RegisterContext.cpp
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//===-- RegisterContext.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/RegisterContext.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/Value.h"
#include "lldb/Expression/DWARFExpression.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/StackFrame.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/Thread.h"
#include "lldb/Utility/DataExtractor.h"
#include "lldb/Utility/Endian.h"
#include "lldb/Utility/RegisterValue.h"
#include "lldb/Utility/Scalar.h"
using namespace lldb;
using namespace lldb_private;
RegisterContext::RegisterContext(Thread &thread, uint32_t concrete_frame_idx)
: m_thread(thread), m_concrete_frame_idx(concrete_frame_idx),
m_stop_id(thread.GetProcess()->GetStopID()) {}
RegisterContext::~RegisterContext() = default;
void RegisterContext::InvalidateIfNeeded(bool force) {
ProcessSP process_sp(m_thread.GetProcess());
bool invalidate = force;
uint32_t process_stop_id = UINT32_MAX;
if (process_sp)
process_stop_id = process_sp->GetStopID();
else
invalidate = true;
if (!invalidate)
invalidate = process_stop_id != GetStopID();
if (invalidate) {
InvalidateAllRegisters();
SetStopID(process_stop_id);
}
}
const RegisterInfo *
RegisterContext::GetRegisterInfoByName(llvm::StringRef reg_name,
uint32_t start_idx) {
if (reg_name.empty())
return nullptr;
const uint32_t num_registers = GetRegisterCount();
for (uint32_t reg = start_idx; reg < num_registers; ++reg) {
const RegisterInfo *reg_info = GetRegisterInfoAtIndex(reg);
if (reg_name.equals_lower(reg_info->name) ||
reg_name.equals_lower(reg_info->alt_name))
return reg_info;
}
return nullptr;
}
uint32_t
RegisterContext::UpdateDynamicRegisterSize(const lldb_private::ArchSpec &arch,
RegisterInfo *reg_info) {
ExecutionContext exe_ctx(CalculateThread());
// In MIPS, the floating point registers size is depends on FR bit of SR
// register. if SR.FR == 1 then all floating point registers are 64 bits.
// else they are all 32 bits.
int expr_result;
uint32_t addr_size = arch.GetAddressByteSize();
const uint8_t *dwarf_opcode_ptr = reg_info->dynamic_size_dwarf_expr_bytes;
const size_t dwarf_opcode_len = reg_info->dynamic_size_dwarf_len;
DataExtractor dwarf_data(dwarf_opcode_ptr, dwarf_opcode_len,
arch.GetByteOrder(), addr_size);
ModuleSP opcode_ctx;
DWARFExpression dwarf_expr(opcode_ctx, dwarf_data, nullptr);
Value result;
Status error;
if (dwarf_expr.Evaluate(&exe_ctx, this, opcode_ctx, dwarf_data, nullptr,
eRegisterKindDWARF, nullptr, nullptr, result,
&error)) {
expr_result = result.GetScalar().SInt(-1);
switch (expr_result) {
case 0:
return 4;
case 1:
return 8;
default:
return reg_info->byte_size;
}
} else {
printf("Error executing DwarfExpression::Evaluate %s\n", error.AsCString());
return reg_info->byte_size;
}
}
const RegisterInfo *RegisterContext::GetRegisterInfo(lldb::RegisterKind kind,
uint32_t num) {
const uint32_t reg_num = ConvertRegisterKindToRegisterNumber(kind, num);
if (reg_num == LLDB_INVALID_REGNUM)
return nullptr;
return GetRegisterInfoAtIndex(reg_num);
}
const char *RegisterContext::GetRegisterName(uint32_t reg) {
const RegisterInfo *reg_info = GetRegisterInfoAtIndex(reg);
if (reg_info)
return reg_info->name;
return nullptr;
}
uint64_t RegisterContext::GetPC(uint64_t fail_value) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_PC);
uint64_t pc = ReadRegisterAsUnsigned(reg, fail_value);
if (pc != fail_value) {
TargetSP target_sp = m_thread.CalculateTarget();
if (target_sp) {
Target *target = target_sp.get();
if (target)
pc = target->GetOpcodeLoadAddress(pc, AddressClass::eCode);
}
}
return pc;
}
bool RegisterContext::SetPC(uint64_t pc) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_PC);
bool success = WriteRegisterFromUnsigned(reg, pc);
if (success) {
StackFrameSP frame_sp(
m_thread.GetFrameWithConcreteFrameIndex(m_concrete_frame_idx));
if (frame_sp)
frame_sp->ChangePC(pc);
else
m_thread.ClearStackFrames();
}
return success;
}
bool RegisterContext::SetPC(Address addr) {
TargetSP target_sp = m_thread.CalculateTarget();
Target *target = target_sp.get();
lldb::addr_t callAddr = addr.GetCallableLoadAddress(target);
if (callAddr == LLDB_INVALID_ADDRESS)
return false;
return SetPC(callAddr);
}
uint64_t RegisterContext::GetSP(uint64_t fail_value) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_SP);
return ReadRegisterAsUnsigned(reg, fail_value);
}
bool RegisterContext::SetSP(uint64_t sp) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_SP);
return WriteRegisterFromUnsigned(reg, sp);
}
uint64_t RegisterContext::GetFP(uint64_t fail_value) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_FP);
return ReadRegisterAsUnsigned(reg, fail_value);
}
bool RegisterContext::SetFP(uint64_t fp) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_FP);
return WriteRegisterFromUnsigned(reg, fp);
}
uint64_t RegisterContext::GetReturnAddress(uint64_t fail_value) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_RA);
return ReadRegisterAsUnsigned(reg, fail_value);
}
uint64_t RegisterContext::GetFlags(uint64_t fail_value) {
uint32_t reg = ConvertRegisterKindToRegisterNumber(eRegisterKindGeneric,
LLDB_REGNUM_GENERIC_FLAGS);
return ReadRegisterAsUnsigned(reg, fail_value);
}
uint64_t RegisterContext::ReadRegisterAsUnsigned(uint32_t reg,
uint64_t fail_value) {
if (reg != LLDB_INVALID_REGNUM)
return ReadRegisterAsUnsigned(GetRegisterInfoAtIndex(reg), fail_value);
return fail_value;
}
uint64_t RegisterContext::ReadRegisterAsUnsigned(const RegisterInfo *reg_info,
uint64_t fail_value) {
if (reg_info) {
RegisterValue value;
if (ReadRegister(reg_info, value))
return value.GetAsUInt64();
}
return fail_value;
}
bool RegisterContext::WriteRegisterFromUnsigned(uint32_t reg, uint64_t uval) {
if (reg == LLDB_INVALID_REGNUM)
return false;
return WriteRegisterFromUnsigned(GetRegisterInfoAtIndex(reg), uval);
}
bool RegisterContext::WriteRegisterFromUnsigned(const RegisterInfo *reg_info,
uint64_t uval) {
if (reg_info) {
RegisterValue value;
if (value.SetUInt(uval, reg_info->byte_size))
return WriteRegister(reg_info, value);
}
return false;
}
bool RegisterContext::CopyFromRegisterContext(lldb::RegisterContextSP context) {
uint32_t num_register_sets = context->GetRegisterSetCount();
// We don't know that two threads have the same register context, so require
// the threads to be the same.
if (context->GetThreadID() != GetThreadID())
return false;
if (num_register_sets != GetRegisterSetCount())
return false;
RegisterContextSP frame_zero_context = m_thread.GetRegisterContext();
for (uint32_t set_idx = 0; set_idx < num_register_sets; ++set_idx) {
const RegisterSet *const reg_set = GetRegisterSet(set_idx);
const uint32_t num_registers = reg_set->num_registers;
for (uint32_t reg_idx = 0; reg_idx < num_registers; ++reg_idx) {
const uint32_t reg = reg_set->registers[reg_idx];
const RegisterInfo *reg_info = GetRegisterInfoAtIndex(reg);
if (!reg_info || reg_info->value_regs)
continue;
RegisterValue reg_value;
// If we can reconstruct the register from the frame we are copying from,
// then do so, otherwise use the value from frame 0.
if (context->ReadRegister(reg_info, reg_value)) {
WriteRegister(reg_info, reg_value);
} else if (frame_zero_context->ReadRegister(reg_info, reg_value)) {
WriteRegister(reg_info, reg_value);
}
}
}
return true;
}
lldb::tid_t RegisterContext::GetThreadID() const { return m_thread.GetID(); }
uint32_t RegisterContext::NumSupportedHardwareBreakpoints() { return 0; }
uint32_t RegisterContext::SetHardwareBreakpoint(lldb::addr_t addr,
size_t size) {
return LLDB_INVALID_INDEX32;
}
bool RegisterContext::ClearHardwareBreakpoint(uint32_t hw_idx) { return false; }
uint32_t RegisterContext::NumSupportedHardwareWatchpoints() { return 0; }
uint32_t RegisterContext::SetHardwareWatchpoint(lldb::addr_t addr, size_t size,
bool read, bool write) {
return LLDB_INVALID_INDEX32;
}
bool RegisterContext::ClearHardwareWatchpoint(uint32_t hw_index) {
return false;
}
bool RegisterContext::HardwareSingleStep(bool enable) { return false; }
Status RegisterContext::ReadRegisterValueFromMemory(
const RegisterInfo *reg_info, lldb::addr_t src_addr, uint32_t src_len,
RegisterValue ®_value) {
Status error;
if (reg_info == nullptr) {
error.SetErrorString("invalid register info argument.");
return error;
}
// Moving from addr into a register
//
// Case 1: src_len == dst_len
//
// |AABBCCDD| Address contents
// |AABBCCDD| Register contents
//
// Case 2: src_len > dst_len
//
// Status! (The register should always be big enough to hold the data)
//
// Case 3: src_len < dst_len
//
// |AABB| Address contents
// |AABB0000| Register contents [on little-endian hardware]
// |0000AABB| Register contents [on big-endian hardware]
if (src_len > RegisterValue::kMaxRegisterByteSize) {
error.SetErrorString("register too small to receive memory data");
return error;
}
const uint32_t dst_len = reg_info->byte_size;
if (src_len > dst_len) {
error.SetErrorStringWithFormat(
"%u bytes is too big to store in register %s (%u bytes)", src_len,
reg_info->name, dst_len);
return error;
}
ProcessSP process_sp(m_thread.GetProcess());
if (process_sp) {
uint8_t src[RegisterValue::kMaxRegisterByteSize];
// Read the memory
const uint32_t bytes_read =
process_sp->ReadMemory(src_addr, src, src_len, error);
// Make sure the memory read succeeded...
if (bytes_read != src_len) {
if (error.Success()) {
// This might happen if we read _some_ bytes but not all
error.SetErrorStringWithFormat("read %u of %u bytes", bytes_read,
src_len);
}
return error;
}
// We now have a memory buffer that contains the part or all of the
// register value. Set the register value using this memory data.
// TODO: we might need to add a parameter to this function in case the byte
// order of the memory data doesn't match the process. For now we are
// assuming they are the same.
reg_value.SetFromMemoryData(reg_info, src, src_len,
process_sp->GetByteOrder(), error);
} else
error.SetErrorString("invalid process");
return error;
}
Status RegisterContext::WriteRegisterValueToMemory(
const RegisterInfo *reg_info, lldb::addr_t dst_addr, uint32_t dst_len,
const RegisterValue ®_value) {
uint8_t dst[RegisterValue::kMaxRegisterByteSize];
Status error;
ProcessSP process_sp(m_thread.GetProcess());
if (process_sp) {
// TODO: we might need to add a parameter to this function in case the byte
// order of the memory data doesn't match the process. For now we are
// assuming they are the same.
const uint32_t bytes_copied = reg_value.GetAsMemoryData(
reg_info, dst, dst_len, process_sp->GetByteOrder(), error);
if (error.Success()) {
if (bytes_copied == 0) {
error.SetErrorString("byte copy failed.");
} else {
const uint32_t bytes_written =
process_sp->WriteMemory(dst_addr, dst, bytes_copied, error);
if (bytes_written != bytes_copied) {
if (error.Success()) {
// This might happen if we read _some_ bytes but not all
error.SetErrorStringWithFormat("only wrote %u of %u bytes",
bytes_written, bytes_copied);
}
}
}
}
} else
error.SetErrorString("invalid process");
return error;
}
bool RegisterContext::ReadAllRegisterValues(
lldb_private::RegisterCheckpoint ®_checkpoint) {
return ReadAllRegisterValues(reg_checkpoint.GetData());
}
bool RegisterContext::WriteAllRegisterValues(
const lldb_private::RegisterCheckpoint ®_checkpoint) {
return WriteAllRegisterValues(reg_checkpoint.GetData());
}
TargetSP RegisterContext::CalculateTarget() {
return m_thread.CalculateTarget();
}
ProcessSP RegisterContext::CalculateProcess() {
return m_thread.CalculateProcess();
}
ThreadSP RegisterContext::CalculateThread() {
return m_thread.shared_from_this();
}
StackFrameSP RegisterContext::CalculateStackFrame() {
// Register contexts might belong to many frames if we have inlined functions
// inside a frame since all inlined functions share the same registers, so we
// can't definitively say which frame we come from...
return StackFrameSP();
}
void RegisterContext::CalculateExecutionContext(ExecutionContext &exe_ctx) {
m_thread.CalculateExecutionContext(exe_ctx);
}
bool RegisterContext::ConvertBetweenRegisterKinds(lldb::RegisterKind source_rk,
uint32_t source_regnum,
lldb::RegisterKind target_rk,
uint32_t &target_regnum) {
const uint32_t num_registers = GetRegisterCount();
for (uint32_t reg = 0; reg < num_registers; ++reg) {
const RegisterInfo *reg_info = GetRegisterInfoAtIndex(reg);
if (reg_info->kinds[source_rk] == source_regnum) {
target_regnum = reg_info->kinds[target_rk];
return (target_regnum != LLDB_INVALID_REGNUM);
}
}
return false;
}