//===-- RegisterContextWindows_x64.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/lldb-private-types.h" #include "lldb/Core/Error.h" #include "lldb/Core/RegisterValue.h" #include "lldb/Host/windows/HostThreadWindows.h" #include "lldb/Host/windows/windows.h" #include "lldb-x86-register-enums.h" #include "RegisterContext_x86.h" #include "RegisterContextWindows_x64.h" #include "TargetThreadWindows.h" #include "llvm/ADT/STLExtras.h" using namespace lldb; using namespace lldb_private; #define DEFINE_GPR(reg, alt) #reg, alt, 8, 0, eEncodingUint, eFormatHexUppercase #define DEFINE_GPR_BIN(reg, alt) #reg, alt, 8, 0, eEncodingUint, eFormatBinary namespace { // This enum defines the layout of the global RegisterInfo array. This is necessary because // lldb register sets are defined in terms of indices into the register array. As such, the // order of RegisterInfos defined in global registers array must match the order defined here. // When defining the register set layouts, these values can appear in an arbitrary order, and that // determines the order that register values are displayed in a dump. enum RegisterIndex { eRegisterIndexRax, eRegisterIndexRbx, eRegisterIndexRcx, eRegisterIndexRdx, eRegisterIndexRdi, eRegisterIndexRsi, eRegisterIndexR8, eRegisterIndexR9, eRegisterIndexR10, eRegisterIndexR11, eRegisterIndexR12, eRegisterIndexR13, eRegisterIndexR14, eRegisterIndexR15, eRegisterIndexRbp, eRegisterIndexRsp, eRegisterIndexRip, eRegisterIndexRflags }; // Array of all register information supported by Windows x86 RegisterInfo g_register_infos[] = { // Macro auto defines most stuff GCC DWARF GENERIC // GDB LLDB VALUE REGS INVALIDATE REGS // ================================ ========================= ====================== ========================= // =================== ================= ========== =============== {DEFINE_GPR(rax, nullptr), {gcc_dwarf_rax_x86_64, gcc_dwarf_rax_x86_64, LLDB_INVALID_REGNUM, gdb_rax_x86_64, lldb_rax_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rbx, nullptr), {gcc_dwarf_rbx_x86_64, gcc_dwarf_rbx_x86_64, LLDB_INVALID_REGNUM, gdb_rbx_x86_64, lldb_rbx_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rcx, nullptr), {gcc_dwarf_rcx_x86_64, gcc_dwarf_rcx_x86_64, LLDB_INVALID_REGNUM, gdb_rcx_x86_64, lldb_rcx_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rdx, nullptr), {gcc_dwarf_rdx_x86_64, gcc_dwarf_rdx_x86_64, LLDB_INVALID_REGNUM, gdb_rdx_x86_64, lldb_rdx_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rdi, nullptr), {gcc_dwarf_rdi_x86_64, gcc_dwarf_rdi_x86_64, LLDB_INVALID_REGNUM, gdb_rdi_x86_64, lldb_rdi_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rsi, nullptr), {gcc_dwarf_rsi_x86_64, gcc_dwarf_rsi_x86_64, LLDB_INVALID_REGNUM, gdb_rsi_x86_64, lldb_rsi_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r8, nullptr), {gcc_dwarf_r8_x86_64, gcc_dwarf_r8_x86_64, LLDB_INVALID_REGNUM, gdb_r8_x86_64, lldb_r8_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r9, nullptr), {gcc_dwarf_r9_x86_64, gcc_dwarf_r9_x86_64, LLDB_INVALID_REGNUM, gdb_r9_x86_64, lldb_r9_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r10, nullptr), {gcc_dwarf_r10_x86_64, gcc_dwarf_r10_x86_64, LLDB_INVALID_REGNUM, gdb_r10_x86_64, lldb_r10_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r11, nullptr), {gcc_dwarf_r11_x86_64, gcc_dwarf_r11_x86_64, LLDB_INVALID_REGNUM, gdb_r11_x86_64, lldb_r11_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r12, nullptr), {gcc_dwarf_r12_x86_64, gcc_dwarf_r12_x86_64, LLDB_INVALID_REGNUM, gdb_r12_x86_64, lldb_r12_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r13, nullptr), {gcc_dwarf_r13_x86_64, gcc_dwarf_r13_x86_64, LLDB_INVALID_REGNUM, gdb_r13_x86_64, lldb_r13_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r14, nullptr), {gcc_dwarf_r14_x86_64, gcc_dwarf_r14_x86_64, LLDB_INVALID_REGNUM, gdb_r14_x86_64, lldb_r14_x86_64}, nullptr, nullptr}, {DEFINE_GPR(r15, nullptr), {gcc_dwarf_r15_x86_64, gcc_dwarf_r15_x86_64, LLDB_INVALID_REGNUM, gdb_r15_x86_64, lldb_r15_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rbp, "fp"), {gcc_dwarf_rbp_x86_64, gcc_dwarf_rbp_x86_64, LLDB_REGNUM_GENERIC_FP, gdb_rbp_x86_64, lldb_rbp_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rsp, "sp"), {gcc_dwarf_rsp_x86_64, gcc_dwarf_rsp_x86_64, LLDB_REGNUM_GENERIC_SP, gdb_rsp_x86_64, lldb_rsp_x86_64}, nullptr, nullptr}, {DEFINE_GPR(rip, "pc"), {gcc_dwarf_rip_x86_64, gcc_dwarf_rip_x86_64, LLDB_REGNUM_GENERIC_PC, gdb_rip_x86_64, lldb_rip_x86_64}, nullptr, nullptr}, {DEFINE_GPR_BIN(eflags, "flags"), {LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, LLDB_REGNUM_GENERIC_FLAGS, gdb_rflags_x86_64, lldb_rflags_x86_64}, nullptr, nullptr}, }; // Array of lldb register numbers used to define the set of all General Purpose Registers uint32_t g_gpr_reg_indices[] = {eRegisterIndexRax, eRegisterIndexRbx, eRegisterIndexRcx, eRegisterIndexRdx, eRegisterIndexRdi, eRegisterIndexRsi, eRegisterIndexR8, eRegisterIndexR9, eRegisterIndexR10, eRegisterIndexR11, eRegisterIndexR12, eRegisterIndexR13, eRegisterIndexR14, eRegisterIndexR15, eRegisterIndexRbp, eRegisterIndexRsp, eRegisterIndexRip, eRegisterIndexRflags}; RegisterSet g_register_sets[] = { {"General Purpose Registers", "gpr", llvm::array_lengthof(g_gpr_reg_indices), g_gpr_reg_indices}, }; } //------------------------------------------------------------------ // Constructors and Destructors //------------------------------------------------------------------ RegisterContextWindows_x64::RegisterContextWindows_x64(Thread &thread, uint32_t concrete_frame_idx) : RegisterContextWindows(thread, concrete_frame_idx) { } RegisterContextWindows_x64::~RegisterContextWindows_x64() { } size_t RegisterContextWindows_x64::GetRegisterCount() { return llvm::array_lengthof(g_register_infos); } const RegisterInfo * RegisterContextWindows_x64::GetRegisterInfoAtIndex(size_t reg) { return &g_register_infos[reg]; } size_t RegisterContextWindows_x64::GetRegisterSetCount() { return llvm::array_lengthof(g_register_sets); } const RegisterSet * RegisterContextWindows_x64::GetRegisterSet(size_t reg_set) { return &g_register_sets[reg_set]; } bool RegisterContextWindows_x64::ReadRegister(const RegisterInfo *reg_info, RegisterValue ®_value) { if (!CacheAllRegisterValues()) return false; switch (reg_info->kinds[eRegisterKindLLDB]) { case lldb_rax_x86_64: reg_value.SetUInt64(m_context.Rax); break; case lldb_rbx_x86_64: reg_value.SetUInt64(m_context.Rbx); break; case lldb_rcx_x86_64: reg_value.SetUInt64(m_context.Rcx); break; case lldb_rdx_x86_64: reg_value.SetUInt64(m_context.Rdx); break; case lldb_rdi_x86_64: reg_value.SetUInt64(m_context.Rdi); break; case lldb_rsi_x86_64: reg_value.SetUInt64(m_context.Rsi); break; case lldb_r8_x86_64: reg_value.SetUInt64(m_context.R8); break; case lldb_r9_x86_64: reg_value.SetUInt64(m_context.R9); break; case lldb_r10_x86_64: reg_value.SetUInt64(m_context.R10); break; case lldb_r11_x86_64: reg_value.SetUInt64(m_context.R11); break; case lldb_r12_x86_64: reg_value.SetUInt64(m_context.R12); break; case lldb_r13_x86_64: reg_value.SetUInt64(m_context.R13); break; case lldb_r14_x86_64: reg_value.SetUInt64(m_context.R14); break; case lldb_r15_x86_64: reg_value.SetUInt64(m_context.R15); break; case lldb_rbp_x86_64: reg_value.SetUInt64(m_context.Rbp); break; case lldb_rsp_x86_64: reg_value.SetUInt64(m_context.Rsp); break; case lldb_rip_x86_64: reg_value.SetUInt64(m_context.Rip); break; case lldb_rflags_x86_64: reg_value.SetUInt64(m_context.EFlags); break; } return true; } bool RegisterContextWindows_x64::WriteRegister(const RegisterInfo *reg_info, const RegisterValue ®_value) { // Since we cannot only write a single register value to the inferior, we need to make sure // our cached copy of the register values are fresh. Otherwise when writing EAX, for example, // we may also overwrite some other register with a stale value. if (!CacheAllRegisterValues()) return false; switch (reg_info->kinds[eRegisterKindLLDB]) { case lldb_rax_x86_64: m_context.Rax = reg_value.GetAsUInt64(); break; case lldb_rbx_x86_64: m_context.Rbx = reg_value.GetAsUInt64(); break; case lldb_rcx_x86_64: m_context.Rcx = reg_value.GetAsUInt64(); break; case lldb_rdx_x86_64: m_context.Rdx = reg_value.GetAsUInt64(); break; case lldb_rdi_x86_64: m_context.Rdi = reg_value.GetAsUInt64(); break; case lldb_rsi_x86_64: m_context.Rsi = reg_value.GetAsUInt64(); break; case lldb_r8_x86_64: m_context.R8 = reg_value.GetAsUInt64(); break; case lldb_r9_x86_64: m_context.R9 = reg_value.GetAsUInt64(); break; case lldb_r10_x86_64: m_context.R10 = reg_value.GetAsUInt64(); break; case lldb_r11_x86_64: m_context.R11 = reg_value.GetAsUInt64(); break; case lldb_r12_x86_64: m_context.R12 = reg_value.GetAsUInt64(); break; case lldb_r13_x86_64: m_context.R13 = reg_value.GetAsUInt64(); break; case lldb_r14_x86_64: m_context.R14 = reg_value.GetAsUInt64(); break; case lldb_r15_x86_64: m_context.R15 = reg_value.GetAsUInt64(); break; case lldb_rbp_x86_64: m_context.Rbp = reg_value.GetAsUInt64(); break; case lldb_rsp_x86_64: m_context.Rsp = reg_value.GetAsUInt64(); break; case lldb_rip_x86_64: m_context.Rip = reg_value.GetAsUInt64(); break; case lldb_rflags_x86_64: m_context.EFlags = reg_value.GetAsUInt64(); break; } // Physically update the registers in the target process. TargetThreadWindows &wthread = static_cast(m_thread); return ::SetThreadContext(wthread.GetHostThread().GetNativeThread().GetSystemHandle(), &m_context); }