RegisterContextPOSIXProcessMonitor_mips64.cpp
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//===-- RegisterContextPOSIXProcessMonitor_mips64.cpp -----------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "lldb/Target/Thread.h"
#include "lldb/Utility/DataBufferHeap.h"
#include "lldb/Utility/RegisterValue.h"
#include "Plugins/Process/Utility/RegisterContextPOSIX_mips64.h"
#include "ProcessFreeBSD.h"
#include "ProcessMonitor.h"
#include "RegisterContextPOSIXProcessMonitor_mips64.h"
using namespace lldb_private;
using namespace lldb;
#define REG_CONTEXT_SIZE (GetGPRSize())
RegisterContextPOSIXProcessMonitor_mips64::
RegisterContextPOSIXProcessMonitor_mips64(
Thread &thread, uint32_t concrete_frame_idx,
lldb_private::RegisterInfoInterface *register_info)
: RegisterContextPOSIX_mips64(thread, concrete_frame_idx, register_info) {}
ProcessMonitor &RegisterContextPOSIXProcessMonitor_mips64::GetMonitor() {
ProcessSP base = CalculateProcess();
ProcessFreeBSD *process = static_cast<ProcessFreeBSD *>(base.get());
return process->GetMonitor();
}
bool RegisterContextPOSIXProcessMonitor_mips64::ReadGPR() {
ProcessMonitor &monitor = GetMonitor();
return monitor.ReadGPR(m_thread.GetID(), &m_gpr_mips64, GetGPRSize());
}
bool RegisterContextPOSIXProcessMonitor_mips64::ReadFPR() {
// XXX not yet implemented
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::WriteGPR() {
ProcessMonitor &monitor = GetMonitor();
return monitor.WriteGPR(m_thread.GetID(), &m_gpr_mips64, GetGPRSize());
}
bool RegisterContextPOSIXProcessMonitor_mips64::WriteFPR() {
// XXX not yet implemented
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::ReadRegister(
const unsigned reg, RegisterValue &value) {
ProcessMonitor &monitor = GetMonitor();
return monitor.ReadRegisterValue(m_thread.GetID(), GetRegisterOffset(reg),
GetRegisterName(reg), GetRegisterSize(reg),
value);
}
bool RegisterContextPOSIXProcessMonitor_mips64::WriteRegister(
const unsigned reg, const RegisterValue &value) {
unsigned reg_to_write = reg;
RegisterValue value_to_write = value;
// Check if this is a subregister of a full register.
const RegisterInfo *reg_info = GetRegisterInfoAtIndex(reg);
if (reg_info->invalidate_regs &&
(reg_info->invalidate_regs[0] != LLDB_INVALID_REGNUM)) {
RegisterValue full_value;
uint32_t full_reg = reg_info->invalidate_regs[0];
const RegisterInfo *full_reg_info = GetRegisterInfoAtIndex(full_reg);
// Read the full register.
if (ReadRegister(full_reg_info, full_value)) {
Status error;
ByteOrder byte_order = GetByteOrder();
uint8_t dst[RegisterValue::kMaxRegisterByteSize];
// Get the bytes for the full register.
const uint32_t dest_size = full_value.GetAsMemoryData(
full_reg_info, dst, sizeof(dst), byte_order, error);
if (error.Success() && dest_size) {
uint8_t src[RegisterValue::kMaxRegisterByteSize];
// Get the bytes for the source data.
const uint32_t src_size = value.GetAsMemoryData(
reg_info, src, sizeof(src), byte_order, error);
if (error.Success() && src_size && (src_size < dest_size)) {
// Copy the src bytes to the destination.
memcpy(dst + (reg_info->byte_offset & 0x1), src, src_size);
// Set this full register as the value to write.
value_to_write.SetBytes(dst, full_value.GetByteSize(), byte_order);
value_to_write.SetType(full_reg_info);
reg_to_write = full_reg;
}
}
}
}
ProcessMonitor &monitor = GetMonitor();
return monitor.WriteRegisterValue(
m_thread.GetID(), GetRegisterOffset(reg_to_write),
GetRegisterName(reg_to_write), value_to_write);
}
bool RegisterContextPOSIXProcessMonitor_mips64::ReadRegister(
const RegisterInfo *reg_info, RegisterValue &value) {
if (!reg_info)
return false;
const uint32_t reg = reg_info->kinds[eRegisterKindLLDB];
if (IsFPR(reg)) {
if (!ReadFPR())
return false;
} else {
uint32_t full_reg = reg;
bool is_subreg = reg_info->invalidate_regs &&
(reg_info->invalidate_regs[0] != LLDB_INVALID_REGNUM);
if (is_subreg) {
// Read the full aligned 64-bit register.
full_reg = reg_info->invalidate_regs[0];
}
bool success = ReadRegister(full_reg, value);
if (success) {
// If our read was not aligned (for ah,bh,ch,dh), shift our returned
// value one byte to the right.
if (is_subreg && (reg_info->byte_offset & 0x1))
value.SetUInt64(value.GetAsUInt64() >> 8);
// If our return byte size was greater than the return value reg size,
// then use the type specified by reg_info rather than the uint64_t
// default
if (value.GetByteSize() > reg_info->byte_size)
value.SetType(reg_info);
}
return success;
}
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::WriteRegister(
const RegisterInfo *reg_info, const RegisterValue &value) {
const uint32_t reg = reg_info->kinds[eRegisterKindLLDB];
if (IsGPR(reg))
return WriteRegister(reg, value);
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::ReadAllRegisterValues(
DataBufferSP &data_sp) {
bool success = false;
data_sp.reset(new DataBufferHeap(REG_CONTEXT_SIZE, 0));
if (ReadGPR() && ReadFPR()) {
uint8_t *dst = data_sp->GetBytes();
success = dst != 0;
if (success) {
::memcpy(dst, &m_gpr_mips64, GetGPRSize());
}
}
return success;
}
bool RegisterContextPOSIXProcessMonitor_mips64::WriteAllRegisterValues(
const DataBufferSP &data_sp) {
bool success = false;
if (data_sp && data_sp->GetByteSize() == REG_CONTEXT_SIZE) {
uint8_t *src = data_sp->GetBytes();
if (src) {
::memcpy(&m_gpr_mips64, src, GetGPRSize());
if (WriteGPR()) {
src += GetGPRSize();
}
}
}
return success;
}
uint32_t RegisterContextPOSIXProcessMonitor_mips64::SetHardwareWatchpoint(
addr_t addr, size_t size, bool read, bool write) {
const uint32_t num_hw_watchpoints = NumSupportedHardwareWatchpoints();
uint32_t hw_index;
for (hw_index = 0; hw_index < num_hw_watchpoints; ++hw_index) {
if (IsWatchpointVacant(hw_index))
return SetHardwareWatchpointWithIndex(addr, size, read, write, hw_index);
}
return LLDB_INVALID_INDEX32;
}
bool RegisterContextPOSIXProcessMonitor_mips64::ClearHardwareWatchpoint(
uint32_t hw_index) {
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::HardwareSingleStep(
bool enable) {
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::UpdateAfterBreakpoint() {
// PC points one byte past the int3 responsible for the breakpoint.
lldb::addr_t pc;
if ((pc = GetPC()) == LLDB_INVALID_ADDRESS)
return false;
SetPC(pc - 1);
return true;
}
unsigned RegisterContextPOSIXProcessMonitor_mips64::GetRegisterIndexFromOffset(
unsigned offset) {
unsigned reg;
for (reg = 0; reg < k_num_registers_mips64; reg++) {
if (GetRegisterInfo()[reg].byte_offset == offset)
break;
}
assert(reg < k_num_registers_mips64 && "Invalid register offset.");
return reg;
}
bool RegisterContextPOSIXProcessMonitor_mips64::IsWatchpointHit(
uint32_t hw_index) {
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::ClearWatchpointHits() {
return false;
}
addr_t RegisterContextPOSIXProcessMonitor_mips64::GetWatchpointAddress(
uint32_t hw_index) {
return LLDB_INVALID_ADDRESS;
}
bool RegisterContextPOSIXProcessMonitor_mips64::IsWatchpointVacant(
uint32_t hw_index) {
return false;
}
bool RegisterContextPOSIXProcessMonitor_mips64::SetHardwareWatchpointWithIndex(
addr_t addr, size_t size, bool read, bool write, uint32_t hw_index) {
return false;
}
uint32_t
RegisterContextPOSIXProcessMonitor_mips64::NumSupportedHardwareWatchpoints() {
return 0;
}