflow) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ instrs.push_back(PfxInstr(PX_End));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_FALSE(res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, StackNoUnderflow) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 1/*push the initial CFA*/));
+ instrs.push_back(PfxInstr(PX_End));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_TRUE(res.Valid());
+ EXPECT_TRUE(res == initialCFA);
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, StackOverflow) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ for (int i = 0; i < 10+1; i++) {
+ instrs.push_back(PfxInstr(PX_SImm32, i + 100));
+ }
+ instrs.push_back(PfxInstr(PX_End));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_FALSE(res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, StackNoOverflow) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ for (int i = 0; i < 10+0; i++) {
+ instrs.push_back(PfxInstr(PX_SImm32, i + 100));
+ }
+ instrs.push_back(PfxInstr(PX_End));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_TRUE(res.Valid());
+ EXPECT_TRUE(res == TaggedUWord(109));
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, OutOfRangeShl) {
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ instrs.push_back(PfxInstr(PX_SImm32, 1234));
+ instrs.push_back(PfxInstr(PX_SImm32, 5678));
+ instrs.push_back(PfxInstr(PX_Shl));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_TRUE(!res.Valid());
+}
+
+TEST_F(LulDwarfEvaluatePfxExpr, TestCmpGES) {
+ const int32_t argsL[6] = { 0, 0, 1, -2, -1, -2 };
+ const int32_t argsR[6] = { 0, 1, 0, -2, -2, -1 };
+ // expecting: t f t t t f = 101110 = 0x2E
+ vector<PfxInstr> instrs;
+ instrs.push_back(PfxInstr(PX_Start, 0));
+ // The "running total"
+ instrs.push_back(PfxInstr(PX_SImm32, 0));
+ for (unsigned int i = 0; i < sizeof(argsL)/sizeof(argsL[0]); i++) {
+ // Shift the "running total" at the bottom of the stack left by one bit
+ instrs.push_back(PfxInstr(PX_SImm32, 1));
+ instrs.push_back(PfxInstr(PX_Shl));
+ // Push both test args and do the comparison
+ instrs.push_back(PfxInstr(PX_SImm32, argsL[i]));
+ instrs.push_back(PfxInstr(PX_SImm32, argsR[i]));
+ instrs.push_back(PfxInstr(PX_CmpGES));
+ // Or the result into the running total
+ instrs.push_back(PfxInstr(PX_Or));
+ }
+ instrs.push_back(PfxInstr(PX_End));
+ TaggedUWord res = EvaluatePfxExpr(0, &regs, initialCFA, &si, instrs);
+ EXPECT_TRUE(res.Valid());
+ EXPECT_TRUE(res == TaggedUWord(0x2E));
+}
+
+} // namespace lul