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cobalt / cobalt / 3cd5432aaed8f14f27f66ade1b51aa71df939492 / . / third_party / llvm-project / lldb / source / Host / common / SoftwareBreakpoint.cpp
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//===-- SoftwareBreakpoint.cpp ----------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lldb/Host/common/SoftwareBreakpoint.h"
#include "lldb/Host/Debug.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/Status.h"
#include "lldb/Host/common/NativeProcessProtocol.h"
using namespace lldb_private;
// ------------------------------------------------------------------- static
// members -------------------------------------------------------------------
Status SoftwareBreakpoint::CreateSoftwareBreakpoint(
NativeProcessProtocol &process, lldb::addr_t addr, size_t size_hint,
NativeBreakpointSP &breakpoint_sp) {
Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS));
if (log)
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64, __FUNCTION__, addr);
// Validate the address.
if (addr == LLDB_INVALID_ADDRESS)
return Status("SoftwareBreakpoint::%s invalid load address specified.",
__FUNCTION__);
// Ask the NativeProcessProtocol subclass to fill in the correct software
// breakpoint trap for the breakpoint site.
size_t bp_opcode_size = 0;
const uint8_t *bp_opcode_bytes = NULL;
Status error = process.GetSoftwareBreakpointTrapOpcode(
size_hint, bp_opcode_size, bp_opcode_bytes);
if (error.Fail()) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to retrieve software "
"breakpoint trap opcode: %s",
__FUNCTION__, error.AsCString());
return error;
}
// Validate size of trap opcode.
if (bp_opcode_size == 0) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to retrieve any trap opcodes",
__FUNCTION__);
return Status("SoftwareBreakpoint::GetSoftwareBreakpointTrapOpcode() "
"returned zero, unable to get breakpoint trap for address "
"0x%" PRIx64,
addr);
}
if (bp_opcode_size > MAX_TRAP_OPCODE_SIZE) {
if (log)
log->Printf("SoftwareBreakpoint::%s cannot support %zu trapcode bytes, "
"max size is %zu",
__FUNCTION__, bp_opcode_size, MAX_TRAP_OPCODE_SIZE);
return Status("SoftwareBreakpoint::GetSoftwareBreakpointTrapOpcode() "
"returned too many trap opcode bytes: requires %zu but we "
"only support a max of %zu",
bp_opcode_size, MAX_TRAP_OPCODE_SIZE);
}
// Validate that we received opcodes.
if (!bp_opcode_bytes) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to retrieve trap opcode bytes",
__FUNCTION__);
return Status("SoftwareBreakpoint::GetSoftwareBreakpointTrapOpcode() "
"returned NULL trap opcode bytes, unable to get breakpoint "
"trap for address 0x%" PRIx64,
addr);
}
// Enable the breakpoint.
uint8_t saved_opcode_bytes[MAX_TRAP_OPCODE_SIZE];
error = EnableSoftwareBreakpoint(process, addr, bp_opcode_size,
bp_opcode_bytes, saved_opcode_bytes);
if (error.Fail()) {
if (log)
log->Printf("SoftwareBreakpoint::%s: failed to enable new breakpoint at "
"0x%" PRIx64 ": %s",
__FUNCTION__, addr, error.AsCString());
return error;
}
if (log)
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64 " -- SUCCESS",
__FUNCTION__, addr);
// Set the breakpoint and verified it was written properly. Now create a
// breakpoint remover that understands how to undo this breakpoint.
breakpoint_sp.reset(new SoftwareBreakpoint(process, addr, saved_opcode_bytes,
bp_opcode_bytes, bp_opcode_size));
return Status();
}
Status SoftwareBreakpoint::EnableSoftwareBreakpoint(
NativeProcessProtocol &process, lldb::addr_t addr, size_t bp_opcode_size,
const uint8_t *bp_opcode_bytes, uint8_t *saved_opcode_bytes) {
assert(bp_opcode_size <= MAX_TRAP_OPCODE_SIZE &&
"bp_opcode_size out of valid range");
assert(bp_opcode_bytes && "bp_opcode_bytes is NULL");
assert(saved_opcode_bytes && "saved_opcode_bytes is NULL");
Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS));
if (log)
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64, __FUNCTION__, addr);
// Save the original opcodes by reading them so we can restore later.
size_t bytes_read = 0;
Status error =
process.ReadMemory(addr, saved_opcode_bytes, bp_opcode_size, bytes_read);
if (error.Fail()) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to read memory while "
"attempting to set breakpoint: %s",
__FUNCTION__, error.AsCString());
return error;
}
// Ensure we read as many bytes as we expected.
if (bytes_read != bp_opcode_size) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to read memory while "
"attempting to set breakpoint: attempted to read %zu bytes "
"but only read %zu",
__FUNCTION__, bp_opcode_size, bytes_read);
return Status("SoftwareBreakpoint::%s failed to read memory while "
"attempting to set breakpoint: attempted to read %zu bytes "
"but only read %zu",
__FUNCTION__, bp_opcode_size, bytes_read);
}
// Log what we read.
if (log) {
int i = 0;
for (const uint8_t *read_byte = saved_opcode_bytes;
read_byte < saved_opcode_bytes + bp_opcode_size; ++read_byte) {
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64
" ovewriting byte index %d (was 0x%hhx)",
__FUNCTION__, addr, i++, *read_byte);
}
}
// Write a software breakpoint in place of the original opcode.
size_t bytes_written = 0;
error =
process.WriteMemory(addr, bp_opcode_bytes, bp_opcode_size, bytes_written);
if (error.Fail()) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to write memory while "
"attempting to set breakpoint: %s",
__FUNCTION__, error.AsCString());
return error;
}
// Ensure we wrote as many bytes as we expected.
if (bytes_written != bp_opcode_size) {
error.SetErrorStringWithFormat(
"SoftwareBreakpoint::%s failed write memory while attempting to set "
"breakpoint: attempted to write %zu bytes but only wrote %zu",
__FUNCTION__, bp_opcode_size, bytes_written);
if (log)
log->PutCString(error.AsCString());
return error;
}
uint8_t verify_bp_opcode_bytes[MAX_TRAP_OPCODE_SIZE];
size_t verify_bytes_read = 0;
error = process.ReadMemory(addr, verify_bp_opcode_bytes, bp_opcode_size,
verify_bytes_read);
if (error.Fail()) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to read memory while "
"attempting to verify the breakpoint set: %s",
__FUNCTION__, error.AsCString());
return error;
}
// Ensure we read as many verification bytes as we expected.
if (verify_bytes_read != bp_opcode_size) {
if (log)
log->Printf("SoftwareBreakpoint::%s failed to read memory while "
"attempting to verify breakpoint: attempted to read %zu "
"bytes but only read %zu",
__FUNCTION__, bp_opcode_size, verify_bytes_read);
return Status(
"SoftwareBreakpoint::%s failed to read memory while "
"attempting to verify breakpoint: attempted to read %zu bytes "
"but only read %zu",
__FUNCTION__, bp_opcode_size, verify_bytes_read);
}
if (::memcmp(bp_opcode_bytes, verify_bp_opcode_bytes, bp_opcode_size) != 0) {
if (log)
log->Printf("SoftwareBreakpoint::%s: verification of software breakpoint "
"writing failed - trap opcodes not successfully read back "
"after writing when setting breakpoint at 0x%" PRIx64,
__FUNCTION__, addr);
return Status("SoftwareBreakpoint::%s: verification of software breakpoint "
"writing failed - trap opcodes not successfully read back "
"after writing when setting breakpoint at 0x%" PRIx64,
__FUNCTION__, addr);
}
if (log)
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64 " -- SUCCESS",
__FUNCTION__, addr);
return Status();
}
// -------------------------------------------------------------------
// instance-level members
// -------------------------------------------------------------------
SoftwareBreakpoint::SoftwareBreakpoint(NativeProcessProtocol &process,
lldb::addr_t addr,
const uint8_t *saved_opcodes,
const uint8_t *trap_opcodes,
size_t opcode_size)
: NativeBreakpoint(addr), m_process(process), m_saved_opcodes(),
m_trap_opcodes(), m_opcode_size(opcode_size) {
assert(opcode_size > 0 && "setting software breakpoint with no trap opcodes");
assert(opcode_size <= MAX_TRAP_OPCODE_SIZE && "trap opcode size too large");
::memcpy(m_saved_opcodes, saved_opcodes, opcode_size);
::memcpy(m_trap_opcodes, trap_opcodes, opcode_size);
}
Status SoftwareBreakpoint::DoEnable() {
return EnableSoftwareBreakpoint(m_process, m_addr, m_opcode_size,
m_trap_opcodes, m_saved_opcodes);
}
Status SoftwareBreakpoint::DoDisable() {
Status error;
assert(m_addr && (m_addr != LLDB_INVALID_ADDRESS) &&
"can't remove a software breakpoint for an invalid address");
Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS));
if (log)
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64, __FUNCTION__,
m_addr);
assert((m_opcode_size > 0) &&
"cannot restore opcodes when there are no opcodes");
if (m_opcode_size > 0) {
// Clear a software breakpoint instruction
uint8_t curr_break_op[MAX_TRAP_OPCODE_SIZE];
bool break_op_found = false;
assert(m_opcode_size <= sizeof(curr_break_op));
// Read the breakpoint opcode
size_t bytes_read = 0;
error =
m_process.ReadMemory(m_addr, curr_break_op, m_opcode_size, bytes_read);
if (error.Success() && bytes_read < m_opcode_size) {
error.SetErrorStringWithFormat(
"SoftwareBreakpointr::%s addr=0x%" PRIx64
": tried to read %zu bytes but only read %zu",
__FUNCTION__, m_addr, m_opcode_size, bytes_read);
}
if (error.Success()) {
bool verify = false;
// Make sure the breakpoint opcode exists at this address
if (::memcmp(curr_break_op, m_trap_opcodes, m_opcode_size) == 0) {
break_op_found = true;
// We found a valid breakpoint opcode at this address, now restore the
// saved opcode.
size_t bytes_written = 0;
error = m_process.WriteMemory(m_addr, m_saved_opcodes, m_opcode_size,
bytes_written);
if (error.Success() && bytes_written < m_opcode_size) {
error.SetErrorStringWithFormat(
"SoftwareBreakpoint::%s addr=0x%" PRIx64
": tried to write %zu bytes but only wrote %zu",
__FUNCTION__, m_addr, m_opcode_size, bytes_written);
}
if (error.Success()) {
verify = true;
}
} else {
error.SetErrorString(
"Original breakpoint trap is no longer in memory.");
// Set verify to true and so we can check if the original opcode has
// already been restored
verify = true;
}
if (verify) {
uint8_t verify_opcode[MAX_TRAP_OPCODE_SIZE];
assert(m_opcode_size <= sizeof(verify_opcode));
// Verify that our original opcode made it back to the inferior
size_t verify_bytes_read = 0;
error = m_process.ReadMemory(m_addr, verify_opcode, m_opcode_size,
verify_bytes_read);
if (error.Success() && verify_bytes_read < m_opcode_size) {
error.SetErrorStringWithFormat(
"SoftwareBreakpoint::%s addr=0x%" PRIx64
": tried to read %zu verification bytes but only read %zu",
__FUNCTION__, m_addr, m_opcode_size, verify_bytes_read);
}
if (error.Success()) {
// compare the memory we just read with the original opcode
if (::memcmp(m_saved_opcodes, verify_opcode, m_opcode_size) == 0) {
// SUCCESS
if (log) {
int i = 0;
for (const uint8_t *verify_byte = verify_opcode;
verify_byte < verify_opcode + m_opcode_size; ++verify_byte) {
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64
" replaced byte index %d with 0x%hhx",
__FUNCTION__, m_addr, i++, *verify_byte);
}
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64
" -- SUCCESS",
__FUNCTION__, m_addr);
}
return error;
} else {
if (break_op_found)
error.SetErrorString("Failed to restore original opcode.");
}
} else
error.SetErrorString("Failed to read memory to verify that "
"breakpoint trap was restored.");
}
}
}
if (log && error.Fail())
log->Printf("SoftwareBreakpoint::%s addr = 0x%" PRIx64 " -- FAILED: %s",
__FUNCTION__, m_addr, error.AsCString());
return error;
}
bool SoftwareBreakpoint::IsSoftwareBreakpoint() const { return true; }