#ifndef XBYAK_XBYAK_UTIL_H_ #define XBYAK_XBYAK_UTIL_H_ /** utility class for Xbyak @note this header is under construction */ #ifdef _WIN32 #if (_MSC_VER < 1400) && defined(XBYAK32) static inline __declspec(naked) void __cpuid(int[4], int) { __asm { push ebx push esi mov eax, dword ptr [esp + 4 * 2 + 8] // eaxIn cpuid mov esi, dword ptr [esp + 4 * 2 + 4] // data mov dword ptr [esi], eax mov dword ptr [esi + 4], ebx mov dword ptr [esi + 8], ecx mov dword ptr [esi + 12], edx pop esi pop ebx ret } } #else #include // for __cpuid #endif #else #if __GNUC_PREREQ(4, 3) #include #else #define __cpuid(eaxIn, a, b, c, d) __asm__("cpuid\n" : "=a"(a), "=b"(b), "=c"(c), "=d"(d) : "0"(eaxIn)) #endif #endif namespace Xbyak { namespace util { /** CPU detection class */ class Cpu { unsigned int type_; public: static inline void getCpuid(unsigned int eaxIn, unsigned int data[4]) { #ifdef _WIN32 __cpuid(reinterpret_cast(data), eaxIn); #else __cpuid(eaxIn, data[0], data[1], data[2], data[3]); #endif } enum Type { NONE = 0, tMMX = 1 << 0, tMMX2 = 1 << 1, tCMOV = 1 << 2, tSSE = 1 << 3, tSSE2 = 1 << 4, tSSE3 = 1 << 5, tSSSE3 = 1 << 6, tSSE41 = 1 << 7, tSSE42 = 1 << 8, tPOPCNT = 1 << 9, t3DN = 1 << 16, tE3DN = 1 << 17, tSSE4a = 1 << 18, tSSE5 = 1 << 11, tINTEL = 1 << 24, tAMD = 1 << 25 }; Cpu() : type_(NONE) { unsigned int data[4]; getCpuid(0, data); static const char intel[] = "ntel"; static const char amd[] = "cAMD"; if (data[2] == *reinterpret_cast(amd)) { type_ |= tAMD; getCpuid(0x80000001, data); if (data[3] & (1 << 31)) type_ |= t3DN; if (data[3] & (1 << 15)) type_ |= tCMOV; if (data[3] & (1 << 30)) type_ |= tE3DN; if (data[3] & (1 << 22)) type_ |= tMMX2; } if (data[2] == *reinterpret_cast(intel)) { type_ |= tINTEL; } getCpuid(1, data); if (data[2] & (1 << 0)) type_ |= tSSE3; if (data[2] & (1 << 9)) type_ |= tSSSE3; if (data[2] & (1 << 19)) type_ |= tSSE41; if (data[2] & (1 << 20)) type_ |= tSSE42; if (data[2] & (1 << 23)) type_ |= tPOPCNT; if (data[3] & (1 << 15)) type_ |= tCMOV; if (data[3] & (1 << 23)) type_ |= tMMX; if (data[3] & (1 << 25)) type_ |= tMMX2 | tSSE; if (data[3] & (1 << 26)) type_ |= tSSE2; } bool has(Type type) const { return (type & type_) != 0; } }; #ifdef XBYAK32 namespace local { #ifdef _WIN32 #define XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(x) static inline __declspec(naked) void set_eip_to_ ## x() { \ __asm { mov x, dword ptr [esp] } __asm { ret } \ } #else #define XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(x) static inline void set_eip_to_ ## x() { \ __asm__ volatile("movl (%esp), %" #x); \ } #endif XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(eax) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(ecx) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(edx) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(ebx) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(esi) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(edi) XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG(ebp) #undef XBYAK_LOCAL_DEFINE_SET_EIP_TO_REG } // end of local template struct EnableSetEip : public Gen { EnableSetEip(size_t maxSize = DEFAULT_MAX_CODE_SIZE, void *userPtr = 0) : Gen(maxSize, userPtr) { } /** get pid to out register @note out = eax or ecx or edx */ void setEipTo(const Xbyak::Reg32& out) { #if 0 Gen::call(Gen::getCurr() + 5); Gen::pop(out); #else int idx = out.getIdx(); switch (idx) { case Xbyak::Operand::EAX: Gen::call((void*)local::set_eip_to_eax); break; case Xbyak::Operand::ECX: Gen::call((void*)local::set_eip_to_ecx); break; case Xbyak::Operand::EDX: Gen::call((void*)local::set_eip_to_edx); break; case Xbyak::Operand::EBX: Gen::call((void*)local::set_eip_to_ebx); break; case Xbyak::Operand::ESI: Gen::call((void*)local::set_eip_to_esi); break; case Xbyak::Operand::EDI: Gen::call((void*)local::set_eip_to_esi); break; case Xbyak::Operand::EBP: Gen::call((void*)local::set_eip_to_ebp); break; default: assert(0); } #endif } }; #endif } } // end of util #endif