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platform_system_core/libunwindstack/RegsX86_64.cpp
Christopher Ferris 6dbc28ece3 Fix null pointer dereference in RegsArm. 
Fix RegsArm::GetPcAdjustment to check for an invalid elf before trying
to read memory.
Modify the tests for this so it crashes without this change.

Also modify the GetPcAdjustment for all different architectures so
that unless the relative pc is too small, it will return the minimum
amount that should be adjusted. This is to handle cases where we still
want to adjust the pc but it's in an invalid elf. Mostly this is for
handling cases when the pc is in jit gdb debug code so that we use the
right unwind information.

Bug: 77233204

Test: Passes unit tests for libbacktrace/libunwindstack.
Change-Id: Id73609adaf3b80a583584441de228156fec3afa7
2018-03-28 17:21:01 -07:00

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/*
* 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 <stdint.h>
#include <functional>
#include <unwindstack/Elf.h>
#include <unwindstack/MachineX86_64.h>
#include <unwindstack/MapInfo.h>
#include <unwindstack/Memory.h>
#include <unwindstack/RegsX86_64.h>
#include <unwindstack/UcontextX86_64.h>
#include <unwindstack/UserX86_64.h>
namespace unwindstack {
RegsX86_64::RegsX86_64() : RegsImpl<uint64_t>(X86_64_REG_LAST, Location(LOCATION_SP_OFFSET, -8)) {}
ArchEnum RegsX86_64::Arch() {
return ARCH_X86_64;
}
uint64_t RegsX86_64::pc() {
return regs_[X86_64_REG_PC];
}
uint64_t RegsX86_64::sp() {
return regs_[X86_64_REG_SP];
}
void RegsX86_64::set_pc(uint64_t pc) {
regs_[X86_64_REG_PC] = pc;
}
void RegsX86_64::set_sp(uint64_t sp) {
regs_[X86_64_REG_SP] = sp;
}
uint64_t RegsX86_64::GetPcAdjustment(uint64_t rel_pc, Elf*) {
if (rel_pc == 0) {
return 0;
}
return 1;
}
bool RegsX86_64::SetPcFromReturnAddress(Memory* process_memory) {
// Attempt to get the return address from the top of the stack.
uint64_t new_pc;
if (!process_memory->ReadFully(regs_[X86_64_REG_SP], &new_pc, sizeof(new_pc)) ||
new_pc == regs_[X86_64_REG_PC]) {
return false;
}
regs_[X86_64_REG_PC] = new_pc;
return true;
}
void RegsX86_64::IterateRegisters(std::function<void(const char*, uint64_t)> fn) {
fn("rax", regs_[X86_64_REG_RAX]);
fn("rbx", regs_[X86_64_REG_RBX]);
fn("rcx", regs_[X86_64_REG_RCX]);
fn("rdx", regs_[X86_64_REG_RDX]);
fn("r8", regs_[X86_64_REG_R8]);
fn("r9", regs_[X86_64_REG_R9]);
fn("r10", regs_[X86_64_REG_R10]);
fn("r11", regs_[X86_64_REG_R11]);
fn("r12", regs_[X86_64_REG_R12]);
fn("r13", regs_[X86_64_REG_R13]);
fn("r14", regs_[X86_64_REG_R14]);
fn("r15", regs_[X86_64_REG_R15]);
fn("rdi", regs_[X86_64_REG_RDI]);
fn("rsi", regs_[X86_64_REG_RSI]);
fn("rbp", regs_[X86_64_REG_RBP]);
fn("rsp", regs_[X86_64_REG_RSP]);
fn("rip", regs_[X86_64_REG_RIP]);
}
Regs* RegsX86_64::Read(void* remote_data) {
x86_64_user_regs* user = reinterpret_cast<x86_64_user_regs*>(remote_data);
RegsX86_64* regs = new RegsX86_64();
(*regs)[X86_64_REG_RAX] = user->rax;
(*regs)[X86_64_REG_RBX] = user->rbx;
(*regs)[X86_64_REG_RCX] = user->rcx;
(*regs)[X86_64_REG_RDX] = user->rdx;
(*regs)[X86_64_REG_R8] = user->r8;
(*regs)[X86_64_REG_R9] = user->r9;
(*regs)[X86_64_REG_R10] = user->r10;
(*regs)[X86_64_REG_R11] = user->r11;
(*regs)[X86_64_REG_R12] = user->r12;
(*regs)[X86_64_REG_R13] = user->r13;
(*regs)[X86_64_REG_R14] = user->r14;
(*regs)[X86_64_REG_R15] = user->r15;
(*regs)[X86_64_REG_RDI] = user->rdi;
(*regs)[X86_64_REG_RSI] = user->rsi;
(*regs)[X86_64_REG_RBP] = user->rbp;
(*regs)[X86_64_REG_RSP] = user->rsp;
(*regs)[X86_64_REG_RIP] = user->rip;
return regs;
}
void RegsX86_64::SetFromUcontext(x86_64_ucontext_t* ucontext) {
// R8-R15
memcpy(&regs_[X86_64_REG_R8], &ucontext->uc_mcontext.r8, 8 * sizeof(uint64_t));
// Rest of the registers.
regs_[X86_64_REG_RDI] = ucontext->uc_mcontext.rdi;
regs_[X86_64_REG_RSI] = ucontext->uc_mcontext.rsi;
regs_[X86_64_REG_RBP] = ucontext->uc_mcontext.rbp;
regs_[X86_64_REG_RBX] = ucontext->uc_mcontext.rbx;
regs_[X86_64_REG_RDX] = ucontext->uc_mcontext.rdx;
regs_[X86_64_REG_RAX] = ucontext->uc_mcontext.rax;
regs_[X86_64_REG_RCX] = ucontext->uc_mcontext.rcx;
regs_[X86_64_REG_RSP] = ucontext->uc_mcontext.rsp;
regs_[X86_64_REG_RIP] = ucontext->uc_mcontext.rip;
}
Regs* RegsX86_64::CreateFromUcontext(void* ucontext) {
x86_64_ucontext_t* x86_64_ucontext = reinterpret_cast<x86_64_ucontext_t*>(ucontext);
RegsX86_64* regs = new RegsX86_64();
regs->SetFromUcontext(x86_64_ucontext);
return regs;
}
bool RegsX86_64::StepIfSignalHandler(uint64_t rel_pc, Elf* elf, Memory* process_memory) {
uint64_t data;
Memory* elf_memory = elf->memory();
// Read from elf memory since it is usually more expensive to read from
// process memory.
if (!elf_memory->ReadFully(rel_pc, &data, sizeof(data)) || data != 0x0f0000000fc0c748) {
return false;
}
uint16_t data2;
if (!elf_memory->ReadFully(rel_pc + 8, &data2, sizeof(data2)) || data2 != 0x0f05) {
return false;
}
// __restore_rt:
// 0x48 0xc7 0xc0 0x0f 0x00 0x00 0x00 mov $0xf,%rax
// 0x0f 0x05 syscall
// 0x0f nopl 0x0($rax)
// Read the mcontext data from the stack.
// sp points to the ucontext data structure, read only the mcontext part.
x86_64_ucontext_t x86_64_ucontext;
if (!process_memory->ReadFully(regs_[X86_64_REG_SP] + 0x28, &x86_64_ucontext.uc_mcontext,
sizeof(x86_64_mcontext_t))) {
return false;
}
SetFromUcontext(&x86_64_ucontext);
return true;
}
} // namespace unwindstack
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