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@ -285,15 +285,7 @@ bool emu_t::branch_pred_spec_exec(uc_engine* uc, uint64_t address,
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// deobfuscate the instruction stream before profiling...
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// deobfuscate the instruction stream before profiling...
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// makes it easier for profiles to be correct...
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// makes it easier for profiles to be correct...
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vm::instrs::deobfuscate(obj->cc_trace);
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vm::instrs::deobfuscate(obj->cc_trace);
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std::printf("> vsp = %s, vip = %s, address = %p (%p)\n", ZydisRegisterGetString(obj->cc_trace.m_vsp), ZydisRegisterGetString(obj->cc_trace.m_vip),
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obj->cc_trace.m_begin, obj->cc_trace.m_begin - obj->m_vm->m_module_base + obj->m_vm->m_image_base);
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zydis_rtn_t inst_stream;
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std::for_each(obj->cc_trace.m_instrs.begin(),
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obj->cc_trace.m_instrs.end(),
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[&](vm::instrs::emu_instr_t& instr) {
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inst_stream.push_back({instr.m_instr});
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});
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vm::utils::print(inst_stream);
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/* // find the last MOV REG, DWORD PTR [VIP] in the instruction stream, then
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/* // find the last MOV REG, DWORD PTR [VIP] in the instruction stream, then
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// remove any instructions from this instruction to the JMP/RET...
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// remove any instructions from this instruction to the JMP/RET...
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const auto rva_fetch = std::find_if(
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const auto rva_fetch = std::find_if(
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@ -318,7 +310,7 @@ bool emu_t::branch_pred_spec_exec(uc_engine* uc, uint64_t address,
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} */
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} */
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const auto vinstr = vm::instrs::determine(obj->cc_trace);
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const auto vinstr = vm::instrs::determine(obj->cc_trace);
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std::printf("instruction is: %d\n", vinstr.mnemonic);
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// -- free the trace since we will start a new one...
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// -- free the trace since we will start a new one...
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std::for_each(obj->cc_trace.m_instrs.begin(), obj->cc_trace.m_instrs.end(),
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std::for_each(obj->cc_trace.m_instrs.begin(), obj->cc_trace.m_instrs.end(),
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[&](const vm::instrs::emu_instr_t& instr) {
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[&](const vm::instrs::emu_instr_t& instr) {
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@ -328,12 +320,12 @@ bool emu_t::branch_pred_spec_exec(uc_engine* uc, uint64_t address,
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obj->cc_trace.m_instrs.clear();
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obj->cc_trace.m_instrs.clear();
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if (vinstr.mnemonic != vm::instrs::mnemonic_t::jmp) {
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if (vinstr.mnemonic != vm::instrs::mnemonic_t::jmp) {
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/* if (vinstr.mnemonic != vm::instrs::mnemonic_t::sreg) uc_emu_stop(uc);
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if (vinstr.mnemonic != vm::instrs::mnemonic_t::sreg) uc_emu_stop(uc);
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if (!vinstr.imm.has_imm) uc_emu_stop(uc);
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if (!vinstr.imm.has_imm) uc_emu_stop(uc);
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if (vinstr.imm.size != 8 || vinstr.imm.val > 8 * VIRTUAL_REGISTER_COUNT)
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if (vinstr.imm.size != 8 || vinstr.imm.val > 8 * VIRTUAL_REGISTER_COUNT)
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uc_emu_stop(uc); */
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uc_emu_stop(uc);
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// stop if done or if instruction is invalid
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// stop if done or if instruction is invalid
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if (vinstr.mnemonic == instrs::mnemonic_t::unknown)
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if (vinstr.mnemonic == instrs::mnemonic_t::unknown)
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@ -496,7 +488,36 @@ bool emu_t::code_exec_callback(uc_engine* uc, uint64_t address, uint32_t size,
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std::memcpy(obj->cc_blk->m_jmp.stack, obj->cc_trace.m_stack,
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std::memcpy(obj->cc_blk->m_jmp.stack, obj->cc_trace.m_stack,
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STACK_SIZE);
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STACK_SIZE);
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}
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}
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if (vinstr.mnemonic == vm::instrs::mnemonic_t::vmexit)
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{
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int i = 0;
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for (const auto& instr_it : obj->cc_trace.m_instrs)
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{
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if ((instr_it.m_instr.mnemonic == ZYDIS_MNEMONIC_POP ||
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instr_it.m_instr.mnemonic == ZYDIS_MNEMONIC_POPFQ) &&
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instr_it.m_instr.operands[0].type == ZYDIS_OPERAND_TYPE_REGISTER)
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{
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if (i >= 16)
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{
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std::printf("[!] failed to parse vmexit pops\n");
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return false;
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}
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auto pushed_reg = instr_it.m_instr.operands[instr_it.m_instr.mnemonic == ZYDIS_MNEMONIC_POPFQ ? 2 : 0].reg.value;
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if (std::find(obj->cc_blk->vmexit_pop_order.begin(), obj->cc_blk->vmexit_pop_order.begin() + i, pushed_reg)
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!= obj->cc_blk->vmexit_pop_order.begin() + i)
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{
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std::printf("[!] failed to parse vmexit pops\n");
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return false;
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}
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obj->cc_blk->vmexit_pop_order[i++] = pushed_reg;
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}
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}
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if (i != 16)
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{
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std::printf("[!] failed to parse vmexit pops\n");
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return false;
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}
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}
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if (vinstr.mnemonic == vm::instrs::mnemonic_t::jmp ||
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if (vinstr.mnemonic == vm::instrs::mnemonic_t::jmp ||
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vinstr.mnemonic == vm::instrs::mnemonic_t::vmexit)
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vinstr.mnemonic == vm::instrs::mnemonic_t::vmexit)
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uc_emu_stop(obj->uc);
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uc_emu_stop(obj->uc);
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