/*
* Copyright (C) 2016 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 <elf.h>
#include <gtest/gtest.h>
#include <vector>
#include "ElfInterfaceArm.h"
#include "Machine.h"
#include "Regs.h"
#include "MemoryFake.h"
class ElfInterfaceArmTest : public ::testing::Test {
protected:
void SetUp() override {
memory_.Clear();
process_memory_.Clear();
}
MemoryFake memory_;
MemoryFake process_memory_;
};
TEST_F(ElfInterfaceArmTest, GetPrel32Addr) {
ElfInterfaceArm interface(&memory_);
memory_.SetData32(0x1000, 0x230000);
uint32_t value;
ASSERT_TRUE(interface.GetPrel31Addr(0x1000, &value));
ASSERT_EQ(0x231000U, value);
memory_.SetData32(0x1000, 0x80001000);
ASSERT_TRUE(interface.GetPrel31Addr(0x1000, &value));
ASSERT_EQ(0x2000U, value);
memory_.SetData32(0x1000, 0x70001000);
ASSERT_TRUE(interface.GetPrel31Addr(0x1000, &value));
ASSERT_EQ(0xf0002000U, value);
}
TEST_F(ElfInterfaceArmTest, FindEntry_start_zero) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0);
interface.set_total_entries(10);
uint64_t entry_offset;
ASSERT_FALSE(interface.FindEntry(0x1000, &entry_offset));
}
TEST_F(ElfInterfaceArmTest, FindEntry_no_entries) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x100);
interface.set_total_entries(0);
uint64_t entry_offset;
ASSERT_FALSE(interface.FindEntry(0x1000, &entry_offset));
}
TEST_F(ElfInterfaceArmTest, FindEntry_no_valid_memory) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x100);
interface.set_total_entries(2);
uint64_t entry_offset;
ASSERT_FALSE(interface.FindEntry(0x1000, &entry_offset));
}
TEST_F(ElfInterfaceArmTest, FindEntry_ip_before_first) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(1);
memory_.SetData32(0x1000, 0x6000);
uint64_t entry_offset;
ASSERT_FALSE(interface.FindEntry(0x1000, &entry_offset));
}
TEST_F(ElfInterfaceArmTest, FindEntry_single_entry_negative_value) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x8000);
interface.set_total_entries(1);
memory_.SetData32(0x8000, 0x7fffff00);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x7ff0, &entry_offset));
ASSERT_EQ(0x8000U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, FindEntry_two_entries) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(2);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1008, 0x7000);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x7000, &entry_offset));
ASSERT_EQ(0x1000U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, FindEntry_last_check_single_entry) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(1);
memory_.SetData32(0x1000, 0x6000);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x7000, &entry_offset));
ASSERT_EQ(0x1000U, entry_offset);
// To guarantee that we are using the cache on the second run,
// set the memory to a different value.
memory_.SetData32(0x1000, 0x8000);
ASSERT_TRUE(interface.FindEntry(0x7004, &entry_offset));
ASSERT_EQ(0x1000U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, FindEntry_last_check_multiple_entries) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(2);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1008, 0x8000);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x9008, &entry_offset));
ASSERT_EQ(0x1008U, entry_offset);
// To guarantee that we are using the cache on the second run,
// set the memory to a different value.
memory_.SetData32(0x1000, 0x16000);
memory_.SetData32(0x1008, 0x18000);
ASSERT_TRUE(interface.FindEntry(0x9100, &entry_offset));
ASSERT_EQ(0x1008U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, FindEntry_multiple_entries_even) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(4);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1008, 0x7000);
memory_.SetData32(0x1010, 0x8000);
memory_.SetData32(0x1018, 0x9000);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x9100, &entry_offset));
ASSERT_EQ(0x1010U, entry_offset);
// To guarantee that we are using the cache on the second run,
// set the memory to a different value.
memory_.SetData32(0x1000, 0x16000);
memory_.SetData32(0x1008, 0x17000);
memory_.SetData32(0x1010, 0x18000);
memory_.SetData32(0x1018, 0x19000);
ASSERT_TRUE(interface.FindEntry(0x9100, &entry_offset));
ASSERT_EQ(0x1010U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, FindEntry_multiple_entries_odd) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(5);
memory_.SetData32(0x1000, 0x5000);
memory_.SetData32(0x1008, 0x6000);
memory_.SetData32(0x1010, 0x7000);
memory_.SetData32(0x1018, 0x8000);
memory_.SetData32(0x1020, 0x9000);
uint64_t entry_offset;
ASSERT_TRUE(interface.FindEntry(0x8100, &entry_offset));
ASSERT_EQ(0x1010U, entry_offset);
// To guarantee that we are using the cache on the second run,
// set the memory to a different value.
memory_.SetData32(0x1000, 0x15000);
memory_.SetData32(0x1008, 0x16000);
memory_.SetData32(0x1010, 0x17000);
memory_.SetData32(0x1018, 0x18000);
memory_.SetData32(0x1020, 0x19000);
ASSERT_TRUE(interface.FindEntry(0x8100, &entry_offset));
ASSERT_EQ(0x1010U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, iterate) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(5);
memory_.SetData32(0x1000, 0x5000);
memory_.SetData32(0x1008, 0x6000);
memory_.SetData32(0x1010, 0x7000);
memory_.SetData32(0x1018, 0x8000);
memory_.SetData32(0x1020, 0x9000);
std::vector<uint32_t> entries;
for (auto addr : interface) {
entries.push_back(addr);
}
ASSERT_EQ(5U, entries.size());
ASSERT_EQ(0x6000U, entries[0]);
ASSERT_EQ(0x7008U, entries[1]);
ASSERT_EQ(0x8010U, entries[2]);
ASSERT_EQ(0x9018U, entries[3]);
ASSERT_EQ(0xa020U, entries[4]);
// Make sure the iterate cached the entries.
memory_.SetData32(0x1000, 0x11000);
memory_.SetData32(0x1008, 0x12000);
memory_.SetData32(0x1010, 0x13000);
memory_.SetData32(0x1018, 0x14000);
memory_.SetData32(0x1020, 0x15000);
entries.clear();
for (auto addr : interface) {
entries.push_back(addr);
}
ASSERT_EQ(5U, entries.size());
ASSERT_EQ(0x6000U, entries[0]);
ASSERT_EQ(0x7008U, entries[1]);
ASSERT_EQ(0x8010U, entries[2]);
ASSERT_EQ(0x9018U, entries[3]);
ASSERT_EQ(0xa020U, entries[4]);
}
TEST_F(ElfInterfaceArmTest, FindEntry_load_bias) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(2);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1008, 0x8000);
uint64_t entry_offset;
interface.set_load_bias(0x2000);
ASSERT_FALSE(interface.FindEntry(0x1000, &entry_offset));
ASSERT_FALSE(interface.FindEntry(0x8000, &entry_offset));
ASSERT_FALSE(interface.FindEntry(0x8fff, &entry_offset));
ASSERT_TRUE(interface.FindEntry(0x9000, &entry_offset));
ASSERT_EQ(0x1000U, entry_offset);
ASSERT_TRUE(interface.FindEntry(0xb007, &entry_offset));
ASSERT_EQ(0x1000U, entry_offset);
ASSERT_TRUE(interface.FindEntry(0xb008, &entry_offset));
ASSERT_EQ(0x1008U, entry_offset);
}
TEST_F(ElfInterfaceArmTest, HandleType_not_arm_exidx) {
ElfInterfaceArm interface(&memory_);
ASSERT_FALSE(interface.HandleType(0x1000, PT_NULL));
ASSERT_FALSE(interface.HandleType(0x1000, PT_LOAD));
ASSERT_FALSE(interface.HandleType(0x1000, PT_DYNAMIC));
ASSERT_FALSE(interface.HandleType(0x1000, PT_INTERP));
ASSERT_FALSE(interface.HandleType(0x1000, PT_NOTE));
ASSERT_FALSE(interface.HandleType(0x1000, PT_SHLIB));
ASSERT_FALSE(interface.HandleType(0x1000, PT_PHDR));
ASSERT_FALSE(interface.HandleType(0x1000, PT_TLS));
ASSERT_FALSE(interface.HandleType(0x1000, PT_LOOS));
ASSERT_FALSE(interface.HandleType(0x1000, PT_HIOS));
ASSERT_FALSE(interface.HandleType(0x1000, PT_LOPROC));
ASSERT_FALSE(interface.HandleType(0x1000, PT_HIPROC));
ASSERT_FALSE(interface.HandleType(0x1000, PT_GNU_EH_FRAME));
ASSERT_FALSE(interface.HandleType(0x1000, PT_GNU_STACK));
}
TEST_F(ElfInterfaceArmTest, HandleType_arm_exidx) {
ElfInterfaceArm interface(&memory_);
Elf32_Phdr phdr;
interface.set_start_offset(0x1000);
interface.set_total_entries(100);
phdr.p_vaddr = 0x2000;
phdr.p_memsz = 0xa00;
// Verify that if reads fail, we don't set the values but still get true.
ASSERT_TRUE(interface.HandleType(0x1000, 0x70000001));
ASSERT_EQ(0x1000U, interface.start_offset());
ASSERT_EQ(100U, interface.total_entries());
// Verify that if the second read fails, we still don't set the values.
memory_.SetData32(
0x1000 + reinterpret_cast<uint64_t>(&phdr.p_vaddr) - reinterpret_cast<uint64_t>(&phdr),
phdr.p_vaddr);
ASSERT_TRUE(interface.HandleType(0x1000, 0x70000001));
ASSERT_EQ(0x1000U, interface.start_offset());
ASSERT_EQ(100U, interface.total_entries());
// Everything is correct and present.
memory_.SetData32(
0x1000 + reinterpret_cast<uint64_t>(&phdr.p_memsz) - reinterpret_cast<uint64_t>(&phdr),
phdr.p_memsz);
ASSERT_TRUE(interface.HandleType(0x1000, 0x70000001));
ASSERT_EQ(0x2000U, interface.start_offset());
ASSERT_EQ(320U, interface.total_entries());
// Non-zero load bias.
interface.set_load_bias(0x1000);
ASSERT_TRUE(interface.HandleType(0x1000, 0x70000001));
ASSERT_EQ(0x1000U, interface.start_offset());
ASSERT_EQ(320U, interface.total_entries());
}
TEST_F(ElfInterfaceArmTest, StepExidx) {
ElfInterfaceArm interface(&memory_);
// FindEntry fails.
ASSERT_FALSE(interface.StepExidx(0x7000, nullptr, nullptr));
// ExtractEntry should fail.
interface.set_start_offset(0x1000);
interface.set_total_entries(2);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1008, 0x8000);
RegsArm regs;
regs[ARM_REG_SP] = 0x1000;
regs[ARM_REG_LR] = 0x20000;
regs.set_sp(regs[ARM_REG_SP]);
regs.set_pc(0x1234);
ASSERT_FALSE(interface.StepExidx(0x7000, ®s, &process_memory_));
// Eval should fail.
memory_.SetData32(0x1004, 0x81000000);
ASSERT_FALSE(interface.StepExidx(0x7000, ®s, &process_memory_));
// Everything should pass.
memory_.SetData32(0x1004, 0x80b0b0b0);
ASSERT_TRUE(interface.StepExidx(0x7000, ®s, &process_memory_));
ASSERT_EQ(0x1000U, regs.sp());
ASSERT_EQ(0x1000U, regs[ARM_REG_SP]);
ASSERT_EQ(0x20000U, regs.pc());
ASSERT_EQ(0x20000U, regs[ARM_REG_PC]);
}
TEST_F(ElfInterfaceArmTest, StepExidx_pc_set) {
ElfInterfaceArm interface(&memory_);
interface.set_start_offset(0x1000);
interface.set_total_entries(2);
memory_.SetData32(0x1000, 0x6000);
memory_.SetData32(0x1004, 0x808800b0);
memory_.SetData32(0x1008, 0x8000);
process_memory_.SetData32(0x10000, 0x10);
RegsArm regs;
regs[ARM_REG_SP] = 0x10000;
regs[ARM_REG_LR] = 0x20000;
regs.set_sp(regs[ARM_REG_SP]);
regs.set_pc(0x1234);
// Everything should pass.
ASSERT_TRUE(interface.StepExidx(0x7000, ®s, &process_memory_));
ASSERT_EQ(0x10004U, regs.sp());
ASSERT_EQ(0x10004U, regs[ARM_REG_SP]);
ASSERT_EQ(0x10U, regs.pc());
ASSERT_EQ(0x10U, regs[ARM_REG_PC]);
}