| //===-- DNBArchImplX86_64.cpp -----------------------------------*- C++ -*-===// |
| // |
| // The LLVM Compiler Infrastructure |
| // |
| // This file is distributed under the University of Illinois Open Source |
| // License. See LICENSE.TXT for details. |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // Created by Greg Clayton on 6/25/07. |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #if defined (__i386__) || defined (__x86_64__) |
| |
| #include <sys/cdefs.h> |
| |
| #include "MacOSX/x86_64/DNBArchImplX86_64.h" |
| #include "DNBLog.h" |
| #include "MachThread.h" |
| #include "MachProcess.h" |
| #include <mach/mach.h> |
| |
| uint64_t |
| DNBArchImplX86_64::GetPC(uint64_t failValue) |
| { |
| // Get program counter |
| if (GetGPRState(false) == KERN_SUCCESS) |
| return m_state.context.gpr.__rip; |
| return failValue; |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::SetPC(uint64_t value) |
| { |
| // Get program counter |
| kern_return_t err = GetGPRState(false); |
| if (err == KERN_SUCCESS) |
| { |
| m_state.context.gpr.__rip = value; |
| err = SetGPRState(); |
| } |
| return err == KERN_SUCCESS; |
| } |
| |
| uint64_t |
| DNBArchImplX86_64::GetSP(uint64_t failValue) |
| { |
| // Get stack pointer |
| if (GetGPRState(false) == KERN_SUCCESS) |
| return m_state.context.gpr.__rsp; |
| return failValue; |
| } |
| |
| // Uncomment the value below to verify the values in the debugger. |
| //#define DEBUG_GPR_VALUES 1 // DO NOT CHECK IN WITH THIS DEFINE ENABLED |
| |
| kern_return_t |
| DNBArchImplX86_64::GetGPRState(bool force) |
| { |
| if (force || m_state.GetError(e_regSetGPR, Read)) |
| { |
| kern_return_t kret = ::thread_abort_safely(m_thread->ThreadID()); |
| DNBLogThreaded("thread = 0x%4.4x calling thread_abort_safely (tid) => %u (GetGPRState() for stop_count = %u)", m_thread->ThreadID(), kret, m_thread->Process()->StopCount()); |
| |
| #if DEBUG_GPR_VALUES |
| m_state.context.gpr.__rax = ('a' << 8) + 'x'; |
| m_state.context.gpr.__rbx = ('b' << 8) + 'x'; |
| m_state.context.gpr.__rcx = ('c' << 8) + 'x'; |
| m_state.context.gpr.__rdx = ('d' << 8) + 'x'; |
| m_state.context.gpr.__rdi = ('d' << 8) + 'i'; |
| m_state.context.gpr.__rsi = ('s' << 8) + 'i'; |
| m_state.context.gpr.__rbp = ('b' << 8) + 'p'; |
| m_state.context.gpr.__rsp = ('s' << 8) + 'p'; |
| m_state.context.gpr.__r8 = ('r' << 8) + '8'; |
| m_state.context.gpr.__r9 = ('r' << 8) + '9'; |
| m_state.context.gpr.__r10 = ('r' << 8) + 'a'; |
| m_state.context.gpr.__r11 = ('r' << 8) + 'b'; |
| m_state.context.gpr.__r12 = ('r' << 8) + 'c'; |
| m_state.context.gpr.__r13 = ('r' << 8) + 'd'; |
| m_state.context.gpr.__r14 = ('r' << 8) + 'e'; |
| m_state.context.gpr.__r15 = ('r' << 8) + 'f'; |
| m_state.context.gpr.__rip = ('i' << 8) + 'p'; |
| m_state.context.gpr.__rflags = ('f' << 8) + 'l'; |
| m_state.context.gpr.__cs = ('c' << 8) + 's'; |
| m_state.context.gpr.__fs = ('f' << 8) + 's'; |
| m_state.context.gpr.__gs = ('g' << 8) + 's'; |
| m_state.SetError(e_regSetGPR, Read, 0); |
| #else |
| mach_msg_type_number_t count = x86_THREAD_STATE64_COUNT; |
| m_state.SetError(e_regSetGPR, Read, ::thread_get_state(m_thread->ThreadID(), x86_THREAD_STATE64, (thread_state_t)&m_state.context.gpr, &count)); |
| DNBLogThreadedIf (LOG_THREAD, "::thread_get_state (0x%4.4x, %u, &gpr, %u) => 0x%8.8x" |
| "\n\trax = %16.16llx rbx = %16.16llx rcx = %16.16llx rdx = %16.16llx" |
| "\n\trdi = %16.16llx rsi = %16.16llx rbp = %16.16llx rsp = %16.16llx" |
| "\n\t r8 = %16.16llx r9 = %16.16llx r10 = %16.16llx r11 = %16.16llx" |
| "\n\tr12 = %16.16llx r13 = %16.16llx r14 = %16.16llx r15 = %16.16llx" |
| "\n\trip = %16.16llx" |
| "\n\tflg = %16.16llx cs = %16.16llx fs = %16.16llx gs = %16.16llx", |
| m_thread->ThreadID(), x86_THREAD_STATE64, x86_THREAD_STATE64_COUNT, |
| m_state.GetError(e_regSetGPR, Read), |
| m_state.context.gpr.__rax,m_state.context.gpr.__rbx,m_state.context.gpr.__rcx, |
| m_state.context.gpr.__rdx,m_state.context.gpr.__rdi,m_state.context.gpr.__rsi, |
| m_state.context.gpr.__rbp,m_state.context.gpr.__rsp,m_state.context.gpr.__r8, |
| m_state.context.gpr.__r9, m_state.context.gpr.__r10,m_state.context.gpr.__r11, |
| m_state.context.gpr.__r12,m_state.context.gpr.__r13,m_state.context.gpr.__r14, |
| m_state.context.gpr.__r15,m_state.context.gpr.__rip,m_state.context.gpr.__rflags, |
| m_state.context.gpr.__cs,m_state.context.gpr.__fs, m_state.context.gpr.__gs); |
| |
| // DNBLogThreadedIf (LOG_THREAD, "thread_get_state(0x%4.4x, %u, &gpr, %u) => 0x%8.8x" |
| // "\n\trax = %16.16llx" |
| // "\n\trbx = %16.16llx" |
| // "\n\trcx = %16.16llx" |
| // "\n\trdx = %16.16llx" |
| // "\n\trdi = %16.16llx" |
| // "\n\trsi = %16.16llx" |
| // "\n\trbp = %16.16llx" |
| // "\n\trsp = %16.16llx" |
| // "\n\t r8 = %16.16llx" |
| // "\n\t r9 = %16.16llx" |
| // "\n\tr10 = %16.16llx" |
| // "\n\tr11 = %16.16llx" |
| // "\n\tr12 = %16.16llx" |
| // "\n\tr13 = %16.16llx" |
| // "\n\tr14 = %16.16llx" |
| // "\n\tr15 = %16.16llx" |
| // "\n\trip = %16.16llx" |
| // "\n\tflg = %16.16llx" |
| // "\n\t cs = %16.16llx" |
| // "\n\t fs = %16.16llx" |
| // "\n\t gs = %16.16llx", |
| // m_thread->ThreadID(), |
| // x86_THREAD_STATE64, |
| // x86_THREAD_STATE64_COUNT, |
| // m_state.GetError(e_regSetGPR, Read), |
| // m_state.context.gpr.__rax, |
| // m_state.context.gpr.__rbx, |
| // m_state.context.gpr.__rcx, |
| // m_state.context.gpr.__rdx, |
| // m_state.context.gpr.__rdi, |
| // m_state.context.gpr.__rsi, |
| // m_state.context.gpr.__rbp, |
| // m_state.context.gpr.__rsp, |
| // m_state.context.gpr.__r8, |
| // m_state.context.gpr.__r9, |
| // m_state.context.gpr.__r10, |
| // m_state.context.gpr.__r11, |
| // m_state.context.gpr.__r12, |
| // m_state.context.gpr.__r13, |
| // m_state.context.gpr.__r14, |
| // m_state.context.gpr.__r15, |
| // m_state.context.gpr.__rip, |
| // m_state.context.gpr.__rflags, |
| // m_state.context.gpr.__cs, |
| // m_state.context.gpr.__fs, |
| // m_state.context.gpr.__gs); |
| #endif |
| } |
| return m_state.GetError(e_regSetGPR, Read); |
| } |
| |
| // Uncomment the value below to verify the values in the debugger. |
| //#define DEBUG_FPU_VALUES 1 // DO NOT CHECK IN WITH THIS DEFINE ENABLED |
| |
| kern_return_t |
| DNBArchImplX86_64::GetFPUState(bool force) |
| { |
| if (force || m_state.GetError(e_regSetFPU, Read)) |
| { |
| #if DEBUG_FPU_VALUES |
| m_state.context.fpu.__fpu_reserved[0] = -1; |
| m_state.context.fpu.__fpu_reserved[1] = -1; |
| *(uint16_t *)&(m_state.context.fpu.__fpu_fcw) = 0x1234; |
| *(uint16_t *)&(m_state.context.fpu.__fpu_fsw) = 0x5678; |
| m_state.context.fpu.__fpu_ftw = 1; |
| m_state.context.fpu.__fpu_rsrv1 = UINT8_MAX; |
| m_state.context.fpu.__fpu_fop = 2; |
| m_state.context.fpu.__fpu_ip = 3; |
| m_state.context.fpu.__fpu_cs = 4; |
| m_state.context.fpu.__fpu_rsrv2 = 5; |
| m_state.context.fpu.__fpu_dp = 6; |
| m_state.context.fpu.__fpu_ds = 7; |
| m_state.context.fpu.__fpu_rsrv3 = UINT16_MAX; |
| m_state.context.fpu.__fpu_mxcsr = 8; |
| m_state.context.fpu.__fpu_mxcsrmask = 9; |
| int i; |
| for (i=0; i<16; ++i) |
| { |
| if (i<10) |
| { |
| m_state.context.fpu.__fpu_stmm0.__mmst_reg[i] = 'a'; |
| m_state.context.fpu.__fpu_stmm1.__mmst_reg[i] = 'b'; |
| m_state.context.fpu.__fpu_stmm2.__mmst_reg[i] = 'c'; |
| m_state.context.fpu.__fpu_stmm3.__mmst_reg[i] = 'd'; |
| m_state.context.fpu.__fpu_stmm4.__mmst_reg[i] = 'e'; |
| m_state.context.fpu.__fpu_stmm5.__mmst_reg[i] = 'f'; |
| m_state.context.fpu.__fpu_stmm6.__mmst_reg[i] = 'g'; |
| m_state.context.fpu.__fpu_stmm7.__mmst_reg[i] = 'h'; |
| } |
| else |
| { |
| m_state.context.fpu.__fpu_stmm0.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm1.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm2.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm3.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm4.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm5.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm6.__mmst_reg[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_stmm7.__mmst_reg[i] = INT8_MIN; |
| } |
| |
| m_state.context.fpu.__fpu_xmm0.__xmm_reg[i] = '0'; |
| m_state.context.fpu.__fpu_xmm1.__xmm_reg[i] = '1'; |
| m_state.context.fpu.__fpu_xmm2.__xmm_reg[i] = '2'; |
| m_state.context.fpu.__fpu_xmm3.__xmm_reg[i] = '3'; |
| m_state.context.fpu.__fpu_xmm4.__xmm_reg[i] = '4'; |
| m_state.context.fpu.__fpu_xmm5.__xmm_reg[i] = '5'; |
| m_state.context.fpu.__fpu_xmm6.__xmm_reg[i] = '6'; |
| m_state.context.fpu.__fpu_xmm7.__xmm_reg[i] = '7'; |
| m_state.context.fpu.__fpu_xmm8.__xmm_reg[i] = '8'; |
| m_state.context.fpu.__fpu_xmm9.__xmm_reg[i] = '9'; |
| m_state.context.fpu.__fpu_xmm10.__xmm_reg[i] = 'A'; |
| m_state.context.fpu.__fpu_xmm11.__xmm_reg[i] = 'B'; |
| m_state.context.fpu.__fpu_xmm12.__xmm_reg[i] = 'C'; |
| m_state.context.fpu.__fpu_xmm13.__xmm_reg[i] = 'D'; |
| m_state.context.fpu.__fpu_xmm14.__xmm_reg[i] = 'E'; |
| m_state.context.fpu.__fpu_xmm15.__xmm_reg[i] = 'F'; |
| } |
| for (i=0; i<sizeof(m_state.context.fpu.__fpu_rsrv4); ++i) |
| m_state.context.fpu.__fpu_rsrv4[i] = INT8_MIN; |
| m_state.context.fpu.__fpu_reserved1 = -1; |
| m_state.SetError(e_regSetFPU, Read, 0); |
| #else |
| mach_msg_type_number_t count = x86_FLOAT_STATE64_COUNT; |
| m_state.SetError(e_regSetFPU, Read, ::thread_get_state(m_thread->ThreadID(), x86_FLOAT_STATE64, (thread_state_t)&m_state.context.fpu, &count)); |
| #endif |
| } |
| return m_state.GetError(e_regSetFPU, Read); |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::GetEXCState(bool force) |
| { |
| if (force || m_state.GetError(e_regSetEXC, Read)) |
| { |
| mach_msg_type_number_t count = X86_EXCEPTION_STATE64_COUNT; |
| m_state.SetError(e_regSetEXC, Read, ::thread_get_state(m_thread->ThreadID(), x86_EXCEPTION_STATE64, (thread_state_t)&m_state.context.exc, &count)); |
| } |
| return m_state.GetError(e_regSetEXC, Read); |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::SetGPRState() |
| { |
| kern_return_t kret = ::thread_abort_safely(m_thread->ThreadID()); |
| DNBLogThreaded("thread = 0x%4.4x calling thread_abort_safely (tid) => %u (SetGPRState() for stop_count = %u)", m_thread->ThreadID(), kret, m_thread->Process()->StopCount()); |
| |
| m_state.SetError(e_regSetGPR, Write, ::thread_set_state(m_thread->ThreadID(), x86_THREAD_STATE64, (thread_state_t)&m_state.context.gpr, x86_THREAD_STATE64_COUNT)); |
| DNBLogThreadedIf (LOG_THREAD, "::thread_set_state (0x%4.4x, %u, &gpr, %u) => 0x%8.8x" |
| "\n\trax = %16.16llx rbx = %16.16llx rcx = %16.16llx rdx = %16.16llx" |
| "\n\trdi = %16.16llx rsi = %16.16llx rbp = %16.16llx rsp = %16.16llx" |
| "\n\t r8 = %16.16llx r9 = %16.16llx r10 = %16.16llx r11 = %16.16llx" |
| "\n\tr12 = %16.16llx r13 = %16.16llx r14 = %16.16llx r15 = %16.16llx" |
| "\n\trip = %16.16llx" |
| "\n\tflg = %16.16llx cs = %16.16llx fs = %16.16llx gs = %16.16llx", |
| m_thread->ThreadID(), x86_THREAD_STATE64, x86_THREAD_STATE64_COUNT, |
| m_state.GetError(e_regSetGPR, Write), |
| m_state.context.gpr.__rax,m_state.context.gpr.__rbx,m_state.context.gpr.__rcx, |
| m_state.context.gpr.__rdx,m_state.context.gpr.__rdi,m_state.context.gpr.__rsi, |
| m_state.context.gpr.__rbp,m_state.context.gpr.__rsp,m_state.context.gpr.__r8, |
| m_state.context.gpr.__r9, m_state.context.gpr.__r10,m_state.context.gpr.__r11, |
| m_state.context.gpr.__r12,m_state.context.gpr.__r13,m_state.context.gpr.__r14, |
| m_state.context.gpr.__r15,m_state.context.gpr.__rip,m_state.context.gpr.__rflags, |
| m_state.context.gpr.__cs, m_state.context.gpr.__fs, m_state.context.gpr.__gs); |
| return m_state.GetError(e_regSetGPR, Write); |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::SetFPUState() |
| { |
| m_state.SetError(e_regSetFPU, Write, ::thread_set_state(m_thread->ThreadID(), x86_FLOAT_STATE64, (thread_state_t)&m_state.context.fpu, x86_FLOAT_STATE64_COUNT)); |
| return m_state.GetError(e_regSetFPU, Write); |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::SetEXCState() |
| { |
| m_state.SetError(e_regSetEXC, Write, ::thread_set_state(m_thread->ThreadID(), x86_EXCEPTION_STATE64, (thread_state_t)&m_state.context.exc, X86_EXCEPTION_STATE64_COUNT)); |
| return m_state.GetError(e_regSetEXC, Write); |
| } |
| |
| void |
| DNBArchImplX86_64::ThreadWillResume() |
| { |
| // Do we need to step this thread? If so, let the mach thread tell us so. |
| if (m_thread->IsStepping()) |
| { |
| // This is the primary thread, let the arch do anything it needs |
| EnableHardwareSingleStep(true) == KERN_SUCCESS; |
| } |
| } |
| |
| bool |
| DNBArchImplX86_64::ThreadDidStop() |
| { |
| bool success = true; |
| |
| m_state.InvalidateAllRegisterStates(); |
| |
| // Are we stepping a single instruction? |
| if (GetGPRState(true) == KERN_SUCCESS) |
| { |
| // We are single stepping, was this the primary thread? |
| if (m_thread->IsStepping()) |
| { |
| // This was the primary thread, we need to clear the trace |
| // bit if so. |
| success = EnableHardwareSingleStep(false) == KERN_SUCCESS; |
| } |
| else |
| { |
| // The MachThread will automatically restore the suspend count |
| // in ThreadDidStop(), so we don't need to do anything here if |
| // we weren't the primary thread the last time |
| } |
| } |
| return success; |
| } |
| |
| bool |
| DNBArchImplX86_64::NotifyException(MachException::Data& exc) |
| { |
| switch (exc.exc_type) |
| { |
| case EXC_BAD_ACCESS: |
| break; |
| case EXC_BAD_INSTRUCTION: |
| break; |
| case EXC_ARITHMETIC: |
| break; |
| case EXC_EMULATION: |
| break; |
| case EXC_SOFTWARE: |
| break; |
| case EXC_BREAKPOINT: |
| if (exc.exc_data.size() >= 2 && exc.exc_data[0] == 2) |
| { |
| nub_addr_t pc = GetPC(INVALID_NUB_ADDRESS); |
| if (pc != INVALID_NUB_ADDRESS && pc > 0) |
| { |
| pc -= 1; |
| // Check for a breakpoint at one byte prior to the current PC value |
| // since the PC will be just past the trap. |
| |
| nub_break_t breakID = m_thread->Process()->Breakpoints().FindIDByAddress(pc); |
| if (NUB_BREAK_ID_IS_VALID(breakID)) |
| { |
| // Backup the PC for i386 since the trap was taken and the PC |
| // is at the address following the single byte trap instruction. |
| if (m_state.context.gpr.__rip > 0) |
| { |
| m_state.context.gpr.__rip = pc; |
| // Write the new PC back out |
| SetGPRState (); |
| } |
| } |
| return true; |
| } |
| } |
| break; |
| case EXC_SYSCALL: |
| break; |
| case EXC_MACH_SYSCALL: |
| break; |
| case EXC_RPC_ALERT: |
| break; |
| } |
| return false; |
| } |
| |
| |
| // Set the single step bit in the processor status register. |
| kern_return_t |
| DNBArchImplX86_64::EnableHardwareSingleStep (bool enable) |
| { |
| if (GetGPRState(false) == KERN_SUCCESS) |
| { |
| const uint32_t trace_bit = 0x100u; |
| if (enable) |
| m_state.context.gpr.__rflags |= trace_bit; |
| else |
| m_state.context.gpr.__rflags &= ~trace_bit; |
| return SetGPRState(); |
| } |
| return m_state.GetError(e_regSetGPR, Read); |
| } |
| |
| |
| //---------------------------------------------------------------------- |
| // Register information defintions |
| //---------------------------------------------------------------------- |
| |
| enum |
| { |
| gpr_rax = 0, |
| gpr_rbx, |
| gpr_rcx, |
| gpr_rdx, |
| gpr_rdi, |
| gpr_rsi, |
| gpr_rbp, |
| gpr_rsp, |
| gpr_r8, |
| gpr_r9, |
| gpr_r10, |
| gpr_r11, |
| gpr_r12, |
| gpr_r13, |
| gpr_r14, |
| gpr_r15, |
| gpr_rip, |
| gpr_rflags, |
| gpr_cs, |
| gpr_fs, |
| gpr_gs, |
| k_num_gpr_regs |
| }; |
| |
| enum { |
| fpu_fcw, |
| fpu_fsw, |
| fpu_ftw, |
| fpu_fop, |
| fpu_ip, |
| fpu_cs, |
| fpu_dp, |
| fpu_ds, |
| fpu_mxcsr, |
| fpu_mxcsrmask, |
| fpu_stmm0, |
| fpu_stmm1, |
| fpu_stmm2, |
| fpu_stmm3, |
| fpu_stmm4, |
| fpu_stmm5, |
| fpu_stmm6, |
| fpu_stmm7, |
| fpu_xmm0, |
| fpu_xmm1, |
| fpu_xmm2, |
| fpu_xmm3, |
| fpu_xmm4, |
| fpu_xmm5, |
| fpu_xmm6, |
| fpu_xmm7, |
| fpu_xmm8, |
| fpu_xmm9, |
| fpu_xmm10, |
| fpu_xmm11, |
| fpu_xmm12, |
| fpu_xmm13, |
| fpu_xmm14, |
| fpu_xmm15, |
| k_num_fpu_regs, |
| |
| // Aliases |
| fpu_fctrl = fpu_fcw, |
| fpu_fstat = fpu_fsw, |
| fpu_ftag = fpu_ftw, |
| fpu_fiseg = fpu_cs, |
| fpu_fioff = fpu_ip, |
| fpu_foseg = fpu_ds, |
| fpu_fooff = fpu_dp |
| }; |
| |
| enum { |
| exc_trapno, |
| exc_err, |
| exc_faultvaddr, |
| k_num_exc_regs, |
| }; |
| |
| |
| enum gcc_dwarf_regnums |
| { |
| gcc_dwarf_rax = 0, |
| gcc_dwarf_rdx, |
| gcc_dwarf_rcx, |
| gcc_dwarf_rbx, |
| gcc_dwarf_rsi, |
| gcc_dwarf_rdi, |
| gcc_dwarf_rbp, |
| gcc_dwarf_rsp, |
| gcc_dwarf_r8, |
| gcc_dwarf_r9, |
| gcc_dwarf_r10, |
| gcc_dwarf_r11, |
| gcc_dwarf_r12, |
| gcc_dwarf_r13, |
| gcc_dwarf_r14, |
| gcc_dwarf_r15, |
| gcc_dwarf_rip, |
| gcc_dwarf_xmm0, |
| gcc_dwarf_xmm1, |
| gcc_dwarf_xmm2, |
| gcc_dwarf_xmm3, |
| gcc_dwarf_xmm4, |
| gcc_dwarf_xmm5, |
| gcc_dwarf_xmm6, |
| gcc_dwarf_xmm7, |
| gcc_dwarf_xmm8, |
| gcc_dwarf_xmm9, |
| gcc_dwarf_xmm10, |
| gcc_dwarf_xmm11, |
| gcc_dwarf_xmm12, |
| gcc_dwarf_xmm13, |
| gcc_dwarf_xmm14, |
| gcc_dwarf_xmm15, |
| gcc_dwarf_stmm0, |
| gcc_dwarf_stmm1, |
| gcc_dwarf_stmm2, |
| gcc_dwarf_stmm3, |
| gcc_dwarf_stmm4, |
| gcc_dwarf_stmm5, |
| gcc_dwarf_stmm6, |
| gcc_dwarf_stmm7, |
| |
| }; |
| |
| enum gdb_regnums |
| { |
| gdb_rax = 0, |
| gdb_rbx = 1, |
| gdb_rcx = 2, |
| gdb_rdx = 3, |
| gdb_rsi = 4, |
| gdb_rdi = 5, |
| gdb_rbp = 6, |
| gdb_rsp = 7, |
| gdb_r8 = 8, |
| gdb_r9 = 9, |
| gdb_r10 = 10, |
| gdb_r11 = 11, |
| gdb_r12 = 12, |
| gdb_r13 = 13, |
| gdb_r14 = 14, |
| gdb_r15 = 15, |
| gdb_rip = 16, |
| gdb_rflags = 17, |
| gdb_cs = 18, |
| gdb_ss = 19, |
| gdb_ds = 20, |
| gdb_es = 21, |
| gdb_fs = 22, |
| gdb_gs = 23, |
| gdb_stmm0 = 24, |
| gdb_stmm1 = 25, |
| gdb_stmm2 = 26, |
| gdb_stmm3 = 27, |
| gdb_stmm4 = 28, |
| gdb_stmm5 = 29, |
| gdb_stmm6 = 30, |
| gdb_stmm7 = 31, |
| gdb_fctrl = 32, gdb_fcw = gdb_fctrl, |
| gdb_fstat = 33, gdb_fsw = gdb_fstat, |
| gdb_ftag = 34, gdb_ftw = gdb_ftag, |
| gdb_fiseg = 35, gdb_fpu_cs = gdb_fiseg, |
| gdb_fioff = 36, gdb_ip = gdb_fioff, |
| gdb_foseg = 37, gdb_fpu_ds = gdb_foseg, |
| gdb_fooff = 38, gdb_dp = gdb_fooff, |
| gdb_fop = 39, |
| gdb_xmm0 = 40, |
| gdb_xmm1 = 41, |
| gdb_xmm2 = 42, |
| gdb_xmm3 = 43, |
| gdb_xmm4 = 44, |
| gdb_xmm5 = 45, |
| gdb_xmm6 = 46, |
| gdb_xmm7 = 47, |
| gdb_xmm8 = 48, |
| gdb_xmm9 = 49, |
| gdb_xmm10 = 50, |
| gdb_xmm11 = 51, |
| gdb_xmm12 = 52, |
| gdb_xmm13 = 53, |
| gdb_xmm14 = 54, |
| gdb_xmm15 = 55, |
| gdb_mxcsr = 56, |
| }; |
| |
| #define GPR_OFFSET(reg) (offsetof (DNBArchImplX86_64::GPR, __##reg)) |
| #define FPU_OFFSET(reg) (offsetof (DNBArchImplX86_64::FPU, __fpu_##reg) + offsetof (DNBArchImplX86_64::Context, fpu)) |
| #define EXC_OFFSET(reg) (offsetof (DNBArchImplX86_64::EXC, __##reg) + offsetof (DNBArchImplX86_64::Context, exc)) |
| |
| #define GPR_SIZE(reg) (sizeof(((DNBArchImplX86_64::GPR *)NULL)->__##reg)) |
| #define FPU_SIZE_UINT(reg) (sizeof(((DNBArchImplX86_64::FPU *)NULL)->__fpu_##reg)) |
| #define FPU_SIZE_MMST(reg) (sizeof(((DNBArchImplX86_64::FPU *)NULL)->__fpu_##reg.__mmst_reg)) |
| #define FPU_SIZE_XMM(reg) (sizeof(((DNBArchImplX86_64::FPU *)NULL)->__fpu_##reg.__xmm_reg)) |
| #define EXC_SIZE(reg) (sizeof(((DNBArchImplX86_64::EXC *)NULL)->__##reg)) |
| |
| // These macros will auto define the register name, alt name, register size, |
| // register offset, encoding, format and native register. This ensures that |
| // the register state structures are defined correctly and have the correct |
| // sizes and offsets. |
| #define DEFINE_GPR(reg) { e_regSetGPR, gpr_##reg, #reg, NULL, Uint, Hex, GPR_SIZE(reg), GPR_OFFSET(reg), gcc_dwarf_##reg, gcc_dwarf_##reg, INVALID_NUB_REGNUM, gdb_##reg } |
| #define DEFINE_GPR_ALT(reg, alt, gen) { e_regSetGPR, gpr_##reg, #reg, alt, Uint, Hex, GPR_SIZE(reg), GPR_OFFSET(reg), gcc_dwarf_##reg, gcc_dwarf_##reg, gen, gdb_##reg } |
| #define DEFINE_GPR_ALT2(reg, alt) { e_regSetGPR, gpr_##reg, #reg, alt, Uint, Hex, GPR_SIZE(reg), GPR_OFFSET(reg), INVALID_NUB_REGNUM, INVALID_NUB_REGNUM, INVALID_NUB_REGNUM, gdb_##reg } |
| |
| // General purpose registers for 64 bit |
| const DNBRegisterInfo |
| DNBArchImplX86_64::g_gpr_registers[] = |
| { |
| DEFINE_GPR (rax), |
| DEFINE_GPR (rbx), |
| DEFINE_GPR (rcx), |
| DEFINE_GPR (rdx), |
| DEFINE_GPR (rdi), |
| DEFINE_GPR (rsi), |
| DEFINE_GPR_ALT (rbp, "fp", GENERIC_REGNUM_FP), |
| DEFINE_GPR_ALT (rsp, "sp", GENERIC_REGNUM_SP), |
| DEFINE_GPR (r8), |
| DEFINE_GPR (r9), |
| DEFINE_GPR (r10), |
| DEFINE_GPR (r11), |
| DEFINE_GPR (r12), |
| DEFINE_GPR (r13), |
| DEFINE_GPR (r14), |
| DEFINE_GPR (r15), |
| DEFINE_GPR_ALT (rip, "pc", GENERIC_REGNUM_PC), |
| DEFINE_GPR_ALT2 (rflags, "flags"), |
| DEFINE_GPR_ALT2 (cs, NULL), |
| DEFINE_GPR_ALT2 (fs, NULL), |
| DEFINE_GPR_ALT2 (gs, NULL), |
| }; |
| |
| // Floating point registers 64 bit |
| const DNBRegisterInfo |
| DNBArchImplX86_64::g_fpu_registers[] = |
| { |
| { e_regSetFPU, fpu_fcw , "fctrl" , NULL, Uint, Hex, FPU_SIZE_UINT(fcw) , FPU_OFFSET(fcw) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_fsw , "fstat" , NULL, Uint, Hex, FPU_SIZE_UINT(fsw) , FPU_OFFSET(fsw) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_ftw , "ftag" , NULL, Uint, Hex, FPU_SIZE_UINT(ftw) , FPU_OFFSET(ftw) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_fop , "fop" , NULL, Uint, Hex, FPU_SIZE_UINT(fop) , FPU_OFFSET(fop) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_ip , "fioff" , NULL, Uint, Hex, FPU_SIZE_UINT(ip) , FPU_OFFSET(ip) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_cs , "fiseg" , NULL, Uint, Hex, FPU_SIZE_UINT(cs) , FPU_OFFSET(cs) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_dp , "fooff" , NULL, Uint, Hex, FPU_SIZE_UINT(dp) , FPU_OFFSET(dp) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_ds , "foseg" , NULL, Uint, Hex, FPU_SIZE_UINT(ds) , FPU_OFFSET(ds) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_mxcsr , "mxcsr" , NULL, Uint, Hex, FPU_SIZE_UINT(mxcsr) , FPU_OFFSET(mxcsr) , -1, -1, -1, -1 }, |
| { e_regSetFPU, fpu_mxcsrmask, "mxcsrmask" , NULL, Uint, Hex, FPU_SIZE_UINT(mxcsrmask) , FPU_OFFSET(mxcsrmask) , -1, -1, -1, -1 }, |
| |
| { e_regSetFPU, fpu_stmm0, "stmm0", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm0), FPU_OFFSET(stmm0), gcc_dwarf_stmm0, gcc_dwarf_stmm0, -1, gdb_stmm0 }, |
| { e_regSetFPU, fpu_stmm1, "stmm1", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm1), FPU_OFFSET(stmm1), gcc_dwarf_stmm1, gcc_dwarf_stmm1, -1, gdb_stmm1 }, |
| { e_regSetFPU, fpu_stmm2, "stmm2", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm2), FPU_OFFSET(stmm2), gcc_dwarf_stmm2, gcc_dwarf_stmm2, -1, gdb_stmm2 }, |
| { e_regSetFPU, fpu_stmm3, "stmm3", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm3), FPU_OFFSET(stmm3), gcc_dwarf_stmm3, gcc_dwarf_stmm3, -1, gdb_stmm3 }, |
| { e_regSetFPU, fpu_stmm4, "stmm4", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm4), FPU_OFFSET(stmm4), gcc_dwarf_stmm4, gcc_dwarf_stmm4, -1, gdb_stmm4 }, |
| { e_regSetFPU, fpu_stmm5, "stmm5", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm5), FPU_OFFSET(stmm5), gcc_dwarf_stmm5, gcc_dwarf_stmm5, -1, gdb_stmm5 }, |
| { e_regSetFPU, fpu_stmm6, "stmm6", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm6), FPU_OFFSET(stmm6), gcc_dwarf_stmm6, gcc_dwarf_stmm6, -1, gdb_stmm6 }, |
| { e_regSetFPU, fpu_stmm7, "stmm7", NULL, Vector, VectorOfUInt8, FPU_SIZE_MMST(stmm7), FPU_OFFSET(stmm7), gcc_dwarf_stmm7, gcc_dwarf_stmm7, -1, gdb_stmm7 }, |
| |
| { e_regSetFPU, fpu_xmm0 , "xmm0" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm0) , FPU_OFFSET(xmm0) , gcc_dwarf_xmm0 , gcc_dwarf_xmm0 , -1, gdb_xmm0 }, |
| { e_regSetFPU, fpu_xmm1 , "xmm1" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm1) , FPU_OFFSET(xmm1) , gcc_dwarf_xmm1 , gcc_dwarf_xmm1 , -1, gdb_xmm1 }, |
| { e_regSetFPU, fpu_xmm2 , "xmm2" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm2) , FPU_OFFSET(xmm2) , gcc_dwarf_xmm2 , gcc_dwarf_xmm2 , -1, gdb_xmm2 }, |
| { e_regSetFPU, fpu_xmm3 , "xmm3" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm3) , FPU_OFFSET(xmm3) , gcc_dwarf_xmm3 , gcc_dwarf_xmm3 , -1, gdb_xmm3 }, |
| { e_regSetFPU, fpu_xmm4 , "xmm4" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm4) , FPU_OFFSET(xmm4) , gcc_dwarf_xmm4 , gcc_dwarf_xmm4 , -1, gdb_xmm4 }, |
| { e_regSetFPU, fpu_xmm5 , "xmm5" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm5) , FPU_OFFSET(xmm5) , gcc_dwarf_xmm5 , gcc_dwarf_xmm5 , -1, gdb_xmm5 }, |
| { e_regSetFPU, fpu_xmm6 , "xmm6" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm6) , FPU_OFFSET(xmm6) , gcc_dwarf_xmm6 , gcc_dwarf_xmm6 , -1, gdb_xmm6 }, |
| { e_regSetFPU, fpu_xmm7 , "xmm7" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm7) , FPU_OFFSET(xmm7) , gcc_dwarf_xmm7 , gcc_dwarf_xmm7 , -1, gdb_xmm7 }, |
| { e_regSetFPU, fpu_xmm8 , "xmm8" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm8) , FPU_OFFSET(xmm8) , gcc_dwarf_xmm8 , gcc_dwarf_xmm8 , -1, gdb_xmm8 }, |
| { e_regSetFPU, fpu_xmm9 , "xmm9" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm9) , FPU_OFFSET(xmm9) , gcc_dwarf_xmm9 , gcc_dwarf_xmm9 , -1, gdb_xmm9 }, |
| { e_regSetFPU, fpu_xmm10, "xmm10" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm10) , FPU_OFFSET(xmm10), gcc_dwarf_xmm10, gcc_dwarf_xmm10, -1, gdb_xmm10 }, |
| { e_regSetFPU, fpu_xmm11, "xmm11" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm11) , FPU_OFFSET(xmm11), gcc_dwarf_xmm11, gcc_dwarf_xmm11, -1, gdb_xmm11 }, |
| { e_regSetFPU, fpu_xmm12, "xmm12" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm12) , FPU_OFFSET(xmm12), gcc_dwarf_xmm12, gcc_dwarf_xmm12, -1, gdb_xmm12 }, |
| { e_regSetFPU, fpu_xmm13, "xmm13" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm13) , FPU_OFFSET(xmm13), gcc_dwarf_xmm13, gcc_dwarf_xmm13, -1, gdb_xmm13 }, |
| { e_regSetFPU, fpu_xmm14, "xmm14" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm14) , FPU_OFFSET(xmm14), gcc_dwarf_xmm14, gcc_dwarf_xmm14, -1, gdb_xmm14 }, |
| { e_regSetFPU, fpu_xmm15, "xmm15" , NULL, Vector, VectorOfUInt8, FPU_SIZE_XMM(xmm15) , FPU_OFFSET(xmm15), gcc_dwarf_xmm15, gcc_dwarf_xmm15, -1, gdb_xmm15 }, |
| }; |
| |
| // Exception registers |
| |
| const DNBRegisterInfo |
| DNBArchImplX86_64::g_exc_registers[] = |
| { |
| { e_regSetEXC, exc_trapno, "trapno" , NULL, Uint, Hex, EXC_SIZE (trapno) , EXC_OFFSET (trapno) , -1, -1, -1, -1 }, |
| { e_regSetEXC, exc_err, "err" , NULL, Uint, Hex, EXC_SIZE (err) , EXC_OFFSET (err) , -1, -1, -1, -1 }, |
| { e_regSetEXC, exc_faultvaddr, "faultvaddr", NULL, Uint, Hex, EXC_SIZE (faultvaddr), EXC_OFFSET (faultvaddr) , -1, -1, -1, -1 } |
| }; |
| |
| // Number of registers in each register set |
| const size_t DNBArchImplX86_64::k_num_gpr_registers = sizeof(g_gpr_registers)/sizeof(DNBRegisterInfo); |
| const size_t DNBArchImplX86_64::k_num_fpu_registers = sizeof(g_fpu_registers)/sizeof(DNBRegisterInfo); |
| const size_t DNBArchImplX86_64::k_num_exc_registers = sizeof(g_exc_registers)/sizeof(DNBRegisterInfo); |
| const size_t DNBArchImplX86_64::k_num_all_registers = k_num_gpr_registers + k_num_fpu_registers + k_num_exc_registers; |
| |
| //---------------------------------------------------------------------- |
| // Register set definitions. The first definitions at register set index |
| // of zero is for all registers, followed by other registers sets. The |
| // register information for the all register set need not be filled in. |
| //---------------------------------------------------------------------- |
| const DNBRegisterSetInfo |
| DNBArchImplX86_64::g_reg_sets[] = |
| { |
| { "x86_64 Registers", NULL, k_num_all_registers }, |
| { "General Purpose Registers", g_gpr_registers, k_num_gpr_registers }, |
| { "Floating Point Registers", g_fpu_registers, k_num_fpu_registers }, |
| { "Exception State Registers", g_exc_registers, k_num_exc_registers } |
| }; |
| // Total number of register sets for this architecture |
| const size_t DNBArchImplX86_64::k_num_register_sets = sizeof(g_reg_sets)/sizeof(DNBRegisterSetInfo); |
| |
| |
| DNBArchProtocol * |
| DNBArchImplX86_64::Create (MachThread *thread) |
| { |
| return new DNBArchImplX86_64 (thread); |
| } |
| |
| const uint8_t * const |
| DNBArchImplX86_64::SoftwareBreakpointOpcode (nub_size_t byte_size) |
| { |
| static const uint8_t g_breakpoint_opcode[] = { 0xCC }; |
| if (byte_size == 1) |
| return g_breakpoint_opcode; |
| return NULL; |
| } |
| |
| const DNBRegisterSetInfo * |
| DNBArchImplX86_64::GetRegisterSetInfo(nub_size_t *num_reg_sets) |
| { |
| *num_reg_sets = k_num_register_sets; |
| return g_reg_sets; |
| } |
| |
| void |
| DNBArchImplX86_64::Initialize() |
| { |
| DNBArchPluginInfo arch_plugin_info = |
| { |
| CPU_TYPE_X86_64, |
| DNBArchImplX86_64::Create, |
| DNBArchImplX86_64::GetRegisterSetInfo, |
| DNBArchImplX86_64::SoftwareBreakpointOpcode |
| }; |
| |
| // Register this arch plug-in with the main protocol class |
| DNBArchProtocol::RegisterArchPlugin (arch_plugin_info); |
| } |
| |
| bool |
| DNBArchImplX86_64::GetRegisterValue(int set, int reg, DNBRegisterValue *value) |
| { |
| if (set == REGISTER_SET_GENERIC) |
| { |
| switch (reg) |
| { |
| case GENERIC_REGNUM_PC: // Program Counter |
| set = e_regSetGPR; |
| reg = gpr_rip; |
| break; |
| |
| case GENERIC_REGNUM_SP: // Stack Pointer |
| set = e_regSetGPR; |
| reg = gpr_rsp; |
| break; |
| |
| case GENERIC_REGNUM_FP: // Frame Pointer |
| set = e_regSetGPR; |
| reg = gpr_rbp; |
| break; |
| |
| case GENERIC_REGNUM_FLAGS: // Processor flags register |
| set = e_regSetGPR; |
| reg = gpr_rflags; |
| break; |
| |
| case GENERIC_REGNUM_RA: // Return Address |
| default: |
| return false; |
| } |
| } |
| |
| if (GetRegisterState(set, false) != KERN_SUCCESS) |
| return false; |
| |
| const DNBRegisterInfo *regInfo = m_thread->GetRegisterInfo(set, reg); |
| if (regInfo) |
| { |
| value->info = *regInfo; |
| switch (set) |
| { |
| case e_regSetGPR: |
| if (reg < k_num_gpr_registers) |
| { |
| value->value.uint64 = ((uint64_t*)(&m_state.context.gpr))[reg]; |
| return true; |
| } |
| break; |
| |
| case e_regSetFPU: |
| switch (reg) |
| { |
| case fpu_fcw: value->value.uint16 = *((uint16_t *)(&m_state.context.fpu.__fpu_fcw)); return true; |
| case fpu_fsw: value->value.uint16 = *((uint16_t *)(&m_state.context.fpu.__fpu_fsw)); return true; |
| case fpu_ftw: value->value.uint8 = m_state.context.fpu.__fpu_ftw; return true; |
| case fpu_fop: value->value.uint16 = m_state.context.fpu.__fpu_fop; return true; |
| case fpu_ip: value->value.uint32 = m_state.context.fpu.__fpu_ip; return true; |
| case fpu_cs: value->value.uint16 = m_state.context.fpu.__fpu_cs; return true; |
| case fpu_dp: value->value.uint32 = m_state.context.fpu.__fpu_dp; return true; |
| case fpu_ds: value->value.uint16 = m_state.context.fpu.__fpu_ds; return true; |
| case fpu_mxcsr: value->value.uint32 = m_state.context.fpu.__fpu_mxcsr; return true; |
| case fpu_mxcsrmask: value->value.uint32 = m_state.context.fpu.__fpu_mxcsrmask; return true; |
| |
| case fpu_stmm0: |
| case fpu_stmm1: |
| case fpu_stmm2: |
| case fpu_stmm3: |
| case fpu_stmm4: |
| case fpu_stmm5: |
| case fpu_stmm6: |
| case fpu_stmm7: |
| memcpy(&value->value.uint8, &m_state.context.fpu.__fpu_stmm0 + (reg - fpu_stmm0), 10); |
| return true; |
| |
| case fpu_xmm0: |
| case fpu_xmm1: |
| case fpu_xmm2: |
| case fpu_xmm3: |
| case fpu_xmm4: |
| case fpu_xmm5: |
| case fpu_xmm6: |
| case fpu_xmm7: |
| case fpu_xmm8: |
| case fpu_xmm9: |
| case fpu_xmm10: |
| case fpu_xmm11: |
| case fpu_xmm12: |
| case fpu_xmm13: |
| case fpu_xmm14: |
| case fpu_xmm15: |
| memcpy(&value->value.uint8, &m_state.context.fpu.__fpu_xmm0 + (reg - fpu_xmm0), 16); |
| return true; |
| } |
| break; |
| |
| case e_regSetEXC: |
| switch (reg) |
| { |
| case exc_trapno: value->value.uint32 = m_state.context.exc.__trapno; return true; |
| case exc_err: value->value.uint32 = m_state.context.exc.__err; return true; |
| case exc_faultvaddr:value->value.uint64 = m_state.context.exc.__faultvaddr; return true; |
| } |
| break; |
| } |
| } |
| return false; |
| } |
| |
| |
| bool |
| DNBArchImplX86_64::SetRegisterValue(int set, int reg, const DNBRegisterValue *value) |
| { |
| if (set == REGISTER_SET_GENERIC) |
| { |
| switch (reg) |
| { |
| case GENERIC_REGNUM_PC: // Program Counter |
| set = e_regSetGPR; |
| reg = gpr_rip; |
| break; |
| |
| case GENERIC_REGNUM_SP: // Stack Pointer |
| set = e_regSetGPR; |
| reg = gpr_rsp; |
| break; |
| |
| case GENERIC_REGNUM_FP: // Frame Pointer |
| set = e_regSetGPR; |
| reg = gpr_rbp; |
| break; |
| |
| case GENERIC_REGNUM_FLAGS: // Processor flags register |
| set = e_regSetGPR; |
| reg = gpr_rflags; |
| break; |
| |
| case GENERIC_REGNUM_RA: // Return Address |
| default: |
| return false; |
| } |
| } |
| |
| if (GetRegisterState(set, false) != KERN_SUCCESS) |
| return false; |
| |
| bool success = false; |
| const DNBRegisterInfo *regInfo = m_thread->GetRegisterInfo(set, reg); |
| if (regInfo) |
| { |
| switch (set) |
| { |
| case e_regSetGPR: |
| if (reg < k_num_gpr_registers) |
| { |
| ((uint64_t*)(&m_state.context.gpr))[reg] = value->value.uint64; |
| success = true; |
| } |
| break; |
| |
| case e_regSetFPU: |
| switch (reg) |
| { |
| case fpu_fcw: *((uint16_t *)(&m_state.context.fpu.__fpu_fcw)) = value->value.uint16; success = true; break; |
| case fpu_fsw: *((uint16_t *)(&m_state.context.fpu.__fpu_fsw)) = value->value.uint16; success = true; break; |
| case fpu_ftw: m_state.context.fpu.__fpu_ftw = value->value.uint8; success = true; break; |
| case fpu_fop: m_state.context.fpu.__fpu_fop = value->value.uint16; success = true; break; |
| case fpu_ip: m_state.context.fpu.__fpu_ip = value->value.uint32; success = true; break; |
| case fpu_cs: m_state.context.fpu.__fpu_cs = value->value.uint16; success = true; break; |
| case fpu_dp: m_state.context.fpu.__fpu_dp = value->value.uint32; success = true; break; |
| case fpu_ds: m_state.context.fpu.__fpu_ds = value->value.uint16; success = true; break; |
| case fpu_mxcsr: m_state.context.fpu.__fpu_mxcsr = value->value.uint32; success = true; break; |
| case fpu_mxcsrmask: m_state.context.fpu.__fpu_mxcsrmask = value->value.uint32; success = true; break; |
| |
| case fpu_stmm0: |
| case fpu_stmm1: |
| case fpu_stmm2: |
| case fpu_stmm3: |
| case fpu_stmm4: |
| case fpu_stmm5: |
| case fpu_stmm6: |
| case fpu_stmm7: |
| memcpy (&m_state.context.fpu.__fpu_stmm0 + (reg - fpu_stmm0), &value->value.uint8, 10); |
| success = true; |
| break; |
| |
| case fpu_xmm0: |
| case fpu_xmm1: |
| case fpu_xmm2: |
| case fpu_xmm3: |
| case fpu_xmm4: |
| case fpu_xmm5: |
| case fpu_xmm6: |
| case fpu_xmm7: |
| case fpu_xmm8: |
| case fpu_xmm9: |
| case fpu_xmm10: |
| case fpu_xmm11: |
| case fpu_xmm12: |
| case fpu_xmm13: |
| case fpu_xmm14: |
| case fpu_xmm15: |
| memcpy (&m_state.context.fpu.__fpu_xmm0 + (reg - fpu_xmm0), &value->value.uint8, 16); |
| success = true; |
| break; |
| } |
| break; |
| |
| case e_regSetEXC: |
| switch (reg) |
| { |
| case exc_trapno: m_state.context.exc.__trapno = value->value.uint32; success = true; break; |
| case exc_err: m_state.context.exc.__err = value->value.uint32; success = true; break; |
| case exc_faultvaddr:m_state.context.exc.__faultvaddr = value->value.uint64; success = true; break; |
| } |
| break; |
| } |
| } |
| |
| if (success) |
| return SetRegisterState(set) == KERN_SUCCESS; |
| return false; |
| } |
| |
| |
| nub_size_t |
| DNBArchImplX86_64::GetRegisterContext (void *buf, nub_size_t buf_len) |
| { |
| nub_size_t size = sizeof (m_state.context); |
| |
| if (buf && buf_len) |
| { |
| if (size > buf_len) |
| size = buf_len; |
| |
| bool force = false; |
| if (GetGPRState(force) | GetFPUState(force) | GetEXCState(force)) |
| return 0; |
| ::memcpy (buf, &m_state.context, size); |
| } |
| DNBLogThreadedIf (LOG_THREAD, "DNBArchImplX86_64::GetRegisterContext (buf = %p, len = %zu) => %zu", buf, buf_len, size); |
| // Return the size of the register context even if NULL was passed in |
| return size; |
| } |
| |
| nub_size_t |
| DNBArchImplX86_64::SetRegisterContext (const void *buf, nub_size_t buf_len) |
| { |
| nub_size_t size = sizeof (m_state.context); |
| if (buf == NULL || buf_len == 0) |
| size = 0; |
| |
| if (size) |
| { |
| if (size > buf_len) |
| size = buf_len; |
| |
| ::memcpy (&m_state.context, buf, size); |
| SetGPRState(); |
| SetFPUState(); |
| SetEXCState(); |
| } |
| DNBLogThreadedIf (LOG_THREAD, "DNBArchImplX86_64::SetRegisterContext (buf = %p, len = %zu) => %zu", buf, buf_len, size); |
| return size; |
| } |
| |
| |
| kern_return_t |
| DNBArchImplX86_64::GetRegisterState(int set, bool force) |
| { |
| switch (set) |
| { |
| case e_regSetALL: return GetGPRState(force) | GetFPUState(force) | GetEXCState(force); |
| case e_regSetGPR: return GetGPRState(force); |
| case e_regSetFPU: return GetFPUState(force); |
| case e_regSetEXC: return GetEXCState(force); |
| default: break; |
| } |
| return KERN_INVALID_ARGUMENT; |
| } |
| |
| kern_return_t |
| DNBArchImplX86_64::SetRegisterState(int set) |
| { |
| // Make sure we have a valid context to set. |
| if (RegisterSetStateIsValid(set)) |
| { |
| switch (set) |
| { |
| case e_regSetALL: return SetGPRState() | SetFPUState() | SetEXCState(); |
| case e_regSetGPR: return SetGPRState(); |
| case e_regSetFPU: return SetFPUState(); |
| case e_regSetEXC: return SetEXCState(); |
| default: break; |
| } |
| } |
| return KERN_INVALID_ARGUMENT; |
| } |
| |
| bool |
| DNBArchImplX86_64::RegisterSetStateIsValid (int set) const |
| { |
| return m_state.RegsAreValid(set); |
| } |
| |
| |
| |
| #endif // #if defined (__i386__) || defined (__x86_64__) |