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/*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "dwarf_test.h"
#include "dwarf/debug_frame_opcode_writer.h"
#include "dwarf/debug_info_entry_writer.h"
#include "dwarf/debug_line_opcode_writer.h"
#include "dwarf/dwarf_constants.h"
#include "dwarf/headers.h"
#include "gtest/gtest.h"
namespace art HIDDEN {
namespace dwarf {
// Run the tests only on host since we need objdump.
#ifndef ART_TARGET_ANDROID
TEST_F(DwarfTest, DebugFrame) {
const bool is64bit = false;
// Pick offset value which would catch Uleb vs Sleb errors.
const int offset = 40000;
ASSERT_EQ(UnsignedLeb128Size(offset / 4), 2u);
ASSERT_EQ(SignedLeb128Size(offset / 4), 3u);
const Reg reg(6);
// Test the opcodes in the order mentioned in the spec.
// There are usually several encoding variations of each opcode.
DebugFrameOpCodeWriter<> opcodes;
DW_CHECK(".debug_frame contents:");
DW_CHECK("FDE");
DW_CHECK_NEXT("DWARF32");
DW_CHECK_NEXT("DW_CFA_nop:"); // TODO: Why is a nop here.
int pc = 0;
for (int i : {0, 1, 0x3F, 0x40, 0xFF, 0x100, 0xFFFF, 0x10000}) {
pc += i;
opcodes.AdvancePC(pc);
}
DW_CHECK_NEXT("DW_CFA_advance_loc: 1");
DW_CHECK_NEXT("DW_CFA_advance_loc: 63");
DW_CHECK_NEXT("DW_CFA_advance_loc1: 64");
DW_CHECK_NEXT("DW_CFA_advance_loc1: 255");
DW_CHECK_NEXT("DW_CFA_advance_loc2: 256");
DW_CHECK_NEXT("DW_CFA_advance_loc2: 65535");
DW_CHECK_NEXT("DW_CFA_advance_loc4: 65536");
opcodes.DefCFA(reg, offset);
DW_CHECK_NEXT("DW_CFA_def_cfa: ESI +40000");
opcodes.DefCFA(reg, -offset);
DW_CHECK_NEXT("DW_CFA_def_cfa_sf: ESI -40000");
opcodes.DefCFARegister(reg);
DW_CHECK_NEXT("DW_CFA_def_cfa_register: ESI");
opcodes.DefCFAOffset(offset);
DW_CHECK_NEXT("DW_CFA_def_cfa_offset: +40000");
opcodes.DefCFAOffset(-offset);
DW_CHECK_NEXT("DW_CFA_def_cfa_offset_sf: -40000");
uint8_t expr[] = { /*nop*/ 0x96 };
opcodes.DefCFAExpression(expr, arraysize(expr));
DW_CHECK_NEXT("DW_CFA_def_cfa_expression: DW_OP_nop");
opcodes.Undefined(reg);
DW_CHECK_NEXT("DW_CFA_undefined: ESI");
opcodes.SameValue(reg);
DW_CHECK_NEXT("DW_CFA_same_value: ESI");
opcodes.Offset(Reg(0x3F), -offset);
DW_CHECK_NEXT("DW_CFA_offset: reg63 -40000");
opcodes.Offset(Reg(0x40), -offset);
DW_CHECK_NEXT("DW_CFA_offset_extended: reg64 -40000");
opcodes.Offset(Reg(0x40), offset);
DW_CHECK_NEXT("DW_CFA_offset_extended_sf: reg64 40000");
opcodes.ValOffset(reg, -offset);
DW_CHECK_NEXT("DW_CFA_val_offset: ESI -40000");
opcodes.ValOffset(reg, offset);
DW_CHECK_NEXT("DW_CFA_val_offset_sf: ESI 40000");
opcodes.Register(reg, Reg(1));
DW_CHECK_NEXT("DW_CFA_register: ESI ECX");
opcodes.Expression(reg, expr, arraysize(expr));
DW_CHECK_NEXT("DW_CFA_expression: ESI DW_OP_nop");
opcodes.ValExpression(reg, expr, arraysize(expr));
DW_CHECK_NEXT("DW_CFA_val_expression: ESI DW_OP_nop");
opcodes.Restore(Reg(0x3F));
DW_CHECK_NEXT("DW_CFA_restore: reg63");
opcodes.Restore(Reg(0x40));
DW_CHECK_NEXT("DW_CFA_restore_extended: reg64");
opcodes.Restore(reg);
DW_CHECK_NEXT("DW_CFA_restore: ESI");
opcodes.RememberState();
DW_CHECK_NEXT("DW_CFA_remember_state:");
opcodes.RestoreState();
DW_CHECK_NEXT("DW_CFA_restore_state:");
opcodes.Nop();
DW_CHECK_NEXT("DW_CFA_nop:");
// Also test helpers.
opcodes.DefCFA(Reg(4), 100); // ESP
DW_CHECK_NEXT("DW_CFA_def_cfa: ESP +100");
opcodes.AdjustCFAOffset(8);
DW_CHECK_NEXT("DW_CFA_def_cfa_offset: +108");
opcodes.RelOffset(Reg(0), 0); // push R0
DW_CHECK_NEXT("DW_CFA_offset: EAX -108");
opcodes.RelOffset(Reg(1), 4); // push R1
DW_CHECK_NEXT("DW_CFA_offset: ECX -104");
opcodes.RelOffsetForMany(Reg(2), 8, 1 | (1 << 3), 4); // push R2 and R5
DW_CHECK_NEXT("DW_CFA_offset: EDX -100");
DW_CHECK_NEXT("DW_CFA_offset: EBP -96");
opcodes.RestoreMany(Reg(2), 1 | (1 << 3)); // pop R2 and R5
DW_CHECK_NEXT("DW_CFA_restore: EDX");
DW_CHECK_NEXT("DW_CFA_restore: EBP");
DebugFrameOpCodeWriter<> initial_opcodes;
WriteCIE(is64bit, Reg(is64bit ? 16 : 8), initial_opcodes, &debug_frame_data_);
WriteFDE(is64bit,
/* cie_pointer= */ 0,
0x01000000,
0x01000000,
ArrayRef<const uint8_t>(*opcodes.data()),
&debug_frame_data_);
CheckObjdumpOutput(is64bit, "-debug-frame");
}
TEST_F(DwarfTest, DISABLED_DebugFrame64) {
constexpr bool is64bit = true;
DebugFrameOpCodeWriter<> initial_opcodes;
WriteCIE(is64bit, Reg(16), initial_opcodes, &debug_frame_data_);
DebugFrameOpCodeWriter<> opcodes;
DW_CHECK(".debug_frame contents:");
WriteFDE(is64bit,
/* cie_pointer= */ 0,
0x0100000000000000,
0x0200000000000000,
ArrayRef<const uint8_t>(*opcodes.data()),
&debug_frame_data_);
DW_CHECK("FDE cie=00000000 pc=100000000000000..300000000000000");
CheckObjdumpOutput(is64bit, "-debug-frame");
}
// Test x86_64 register mapping. It is the only non-trivial architecture.
// ARM and X86 have: dwarf_reg = art_reg + constant.
TEST_F(DwarfTest, x86_64_RegisterMapping) {
constexpr bool is64bit = true;
DebugFrameOpCodeWriter<> opcodes;
DW_CHECK(".debug_frame contents:");
for (int i = 0; i < 16; i++) {
opcodes.RelOffset(Reg::X86_64Core(i), 0);
}
DW_CHECK("FDE");
DW_CHECK_NEXT("DWARF32");
DW_CHECK_NEXT("DW_CFA_nop:"); // TODO: Why is a nop here.
DW_CHECK_NEXT("DW_CFA_offset: RAX 0");
DW_CHECK_NEXT("DW_CFA_offset: RCX 0");
DW_CHECK_NEXT("DW_CFA_offset: RDX 0");
DW_CHECK_NEXT("DW_CFA_offset: RBX 0");
DW_CHECK_NEXT("DW_CFA_offset: RSP 0");
DW_CHECK_NEXT("DW_CFA_offset: RBP 0");
DW_CHECK_NEXT("DW_CFA_offset: RSI 0");
DW_CHECK_NEXT("DW_CFA_offset: RDI 0");
DW_CHECK_NEXT("DW_CFA_offset: R8 0");
DW_CHECK_NEXT("DW_CFA_offset: R9 0");
DW_CHECK_NEXT("DW_CFA_offset: R10 0");
DW_CHECK_NEXT("DW_CFA_offset: R11 0");
DW_CHECK_NEXT("DW_CFA_offset: R12 0");
DW_CHECK_NEXT("DW_CFA_offset: R13 0");
DW_CHECK_NEXT("DW_CFA_offset: R14 0");
DW_CHECK_NEXT("DW_CFA_offset: R15 0");
DebugFrameOpCodeWriter<> initial_opcodes;
WriteCIE(is64bit, Reg(16), initial_opcodes, &debug_frame_data_);
WriteFDE(is64bit,
/* cie_pointer= */ 0,
0x0100000000000000,
0x0200000000000000,
ArrayRef<const uint8_t>(*opcodes.data()),
&debug_frame_data_);
CheckObjdumpOutput(is64bit, "-debug-frame");
}
TEST_F(DwarfTest, DebugLine) {
const bool is64bit = false;
const int code_factor_bits = 1;
DebugLineOpCodeWriter<> opcodes(is64bit, code_factor_bits);
DW_CHECK(".debug_line contents:");
std::vector<std::string> include_directories;
include_directories.push_back("/path/to/source");
DW_CHECK("include_directories[ 1] = \"/path/to/source\"");
std::vector<FileEntry> files {
{ "file0.c", 0, 1000, 2000 },
{ "file1.c", 1, 1000, 2000 },
{ "file2.c", 1, 1000, 2000 },
};
DW_CHECK_NEXT("file_names[ 1]:");
DW_CHECK_NEXT(" name: \"file0.c\"");
DW_CHECK_NEXT(" dir_index: 0");
DW_CHECK_NEXT(" mod_time: 0x000003e8");
DW_CHECK_NEXT(" length: 0x000007d0");
DW_CHECK_NEXT("file_names[ 2]:");
DW_CHECK_NEXT(" name: \"file1.c\"");
DW_CHECK_NEXT(" dir_index: 1");
DW_CHECK_NEXT(" mod_time: 0x000003e8");
DW_CHECK_NEXT(" length: 0x000007d0");
DW_CHECK_NEXT("file_names[ 3]:");
DW_CHECK_NEXT(" name: \"file2.c\"");
DW_CHECK_NEXT(" dir_index: 1");
DW_CHECK_NEXT(" mod_time: 0x000003e8");
DW_CHECK_NEXT(" length: 0x000007d0");
opcodes.SetAddress(0x01000000);
opcodes.SetIsStmt(true);
opcodes.AddRow();
opcodes.AdvancePC(0x01000100);
opcodes.SetFile(2);
opcodes.AdvanceLine(3);
opcodes.SetColumn(4);
opcodes.SetIsStmt(false);
opcodes.SetBasicBlock();
opcodes.SetPrologueEnd();
opcodes.SetEpilogueBegin();
opcodes.SetISA(5);
opcodes.EndSequence();
opcodes.DefineFile("file.c", 0, 1000, 2000);
DW_CHECK_NEXT("Address Line Column File ISA Discriminator Flags");
DW_CHECK_NEXT("------------------ ------ ------ ------ --- ------------- -------------");
DW_CHECK_NEXT("0x0000000001000000 1 0 1 0 0 is_stmt");
DW_CHECK_NEXT("0x0000000001000100 3 4 2 5 0 basic_block prologue_end epilogue_begin end_sequence");
WriteDebugLineTable(include_directories, files, opcodes, &debug_line_data_);
CheckObjdumpOutput(is64bit, "-debug-line");
}
// DWARF has special one byte codes which advance PC and line at the same time.
TEST_F(DwarfTest, DebugLineSpecialOpcodes) {
const bool is64bit = false;
const int code_factor_bits = 1;
uint32_t pc = 0x01000000;
int line = 1;
DebugLineOpCodeWriter<> opcodes(is64bit, code_factor_bits);
opcodes.SetAddress(pc);
size_t num_rows = 0;
DW_CHECK(".debug_line contents:");
DW_CHECK("file_names[ 1]:");
DW_CHECK(" name: \"file.c\"");
DW_CHECK("Address Line Column File ISA Discriminator Flags");
DW_CHECK("------------------ ------ ------ ------ --- ------------- -------------");
for (int addr_delta = 0; addr_delta < 80; addr_delta += 2) {
for (int line_delta = 16; line_delta >= -16; --line_delta) {
pc += addr_delta;
line += line_delta;
opcodes.AddRow(pc, line);
num_rows++;
ASSERT_EQ(opcodes.CurrentAddress(), pc);
ASSERT_EQ(opcodes.CurrentLine(), line);
char expected[1024];
sprintf(expected, "0x%016x %6i 0 1 0 0", pc, line);
DW_CHECK_NEXT(expected);
}
}
opcodes.EndSequence();
EXPECT_LT(opcodes.data()->size(), num_rows * 3);
std::vector<std::string> directories;
std::vector<FileEntry> files = { { "file.c", 0, 1000, 2000 } };
WriteDebugLineTable(directories, files, opcodes, &debug_line_data_);
CheckObjdumpOutput(is64bit, "-debug-line");
}
TEST_F(DwarfTest, DebugInfo) {
constexpr bool is64bit = false;
DebugAbbrevWriter<> debug_abbrev(&debug_abbrev_data_);
DW_CHECK(".debug_abbrev contents:");
DW_CHECK_NEXT("Abbrev table for offset: 0x00000000");
DW_CHECK_NEXT("[1] DW_TAG_compile_unit DW_CHILDREN_yes");
DW_CHECK_NEXT(" DW_AT_producer DW_FORM_strp");
DW_CHECK_NEXT(" DW_AT_low_pc DW_FORM_addr");
DW_CHECK_NEXT(" DW_AT_high_pc DW_FORM_addr");
DW_CHECK_NEXT("[2] DW_TAG_subprogram DW_CHILDREN_no");
DW_CHECK_NEXT(" DW_AT_name DW_FORM_strp");
DW_CHECK_NEXT(" DW_AT_low_pc DW_FORM_addr");
DW_CHECK_NEXT(" DW_AT_high_pc DW_FORM_addr");
DW_CHECK_NEXT("[3] DW_TAG_compile_unit DW_CHILDREN_no");
DebugInfoEntryWriter<> info(is64bit, &debug_abbrev);
DW_CHECK(".debug_info contents:");
info.StartTag(dwarf::DW_TAG_compile_unit);
DW_CHECK_NEXT("Compile Unit: length = 0x00000030, format = DWARF32, version = 0x0004, abbr_offset = 0x0000, addr_size = 0x04");
DW_CHECK_NEXT("DW_TAG_compile_unit");
info.WriteStrp(dwarf::DW_AT_producer, "Compiler name", &debug_str_data_);
DW_CHECK_NEXT(" DW_AT_producer (\"Compiler name\")");
info.WriteAddr(dwarf::DW_AT_low_pc, 0x01000000);
DW_CHECK_NEXT(" DW_AT_low_pc (0x01000000)");
info.WriteAddr(dwarf::DW_AT_high_pc, 0x02000000);
DW_CHECK_NEXT(" DW_AT_high_pc (0x02000000)");
info.StartTag(dwarf::DW_TAG_subprogram);
DW_CHECK_NEXT(" DW_TAG_subprogram");
info.WriteStrp(dwarf::DW_AT_name, "Foo", &debug_str_data_);
DW_CHECK_NEXT(" DW_AT_name (\"Foo\")");
info.WriteAddr(dwarf::DW_AT_low_pc, 0x01010000);
DW_CHECK_NEXT(" DW_AT_low_pc (0x01010000)");
info.WriteAddr(dwarf::DW_AT_high_pc, 0x01020000);
DW_CHECK_NEXT(" DW_AT_high_pc (0x01020000)");
info.EndTag(); // DW_TAG_subprogram
info.StartTag(dwarf::DW_TAG_subprogram);
DW_CHECK_NEXT(" DW_TAG_subprogram");
info.WriteStrp(dwarf::DW_AT_name, "Bar", &debug_str_data_);
DW_CHECK_NEXT(" DW_AT_name (\"Bar\")");
info.WriteAddr(dwarf::DW_AT_low_pc, 0x01020000);
DW_CHECK_NEXT(" DW_AT_low_pc (0x01020000)");
info.WriteAddr(dwarf::DW_AT_high_pc, 0x01030000);
DW_CHECK_NEXT(" DW_AT_high_pc (0x01030000)");
info.EndTag(); // DW_TAG_subprogram
info.EndTag(); // DW_TAG_compile_unit
DW_CHECK_NEXT(" NULL");
// Test that previous list was properly terminated and empty children.
info.StartTag(dwarf::DW_TAG_compile_unit);
info.EndTag(); // DW_TAG_compile_unit
dwarf::WriteDebugInfoCU(/* debug_abbrev_offset= */ 0, info, &debug_info_data_);
CheckObjdumpOutput(is64bit, "-debug-info -debug-abbrev");
}
#endif // ART_TARGET_ANDROID
} // namespace dwarf
} // namespace art