1*061da546Spatrick //===-- x86AssemblyInspectionEngine.cpp -------------------------*- C++ -*-===// 2*061da546Spatrick // 3*061da546Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4*061da546Spatrick // See https://llvm.org/LICENSE.txt for license information. 5*061da546Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6*061da546Spatrick // 7*061da546Spatrick //===----------------------------------------------------------------------===// 8*061da546Spatrick 9*061da546Spatrick #include "x86AssemblyInspectionEngine.h" 10*061da546Spatrick 11*061da546Spatrick #include <memory> 12*061da546Spatrick 13*061da546Spatrick #include "llvm-c/Disassembler.h" 14*061da546Spatrick 15*061da546Spatrick #include "lldb/Core/Address.h" 16*061da546Spatrick #include "lldb/Symbol/UnwindPlan.h" 17*061da546Spatrick #include "lldb/Target/RegisterContext.h" 18*061da546Spatrick #include "lldb/Target/UnwindAssembly.h" 19*061da546Spatrick 20*061da546Spatrick using namespace lldb_private; 21*061da546Spatrick using namespace lldb; 22*061da546Spatrick 23*061da546Spatrick x86AssemblyInspectionEngine::x86AssemblyInspectionEngine(const ArchSpec &arch) 24*061da546Spatrick : m_cur_insn(nullptr), m_machine_ip_regnum(LLDB_INVALID_REGNUM), 25*061da546Spatrick m_machine_sp_regnum(LLDB_INVALID_REGNUM), 26*061da546Spatrick m_machine_fp_regnum(LLDB_INVALID_REGNUM), 27*061da546Spatrick m_lldb_ip_regnum(LLDB_INVALID_REGNUM), 28*061da546Spatrick m_lldb_sp_regnum(LLDB_INVALID_REGNUM), 29*061da546Spatrick m_lldb_fp_regnum(LLDB_INVALID_REGNUM), 30*061da546Spatrick 31*061da546Spatrick m_reg_map(), m_arch(arch), m_cpu(k_cpu_unspecified), m_wordsize(-1), 32*061da546Spatrick m_register_map_initialized(false), m_disasm_context() { 33*061da546Spatrick m_disasm_context = 34*061da546Spatrick ::LLVMCreateDisasm(arch.GetTriple().getTriple().c_str(), nullptr, 35*061da546Spatrick /*TagType=*/1, nullptr, nullptr); 36*061da546Spatrick } 37*061da546Spatrick 38*061da546Spatrick x86AssemblyInspectionEngine::~x86AssemblyInspectionEngine() { 39*061da546Spatrick ::LLVMDisasmDispose(m_disasm_context); 40*061da546Spatrick } 41*061da546Spatrick 42*061da546Spatrick void x86AssemblyInspectionEngine::Initialize(RegisterContextSP ®_ctx) { 43*061da546Spatrick m_cpu = k_cpu_unspecified; 44*061da546Spatrick m_wordsize = -1; 45*061da546Spatrick m_register_map_initialized = false; 46*061da546Spatrick 47*061da546Spatrick const llvm::Triple::ArchType cpu = m_arch.GetMachine(); 48*061da546Spatrick if (cpu == llvm::Triple::x86) 49*061da546Spatrick m_cpu = k_i386; 50*061da546Spatrick else if (cpu == llvm::Triple::x86_64) 51*061da546Spatrick m_cpu = k_x86_64; 52*061da546Spatrick 53*061da546Spatrick if (m_cpu == k_cpu_unspecified) 54*061da546Spatrick return; 55*061da546Spatrick 56*061da546Spatrick if (reg_ctx.get() == nullptr) 57*061da546Spatrick return; 58*061da546Spatrick 59*061da546Spatrick if (m_cpu == k_i386) { 60*061da546Spatrick m_machine_ip_regnum = k_machine_eip; 61*061da546Spatrick m_machine_sp_regnum = k_machine_esp; 62*061da546Spatrick m_machine_fp_regnum = k_machine_ebp; 63*061da546Spatrick m_machine_alt_fp_regnum = k_machine_ebx; 64*061da546Spatrick m_wordsize = 4; 65*061da546Spatrick 66*061da546Spatrick struct lldb_reg_info reginfo; 67*061da546Spatrick reginfo.name = "eax"; 68*061da546Spatrick m_reg_map[k_machine_eax] = reginfo; 69*061da546Spatrick reginfo.name = "edx"; 70*061da546Spatrick m_reg_map[k_machine_edx] = reginfo; 71*061da546Spatrick reginfo.name = "esp"; 72*061da546Spatrick m_reg_map[k_machine_esp] = reginfo; 73*061da546Spatrick reginfo.name = "esi"; 74*061da546Spatrick m_reg_map[k_machine_esi] = reginfo; 75*061da546Spatrick reginfo.name = "eip"; 76*061da546Spatrick m_reg_map[k_machine_eip] = reginfo; 77*061da546Spatrick reginfo.name = "ecx"; 78*061da546Spatrick m_reg_map[k_machine_ecx] = reginfo; 79*061da546Spatrick reginfo.name = "ebx"; 80*061da546Spatrick m_reg_map[k_machine_ebx] = reginfo; 81*061da546Spatrick reginfo.name = "ebp"; 82*061da546Spatrick m_reg_map[k_machine_ebp] = reginfo; 83*061da546Spatrick reginfo.name = "edi"; 84*061da546Spatrick m_reg_map[k_machine_edi] = reginfo; 85*061da546Spatrick } else { 86*061da546Spatrick m_machine_ip_regnum = k_machine_rip; 87*061da546Spatrick m_machine_sp_regnum = k_machine_rsp; 88*061da546Spatrick m_machine_fp_regnum = k_machine_rbp; 89*061da546Spatrick m_machine_alt_fp_regnum = k_machine_rbx; 90*061da546Spatrick m_wordsize = 8; 91*061da546Spatrick 92*061da546Spatrick struct lldb_reg_info reginfo; 93*061da546Spatrick reginfo.name = "rax"; 94*061da546Spatrick m_reg_map[k_machine_rax] = reginfo; 95*061da546Spatrick reginfo.name = "rdx"; 96*061da546Spatrick m_reg_map[k_machine_rdx] = reginfo; 97*061da546Spatrick reginfo.name = "rsp"; 98*061da546Spatrick m_reg_map[k_machine_rsp] = reginfo; 99*061da546Spatrick reginfo.name = "rsi"; 100*061da546Spatrick m_reg_map[k_machine_rsi] = reginfo; 101*061da546Spatrick reginfo.name = "r8"; 102*061da546Spatrick m_reg_map[k_machine_r8] = reginfo; 103*061da546Spatrick reginfo.name = "r10"; 104*061da546Spatrick m_reg_map[k_machine_r10] = reginfo; 105*061da546Spatrick reginfo.name = "r12"; 106*061da546Spatrick m_reg_map[k_machine_r12] = reginfo; 107*061da546Spatrick reginfo.name = "r14"; 108*061da546Spatrick m_reg_map[k_machine_r14] = reginfo; 109*061da546Spatrick reginfo.name = "rip"; 110*061da546Spatrick m_reg_map[k_machine_rip] = reginfo; 111*061da546Spatrick reginfo.name = "rcx"; 112*061da546Spatrick m_reg_map[k_machine_rcx] = reginfo; 113*061da546Spatrick reginfo.name = "rbx"; 114*061da546Spatrick m_reg_map[k_machine_rbx] = reginfo; 115*061da546Spatrick reginfo.name = "rbp"; 116*061da546Spatrick m_reg_map[k_machine_rbp] = reginfo; 117*061da546Spatrick reginfo.name = "rdi"; 118*061da546Spatrick m_reg_map[k_machine_rdi] = reginfo; 119*061da546Spatrick reginfo.name = "r9"; 120*061da546Spatrick m_reg_map[k_machine_r9] = reginfo; 121*061da546Spatrick reginfo.name = "r11"; 122*061da546Spatrick m_reg_map[k_machine_r11] = reginfo; 123*061da546Spatrick reginfo.name = "r13"; 124*061da546Spatrick m_reg_map[k_machine_r13] = reginfo; 125*061da546Spatrick reginfo.name = "r15"; 126*061da546Spatrick m_reg_map[k_machine_r15] = reginfo; 127*061da546Spatrick } 128*061da546Spatrick 129*061da546Spatrick for (MachineRegnumToNameAndLLDBRegnum::iterator it = m_reg_map.begin(); 130*061da546Spatrick it != m_reg_map.end(); ++it) { 131*061da546Spatrick const RegisterInfo *ri = reg_ctx->GetRegisterInfoByName(it->second.name); 132*061da546Spatrick if (ri) 133*061da546Spatrick it->second.lldb_regnum = ri->kinds[eRegisterKindLLDB]; 134*061da546Spatrick } 135*061da546Spatrick 136*061da546Spatrick uint32_t lldb_regno; 137*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_sp_regnum, lldb_regno)) 138*061da546Spatrick m_lldb_sp_regnum = lldb_regno; 139*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_fp_regnum, lldb_regno)) 140*061da546Spatrick m_lldb_fp_regnum = lldb_regno; 141*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_alt_fp_regnum, lldb_regno)) 142*061da546Spatrick m_lldb_alt_fp_regnum = lldb_regno; 143*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_ip_regnum, lldb_regno)) 144*061da546Spatrick m_lldb_ip_regnum = lldb_regno; 145*061da546Spatrick 146*061da546Spatrick m_register_map_initialized = true; 147*061da546Spatrick } 148*061da546Spatrick 149*061da546Spatrick void x86AssemblyInspectionEngine::Initialize( 150*061da546Spatrick std::vector<lldb_reg_info> ®_info) { 151*061da546Spatrick m_cpu = k_cpu_unspecified; 152*061da546Spatrick m_wordsize = -1; 153*061da546Spatrick m_register_map_initialized = false; 154*061da546Spatrick 155*061da546Spatrick const llvm::Triple::ArchType cpu = m_arch.GetMachine(); 156*061da546Spatrick if (cpu == llvm::Triple::x86) 157*061da546Spatrick m_cpu = k_i386; 158*061da546Spatrick else if (cpu == llvm::Triple::x86_64) 159*061da546Spatrick m_cpu = k_x86_64; 160*061da546Spatrick 161*061da546Spatrick if (m_cpu == k_cpu_unspecified) 162*061da546Spatrick return; 163*061da546Spatrick 164*061da546Spatrick if (m_cpu == k_i386) { 165*061da546Spatrick m_machine_ip_regnum = k_machine_eip; 166*061da546Spatrick m_machine_sp_regnum = k_machine_esp; 167*061da546Spatrick m_machine_fp_regnum = k_machine_ebp; 168*061da546Spatrick m_machine_alt_fp_regnum = k_machine_ebx; 169*061da546Spatrick m_wordsize = 4; 170*061da546Spatrick 171*061da546Spatrick struct lldb_reg_info reginfo; 172*061da546Spatrick reginfo.name = "eax"; 173*061da546Spatrick m_reg_map[k_machine_eax] = reginfo; 174*061da546Spatrick reginfo.name = "edx"; 175*061da546Spatrick m_reg_map[k_machine_edx] = reginfo; 176*061da546Spatrick reginfo.name = "esp"; 177*061da546Spatrick m_reg_map[k_machine_esp] = reginfo; 178*061da546Spatrick reginfo.name = "esi"; 179*061da546Spatrick m_reg_map[k_machine_esi] = reginfo; 180*061da546Spatrick reginfo.name = "eip"; 181*061da546Spatrick m_reg_map[k_machine_eip] = reginfo; 182*061da546Spatrick reginfo.name = "ecx"; 183*061da546Spatrick m_reg_map[k_machine_ecx] = reginfo; 184*061da546Spatrick reginfo.name = "ebx"; 185*061da546Spatrick m_reg_map[k_machine_ebx] = reginfo; 186*061da546Spatrick reginfo.name = "ebp"; 187*061da546Spatrick m_reg_map[k_machine_ebp] = reginfo; 188*061da546Spatrick reginfo.name = "edi"; 189*061da546Spatrick m_reg_map[k_machine_edi] = reginfo; 190*061da546Spatrick } else { 191*061da546Spatrick m_machine_ip_regnum = k_machine_rip; 192*061da546Spatrick m_machine_sp_regnum = k_machine_rsp; 193*061da546Spatrick m_machine_fp_regnum = k_machine_rbp; 194*061da546Spatrick m_machine_alt_fp_regnum = k_machine_rbx; 195*061da546Spatrick m_wordsize = 8; 196*061da546Spatrick 197*061da546Spatrick struct lldb_reg_info reginfo; 198*061da546Spatrick reginfo.name = "rax"; 199*061da546Spatrick m_reg_map[k_machine_rax] = reginfo; 200*061da546Spatrick reginfo.name = "rdx"; 201*061da546Spatrick m_reg_map[k_machine_rdx] = reginfo; 202*061da546Spatrick reginfo.name = "rsp"; 203*061da546Spatrick m_reg_map[k_machine_rsp] = reginfo; 204*061da546Spatrick reginfo.name = "rsi"; 205*061da546Spatrick m_reg_map[k_machine_rsi] = reginfo; 206*061da546Spatrick reginfo.name = "r8"; 207*061da546Spatrick m_reg_map[k_machine_r8] = reginfo; 208*061da546Spatrick reginfo.name = "r10"; 209*061da546Spatrick m_reg_map[k_machine_r10] = reginfo; 210*061da546Spatrick reginfo.name = "r12"; 211*061da546Spatrick m_reg_map[k_machine_r12] = reginfo; 212*061da546Spatrick reginfo.name = "r14"; 213*061da546Spatrick m_reg_map[k_machine_r14] = reginfo; 214*061da546Spatrick reginfo.name = "rip"; 215*061da546Spatrick m_reg_map[k_machine_rip] = reginfo; 216*061da546Spatrick reginfo.name = "rcx"; 217*061da546Spatrick m_reg_map[k_machine_rcx] = reginfo; 218*061da546Spatrick reginfo.name = "rbx"; 219*061da546Spatrick m_reg_map[k_machine_rbx] = reginfo; 220*061da546Spatrick reginfo.name = "rbp"; 221*061da546Spatrick m_reg_map[k_machine_rbp] = reginfo; 222*061da546Spatrick reginfo.name = "rdi"; 223*061da546Spatrick m_reg_map[k_machine_rdi] = reginfo; 224*061da546Spatrick reginfo.name = "r9"; 225*061da546Spatrick m_reg_map[k_machine_r9] = reginfo; 226*061da546Spatrick reginfo.name = "r11"; 227*061da546Spatrick m_reg_map[k_machine_r11] = reginfo; 228*061da546Spatrick reginfo.name = "r13"; 229*061da546Spatrick m_reg_map[k_machine_r13] = reginfo; 230*061da546Spatrick reginfo.name = "r15"; 231*061da546Spatrick m_reg_map[k_machine_r15] = reginfo; 232*061da546Spatrick } 233*061da546Spatrick 234*061da546Spatrick for (MachineRegnumToNameAndLLDBRegnum::iterator it = m_reg_map.begin(); 235*061da546Spatrick it != m_reg_map.end(); ++it) { 236*061da546Spatrick for (size_t i = 0; i < reg_info.size(); ++i) { 237*061da546Spatrick if (::strcmp(reg_info[i].name, it->second.name) == 0) { 238*061da546Spatrick it->second.lldb_regnum = reg_info[i].lldb_regnum; 239*061da546Spatrick break; 240*061da546Spatrick } 241*061da546Spatrick } 242*061da546Spatrick } 243*061da546Spatrick 244*061da546Spatrick uint32_t lldb_regno; 245*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_sp_regnum, lldb_regno)) 246*061da546Spatrick m_lldb_sp_regnum = lldb_regno; 247*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_fp_regnum, lldb_regno)) 248*061da546Spatrick m_lldb_fp_regnum = lldb_regno; 249*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_alt_fp_regnum, lldb_regno)) 250*061da546Spatrick m_lldb_alt_fp_regnum = lldb_regno; 251*061da546Spatrick if (machine_regno_to_lldb_regno(m_machine_ip_regnum, lldb_regno)) 252*061da546Spatrick m_lldb_ip_regnum = lldb_regno; 253*061da546Spatrick 254*061da546Spatrick m_register_map_initialized = true; 255*061da546Spatrick } 256*061da546Spatrick 257*061da546Spatrick // This function expects an x86 native register number (i.e. the bits stripped 258*061da546Spatrick // out of the actual instruction), not an lldb register number. 259*061da546Spatrick // 260*061da546Spatrick // FIXME: This is ABI dependent, it shouldn't be hardcoded here. 261*061da546Spatrick 262*061da546Spatrick bool x86AssemblyInspectionEngine::nonvolatile_reg_p(int machine_regno) { 263*061da546Spatrick if (m_cpu == k_i386) { 264*061da546Spatrick switch (machine_regno) { 265*061da546Spatrick case k_machine_ebx: 266*061da546Spatrick case k_machine_ebp: // not actually a nonvolatile but often treated as such 267*061da546Spatrick // by convention 268*061da546Spatrick case k_machine_esi: 269*061da546Spatrick case k_machine_edi: 270*061da546Spatrick case k_machine_esp: 271*061da546Spatrick return true; 272*061da546Spatrick default: 273*061da546Spatrick return false; 274*061da546Spatrick } 275*061da546Spatrick } 276*061da546Spatrick if (m_cpu == k_x86_64) { 277*061da546Spatrick switch (machine_regno) { 278*061da546Spatrick case k_machine_rbx: 279*061da546Spatrick case k_machine_rsp: 280*061da546Spatrick case k_machine_rbp: // not actually a nonvolatile but often treated as such 281*061da546Spatrick // by convention 282*061da546Spatrick case k_machine_r12: 283*061da546Spatrick case k_machine_r13: 284*061da546Spatrick case k_machine_r14: 285*061da546Spatrick case k_machine_r15: 286*061da546Spatrick return true; 287*061da546Spatrick default: 288*061da546Spatrick return false; 289*061da546Spatrick } 290*061da546Spatrick } 291*061da546Spatrick return false; 292*061da546Spatrick } 293*061da546Spatrick 294*061da546Spatrick // Macro to detect if this is a REX mode prefix byte. 295*061da546Spatrick #define REX_W_PREFIX_P(opcode) (((opcode) & (~0x5)) == 0x48) 296*061da546Spatrick 297*061da546Spatrick // The high bit which should be added to the source register number (the "R" 298*061da546Spatrick // bit) 299*061da546Spatrick #define REX_W_SRCREG(opcode) (((opcode)&0x4) >> 2) 300*061da546Spatrick 301*061da546Spatrick // The high bit which should be added to the destination register number (the 302*061da546Spatrick // "B" bit) 303*061da546Spatrick #define REX_W_DSTREG(opcode) ((opcode)&0x1) 304*061da546Spatrick 305*061da546Spatrick // pushq %rbp [0x55] 306*061da546Spatrick bool x86AssemblyInspectionEngine::push_rbp_pattern_p() { 307*061da546Spatrick uint8_t *p = m_cur_insn; 308*061da546Spatrick return *p == 0x55; 309*061da546Spatrick } 310*061da546Spatrick 311*061da546Spatrick // pushq $0 ; the first instruction in start() [0x6a 0x00] 312*061da546Spatrick bool x86AssemblyInspectionEngine::push_0_pattern_p() { 313*061da546Spatrick uint8_t *p = m_cur_insn; 314*061da546Spatrick return *p == 0x6a && *(p + 1) == 0x0; 315*061da546Spatrick } 316*061da546Spatrick 317*061da546Spatrick // pushq $0 318*061da546Spatrick // pushl $0 319*061da546Spatrick bool x86AssemblyInspectionEngine::push_imm_pattern_p() { 320*061da546Spatrick uint8_t *p = m_cur_insn; 321*061da546Spatrick return *p == 0x68 || *p == 0x6a; 322*061da546Spatrick } 323*061da546Spatrick 324*061da546Spatrick // pushl imm8(%esp) 325*061da546Spatrick // 326*061da546Spatrick // e.g. 0xff 0x74 0x24 0x20 - 'pushl 0x20(%esp)' (same byte pattern for 'pushq 327*061da546Spatrick // 0x20(%rsp)' in an x86_64 program) 328*061da546Spatrick // 329*061da546Spatrick // 0xff (with opcode bits '6' in next byte, PUSH r/m32) 0x74 (ModR/M byte with 330*061da546Spatrick // three bits used to specify the opcode) 331*061da546Spatrick // mod == b01, opcode == b110, R/M == b100 332*061da546Spatrick // "+disp8" 333*061da546Spatrick // 0x24 (SIB byte - scaled index = 0, r32 == esp) 0x20 imm8 value 334*061da546Spatrick 335*061da546Spatrick bool x86AssemblyInspectionEngine::push_extended_pattern_p() { 336*061da546Spatrick if (*m_cur_insn == 0xff) { 337*061da546Spatrick // Get the 3 opcode bits from the ModR/M byte 338*061da546Spatrick uint8_t opcode = (*(m_cur_insn + 1) >> 3) & 7; 339*061da546Spatrick if (opcode == 6) { 340*061da546Spatrick // I'm only looking for 0xff /6 here - I 341*061da546Spatrick // don't really care what value is being pushed, just that we're pushing 342*061da546Spatrick // a 32/64 bit value on to the stack is enough. 343*061da546Spatrick return true; 344*061da546Spatrick } 345*061da546Spatrick } 346*061da546Spatrick return false; 347*061da546Spatrick } 348*061da546Spatrick 349*061da546Spatrick // instructions only valid in 32-bit mode: 350*061da546Spatrick // 0x0e - push cs 351*061da546Spatrick // 0x16 - push ss 352*061da546Spatrick // 0x1e - push ds 353*061da546Spatrick // 0x06 - push es 354*061da546Spatrick bool x86AssemblyInspectionEngine::push_misc_reg_p() { 355*061da546Spatrick uint8_t p = *m_cur_insn; 356*061da546Spatrick if (m_wordsize == 4) { 357*061da546Spatrick if (p == 0x0e || p == 0x16 || p == 0x1e || p == 0x06) 358*061da546Spatrick return true; 359*061da546Spatrick } 360*061da546Spatrick return false; 361*061da546Spatrick } 362*061da546Spatrick 363*061da546Spatrick // pushq %rbx 364*061da546Spatrick // pushl %ebx 365*061da546Spatrick bool x86AssemblyInspectionEngine::push_reg_p(int ®no) { 366*061da546Spatrick uint8_t *p = m_cur_insn; 367*061da546Spatrick int regno_prefix_bit = 0; 368*061da546Spatrick // If we have a rex prefix byte, check to see if a B bit is set 369*061da546Spatrick if (m_wordsize == 8 && (*p & 0xfe) == 0x40) { 370*061da546Spatrick regno_prefix_bit = (*p & 1) << 3; 371*061da546Spatrick p++; 372*061da546Spatrick } 373*061da546Spatrick if (*p >= 0x50 && *p <= 0x57) { 374*061da546Spatrick regno = (*p - 0x50) | regno_prefix_bit; 375*061da546Spatrick return true; 376*061da546Spatrick } 377*061da546Spatrick return false; 378*061da546Spatrick } 379*061da546Spatrick 380*061da546Spatrick // movq %rsp, %rbp [0x48 0x8b 0xec] or [0x48 0x89 0xe5] movl %esp, %ebp [0x8b 381*061da546Spatrick // 0xec] or [0x89 0xe5] 382*061da546Spatrick bool x86AssemblyInspectionEngine::mov_rsp_rbp_pattern_p() { 383*061da546Spatrick uint8_t *p = m_cur_insn; 384*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 385*061da546Spatrick p++; 386*061da546Spatrick if (*(p) == 0x8b && *(p + 1) == 0xec) 387*061da546Spatrick return true; 388*061da546Spatrick if (*(p) == 0x89 && *(p + 1) == 0xe5) 389*061da546Spatrick return true; 390*061da546Spatrick return false; 391*061da546Spatrick } 392*061da546Spatrick 393*061da546Spatrick // movq %rsp, %rbx [0x48 0x8b 0xdc] or [0x48 0x89 0xe3] 394*061da546Spatrick // movl %esp, %ebx [0x8b 0xdc] or [0x89 0xe3] 395*061da546Spatrick bool x86AssemblyInspectionEngine::mov_rsp_rbx_pattern_p() { 396*061da546Spatrick uint8_t *p = m_cur_insn; 397*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 398*061da546Spatrick p++; 399*061da546Spatrick if (*(p) == 0x8b && *(p + 1) == 0xdc) 400*061da546Spatrick return true; 401*061da546Spatrick if (*(p) == 0x89 && *(p + 1) == 0xe3) 402*061da546Spatrick return true; 403*061da546Spatrick return false; 404*061da546Spatrick } 405*061da546Spatrick 406*061da546Spatrick // movq %rbp, %rsp [0x48 0x8b 0xe5] or [0x48 0x89 0xec] 407*061da546Spatrick // movl %ebp, %esp [0x8b 0xe5] or [0x89 0xec] 408*061da546Spatrick bool x86AssemblyInspectionEngine::mov_rbp_rsp_pattern_p() { 409*061da546Spatrick uint8_t *p = m_cur_insn; 410*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 411*061da546Spatrick p++; 412*061da546Spatrick if (*(p) == 0x8b && *(p + 1) == 0xe5) 413*061da546Spatrick return true; 414*061da546Spatrick if (*(p) == 0x89 && *(p + 1) == 0xec) 415*061da546Spatrick return true; 416*061da546Spatrick return false; 417*061da546Spatrick } 418*061da546Spatrick 419*061da546Spatrick // movq %rbx, %rsp [0x48 0x8b 0xe3] or [0x48 0x89 0xdc] 420*061da546Spatrick // movl %ebx, %esp [0x8b 0xe3] or [0x89 0xdc] 421*061da546Spatrick bool x86AssemblyInspectionEngine::mov_rbx_rsp_pattern_p() { 422*061da546Spatrick uint8_t *p = m_cur_insn; 423*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 424*061da546Spatrick p++; 425*061da546Spatrick if (*(p) == 0x8b && *(p + 1) == 0xe3) 426*061da546Spatrick return true; 427*061da546Spatrick if (*(p) == 0x89 && *(p + 1) == 0xdc) 428*061da546Spatrick return true; 429*061da546Spatrick return false; 430*061da546Spatrick } 431*061da546Spatrick 432*061da546Spatrick // subq $0x20, %rsp 433*061da546Spatrick bool x86AssemblyInspectionEngine::sub_rsp_pattern_p(int &amount) { 434*061da546Spatrick uint8_t *p = m_cur_insn; 435*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 436*061da546Spatrick p++; 437*061da546Spatrick // 8-bit immediate operand 438*061da546Spatrick if (*p == 0x83 && *(p + 1) == 0xec) { 439*061da546Spatrick amount = (int8_t) * (p + 2); 440*061da546Spatrick return true; 441*061da546Spatrick } 442*061da546Spatrick // 32-bit immediate operand 443*061da546Spatrick if (*p == 0x81 && *(p + 1) == 0xec) { 444*061da546Spatrick amount = (int32_t)extract_4(p + 2); 445*061da546Spatrick return true; 446*061da546Spatrick } 447*061da546Spatrick return false; 448*061da546Spatrick } 449*061da546Spatrick 450*061da546Spatrick // addq $0x20, %rsp 451*061da546Spatrick bool x86AssemblyInspectionEngine::add_rsp_pattern_p(int &amount) { 452*061da546Spatrick uint8_t *p = m_cur_insn; 453*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 454*061da546Spatrick p++; 455*061da546Spatrick // 8-bit immediate operand 456*061da546Spatrick if (*p == 0x83 && *(p + 1) == 0xc4) { 457*061da546Spatrick amount = (int8_t) * (p + 2); 458*061da546Spatrick return true; 459*061da546Spatrick } 460*061da546Spatrick // 32-bit immediate operand 461*061da546Spatrick if (*p == 0x81 && *(p + 1) == 0xc4) { 462*061da546Spatrick amount = (int32_t)extract_4(p + 2); 463*061da546Spatrick return true; 464*061da546Spatrick } 465*061da546Spatrick return false; 466*061da546Spatrick } 467*061da546Spatrick 468*061da546Spatrick // lea esp, [esp - 0x28] 469*061da546Spatrick // lea esp, [esp + 0x28] 470*061da546Spatrick bool x86AssemblyInspectionEngine::lea_rsp_pattern_p(int &amount) { 471*061da546Spatrick uint8_t *p = m_cur_insn; 472*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 473*061da546Spatrick p++; 474*061da546Spatrick 475*061da546Spatrick // Check opcode 476*061da546Spatrick if (*p != 0x8d) 477*061da546Spatrick return false; 478*061da546Spatrick 479*061da546Spatrick // 8 bit displacement 480*061da546Spatrick if (*(p + 1) == 0x64 && (*(p + 2) & 0x3f) == 0x24) { 481*061da546Spatrick amount = (int8_t) * (p + 3); 482*061da546Spatrick return true; 483*061da546Spatrick } 484*061da546Spatrick 485*061da546Spatrick // 32 bit displacement 486*061da546Spatrick if (*(p + 1) == 0xa4 && (*(p + 2) & 0x3f) == 0x24) { 487*061da546Spatrick amount = (int32_t)extract_4(p + 3); 488*061da546Spatrick return true; 489*061da546Spatrick } 490*061da546Spatrick 491*061da546Spatrick return false; 492*061da546Spatrick } 493*061da546Spatrick 494*061da546Spatrick // lea -0x28(%ebp), %esp 495*061da546Spatrick // (32-bit and 64-bit variants, 8-bit and 32-bit displacement) 496*061da546Spatrick bool x86AssemblyInspectionEngine::lea_rbp_rsp_pattern_p(int &amount) { 497*061da546Spatrick uint8_t *p = m_cur_insn; 498*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 499*061da546Spatrick p++; 500*061da546Spatrick 501*061da546Spatrick // Check opcode 502*061da546Spatrick if (*p != 0x8d) 503*061da546Spatrick return false; 504*061da546Spatrick ++p; 505*061da546Spatrick 506*061da546Spatrick // 8 bit displacement 507*061da546Spatrick if (*p == 0x65) { 508*061da546Spatrick amount = (int8_t)p[1]; 509*061da546Spatrick return true; 510*061da546Spatrick } 511*061da546Spatrick 512*061da546Spatrick // 32 bit displacement 513*061da546Spatrick if (*p == 0xa5) { 514*061da546Spatrick amount = (int32_t)extract_4(p + 1); 515*061da546Spatrick return true; 516*061da546Spatrick } 517*061da546Spatrick 518*061da546Spatrick return false; 519*061da546Spatrick } 520*061da546Spatrick 521*061da546Spatrick // lea -0x28(%ebx), %esp 522*061da546Spatrick // (32-bit and 64-bit variants, 8-bit and 32-bit displacement) 523*061da546Spatrick bool x86AssemblyInspectionEngine::lea_rbx_rsp_pattern_p(int &amount) { 524*061da546Spatrick uint8_t *p = m_cur_insn; 525*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 526*061da546Spatrick p++; 527*061da546Spatrick 528*061da546Spatrick // Check opcode 529*061da546Spatrick if (*p != 0x8d) 530*061da546Spatrick return false; 531*061da546Spatrick ++p; 532*061da546Spatrick 533*061da546Spatrick // 8 bit displacement 534*061da546Spatrick if (*p == 0x63) { 535*061da546Spatrick amount = (int8_t)p[1]; 536*061da546Spatrick return true; 537*061da546Spatrick } 538*061da546Spatrick 539*061da546Spatrick // 32 bit displacement 540*061da546Spatrick if (*p == 0xa3) { 541*061da546Spatrick amount = (int32_t)extract_4(p + 1); 542*061da546Spatrick return true; 543*061da546Spatrick } 544*061da546Spatrick 545*061da546Spatrick return false; 546*061da546Spatrick } 547*061da546Spatrick 548*061da546Spatrick // and -0xfffffff0, %esp 549*061da546Spatrick // (32-bit and 64-bit variants, 8-bit and 32-bit displacement) 550*061da546Spatrick bool x86AssemblyInspectionEngine::and_rsp_pattern_p() { 551*061da546Spatrick uint8_t *p = m_cur_insn; 552*061da546Spatrick if (m_wordsize == 8 && *p == 0x48) 553*061da546Spatrick p++; 554*061da546Spatrick 555*061da546Spatrick if (*p != 0x81 && *p != 0x83) 556*061da546Spatrick return false; 557*061da546Spatrick 558*061da546Spatrick return *++p == 0xe4; 559*061da546Spatrick } 560*061da546Spatrick 561*061da546Spatrick // popq %rbx 562*061da546Spatrick // popl %ebx 563*061da546Spatrick bool x86AssemblyInspectionEngine::pop_reg_p(int ®no) { 564*061da546Spatrick uint8_t *p = m_cur_insn; 565*061da546Spatrick int regno_prefix_bit = 0; 566*061da546Spatrick // If we have a rex prefix byte, check to see if a B bit is set 567*061da546Spatrick if (m_wordsize == 8 && (*p & 0xfe) == 0x40) { 568*061da546Spatrick regno_prefix_bit = (*p & 1) << 3; 569*061da546Spatrick p++; 570*061da546Spatrick } 571*061da546Spatrick if (*p >= 0x58 && *p <= 0x5f) { 572*061da546Spatrick regno = (*p - 0x58) | regno_prefix_bit; 573*061da546Spatrick return true; 574*061da546Spatrick } 575*061da546Spatrick return false; 576*061da546Spatrick } 577*061da546Spatrick 578*061da546Spatrick // popq %rbp [0x5d] 579*061da546Spatrick // popl %ebp [0x5d] 580*061da546Spatrick bool x86AssemblyInspectionEngine::pop_rbp_pattern_p() { 581*061da546Spatrick uint8_t *p = m_cur_insn; 582*061da546Spatrick return (*p == 0x5d); 583*061da546Spatrick } 584*061da546Spatrick 585*061da546Spatrick // instructions valid only in 32-bit mode: 586*061da546Spatrick // 0x1f - pop ds 587*061da546Spatrick // 0x07 - pop es 588*061da546Spatrick // 0x17 - pop ss 589*061da546Spatrick bool x86AssemblyInspectionEngine::pop_misc_reg_p() { 590*061da546Spatrick uint8_t p = *m_cur_insn; 591*061da546Spatrick if (m_wordsize == 4) { 592*061da546Spatrick if (p == 0x1f || p == 0x07 || p == 0x17) 593*061da546Spatrick return true; 594*061da546Spatrick } 595*061da546Spatrick return false; 596*061da546Spatrick } 597*061da546Spatrick 598*061da546Spatrick // leave [0xc9] 599*061da546Spatrick bool x86AssemblyInspectionEngine::leave_pattern_p() { 600*061da546Spatrick uint8_t *p = m_cur_insn; 601*061da546Spatrick return (*p == 0xc9); 602*061da546Spatrick } 603*061da546Spatrick 604*061da546Spatrick // call $0 [0xe8 0x0 0x0 0x0 0x0] 605*061da546Spatrick bool x86AssemblyInspectionEngine::call_next_insn_pattern_p() { 606*061da546Spatrick uint8_t *p = m_cur_insn; 607*061da546Spatrick return (*p == 0xe8) && (*(p + 1) == 0x0) && (*(p + 2) == 0x0) && 608*061da546Spatrick (*(p + 3) == 0x0) && (*(p + 4) == 0x0); 609*061da546Spatrick } 610*061da546Spatrick 611*061da546Spatrick // Look for an instruction sequence storing a nonvolatile register on to the 612*061da546Spatrick // stack frame. 613*061da546Spatrick 614*061da546Spatrick // movq %rax, -0x10(%rbp) [0x48 0x89 0x45 0xf0] 615*061da546Spatrick // movl %eax, -0xc(%ebp) [0x89 0x45 0xf4] 616*061da546Spatrick 617*061da546Spatrick // The offset value returned in rbp_offset will be positive -- but it must be 618*061da546Spatrick // subtraced from the frame base register to get the actual location. The 619*061da546Spatrick // positive value returned for the offset is a convention used elsewhere for 620*061da546Spatrick // CFA offsets et al. 621*061da546Spatrick 622*061da546Spatrick bool x86AssemblyInspectionEngine::mov_reg_to_local_stack_frame_p( 623*061da546Spatrick int ®no, int &rbp_offset) { 624*061da546Spatrick uint8_t *p = m_cur_insn; 625*061da546Spatrick int src_reg_prefix_bit = 0; 626*061da546Spatrick int target_reg_prefix_bit = 0; 627*061da546Spatrick 628*061da546Spatrick if (m_wordsize == 8 && REX_W_PREFIX_P(*p)) { 629*061da546Spatrick src_reg_prefix_bit = REX_W_SRCREG(*p) << 3; 630*061da546Spatrick target_reg_prefix_bit = REX_W_DSTREG(*p) << 3; 631*061da546Spatrick if (target_reg_prefix_bit == 1) { 632*061da546Spatrick // rbp/ebp don't need a prefix bit - we know this isn't the reg we care 633*061da546Spatrick // about. 634*061da546Spatrick return false; 635*061da546Spatrick } 636*061da546Spatrick p++; 637*061da546Spatrick } 638*061da546Spatrick 639*061da546Spatrick if (*p == 0x89) { 640*061da546Spatrick /* Mask off the 3-5 bits which indicate the destination register 641*061da546Spatrick if this is a ModR/M byte. */ 642*061da546Spatrick int opcode_destreg_masked_out = *(p + 1) & (~0x38); 643*061da546Spatrick 644*061da546Spatrick /* Is this a ModR/M byte with Mod bits 01 and R/M bits 101 645*061da546Spatrick and three bits between them, e.g. 01nnn101 646*061da546Spatrick We're looking for a destination of ebp-disp8 or ebp-disp32. */ 647*061da546Spatrick int immsize; 648*061da546Spatrick if (opcode_destreg_masked_out == 0x45) 649*061da546Spatrick immsize = 2; 650*061da546Spatrick else if (opcode_destreg_masked_out == 0x85) 651*061da546Spatrick immsize = 4; 652*061da546Spatrick else 653*061da546Spatrick return false; 654*061da546Spatrick 655*061da546Spatrick int offset = 0; 656*061da546Spatrick if (immsize == 2) 657*061da546Spatrick offset = (int8_t) * (p + 2); 658*061da546Spatrick if (immsize == 4) 659*061da546Spatrick offset = (uint32_t)extract_4(p + 2); 660*061da546Spatrick if (offset > 0) 661*061da546Spatrick return false; 662*061da546Spatrick 663*061da546Spatrick regno = ((*(p + 1) >> 3) & 0x7) | src_reg_prefix_bit; 664*061da546Spatrick rbp_offset = offset > 0 ? offset : -offset; 665*061da546Spatrick return true; 666*061da546Spatrick } 667*061da546Spatrick return false; 668*061da546Spatrick } 669*061da546Spatrick 670*061da546Spatrick // Returns true if this is a jmp instruction where we can't 671*061da546Spatrick // know the destination address statically. 672*061da546Spatrick // 673*061da546Spatrick // ff e0 jmpq *%rax 674*061da546Spatrick // ff e1 jmpq *%rcx 675*061da546Spatrick // ff 60 28 jmpq *0x28(%rax) 676*061da546Spatrick // ff 60 60 jmpq *0x60(%rax) 677*061da546Spatrick bool x86AssemblyInspectionEngine::jmp_to_reg_p() { 678*061da546Spatrick if (*m_cur_insn != 0xff) 679*061da546Spatrick return false; 680*061da546Spatrick 681*061da546Spatrick // The second byte is a ModR/M /4 byte, strip off the registers 682*061da546Spatrick uint8_t second_byte_sans_reg = *(m_cur_insn + 1) & ~7; 683*061da546Spatrick 684*061da546Spatrick // Don't handle 0x24 disp32, because the target address is 685*061da546Spatrick // knowable statically - pc_rel_branch_or_jump_p() will 686*061da546Spatrick // return the target address. 687*061da546Spatrick 688*061da546Spatrick // [reg] 689*061da546Spatrick if (second_byte_sans_reg == 0x20) 690*061da546Spatrick return true; 691*061da546Spatrick 692*061da546Spatrick // [reg]+disp8 693*061da546Spatrick if (second_byte_sans_reg == 0x60) 694*061da546Spatrick return true; 695*061da546Spatrick 696*061da546Spatrick // [reg]+disp32 697*061da546Spatrick if (second_byte_sans_reg == 0xa0) 698*061da546Spatrick return true; 699*061da546Spatrick 700*061da546Spatrick // reg 701*061da546Spatrick if (second_byte_sans_reg == 0xe0) 702*061da546Spatrick return true; 703*061da546Spatrick 704*061da546Spatrick // disp32 705*061da546Spatrick // jumps to an address stored in memory, the value can't be cached 706*061da546Spatrick // in an unwind plan. 707*061da546Spatrick if (second_byte_sans_reg == 0x24) 708*061da546Spatrick return true; 709*061da546Spatrick 710*061da546Spatrick // use SIB byte 711*061da546Spatrick // ff 24 fe jmpq *(%rsi,%rdi,8) 712*061da546Spatrick if (second_byte_sans_reg == 0x24) 713*061da546Spatrick return true; 714*061da546Spatrick 715*061da546Spatrick return false; 716*061da546Spatrick } 717*061da546Spatrick 718*061da546Spatrick // Detect branches to fixed pc-relative offsets. 719*061da546Spatrick // Returns the offset from the address of the next instruction 720*061da546Spatrick // that may be branch/jumped to. 721*061da546Spatrick // 722*061da546Spatrick // Cannot determine the offset of a JMP that jumps to the address in 723*061da546Spatrick // a register ("jmpq *%rax") or offset from a register value 724*061da546Spatrick // ("jmpq *0x28(%rax)"), this method will return false on those 725*061da546Spatrick // instructions. 726*061da546Spatrick // 727*061da546Spatrick // These instructions all end in either a relative 8/16/32 bit value 728*061da546Spatrick // depending on the instruction and the current execution mode of the 729*061da546Spatrick // inferior process. Once we know the size of the opcode instruction, 730*061da546Spatrick // we can use the total instruction length to determine the size of 731*061da546Spatrick // the relative offset without having to compute it correctly. 732*061da546Spatrick 733*061da546Spatrick bool x86AssemblyInspectionEngine::pc_rel_branch_or_jump_p ( 734*061da546Spatrick const int instruction_length, int &offset) 735*061da546Spatrick { 736*061da546Spatrick int opcode_size = 0; 737*061da546Spatrick 738*061da546Spatrick uint8_t b1 = m_cur_insn[0]; 739*061da546Spatrick 740*061da546Spatrick switch (b1) { 741*061da546Spatrick case 0x77: // JA/JNBE rel8 742*061da546Spatrick case 0x73: // JAE/JNB/JNC rel8 743*061da546Spatrick case 0x72: // JB/JC/JNAE rel8 744*061da546Spatrick case 0x76: // JBE/JNA rel8 745*061da546Spatrick case 0xe3: // JCXZ/JECXZ/JRCXZ rel8 746*061da546Spatrick case 0x74: // JE/JZ rel8 747*061da546Spatrick case 0x7f: // JG/JNLE rel8 748*061da546Spatrick case 0x7d: // JGE/JNL rel8 749*061da546Spatrick case 0x7c: // JL/JNGE rel8 750*061da546Spatrick case 0x7e: // JNG/JLE rel8 751*061da546Spatrick case 0x71: // JNO rel8 752*061da546Spatrick case 0x7b: // JNP/JPO rel8 753*061da546Spatrick case 0x79: // JNS rel8 754*061da546Spatrick case 0x75: // JNE/JNZ rel8 755*061da546Spatrick case 0x70: // JO rel8 756*061da546Spatrick case 0x7a: // JP/JPE rel8 757*061da546Spatrick case 0x78: // JS rel8 758*061da546Spatrick case 0xeb: // JMP rel8 759*061da546Spatrick case 0xe9: // JMP rel16/rel32 760*061da546Spatrick opcode_size = 1; 761*061da546Spatrick break; 762*061da546Spatrick default: 763*061da546Spatrick break; 764*061da546Spatrick } 765*061da546Spatrick if (b1 == 0x0f && opcode_size == 0) { 766*061da546Spatrick uint8_t b2 = m_cur_insn[1]; 767*061da546Spatrick switch (b2) { 768*061da546Spatrick case 0x87: // JA/JNBE rel16/rel32 769*061da546Spatrick case 0x86: // JBE/JNA rel16/rel32 770*061da546Spatrick case 0x84: // JE/JZ rel16/rel32 771*061da546Spatrick case 0x8f: // JG/JNLE rel16/rel32 772*061da546Spatrick case 0x8d: // JNL/JGE rel16/rel32 773*061da546Spatrick case 0x8e: // JLE rel16/rel32 774*061da546Spatrick case 0x82: // JB/JC/JNAE rel16/rel32 775*061da546Spatrick case 0x83: // JAE/JNB/JNC rel16/rel32 776*061da546Spatrick case 0x85: // JNE/JNZ rel16/rel32 777*061da546Spatrick case 0x8c: // JL/JNGE rel16/rel32 778*061da546Spatrick case 0x81: // JNO rel16/rel32 779*061da546Spatrick case 0x8b: // JNP/JPO rel16/rel32 780*061da546Spatrick case 0x89: // JNS rel16/rel32 781*061da546Spatrick case 0x80: // JO rel16/rel32 782*061da546Spatrick case 0x8a: // JP rel16/rel32 783*061da546Spatrick case 0x88: // JS rel16/rel32 784*061da546Spatrick opcode_size = 2; 785*061da546Spatrick break; 786*061da546Spatrick default: 787*061da546Spatrick break; 788*061da546Spatrick } 789*061da546Spatrick } 790*061da546Spatrick 791*061da546Spatrick if (opcode_size == 0) 792*061da546Spatrick return false; 793*061da546Spatrick 794*061da546Spatrick offset = 0; 795*061da546Spatrick if (instruction_length - opcode_size == 1) { 796*061da546Spatrick int8_t rel8 = (int8_t) *(m_cur_insn + opcode_size); 797*061da546Spatrick offset = rel8; 798*061da546Spatrick } else if (instruction_length - opcode_size == 2) { 799*061da546Spatrick int16_t rel16 = extract_2_signed (m_cur_insn + opcode_size); 800*061da546Spatrick offset = rel16; 801*061da546Spatrick } else if (instruction_length - opcode_size == 4) { 802*061da546Spatrick int32_t rel32 = extract_4_signed (m_cur_insn + opcode_size); 803*061da546Spatrick offset = rel32; 804*061da546Spatrick } else { 805*061da546Spatrick return false; 806*061da546Spatrick } 807*061da546Spatrick return true; 808*061da546Spatrick } 809*061da546Spatrick 810*061da546Spatrick // Returns true if this instruction is a intra-function branch or jump - 811*061da546Spatrick // a branch/jump within the bounds of this same function. 812*061da546Spatrick // Cannot predict where a jump through a register value ("jmpq *%rax") 813*061da546Spatrick // will go, so it will return false on that instruction. 814*061da546Spatrick bool x86AssemblyInspectionEngine::local_branch_p ( 815*061da546Spatrick const addr_t current_func_text_offset, 816*061da546Spatrick const AddressRange &func_range, 817*061da546Spatrick const int instruction_length, 818*061da546Spatrick addr_t &target_insn_offset) { 819*061da546Spatrick int offset; 820*061da546Spatrick if (pc_rel_branch_or_jump_p (instruction_length, offset) && offset != 0) { 821*061da546Spatrick addr_t next_pc_value = current_func_text_offset + instruction_length; 822*061da546Spatrick if (offset < 0 && addr_t(-offset) > current_func_text_offset) { 823*061da546Spatrick // Branch target is before the start of this function 824*061da546Spatrick return false; 825*061da546Spatrick } 826*061da546Spatrick if (offset + next_pc_value > func_range.GetByteSize()) { 827*061da546Spatrick // Branch targets outside this function's bounds 828*061da546Spatrick return false; 829*061da546Spatrick } 830*061da546Spatrick // This instruction branches to target_insn_offset (byte offset into the function) 831*061da546Spatrick target_insn_offset = next_pc_value + offset; 832*061da546Spatrick return true; 833*061da546Spatrick } 834*061da546Spatrick return false; 835*061da546Spatrick } 836*061da546Spatrick 837*061da546Spatrick // Returns true if this instruction is a inter-function branch or jump - a 838*061da546Spatrick // branch/jump to another function. 839*061da546Spatrick // Cannot predict where a jump through a register value ("jmpq *%rax") 840*061da546Spatrick // will go, so it will return false on that instruction. 841*061da546Spatrick bool x86AssemblyInspectionEngine::non_local_branch_p ( 842*061da546Spatrick const addr_t current_func_text_offset, 843*061da546Spatrick const AddressRange &func_range, 844*061da546Spatrick const int instruction_length) { 845*061da546Spatrick int offset; 846*061da546Spatrick addr_t target_insn_offset; 847*061da546Spatrick if (pc_rel_branch_or_jump_p (instruction_length, offset)) { 848*061da546Spatrick return !local_branch_p(current_func_text_offset,func_range,instruction_length,target_insn_offset); 849*061da546Spatrick } 850*061da546Spatrick return false; 851*061da546Spatrick } 852*061da546Spatrick 853*061da546Spatrick // ret [0xc3] or [0xcb] or [0xc2 imm16] or [0xca imm16] 854*061da546Spatrick bool x86AssemblyInspectionEngine::ret_pattern_p() { 855*061da546Spatrick uint8_t *p = m_cur_insn; 856*061da546Spatrick return *p == 0xc3 || *p == 0xc2 || *p == 0xca || *p == 0xcb; 857*061da546Spatrick } 858*061da546Spatrick 859*061da546Spatrick uint16_t x86AssemblyInspectionEngine::extract_2(uint8_t *b) { 860*061da546Spatrick uint16_t v = 0; 861*061da546Spatrick for (int i = 1; i >= 0; i--) 862*061da546Spatrick v = (v << 8) | b[i]; 863*061da546Spatrick return v; 864*061da546Spatrick } 865*061da546Spatrick 866*061da546Spatrick int16_t x86AssemblyInspectionEngine::extract_2_signed(uint8_t *b) { 867*061da546Spatrick int16_t v = 0; 868*061da546Spatrick for (int i = 1; i >= 0; i--) 869*061da546Spatrick v = (v << 8) | b[i]; 870*061da546Spatrick return v; 871*061da546Spatrick } 872*061da546Spatrick 873*061da546Spatrick // movq $0x????????(%rip), $reg [(0x4c || 0x48) 0x8b ?? ?? ?? ?? ??] 874*061da546Spatrick // xorq $off(%rsp), $reg [(0x4c || 0x48) 0x33 ?? 0x24] 875*061da546Spatrick bool x86AssemblyInspectionEngine::retguard_prologue_p(size_t offset, int insn_len) { 876*061da546Spatrick uint8_t *p = m_cur_insn; 877*061da546Spatrick if (offset == 0 && insn_len == 7) 878*061da546Spatrick return (*p == 0x48 || *p == 0x4c) && (*(p + 1) == 0x8b); 879*061da546Spatrick else if (offset == 7 && insn_len == 4) 880*061da546Spatrick return (*p == 0x48 || *p == 0x4c) && (*(p + 1) == 0x33) && (*(p + 3) == 0x24); 881*061da546Spatrick 882*061da546Spatrick return false; 883*061da546Spatrick } 884*061da546Spatrick 885*061da546Spatrick uint32_t x86AssemblyInspectionEngine::extract_4(uint8_t *b) { 886*061da546Spatrick uint32_t v = 0; 887*061da546Spatrick for (int i = 3; i >= 0; i--) 888*061da546Spatrick v = (v << 8) | b[i]; 889*061da546Spatrick return v; 890*061da546Spatrick } 891*061da546Spatrick 892*061da546Spatrick int32_t x86AssemblyInspectionEngine::extract_4_signed(uint8_t *b) { 893*061da546Spatrick int32_t v = 0; 894*061da546Spatrick for (int i = 3; i >= 0; i--) 895*061da546Spatrick v = (v << 8) | b[i]; 896*061da546Spatrick return v; 897*061da546Spatrick } 898*061da546Spatrick 899*061da546Spatrick 900*061da546Spatrick bool x86AssemblyInspectionEngine::instruction_length(uint8_t *insn_p, 901*061da546Spatrick int &length, 902*061da546Spatrick uint32_t buffer_remaining_bytes) { 903*061da546Spatrick 904*061da546Spatrick uint32_t max_op_byte_size = std::min(buffer_remaining_bytes, m_arch.GetMaximumOpcodeByteSize()); 905*061da546Spatrick llvm::SmallVector<uint8_t, 32> opcode_data; 906*061da546Spatrick opcode_data.resize(max_op_byte_size); 907*061da546Spatrick 908*061da546Spatrick char out_string[512]; 909*061da546Spatrick const size_t inst_size = 910*061da546Spatrick ::LLVMDisasmInstruction(m_disasm_context, insn_p, max_op_byte_size, 0, 911*061da546Spatrick out_string, sizeof(out_string)); 912*061da546Spatrick 913*061da546Spatrick length = inst_size; 914*061da546Spatrick return true; 915*061da546Spatrick } 916*061da546Spatrick 917*061da546Spatrick bool x86AssemblyInspectionEngine::machine_regno_to_lldb_regno( 918*061da546Spatrick int machine_regno, uint32_t &lldb_regno) { 919*061da546Spatrick MachineRegnumToNameAndLLDBRegnum::iterator it = m_reg_map.find(machine_regno); 920*061da546Spatrick if (it != m_reg_map.end()) { 921*061da546Spatrick lldb_regno = it->second.lldb_regnum; 922*061da546Spatrick return true; 923*061da546Spatrick } 924*061da546Spatrick return false; 925*061da546Spatrick } 926*061da546Spatrick 927*061da546Spatrick bool x86AssemblyInspectionEngine::GetNonCallSiteUnwindPlanFromAssembly( 928*061da546Spatrick uint8_t *data, size_t size, AddressRange &func_range, 929*061da546Spatrick UnwindPlan &unwind_plan) { 930*061da546Spatrick unwind_plan.Clear(); 931*061da546Spatrick 932*061da546Spatrick if (data == nullptr || size == 0) 933*061da546Spatrick return false; 934*061da546Spatrick 935*061da546Spatrick if (!m_register_map_initialized) 936*061da546Spatrick return false; 937*061da546Spatrick 938*061da546Spatrick addr_t current_func_text_offset = 0; 939*061da546Spatrick int current_sp_bytes_offset_from_fa = 0; 940*061da546Spatrick bool is_aligned = false; 941*061da546Spatrick UnwindPlan::Row::RegisterLocation initial_regloc; 942*061da546Spatrick UnwindPlan::RowSP row(new UnwindPlan::Row); 943*061da546Spatrick 944*061da546Spatrick unwind_plan.SetPlanValidAddressRange(func_range); 945*061da546Spatrick unwind_plan.SetRegisterKind(eRegisterKindLLDB); 946*061da546Spatrick 947*061da546Spatrick // At the start of the function, find the CFA by adding wordsize to the SP 948*061da546Spatrick // register 949*061da546Spatrick row->SetOffset(current_func_text_offset); 950*061da546Spatrick row->GetCFAValue().SetIsRegisterPlusOffset(m_lldb_sp_regnum, m_wordsize); 951*061da546Spatrick 952*061da546Spatrick // caller's stack pointer value before the call insn is the CFA address 953*061da546Spatrick initial_regloc.SetIsCFAPlusOffset(0); 954*061da546Spatrick row->SetRegisterInfo(m_lldb_sp_regnum, initial_regloc); 955*061da546Spatrick 956*061da546Spatrick // saved instruction pointer can be found at CFA - wordsize. 957*061da546Spatrick current_sp_bytes_offset_from_fa = m_wordsize; 958*061da546Spatrick initial_regloc.SetAtCFAPlusOffset(-current_sp_bytes_offset_from_fa); 959*061da546Spatrick row->SetRegisterInfo(m_lldb_ip_regnum, initial_regloc); 960*061da546Spatrick 961*061da546Spatrick unwind_plan.AppendRow(row); 962*061da546Spatrick 963*061da546Spatrick // Allocate a new Row, populate it with the existing Row contents. 964*061da546Spatrick UnwindPlan::Row *newrow = new UnwindPlan::Row; 965*061da546Spatrick *newrow = *row.get(); 966*061da546Spatrick row.reset(newrow); 967*061da546Spatrick 968*061da546Spatrick // Track which registers have been saved so far in the prologue. If we see 969*061da546Spatrick // another push of that register, it's not part of the prologue. The register 970*061da546Spatrick // numbers used here are the machine register #'s (i386_register_numbers, 971*061da546Spatrick // x86_64_register_numbers). 972*061da546Spatrick std::vector<bool> saved_registers(32, false); 973*061da546Spatrick 974*061da546Spatrick // Once the prologue has completed we'll save a copy of the unwind 975*061da546Spatrick // instructions If there is an epilogue in the middle of the function, after 976*061da546Spatrick // that epilogue we'll reinstate the unwind setup -- we assume that some code 977*061da546Spatrick // path jumps over the mid-function epilogue 978*061da546Spatrick 979*061da546Spatrick UnwindPlan::RowSP prologue_completed_row; // copy of prologue row of CFI 980*061da546Spatrick int prologue_completed_sp_bytes_offset_from_cfa; // The sp value before the 981*061da546Spatrick // epilogue started executed 982*061da546Spatrick bool prologue_completed_is_aligned; 983*061da546Spatrick std::vector<bool> prologue_completed_saved_registers; 984*061da546Spatrick 985*061da546Spatrick while (current_func_text_offset < size) { 986*061da546Spatrick int stack_offset, insn_len; 987*061da546Spatrick int machine_regno; // register numbers masked directly out of instructions 988*061da546Spatrick uint32_t lldb_regno; // register numbers in lldb's eRegisterKindLLDB 989*061da546Spatrick // numbering scheme 990*061da546Spatrick 991*061da546Spatrick bool in_epilogue = false; // we're in the middle of an epilogue sequence 992*061da546Spatrick bool row_updated = false; // The UnwindPlan::Row 'row' has been updated 993*061da546Spatrick 994*061da546Spatrick m_cur_insn = data + current_func_text_offset; 995*061da546Spatrick if (!instruction_length(m_cur_insn, insn_len, size - current_func_text_offset) 996*061da546Spatrick || insn_len == 0 997*061da546Spatrick || insn_len > kMaxInstructionByteSize) { 998*061da546Spatrick // An unrecognized/junk instruction 999*061da546Spatrick break; 1000*061da546Spatrick } 1001*061da546Spatrick 1002*061da546Spatrick auto &cfa_value = row->GetCFAValue(); 1003*061da546Spatrick auto &afa_value = row->GetAFAValue(); 1004*061da546Spatrick auto fa_value_ptr = is_aligned ? &afa_value : &cfa_value; 1005*061da546Spatrick 1006*061da546Spatrick if (mov_rsp_rbp_pattern_p()) { 1007*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1008*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1009*061da546Spatrick m_lldb_fp_regnum, fa_value_ptr->GetOffset()); 1010*061da546Spatrick row_updated = true; 1011*061da546Spatrick } 1012*061da546Spatrick } 1013*061da546Spatrick 1014*061da546Spatrick else if (mov_rsp_rbx_pattern_p()) { 1015*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1016*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1017*061da546Spatrick m_lldb_alt_fp_regnum, fa_value_ptr->GetOffset()); 1018*061da546Spatrick row_updated = true; 1019*061da546Spatrick } 1020*061da546Spatrick } 1021*061da546Spatrick 1022*061da546Spatrick else if (and_rsp_pattern_p()) { 1023*061da546Spatrick current_sp_bytes_offset_from_fa = 0; 1024*061da546Spatrick afa_value.SetIsRegisterPlusOffset( 1025*061da546Spatrick m_lldb_sp_regnum, current_sp_bytes_offset_from_fa); 1026*061da546Spatrick fa_value_ptr = &afa_value; 1027*061da546Spatrick is_aligned = true; 1028*061da546Spatrick row_updated = true; 1029*061da546Spatrick } 1030*061da546Spatrick 1031*061da546Spatrick else if (mov_rbp_rsp_pattern_p()) { 1032*061da546Spatrick if (is_aligned && cfa_value.GetRegisterNumber() == m_lldb_fp_regnum) 1033*061da546Spatrick { 1034*061da546Spatrick is_aligned = false; 1035*061da546Spatrick fa_value_ptr = &cfa_value; 1036*061da546Spatrick afa_value.SetUnspecified(); 1037*061da546Spatrick row_updated = true; 1038*061da546Spatrick } 1039*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_fp_regnum) 1040*061da546Spatrick current_sp_bytes_offset_from_fa = fa_value_ptr->GetOffset(); 1041*061da546Spatrick } 1042*061da546Spatrick 1043*061da546Spatrick else if (mov_rbx_rsp_pattern_p()) { 1044*061da546Spatrick if (is_aligned && cfa_value.GetRegisterNumber() == m_lldb_alt_fp_regnum) 1045*061da546Spatrick { 1046*061da546Spatrick is_aligned = false; 1047*061da546Spatrick fa_value_ptr = &cfa_value; 1048*061da546Spatrick afa_value.SetUnspecified(); 1049*061da546Spatrick row_updated = true; 1050*061da546Spatrick } 1051*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_alt_fp_regnum) 1052*061da546Spatrick current_sp_bytes_offset_from_fa = fa_value_ptr->GetOffset(); 1053*061da546Spatrick } 1054*061da546Spatrick 1055*061da546Spatrick // This is the start() function (or a pthread equivalent), it starts with a 1056*061da546Spatrick // pushl $0x0 which puts the saved pc value of 0 on the stack. In this 1057*061da546Spatrick // case we want to pretend we didn't see a stack movement at all -- 1058*061da546Spatrick // normally the saved pc value is already on the stack by the time the 1059*061da546Spatrick // function starts executing. 1060*061da546Spatrick else if (push_0_pattern_p()) { 1061*061da546Spatrick } 1062*061da546Spatrick 1063*061da546Spatrick else if (push_reg_p(machine_regno)) { 1064*061da546Spatrick current_sp_bytes_offset_from_fa += m_wordsize; 1065*061da546Spatrick // the PUSH instruction has moved the stack pointer - if the FA is set 1066*061da546Spatrick // in terms of the stack pointer, we need to add a new row of 1067*061da546Spatrick // instructions. 1068*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1069*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1070*061da546Spatrick row_updated = true; 1071*061da546Spatrick } 1072*061da546Spatrick // record where non-volatile (callee-saved, spilled) registers are saved 1073*061da546Spatrick // on the stack 1074*061da546Spatrick if (nonvolatile_reg_p(machine_regno) && 1075*061da546Spatrick machine_regno_to_lldb_regno(machine_regno, lldb_regno) && 1076*061da546Spatrick !saved_registers[machine_regno]) { 1077*061da546Spatrick UnwindPlan::Row::RegisterLocation regloc; 1078*061da546Spatrick if (is_aligned) 1079*061da546Spatrick regloc.SetAtAFAPlusOffset(-current_sp_bytes_offset_from_fa); 1080*061da546Spatrick else 1081*061da546Spatrick regloc.SetAtCFAPlusOffset(-current_sp_bytes_offset_from_fa); 1082*061da546Spatrick row->SetRegisterInfo(lldb_regno, regloc); 1083*061da546Spatrick saved_registers[machine_regno] = true; 1084*061da546Spatrick row_updated = true; 1085*061da546Spatrick } 1086*061da546Spatrick } 1087*061da546Spatrick 1088*061da546Spatrick else if (pop_reg_p(machine_regno)) { 1089*061da546Spatrick current_sp_bytes_offset_from_fa -= m_wordsize; 1090*061da546Spatrick 1091*061da546Spatrick if (nonvolatile_reg_p(machine_regno) && 1092*061da546Spatrick machine_regno_to_lldb_regno(machine_regno, lldb_regno) && 1093*061da546Spatrick saved_registers[machine_regno]) { 1094*061da546Spatrick saved_registers[machine_regno] = false; 1095*061da546Spatrick row->RemoveRegisterInfo(lldb_regno); 1096*061da546Spatrick 1097*061da546Spatrick if (lldb_regno == fa_value_ptr->GetRegisterNumber()) { 1098*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1099*061da546Spatrick m_lldb_sp_regnum, fa_value_ptr->GetOffset()); 1100*061da546Spatrick } 1101*061da546Spatrick 1102*061da546Spatrick in_epilogue = true; 1103*061da546Spatrick row_updated = true; 1104*061da546Spatrick } 1105*061da546Spatrick 1106*061da546Spatrick // the POP instruction has moved the stack pointer - if the FA is set in 1107*061da546Spatrick // terms of the stack pointer, we need to add a new row of instructions. 1108*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1109*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1110*061da546Spatrick m_lldb_sp_regnum, current_sp_bytes_offset_from_fa); 1111*061da546Spatrick row_updated = true; 1112*061da546Spatrick } 1113*061da546Spatrick } 1114*061da546Spatrick 1115*061da546Spatrick else if (pop_misc_reg_p()) { 1116*061da546Spatrick current_sp_bytes_offset_from_fa -= m_wordsize; 1117*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1118*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1119*061da546Spatrick m_lldb_sp_regnum, current_sp_bytes_offset_from_fa); 1120*061da546Spatrick row_updated = true; 1121*061da546Spatrick } 1122*061da546Spatrick } 1123*061da546Spatrick 1124*061da546Spatrick // The LEAVE instruction moves the value from rbp into rsp and pops a value 1125*061da546Spatrick // off the stack into rbp (restoring the caller's rbp value). It is the 1126*061da546Spatrick // opposite of ENTER, or 'push rbp, mov rsp rbp'. 1127*061da546Spatrick else if (leave_pattern_p()) { 1128*061da546Spatrick if (saved_registers[m_machine_fp_regnum]) { 1129*061da546Spatrick saved_registers[m_machine_fp_regnum] = false; 1130*061da546Spatrick row->RemoveRegisterInfo(m_lldb_fp_regnum); 1131*061da546Spatrick 1132*061da546Spatrick row_updated = true; 1133*061da546Spatrick } 1134*061da546Spatrick 1135*061da546Spatrick if (is_aligned && cfa_value.GetRegisterNumber() == m_lldb_fp_regnum) 1136*061da546Spatrick { 1137*061da546Spatrick is_aligned = false; 1138*061da546Spatrick fa_value_ptr = &cfa_value; 1139*061da546Spatrick afa_value.SetUnspecified(); 1140*061da546Spatrick row_updated = true; 1141*061da546Spatrick } 1142*061da546Spatrick 1143*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_fp_regnum) 1144*061da546Spatrick { 1145*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1146*061da546Spatrick m_lldb_sp_regnum, fa_value_ptr->GetOffset()); 1147*061da546Spatrick 1148*061da546Spatrick current_sp_bytes_offset_from_fa = fa_value_ptr->GetOffset(); 1149*061da546Spatrick } 1150*061da546Spatrick 1151*061da546Spatrick current_sp_bytes_offset_from_fa -= m_wordsize; 1152*061da546Spatrick 1153*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1154*061da546Spatrick fa_value_ptr->SetIsRegisterPlusOffset( 1155*061da546Spatrick m_lldb_sp_regnum, current_sp_bytes_offset_from_fa); 1156*061da546Spatrick row_updated = true; 1157*061da546Spatrick } 1158*061da546Spatrick 1159*061da546Spatrick in_epilogue = true; 1160*061da546Spatrick } 1161*061da546Spatrick 1162*061da546Spatrick else if (mov_reg_to_local_stack_frame_p(machine_regno, stack_offset) && 1163*061da546Spatrick nonvolatile_reg_p(machine_regno) && 1164*061da546Spatrick machine_regno_to_lldb_regno(machine_regno, lldb_regno) && 1165*061da546Spatrick !saved_registers[machine_regno]) { 1166*061da546Spatrick saved_registers[machine_regno] = true; 1167*061da546Spatrick 1168*061da546Spatrick UnwindPlan::Row::RegisterLocation regloc; 1169*061da546Spatrick 1170*061da546Spatrick // stack_offset for 'movq %r15, -80(%rbp)' will be 80. In the Row, we 1171*061da546Spatrick // want to express this as the offset from the FA. If the frame base is 1172*061da546Spatrick // rbp (like the above instruction), the FA offset for rbp is probably 1173*061da546Spatrick // 16. So we want to say that the value is stored at the FA address - 1174*061da546Spatrick // 96. 1175*061da546Spatrick if (is_aligned) 1176*061da546Spatrick regloc.SetAtAFAPlusOffset(-(stack_offset + fa_value_ptr->GetOffset())); 1177*061da546Spatrick else 1178*061da546Spatrick regloc.SetAtCFAPlusOffset(-(stack_offset + fa_value_ptr->GetOffset())); 1179*061da546Spatrick 1180*061da546Spatrick row->SetRegisterInfo(lldb_regno, regloc); 1181*061da546Spatrick 1182*061da546Spatrick row_updated = true; 1183*061da546Spatrick } 1184*061da546Spatrick 1185*061da546Spatrick else if (sub_rsp_pattern_p(stack_offset)) { 1186*061da546Spatrick current_sp_bytes_offset_from_fa += stack_offset; 1187*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1188*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1189*061da546Spatrick row_updated = true; 1190*061da546Spatrick } 1191*061da546Spatrick } 1192*061da546Spatrick 1193*061da546Spatrick else if (add_rsp_pattern_p(stack_offset)) { 1194*061da546Spatrick current_sp_bytes_offset_from_fa -= stack_offset; 1195*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1196*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1197*061da546Spatrick row_updated = true; 1198*061da546Spatrick } 1199*061da546Spatrick in_epilogue = true; 1200*061da546Spatrick } 1201*061da546Spatrick 1202*061da546Spatrick else if (push_extended_pattern_p() || push_imm_pattern_p() || 1203*061da546Spatrick push_misc_reg_p()) { 1204*061da546Spatrick current_sp_bytes_offset_from_fa += m_wordsize; 1205*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1206*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1207*061da546Spatrick row_updated = true; 1208*061da546Spatrick } 1209*061da546Spatrick } 1210*061da546Spatrick 1211*061da546Spatrick else if (lea_rsp_pattern_p(stack_offset)) { 1212*061da546Spatrick current_sp_bytes_offset_from_fa -= stack_offset; 1213*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1214*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1215*061da546Spatrick row_updated = true; 1216*061da546Spatrick } 1217*061da546Spatrick if (stack_offset > 0) 1218*061da546Spatrick in_epilogue = true; 1219*061da546Spatrick } 1220*061da546Spatrick 1221*061da546Spatrick else if (lea_rbp_rsp_pattern_p(stack_offset)) { 1222*061da546Spatrick if (is_aligned && 1223*061da546Spatrick cfa_value.GetRegisterNumber() == m_lldb_fp_regnum) { 1224*061da546Spatrick is_aligned = false; 1225*061da546Spatrick fa_value_ptr = &cfa_value; 1226*061da546Spatrick afa_value.SetUnspecified(); 1227*061da546Spatrick row_updated = true; 1228*061da546Spatrick } 1229*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_fp_regnum) { 1230*061da546Spatrick current_sp_bytes_offset_from_fa = 1231*061da546Spatrick fa_value_ptr->GetOffset() - stack_offset; 1232*061da546Spatrick } 1233*061da546Spatrick } 1234*061da546Spatrick 1235*061da546Spatrick else if (lea_rbx_rsp_pattern_p(stack_offset)) { 1236*061da546Spatrick if (is_aligned && 1237*061da546Spatrick cfa_value.GetRegisterNumber() == m_lldb_alt_fp_regnum) { 1238*061da546Spatrick is_aligned = false; 1239*061da546Spatrick fa_value_ptr = &cfa_value; 1240*061da546Spatrick afa_value.SetUnspecified(); 1241*061da546Spatrick row_updated = true; 1242*061da546Spatrick } 1243*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_alt_fp_regnum) { 1244*061da546Spatrick current_sp_bytes_offset_from_fa = fa_value_ptr->GetOffset() - stack_offset; 1245*061da546Spatrick } 1246*061da546Spatrick } 1247*061da546Spatrick 1248*061da546Spatrick else if (prologue_completed_row.get() && 1249*061da546Spatrick (ret_pattern_p() || 1250*061da546Spatrick non_local_branch_p (current_func_text_offset, func_range, insn_len) || 1251*061da546Spatrick jmp_to_reg_p())) { 1252*061da546Spatrick // Check if the current instruction is the end of an epilogue sequence, 1253*061da546Spatrick // and if so, re-instate the prologue-completed unwind state. 1254*061da546Spatrick 1255*061da546Spatrick // The current instruction is a branch/jump outside this function, 1256*061da546Spatrick // a ret, or a jump through a register value which we cannot 1257*061da546Spatrick // determine the effcts of. Verify that the stack frame state 1258*061da546Spatrick // has been unwound to the same as it was at function entry to avoid 1259*061da546Spatrick // mis-identifying a JMP instruction as an epilogue. 1260*061da546Spatrick UnwindPlan::Row::RegisterLocation sp, pc; 1261*061da546Spatrick if (row->GetRegisterInfo(m_lldb_sp_regnum, sp) && 1262*061da546Spatrick row->GetRegisterInfo(m_lldb_ip_regnum, pc)) { 1263*061da546Spatrick // Any ret instruction variant is definitely indicative of an 1264*061da546Spatrick // epilogue; for other insn patterns verify that we're back to 1265*061da546Spatrick // the original unwind state. 1266*061da546Spatrick if (ret_pattern_p() || 1267*061da546Spatrick (sp.IsCFAPlusOffset() && sp.GetOffset() == 0 && 1268*061da546Spatrick pc.IsAtCFAPlusOffset() && pc.GetOffset() == -m_wordsize)) { 1269*061da546Spatrick // Reinstate the saved prologue setup for any instructions that come 1270*061da546Spatrick // after the epilogue 1271*061da546Spatrick 1272*061da546Spatrick UnwindPlan::Row *newrow = new UnwindPlan::Row; 1273*061da546Spatrick *newrow = *prologue_completed_row.get(); 1274*061da546Spatrick row.reset(newrow); 1275*061da546Spatrick current_sp_bytes_offset_from_fa = 1276*061da546Spatrick prologue_completed_sp_bytes_offset_from_cfa; 1277*061da546Spatrick is_aligned = prologue_completed_is_aligned; 1278*061da546Spatrick 1279*061da546Spatrick saved_registers.clear(); 1280*061da546Spatrick saved_registers.resize(prologue_completed_saved_registers.size(), false); 1281*061da546Spatrick for (size_t i = 0; i < prologue_completed_saved_registers.size(); ++i) { 1282*061da546Spatrick saved_registers[i] = prologue_completed_saved_registers[i]; 1283*061da546Spatrick } 1284*061da546Spatrick 1285*061da546Spatrick in_epilogue = true; 1286*061da546Spatrick row_updated = true; 1287*061da546Spatrick } 1288*061da546Spatrick } 1289*061da546Spatrick } 1290*061da546Spatrick 1291*061da546Spatrick // call next instruction 1292*061da546Spatrick // call 0 1293*061da546Spatrick // => pop %ebx 1294*061da546Spatrick // This is used in i386 programs to get the PIC base address for finding 1295*061da546Spatrick // global data 1296*061da546Spatrick else if (call_next_insn_pattern_p()) { 1297*061da546Spatrick current_sp_bytes_offset_from_fa += m_wordsize; 1298*061da546Spatrick if (fa_value_ptr->GetRegisterNumber() == m_lldb_sp_regnum) { 1299*061da546Spatrick fa_value_ptr->SetOffset(current_sp_bytes_offset_from_fa); 1300*061da546Spatrick row_updated = true; 1301*061da546Spatrick } 1302*061da546Spatrick } 1303*061da546Spatrick 1304*061da546Spatrick if (row_updated) { 1305*061da546Spatrick if (current_func_text_offset + insn_len < size) { 1306*061da546Spatrick row->SetOffset(current_func_text_offset + insn_len); 1307*061da546Spatrick unwind_plan.AppendRow(row); 1308*061da546Spatrick // Allocate a new Row, populate it with the existing Row contents. 1309*061da546Spatrick newrow = new UnwindPlan::Row; 1310*061da546Spatrick *newrow = *row.get(); 1311*061da546Spatrick row.reset(newrow); 1312*061da546Spatrick } 1313*061da546Spatrick } 1314*061da546Spatrick 1315*061da546Spatrick if (!in_epilogue && row_updated) { 1316*061da546Spatrick // If we're not in an epilogue sequence, save the updated Row 1317*061da546Spatrick UnwindPlan::Row *newrow = new UnwindPlan::Row; 1318*061da546Spatrick *newrow = *row.get(); 1319*061da546Spatrick prologue_completed_row.reset(newrow); 1320*061da546Spatrick 1321*061da546Spatrick prologue_completed_saved_registers.clear(); 1322*061da546Spatrick prologue_completed_saved_registers.resize(saved_registers.size(), false); 1323*061da546Spatrick for (size_t i = 0; i < saved_registers.size(); ++i) { 1324*061da546Spatrick prologue_completed_saved_registers[i] = saved_registers[i]; 1325*061da546Spatrick } 1326*061da546Spatrick } 1327*061da546Spatrick 1328*061da546Spatrick // We may change the sp value without adding a new Row necessarily -- keep 1329*061da546Spatrick // track of it either way. 1330*061da546Spatrick if (!in_epilogue) { 1331*061da546Spatrick prologue_completed_sp_bytes_offset_from_cfa = 1332*061da546Spatrick current_sp_bytes_offset_from_fa; 1333*061da546Spatrick prologue_completed_is_aligned = is_aligned; 1334*061da546Spatrick } 1335*061da546Spatrick 1336*061da546Spatrick m_cur_insn = m_cur_insn + insn_len; 1337*061da546Spatrick current_func_text_offset += insn_len; 1338*061da546Spatrick } 1339*061da546Spatrick 1340*061da546Spatrick unwind_plan.SetSourceName("assembly insn profiling"); 1341*061da546Spatrick unwind_plan.SetSourcedFromCompiler(eLazyBoolNo); 1342*061da546Spatrick unwind_plan.SetUnwindPlanValidAtAllInstructions(eLazyBoolYes); 1343*061da546Spatrick unwind_plan.SetUnwindPlanForSignalTrap(eLazyBoolNo); 1344*061da546Spatrick 1345*061da546Spatrick return true; 1346*061da546Spatrick } 1347*061da546Spatrick 1348*061da546Spatrick bool x86AssemblyInspectionEngine::AugmentUnwindPlanFromCallSite( 1349*061da546Spatrick uint8_t *data, size_t size, AddressRange &func_range, 1350*061da546Spatrick UnwindPlan &unwind_plan, RegisterContextSP ®_ctx) { 1351*061da546Spatrick Address addr_start = func_range.GetBaseAddress(); 1352*061da546Spatrick if (!addr_start.IsValid()) 1353*061da546Spatrick return false; 1354*061da546Spatrick 1355*061da546Spatrick // We either need a live RegisterContext, or we need the UnwindPlan to 1356*061da546Spatrick // already be in the lldb register numbering scheme. 1357*061da546Spatrick if (reg_ctx.get() == nullptr && 1358*061da546Spatrick unwind_plan.GetRegisterKind() != eRegisterKindLLDB) 1359*061da546Spatrick return false; 1360*061da546Spatrick 1361*061da546Spatrick // Is original unwind_plan valid? 1362*061da546Spatrick // unwind_plan should have at least one row which is ABI-default (CFA 1363*061da546Spatrick // register is sp), and another row in mid-function. 1364*061da546Spatrick if (unwind_plan.GetRowCount() < 2) 1365*061da546Spatrick return false; 1366*061da546Spatrick 1367*061da546Spatrick UnwindPlan::RowSP first_row = unwind_plan.GetRowAtIndex(0); 1368*061da546Spatrick if (first_row->GetOffset() != 0) 1369*061da546Spatrick return false; 1370*061da546Spatrick uint32_t cfa_reg = first_row->GetCFAValue().GetRegisterNumber(); 1371*061da546Spatrick if (unwind_plan.GetRegisterKind() != eRegisterKindLLDB) { 1372*061da546Spatrick cfa_reg = reg_ctx->ConvertRegisterKindToRegisterNumber( 1373*061da546Spatrick unwind_plan.GetRegisterKind(), 1374*061da546Spatrick first_row->GetCFAValue().GetRegisterNumber()); 1375*061da546Spatrick } 1376*061da546Spatrick if (cfa_reg != m_lldb_sp_regnum || 1377*061da546Spatrick first_row->GetCFAValue().GetOffset() != m_wordsize) 1378*061da546Spatrick return false; 1379*061da546Spatrick 1380*061da546Spatrick UnwindPlan::RowSP original_last_row = unwind_plan.GetRowForFunctionOffset(-1); 1381*061da546Spatrick 1382*061da546Spatrick size_t offset = 0; 1383*061da546Spatrick int row_id = 1; 1384*061da546Spatrick bool unwind_plan_updated = false; 1385*061da546Spatrick UnwindPlan::RowSP row(new UnwindPlan::Row(*first_row)); 1386*061da546Spatrick 1387*061da546Spatrick // After a mid-function epilogue we will need to re-insert the original 1388*061da546Spatrick // unwind rules so unwinds work for the remainder of the function. These 1389*061da546Spatrick // aren't common with clang/gcc on x86 but it is possible. 1390*061da546Spatrick bool reinstate_unwind_state = false; 1391*061da546Spatrick 1392*061da546Spatrick while (offset < size) { 1393*061da546Spatrick m_cur_insn = data + offset; 1394*061da546Spatrick int insn_len; 1395*061da546Spatrick if (!instruction_length(m_cur_insn, insn_len, size - offset) || 1396*061da546Spatrick insn_len == 0 || insn_len > kMaxInstructionByteSize) { 1397*061da546Spatrick // An unrecognized/junk instruction. 1398*061da546Spatrick break; 1399*061da546Spatrick } 1400*061da546Spatrick 1401*061da546Spatrick // Advance offsets. 1402*061da546Spatrick offset += insn_len; 1403*061da546Spatrick 1404*061da546Spatrick // offset is pointing beyond the bounds of the function; stop looping. 1405*061da546Spatrick if (offset >= size) 1406*061da546Spatrick continue; 1407*061da546Spatrick 1408*061da546Spatrick if (reinstate_unwind_state) { 1409*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row()); 1410*061da546Spatrick *new_row = *original_last_row; 1411*061da546Spatrick new_row->SetOffset(offset); 1412*061da546Spatrick unwind_plan.AppendRow(new_row); 1413*061da546Spatrick row = std::make_shared<UnwindPlan::Row>(); 1414*061da546Spatrick *row = *new_row; 1415*061da546Spatrick reinstate_unwind_state = false; 1416*061da546Spatrick unwind_plan_updated = true; 1417*061da546Spatrick continue; 1418*061da546Spatrick } 1419*061da546Spatrick 1420*061da546Spatrick // If we already have one row for this instruction, we can continue. 1421*061da546Spatrick while (row_id < unwind_plan.GetRowCount() && 1422*061da546Spatrick unwind_plan.GetRowAtIndex(row_id)->GetOffset() <= offset) { 1423*061da546Spatrick row_id++; 1424*061da546Spatrick } 1425*061da546Spatrick UnwindPlan::RowSP original_row = unwind_plan.GetRowAtIndex(row_id - 1); 1426*061da546Spatrick if (original_row->GetOffset() == offset) { 1427*061da546Spatrick *row = *original_row; 1428*061da546Spatrick continue; 1429*061da546Spatrick } 1430*061da546Spatrick 1431*061da546Spatrick if (row_id == 0) { 1432*061da546Spatrick // If we are here, compiler didn't generate CFI for prologue. This won't 1433*061da546Spatrick // happen to GCC or clang. In this case, bail out directly. 1434*061da546Spatrick return false; 1435*061da546Spatrick } 1436*061da546Spatrick 1437*061da546Spatrick // Inspect the instruction to check if we need a new row for it. 1438*061da546Spatrick cfa_reg = row->GetCFAValue().GetRegisterNumber(); 1439*061da546Spatrick if (unwind_plan.GetRegisterKind() != eRegisterKindLLDB) { 1440*061da546Spatrick cfa_reg = reg_ctx->ConvertRegisterKindToRegisterNumber( 1441*061da546Spatrick unwind_plan.GetRegisterKind(), 1442*061da546Spatrick row->GetCFAValue().GetRegisterNumber()); 1443*061da546Spatrick } 1444*061da546Spatrick if (cfa_reg == m_lldb_sp_regnum) { 1445*061da546Spatrick // CFA register is sp. 1446*061da546Spatrick 1447*061da546Spatrick // call next instruction 1448*061da546Spatrick // call 0 1449*061da546Spatrick // => pop %ebx 1450*061da546Spatrick if (call_next_insn_pattern_p()) { 1451*061da546Spatrick row->SetOffset(offset); 1452*061da546Spatrick row->GetCFAValue().IncOffset(m_wordsize); 1453*061da546Spatrick 1454*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1455*061da546Spatrick unwind_plan.InsertRow(new_row); 1456*061da546Spatrick unwind_plan_updated = true; 1457*061da546Spatrick continue; 1458*061da546Spatrick } 1459*061da546Spatrick 1460*061da546Spatrick // push/pop register 1461*061da546Spatrick int regno; 1462*061da546Spatrick if (push_reg_p(regno)) { 1463*061da546Spatrick row->SetOffset(offset); 1464*061da546Spatrick row->GetCFAValue().IncOffset(m_wordsize); 1465*061da546Spatrick 1466*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1467*061da546Spatrick unwind_plan.InsertRow(new_row); 1468*061da546Spatrick unwind_plan_updated = true; 1469*061da546Spatrick continue; 1470*061da546Spatrick } 1471*061da546Spatrick if (pop_reg_p(regno)) { 1472*061da546Spatrick // Technically, this might be a nonvolatile register recover in 1473*061da546Spatrick // epilogue. We should reset RegisterInfo for the register. But in 1474*061da546Spatrick // practice, previous rule for the register is still valid... So we 1475*061da546Spatrick // ignore this case. 1476*061da546Spatrick 1477*061da546Spatrick row->SetOffset(offset); 1478*061da546Spatrick row->GetCFAValue().IncOffset(-m_wordsize); 1479*061da546Spatrick 1480*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1481*061da546Spatrick unwind_plan.InsertRow(new_row); 1482*061da546Spatrick unwind_plan_updated = true; 1483*061da546Spatrick continue; 1484*061da546Spatrick } 1485*061da546Spatrick 1486*061da546Spatrick if (pop_misc_reg_p()) { 1487*061da546Spatrick row->SetOffset(offset); 1488*061da546Spatrick row->GetCFAValue().IncOffset(-m_wordsize); 1489*061da546Spatrick 1490*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1491*061da546Spatrick unwind_plan.InsertRow(new_row); 1492*061da546Spatrick unwind_plan_updated = true; 1493*061da546Spatrick continue; 1494*061da546Spatrick } 1495*061da546Spatrick 1496*061da546Spatrick // push imm 1497*061da546Spatrick if (push_imm_pattern_p()) { 1498*061da546Spatrick row->SetOffset(offset); 1499*061da546Spatrick row->GetCFAValue().IncOffset(m_wordsize); 1500*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1501*061da546Spatrick unwind_plan.InsertRow(new_row); 1502*061da546Spatrick unwind_plan_updated = true; 1503*061da546Spatrick continue; 1504*061da546Spatrick } 1505*061da546Spatrick 1506*061da546Spatrick // push extended 1507*061da546Spatrick if (push_extended_pattern_p() || push_misc_reg_p()) { 1508*061da546Spatrick row->SetOffset(offset); 1509*061da546Spatrick row->GetCFAValue().IncOffset(m_wordsize); 1510*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1511*061da546Spatrick unwind_plan.InsertRow(new_row); 1512*061da546Spatrick unwind_plan_updated = true; 1513*061da546Spatrick continue; 1514*061da546Spatrick } 1515*061da546Spatrick 1516*061da546Spatrick // add/sub %rsp/%esp 1517*061da546Spatrick int amount; 1518*061da546Spatrick if (add_rsp_pattern_p(amount)) { 1519*061da546Spatrick row->SetOffset(offset); 1520*061da546Spatrick row->GetCFAValue().IncOffset(-amount); 1521*061da546Spatrick 1522*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1523*061da546Spatrick unwind_plan.InsertRow(new_row); 1524*061da546Spatrick unwind_plan_updated = true; 1525*061da546Spatrick continue; 1526*061da546Spatrick } 1527*061da546Spatrick if (sub_rsp_pattern_p(amount)) { 1528*061da546Spatrick row->SetOffset(offset); 1529*061da546Spatrick row->GetCFAValue().IncOffset(amount); 1530*061da546Spatrick 1531*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1532*061da546Spatrick unwind_plan.InsertRow(new_row); 1533*061da546Spatrick unwind_plan_updated = true; 1534*061da546Spatrick continue; 1535*061da546Spatrick } 1536*061da546Spatrick 1537*061da546Spatrick // lea %rsp, [%rsp + $offset] 1538*061da546Spatrick if (lea_rsp_pattern_p(amount)) { 1539*061da546Spatrick row->SetOffset(offset); 1540*061da546Spatrick row->GetCFAValue().IncOffset(-amount); 1541*061da546Spatrick 1542*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1543*061da546Spatrick unwind_plan.InsertRow(new_row); 1544*061da546Spatrick unwind_plan_updated = true; 1545*061da546Spatrick continue; 1546*061da546Spatrick } 1547*061da546Spatrick 1548*061da546Spatrick if (ret_pattern_p()) { 1549*061da546Spatrick reinstate_unwind_state = true; 1550*061da546Spatrick continue; 1551*061da546Spatrick } 1552*061da546Spatrick } else if (cfa_reg == m_lldb_fp_regnum) { 1553*061da546Spatrick // CFA register is fp. 1554*061da546Spatrick 1555*061da546Spatrick // The only case we care about is epilogue: 1556*061da546Spatrick // [0x5d] pop %rbp/%ebp 1557*061da546Spatrick // => [0xc3] ret 1558*061da546Spatrick if (pop_rbp_pattern_p() || leave_pattern_p()) { 1559*061da546Spatrick m_cur_insn++; 1560*061da546Spatrick if (ret_pattern_p()) { 1561*061da546Spatrick row->SetOffset(offset); 1562*061da546Spatrick row->GetCFAValue().SetIsRegisterPlusOffset( 1563*061da546Spatrick first_row->GetCFAValue().GetRegisterNumber(), m_wordsize); 1564*061da546Spatrick 1565*061da546Spatrick UnwindPlan::RowSP new_row(new UnwindPlan::Row(*row)); 1566*061da546Spatrick unwind_plan.InsertRow(new_row); 1567*061da546Spatrick unwind_plan_updated = true; 1568*061da546Spatrick reinstate_unwind_state = true; 1569*061da546Spatrick continue; 1570*061da546Spatrick } 1571*061da546Spatrick } 1572*061da546Spatrick } else { 1573*061da546Spatrick // CFA register is not sp or fp. 1574*061da546Spatrick 1575*061da546Spatrick // This must be hand-written assembly. 1576*061da546Spatrick // Just trust eh_frame and assume we have finished. 1577*061da546Spatrick break; 1578*061da546Spatrick } 1579*061da546Spatrick } 1580*061da546Spatrick 1581*061da546Spatrick unwind_plan.SetPlanValidAddressRange(func_range); 1582*061da546Spatrick if (unwind_plan_updated) { 1583*061da546Spatrick std::string unwind_plan_source(unwind_plan.GetSourceName().AsCString()); 1584*061da546Spatrick unwind_plan_source += " plus augmentation from assembly parsing"; 1585*061da546Spatrick unwind_plan.SetSourceName(unwind_plan_source.c_str()); 1586*061da546Spatrick unwind_plan.SetSourcedFromCompiler(eLazyBoolNo); 1587*061da546Spatrick unwind_plan.SetUnwindPlanValidAtAllInstructions(eLazyBoolYes); 1588*061da546Spatrick } 1589*061da546Spatrick return true; 1590*061da546Spatrick } 1591*061da546Spatrick 1592*061da546Spatrick bool x86AssemblyInspectionEngine::FindFirstNonPrologueInstruction( 1593*061da546Spatrick uint8_t *data, size_t size, size_t &offset) { 1594*061da546Spatrick offset = 0; 1595*061da546Spatrick 1596*061da546Spatrick if (!m_register_map_initialized) 1597*061da546Spatrick return false; 1598*061da546Spatrick 1599*061da546Spatrick while (offset < size) { 1600*061da546Spatrick int regno; 1601*061da546Spatrick int insn_len; 1602*061da546Spatrick int scratch; 1603*061da546Spatrick 1604*061da546Spatrick m_cur_insn = data + offset; 1605*061da546Spatrick if (!instruction_length(m_cur_insn, insn_len, size - offset) 1606*061da546Spatrick || insn_len > kMaxInstructionByteSize 1607*061da546Spatrick || insn_len == 0) { 1608*061da546Spatrick // An error parsing the instruction, i.e. probably data/garbage - stop 1609*061da546Spatrick // scanning 1610*061da546Spatrick break; 1611*061da546Spatrick } 1612*061da546Spatrick 1613*061da546Spatrick if (push_rbp_pattern_p() || mov_rsp_rbp_pattern_p() || 1614*061da546Spatrick sub_rsp_pattern_p(scratch) || push_reg_p(regno) || 1615*061da546Spatrick mov_reg_to_local_stack_frame_p(regno, scratch) || 1616*061da546Spatrick retguard_prologue_p(offset, insn_len) || 1617*061da546Spatrick (lea_rsp_pattern_p(scratch) && offset == 0)) { 1618*061da546Spatrick offset += insn_len; 1619*061da546Spatrick continue; 1620*061da546Spatrick } 1621*061da546Spatrick // 1622*061da546Spatrick // Unknown non-prologue instruction - stop scanning 1623*061da546Spatrick break; 1624*061da546Spatrick } 1625*061da546Spatrick 1626*061da546Spatrick return true; 1627*061da546Spatrick } 1628