/* $Id: IEMInternal.h 47754 2013-08-15 11:41:03Z vboxsync $ */ /** @file * IEM - Internal header file. */ /* * Copyright (C) 2011-2012 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #ifndef ___IEMInternal_h #define ___IEMInternal_h #include #include #include #include RT_C_DECLS_BEGIN /** @defgroup grp_iem_int Internals * @ingroup grp_iem * @internal * @{ */ /** @def IEM_VERIFICATION_MODE_FULL * Shorthand for: * defined(IEM_VERIFICATION_MODE) && !defined(IEM_VERIFICATION_MODE_MINIMAL) */ #if defined(IEM_VERIFICATION_MODE) && !defined(IEM_VERIFICATION_MODE_MINIMAL) && !defined(IEM_VERIFICATION_MODE_FULL) # define IEM_VERIFICATION_MODE_FULL #endif /** Finish and move to types.h */ typedef union { uint32_t u32; } RTFLOAT32U; typedef RTFLOAT32U *PRTFLOAT32U; typedef RTFLOAT32U const *PCRTFLOAT32U; /** * Extended operand mode that includes a representation of 8-bit. * * This is used for packing down modes when invoking some C instruction * implementations. */ typedef enum IEMMODEX { IEMMODEX_16BIT = IEMMODE_16BIT, IEMMODEX_32BIT = IEMMODE_32BIT, IEMMODEX_64BIT = IEMMODE_64BIT, IEMMODEX_8BIT } IEMMODEX; AssertCompileSize(IEMMODEX, 4); /** * Branch types. */ typedef enum IEMBRANCH { IEMBRANCH_JUMP = 1, IEMBRANCH_CALL, IEMBRANCH_TRAP, IEMBRANCH_SOFTWARE_INT, IEMBRANCH_HARDWARE_INT } IEMBRANCH; AssertCompileSize(IEMBRANCH, 4); /** * A FPU result. */ typedef struct IEMFPURESULT { /** The output value. */ RTFLOAT80U r80Result; /** The output status. */ uint16_t FSW; } IEMFPURESULT; AssertCompileMemberOffset(IEMFPURESULT, FSW, 10); /** Pointer to a FPU result. */ typedef IEMFPURESULT *PIEMFPURESULT; /** Pointer to a const FPU result. */ typedef IEMFPURESULT const *PCIEMFPURESULT; /** * A FPU result consisting of two output values and FSW. */ typedef struct IEMFPURESULTTWO { /** The first output value. */ RTFLOAT80U r80Result1; /** The output status. */ uint16_t FSW; /** The second output value. */ RTFLOAT80U r80Result2; } IEMFPURESULTTWO; AssertCompileMemberOffset(IEMFPURESULTTWO, FSW, 10); AssertCompileMemberOffset(IEMFPURESULTTWO, r80Result2, 12); /** Pointer to a FPU result consisting of two output values and FSW. */ typedef IEMFPURESULTTWO *PIEMFPURESULTTWO; /** Pointer to a const FPU result consisting of two output values and FSW. */ typedef IEMFPURESULTTWO const *PCIEMFPURESULTTWO; #ifdef IEM_VERIFICATION_MODE_FULL /** * Verification event type. */ typedef enum IEMVERIFYEVENT { IEMVERIFYEVENT_INVALID = 0, IEMVERIFYEVENT_IOPORT_READ, IEMVERIFYEVENT_IOPORT_WRITE, IEMVERIFYEVENT_RAM_WRITE, IEMVERIFYEVENT_RAM_READ } IEMVERIFYEVENT; /** Checks if the event type is a RAM read or write. */ # define IEMVERIFYEVENT_IS_RAM(a_enmType) ((a_enmType) == IEMVERIFYEVENT_RAM_WRITE || (a_enmType) == IEMVERIFYEVENT_RAM_READ) /** * Verification event record. */ typedef struct IEMVERIFYEVTREC { /** Pointer to the next record in the list. */ struct IEMVERIFYEVTREC *pNext; /** The event type. */ IEMVERIFYEVENT enmEvent; /** The event data. */ union { /** IEMVERIFYEVENT_IOPORT_READ */ struct { RTIOPORT Port; uint32_t cbValue; } IOPortRead; /** IEMVERIFYEVENT_IOPORT_WRITE */ struct { RTIOPORT Port; uint32_t cbValue; uint32_t u32Value; } IOPortWrite; /** IEMVERIFYEVENT_RAM_READ */ struct { RTGCPHYS GCPhys; uint32_t cb; } RamRead; /** IEMVERIFYEVENT_RAM_WRITE */ struct { RTGCPHYS GCPhys; uint32_t cb; uint8_t ab[512]; } RamWrite; } u; } IEMVERIFYEVTREC; /** Pointer to an IEM event verification records. */ typedef IEMVERIFYEVTREC *PIEMVERIFYEVTREC; #endif /* IEM_VERIFICATION_MODE_FULL */ /** * The per-CPU IEM state. */ typedef struct IEMCPU { /** Pointer to the CPU context - ring-3 contex. */ R3PTRTYPE(PCPUMCTX) pCtxR3; /** Pointer to the CPU context - ring-0 contex. */ R0PTRTYPE(PCPUMCTX) pCtxR0; /** Pointer to the CPU context - raw-mode contex. */ RCPTRTYPE(PCPUMCTX) pCtxRC; /** Offset of the VMCPU structure relative to this structure (negative). */ int32_t offVMCpu; /** Offset of the VM structure relative to this structure (negative). */ int32_t offVM; /** Whether to bypass access handlers or not. */ bool fBypassHandlers; /** Indicates that we're interpreting patch code - RC only! */ bool fInPatchCode; /** Explicit alignment padding. */ bool afAlignment0[2]; /** The flags of the current exception / interrupt. */ uint32_t fCurXcpt; /** The current exception / interrupt. */ uint8_t uCurXcpt; /** Exception / interrupt recursion depth. */ int8_t cXcptRecursions; /** Explicit alignment padding. */ bool afAlignment1[1]; /** The CPL. */ uint8_t uCpl; /** The current CPU execution mode (CS). */ IEMMODE enmCpuMode; /** Info status code that needs to be propagated to the IEM caller. * This cannot be passed internally, as it would complicate all success * checks within the interpreter making the code larger and almost impossible * to get right. Instead, we'll store status codes to pass on here. Each * source of these codes will perform appropriate sanity checks. */ int32_t rcPassUp; /** @name Statistics * @{ */ /** The number of instructions we've executed. */ uint32_t cInstructions; /** The number of potential exits. */ uint32_t cPotentialExits; /** The number of bytes data or stack written (mostly for IEMExecOneEx). * This may contain uncommitted writes. */ uint32_t cbWritten; /** Counts the VERR_IEM_INSTR_NOT_IMPLEMENTED returns. */ uint32_t cRetInstrNotImplemented; /** Counts the VERR_IEM_ASPECT_NOT_IMPLEMENTED returns. */ uint32_t cRetAspectNotImplemented; /** Counts informational statuses returned (other than VINF_SUCCESS). */ uint32_t cRetInfStatuses; /** Counts other error statuses returned. */ uint32_t cRetErrStatuses; /** Number of times rcPassUp has been used. */ uint32_t cRetPassUpStatus; #ifdef IEM_VERIFICATION_MODE_FULL /** The Number of I/O port reads that has been performed. */ uint32_t cIOReads; /** The Number of I/O port writes that has been performed. */ uint32_t cIOWrites; /** Set if no comparison to REM is currently performed. * This is used to skip past really slow bits. */ bool fNoRem; /** Indicates that RAX and RDX differences should be ignored since RDTSC * and RDTSCP are timing sensitive. */ bool fIgnoreRaxRdx; /** Indicates that a MOVS instruction with overlapping source and destination * was executed, causing the memory write records to be incorrrect. */ bool fOverlappingMovs; /** Set if there are problematic memory accesses (MMIO, write monitored, ++). */ bool fProblematicMemory; /** This is used to communicate a CPL changed caused by IEMInjectTrap that * CPUM doesn't yet reflect. */ uint8_t uInjectCpl; bool afAlignment2[3]; /** Mask of undefined eflags. * The verifier will any difference in these flags. */ uint32_t fUndefinedEFlags; /** The CS of the instruction being interpreted. */ RTSEL uOldCs; /** The RIP of the instruction being interpreted. */ uint64_t uOldRip; /** The physical address corresponding to abOpcodes[0]. */ RTGCPHYS GCPhysOpcodes; #endif /** @} */ /** @name Decoder state. * @{ */ /** The default addressing mode . */ IEMMODE enmDefAddrMode; /** The effective addressing mode . */ IEMMODE enmEffAddrMode; /** The default operand mode . */ IEMMODE enmDefOpSize; /** The effective operand mode . */ IEMMODE enmEffOpSize; /** The prefix mask (IEM_OP_PRF_XXX). */ uint32_t fPrefixes; /** The extra REX ModR/M register field bit (REX.R << 3). */ uint8_t uRexReg; /** The extra REX ModR/M r/m field, SIB base and opcode reg bit * (REX.B << 3). */ uint8_t uRexB; /** The extra REX SIB index field bit (REX.X << 3). */ uint8_t uRexIndex; /** The effective segment register (X86_SREG_XXX). */ uint8_t iEffSeg; /** The current offset into abOpcodes. */ uint8_t offOpcode; /** The size of what has currently been fetched into abOpcodes. */ uint8_t cbOpcode; /** The opcode bytes. */ uint8_t abOpcode[15]; /** Offset into abOpcodes where the FPU instruction starts. * Only set by the FPU escape opcodes (0xd8-0xdf) and used later on when the * instruction result is committed. */ uint8_t offFpuOpcode; /** @}*/ /** Alignment padding for aMemMappings. */ uint8_t abAlignment2[4]; /** The number of active guest memory mappings. */ uint8_t cActiveMappings; /** The next unused mapping index. */ uint8_t iNextMapping; /** Records for tracking guest memory mappings. */ struct { /** The address of the mapped bytes. */ void *pv; #if defined(IN_RC) && HC_ARCH_BITS == 64 uint32_t u32Alignment3; /**< Alignment padding. */ #endif /** The access flags (IEM_ACCESS_XXX). * IEM_ACCESS_INVALID if the entry is unused. */ uint32_t fAccess; #if HC_ARCH_BITS == 64 uint32_t u32Alignment4; /**< Alignment padding. */ #endif } aMemMappings[3]; /** Locking records for the mapped memory. */ union { PGMPAGEMAPLOCK Lock; uint64_t au64Padding[2]; } aMemMappingLocks[3]; /** Bounce buffer info. * This runs in parallel to aMemMappings. */ struct { /** The physical address of the first byte. */ RTGCPHYS GCPhysFirst; /** The physical address of the second page. */ RTGCPHYS GCPhysSecond; /** The number of bytes in the first page. */ uint16_t cbFirst; /** The number of bytes in the second page. */ uint16_t cbSecond; /** Whether it's unassigned memory. */ bool fUnassigned; /** Explicit alignment padding. */ bool afAlignment5[3]; } aMemBbMappings[3]; /** Bounce buffer storage. * This runs in parallel to aMemMappings and aMemBbMappings. */ struct { uint8_t ab[512]; } aBounceBuffers[3]; /** @name Target CPU information. * @{ */ /** EDX value of CPUID(1). * @remarks Some bits are subject to change and must be queried dynamically. */ uint32_t fCpuIdStdFeaturesEdx; /** ECX value of CPUID(1). * @remarks Some bits are subject to change and must be queried dynamically. */ uint32_t fCpuIdStdFeaturesEcx; /** The CPU vendor. */ CPUMCPUVENDOR enmCpuVendor; /** @} */ /** @name Host CPU information. * @{ */ /** EDX value of CPUID(1). */ uint32_t fHostCpuIdStdFeaturesEdx; /** ECX value of CPUID(1). */ uint32_t fHostCpuIdStdFeaturesEcx; /** The CPU vendor. */ CPUMCPUVENDOR enmHostCpuVendor; /** @} */ #ifdef IEM_VERIFICATION_MODE_FULL /** The event verification records for what IEM did (LIFO). */ R3PTRTYPE(PIEMVERIFYEVTREC) pIemEvtRecHead; /** Insertion point for pIemEvtRecHead. */ R3PTRTYPE(PIEMVERIFYEVTREC *) ppIemEvtRecNext; /** The event verification records for what the other party did (FIFO). */ R3PTRTYPE(PIEMVERIFYEVTREC) pOtherEvtRecHead; /** Insertion point for pOtherEvtRecHead. */ R3PTRTYPE(PIEMVERIFYEVTREC *) ppOtherEvtRecNext; /** List of free event records. */ R3PTRTYPE(PIEMVERIFYEVTREC) pFreeEvtRec; #endif } IEMCPU; /** Pointer to the per-CPU IEM state. */ typedef IEMCPU *PIEMCPU; /** Pointer to the const per-CPU IEM state. */ typedef IEMCPU const *PCIEMCPU; /** Converts a IEMCPU pointer to a VMCPU pointer. * @returns VMCPU pointer. * @param a_pIemCpu The IEM per CPU instance data. */ #define IEMCPU_TO_VMCPU(a_pIemCpu) ((PVMCPU)( (uintptr_t)(a_pIemCpu) + a_pIemCpu->offVMCpu )) /** Converts a IEMCPU pointer to a VM pointer. * @returns VM pointer. * @param a_pIemCpu The IEM per CPU instance data. */ #define IEMCPU_TO_VM(a_pIemCpu) ((PVM)( (uintptr_t)(a_pIemCpu) + a_pIemCpu->offVM )) /** @name IEM_ACCESS_XXX - Access details. * @{ */ #define IEM_ACCESS_INVALID UINT32_C(0x000000ff) #define IEM_ACCESS_TYPE_READ UINT32_C(0x00000001) #define IEM_ACCESS_TYPE_WRITE UINT32_C(0x00000002) #define IEM_ACCESS_TYPE_EXEC UINT32_C(0x00000004) #define IEM_ACCESS_TYPE_MASK UINT32_C(0x00000007) #define IEM_ACCESS_WHAT_CODE UINT32_C(0x00000010) #define IEM_ACCESS_WHAT_DATA UINT32_C(0x00000020) #define IEM_ACCESS_WHAT_STACK UINT32_C(0x00000030) #define IEM_ACCESS_WHAT_SYS UINT32_C(0x00000040) #define IEM_ACCESS_WHAT_MASK UINT32_C(0x00000070) /** The writes are partial, so if initialize the bounce buffer with the * orignal RAM content. */ #define IEM_ACCESS_PARTIAL_WRITE UINT32_C(0x00000100) /** Used in aMemMappings to indicate that the entry is bounce buffered. */ #define IEM_ACCESS_BOUNCE_BUFFERED UINT32_C(0x00000200) /** Read+write data alias. */ #define IEM_ACCESS_DATA_RW (IEM_ACCESS_TYPE_READ | IEM_ACCESS_TYPE_WRITE | IEM_ACCESS_WHAT_DATA) /** Write data alias. */ #define IEM_ACCESS_DATA_W (IEM_ACCESS_TYPE_WRITE | IEM_ACCESS_WHAT_DATA) /** Read data alias. */ #define IEM_ACCESS_DATA_R (IEM_ACCESS_TYPE_READ | IEM_ACCESS_WHAT_DATA) /** Instruction fetch alias. */ #define IEM_ACCESS_INSTRUCTION (IEM_ACCESS_TYPE_EXEC | IEM_ACCESS_WHAT_CODE) /** Stack write alias. */ #define IEM_ACCESS_STACK_W (IEM_ACCESS_TYPE_WRITE | IEM_ACCESS_WHAT_STACK) /** Stack read alias. */ #define IEM_ACCESS_STACK_R (IEM_ACCESS_TYPE_READ | IEM_ACCESS_WHAT_STACK) /** Stack read+write alias. */ #define IEM_ACCESS_STACK_RW (IEM_ACCESS_TYPE_READ | IEM_ACCESS_TYPE_WRITE | IEM_ACCESS_WHAT_STACK) /** Read system table alias. */ #define IEM_ACCESS_SYS_R (IEM_ACCESS_TYPE_READ | IEM_ACCESS_WHAT_SYS) /** Read+write system table alias. */ #define IEM_ACCESS_SYS_RW (IEM_ACCESS_TYPE_READ | IEM_ACCESS_TYPE_WRITE | IEM_ACCESS_WHAT_SYS) /** @} */ /** @name Prefix constants (IEMCPU::fPrefixes) * @{ */ #define IEM_OP_PRF_SEG_CS RT_BIT_32(0) /**< CS segment prefix (0x2e). */ #define IEM_OP_PRF_SEG_SS RT_BIT_32(1) /**< SS segment prefix (0x36). */ #define IEM_OP_PRF_SEG_DS RT_BIT_32(2) /**< DS segment prefix (0x3e). */ #define IEM_OP_PRF_SEG_ES RT_BIT_32(3) /**< ES segment prefix (0x26). */ #define IEM_OP_PRF_SEG_FS RT_BIT_32(4) /**< FS segment prefix (0x64). */ #define IEM_OP_PRF_SEG_GS RT_BIT_32(5) /**< GS segment prefix (0x65). */ #define IEM_OP_PRF_SEG_MASK UINT32_C(0x3f) #define IEM_OP_PRF_SIZE_OP RT_BIT_32(8) /**< Operand size prefix (0x66). */ #define IEM_OP_PRF_SIZE_REX_W RT_BIT_32(9) /**< REX.W prefix (0x48-0x4f). */ #define IEM_OP_PRF_SIZE_ADDR RT_BIT_32(10) /**< Address size prefix (0x67). */ #define IEM_OP_PRF_LOCK RT_BIT_32(16) /**< Lock prefix (0xf0). */ #define IEM_OP_PRF_REPNZ RT_BIT_32(17) /**< Repeat-not-zero prefix (0xf2). */ #define IEM_OP_PRF_REPZ RT_BIT_32(18) /**< Repeat-if-zero prefix (0xf3). */ #define IEM_OP_PRF_REX RT_BIT_32(24) /**< Any REX prefix (0x40-0x4f). */ #define IEM_OP_PRF_REX_R RT_BIT_32(25) /**< REX.R prefix (0x44,0x45,0x46,0x47,0x4c,0x4d,0x4e,0x4f). */ #define IEM_OP_PRF_REX_B RT_BIT_32(26) /**< REX.B prefix (0x41,0x43,0x45,0x47,0x49,0x4b,0x4d,0x4f). */ #define IEM_OP_PRF_REX_X RT_BIT_32(27) /**< REX.X prefix (0x42,0x43,0x46,0x47,0x4a,0x4b,0x4e,0x4f). */ /** Mask with all the REX prefix flags. * This is generally for use when needing to undo the REX prefixes when they * are followed legacy prefixes and therefore does not immediately preceed * the first opcode byte. * For testing whether any REX prefix is present, use IEM_OP_PRF_REX instead. */ #define IEM_OP_PRF_REX_MASK (IEM_OP_PRF_REX | IEM_OP_PRF_REX_R | IEM_OP_PRF_REX_B | IEM_OP_PRF_REX_X | IEM_OP_PRF_SIZE_REX_W ) /** @} */ /** @name Opcode forms * @{ */ /** ModR/M: reg, r/m */ #define IEMOPFORM_RM 0 /** ModR/M: reg, r/m (register) */ #define IEMOPFORM_RM_REG (IEMOPFORM_RM | IEMOPFORM_MOD3) /** ModR/M: reg, r/m (memory) */ #define IEMOPFORM_RM_MEM (IEMOPFORM_RM | IEMOPFORM_NOT_MOD3) /** ModR/M: r/m, reg */ #define IEMOPFORM_MR 1 /** ModR/M: r/m (register), reg */ #define IEMOPFORM_MR_REG (IEMOPFORM_MR | IEMOPFORM_MOD3) /** ModR/M: r/m (memory), reg */ #define IEMOPFORM_MR_MEM (IEMOPFORM_MR | IEMOPFORM_NOT_MOD3) /** ModR/M: r/m only */ #define IEMOPFORM_M 2 /** ModR/M: r/m only (register). */ #define IEMOPFORM_M_REG (IEMOPFORM_M | IEMOPFORM_MOD3) /** ModR/M: r/m only (memory). */ #define IEMOPFORM_M_MEM (IEMOPFORM_M | IEMOPFORM_NOT_MOD3) /** ModR/M: reg only */ #define IEMOPFORM_R 3 /** Fixed register instruction, no R/M. */ #define IEMOPFORM_FIXED 4 /** The r/m is a register. */ #define IEMOPFORM_MOD3 RT_BIT_32(8) /** The r/m is a memory access. */ #define IEMOPFORM_NOT_MOD3 RT_BIT_32(9) /** @} */ /** * Tests if verification mode is enabled. * * This expands to @c false when IEM_VERIFICATION_MODE is not defined and * should therefore cause the compiler to eliminate the verification branch * of an if statement. */ #ifdef IEM_VERIFICATION_MODE_FULL # define IEM_VERIFICATION_ENABLED(a_pIemCpu) (!(a_pIemCpu)->fNoRem) #elif defined(IEM_VERIFICATION_MODE_MINIMAL) # define IEM_VERIFICATION_ENABLED(a_pIemCpu) (true) #else # define IEM_VERIFICATION_ENABLED(a_pIemCpu) (false) #endif /** * Tests if full verification mode is enabled. * * This expands to @c false when IEM_VERIFICATION_MODE_FULL is not defined and * should therefore cause the compiler to eliminate the verification branch * of an if statement. */ #ifdef IEM_VERIFICATION_MODE_FULL # define IEM_FULL_VERIFICATION_ENABLED(a_pIemCpu) (!(a_pIemCpu)->fNoRem) #else # define IEM_FULL_VERIFICATION_ENABLED(a_pIemCpu) (false) #endif /** * Tests if full verification mode is enabled again REM. * * This expands to @c false when IEM_VERIFICATION_MODE_FULL is not defined and * should therefore cause the compiler to eliminate the verification branch * of an if statement. */ #ifdef IEM_VERIFICATION_MODE_FULL # ifdef IEM_VERIFICATION_MODE_FULL_HM # define IEM_FULL_VERIFICATION_REM_ENABLED(a_pIemCpu) (!(a_pIemCpu)->fNoRem && !HMIsEnabled(IEMCPU_TO_VM(a_pIemCpu))) # else # define IEM_FULL_VERIFICATION_REM_ENABLED(a_pIemCpu) (!(a_pIemCpu)->fNoRem) # endif #else # define IEM_FULL_VERIFICATION_REM_ENABLED(a_pIemCpu) (false) #endif /** @def IEM_VERIFICATION_MODE * Indicates that one of the verfication modes are enabled. */ #if (defined(IEM_VERIFICATION_MODE_FULL) || defined(IEM_VERIFICATION_MODE_MINIMAL)) && !defined(IEM_VERIFICATION_MODE) # define IEM_VERIFICATION_MODE #endif /** * Indicates to the verifier that the given flag set is undefined. * * Can be invoked again to add more flags. * * This is a NOOP if the verifier isn't compiled in. */ #ifdef IEM_VERIFICATION_MODE_FULL # define IEMOP_VERIFICATION_UNDEFINED_EFLAGS(a_fEfl) do { pIemCpu->fUndefinedEFlags |= (a_fEfl); } while (0) #else # define IEMOP_VERIFICATION_UNDEFINED_EFLAGS(a_fEfl) do { } while (0) #endif /** @def IEM_DECL_IMPL_TYPE * For typedef'ing an instruction implementation function. * * @param a_RetType The return type. * @param a_Name The name of the type. * @param a_ArgList The argument list enclosed in parentheses. */ /** @def IEM_DECL_IMPL_DEF * For defining an instruction implementation function. * * @param a_RetType The return type. * @param a_Name The name of the type. * @param a_ArgList The argument list enclosed in parentheses. */ #if defined(__GNUC__) && defined(RT_ARCH_X86) # define IEM_DECL_IMPL_TYPE(a_RetType, a_Name, a_ArgList) \ __attribute__((__fastcall__)) a_RetType (a_Name) a_ArgList # define IEM_DECL_IMPL_DEF(a_RetType, a_Name, a_ArgList) \ __attribute__((__fastcall__, __nothrow__)) a_RetType a_Name a_ArgList #elif defined(_MSC_VER) && defined(RT_ARCH_X86) # define IEM_DECL_IMPL_TYPE(a_RetType, a_Name, a_ArgList) \ a_RetType (__fastcall a_Name) a_ArgList # define IEM_DECL_IMPL_DEF(a_RetType, a_Name, a_ArgList) \ a_RetType __fastcall a_Name a_ArgList #else # define IEM_DECL_IMPL_TYPE(a_RetType, a_Name, a_ArgList) \ a_RetType (VBOXCALL a_Name) a_ArgList # define IEM_DECL_IMPL_DEF(a_RetType, a_Name, a_ArgList) \ a_RetType VBOXCALL a_Name a_ArgList #endif /** @name Arithmetic assignment operations on bytes (binary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLBINU8, (uint8_t *pu8Dst, uint8_t u8Src, uint32_t *pEFlags)); typedef FNIEMAIMPLBINU8 *PFNIEMAIMPLBINU8; FNIEMAIMPLBINU8 iemAImpl_add_u8, iemAImpl_add_u8_locked; FNIEMAIMPLBINU8 iemAImpl_adc_u8, iemAImpl_adc_u8_locked; FNIEMAIMPLBINU8 iemAImpl_sub_u8, iemAImpl_sub_u8_locked; FNIEMAIMPLBINU8 iemAImpl_sbb_u8, iemAImpl_sbb_u8_locked; FNIEMAIMPLBINU8 iemAImpl_or_u8, iemAImpl_or_u8_locked; FNIEMAIMPLBINU8 iemAImpl_xor_u8, iemAImpl_xor_u8_locked; FNIEMAIMPLBINU8 iemAImpl_and_u8, iemAImpl_and_u8_locked; /** @} */ /** @name Arithmetic assignment operations on words (binary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLBINU16, (uint16_t *pu16Dst, uint16_t u16Src, uint32_t *pEFlags)); typedef FNIEMAIMPLBINU16 *PFNIEMAIMPLBINU16; FNIEMAIMPLBINU16 iemAImpl_add_u16, iemAImpl_add_u16_locked; FNIEMAIMPLBINU16 iemAImpl_adc_u16, iemAImpl_adc_u16_locked; FNIEMAIMPLBINU16 iemAImpl_sub_u16, iemAImpl_sub_u16_locked; FNIEMAIMPLBINU16 iemAImpl_sbb_u16, iemAImpl_sbb_u16_locked; FNIEMAIMPLBINU16 iemAImpl_or_u16, iemAImpl_or_u16_locked; FNIEMAIMPLBINU16 iemAImpl_xor_u16, iemAImpl_xor_u16_locked; FNIEMAIMPLBINU16 iemAImpl_and_u16, iemAImpl_and_u16_locked; /** @} */ /** @name Arithmetic assignment operations on double words (binary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLBINU32, (uint32_t *pu32Dst, uint32_t u32Src, uint32_t *pEFlags)); typedef FNIEMAIMPLBINU32 *PFNIEMAIMPLBINU32; FNIEMAIMPLBINU32 iemAImpl_add_u32, iemAImpl_add_u32_locked; FNIEMAIMPLBINU32 iemAImpl_adc_u32, iemAImpl_adc_u32_locked; FNIEMAIMPLBINU32 iemAImpl_sub_u32, iemAImpl_sub_u32_locked; FNIEMAIMPLBINU32 iemAImpl_sbb_u32, iemAImpl_sbb_u32_locked; FNIEMAIMPLBINU32 iemAImpl_or_u32, iemAImpl_or_u32_locked; FNIEMAIMPLBINU32 iemAImpl_xor_u32, iemAImpl_xor_u32_locked; FNIEMAIMPLBINU32 iemAImpl_and_u32, iemAImpl_and_u32_locked; /** @} */ /** @name Arithmetic assignment operations on quad words (binary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLBINU64, (uint64_t *pu64Dst, uint64_t u64Src, uint32_t *pEFlags)); typedef FNIEMAIMPLBINU64 *PFNIEMAIMPLBINU64; FNIEMAIMPLBINU64 iemAImpl_add_u64, iemAImpl_add_u64_locked; FNIEMAIMPLBINU64 iemAImpl_adc_u64, iemAImpl_adc_u64_locked; FNIEMAIMPLBINU64 iemAImpl_sub_u64, iemAImpl_sub_u64_locked; FNIEMAIMPLBINU64 iemAImpl_sbb_u64, iemAImpl_sbb_u64_locked; FNIEMAIMPLBINU64 iemAImpl_or_u64, iemAImpl_or_u64_locked; FNIEMAIMPLBINU64 iemAImpl_xor_u64, iemAImpl_xor_u64_locked; FNIEMAIMPLBINU64 iemAImpl_and_u64, iemAImpl_and_u64_locked; /** @} */ /** @name Compare operations (thrown in with the binary ops). * @{ */ FNIEMAIMPLBINU8 iemAImpl_cmp_u8; FNIEMAIMPLBINU16 iemAImpl_cmp_u16; FNIEMAIMPLBINU32 iemAImpl_cmp_u32; FNIEMAIMPLBINU64 iemAImpl_cmp_u64; /** @} */ /** @name Test operations (thrown in with the binary ops). * @{ */ FNIEMAIMPLBINU8 iemAImpl_test_u8; FNIEMAIMPLBINU16 iemAImpl_test_u16; FNIEMAIMPLBINU32 iemAImpl_test_u32; FNIEMAIMPLBINU64 iemAImpl_test_u64; /** @} */ /** @name Bit operations operations (thrown in with the binary ops). * @{ */ FNIEMAIMPLBINU16 iemAImpl_bt_u16, iemAImpl_bt_u16_locked; FNIEMAIMPLBINU32 iemAImpl_bt_u32, iemAImpl_bt_u32_locked; FNIEMAIMPLBINU64 iemAImpl_bt_u64, iemAImpl_bt_u64_locked; FNIEMAIMPLBINU16 iemAImpl_btc_u16, iemAImpl_btc_u16_locked; FNIEMAIMPLBINU32 iemAImpl_btc_u32, iemAImpl_btc_u32_locked; FNIEMAIMPLBINU64 iemAImpl_btc_u64, iemAImpl_btc_u64_locked; FNIEMAIMPLBINU16 iemAImpl_btr_u16, iemAImpl_btr_u16_locked; FNIEMAIMPLBINU32 iemAImpl_btr_u32, iemAImpl_btr_u32_locked; FNIEMAIMPLBINU64 iemAImpl_btr_u64, iemAImpl_btr_u64_locked; FNIEMAIMPLBINU16 iemAImpl_bts_u16, iemAImpl_bts_u16_locked; FNIEMAIMPLBINU32 iemAImpl_bts_u32, iemAImpl_bts_u32_locked; FNIEMAIMPLBINU64 iemAImpl_bts_u64, iemAImpl_bts_u64_locked; /** @} */ /** @name Exchange memory with register operations. * @{ */ IEM_DECL_IMPL_DEF(void, iemAImpl_xchg_u8, (uint8_t *pu8Mem, uint8_t *pu8Reg)); IEM_DECL_IMPL_DEF(void, iemAImpl_xchg_u16,(uint16_t *pu16Mem, uint16_t *pu16Reg)); IEM_DECL_IMPL_DEF(void, iemAImpl_xchg_u32,(uint32_t *pu32Mem, uint32_t *pu32Reg)); IEM_DECL_IMPL_DEF(void, iemAImpl_xchg_u64,(uint64_t *pu64Mem, uint64_t *pu64Reg)); /** @} */ /** @name Exchange and add operations. * @{ */ IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u8, (uint8_t *pu8Dst, uint8_t *pu8Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u16,(uint16_t *pu16Dst, uint16_t *pu16Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u32,(uint32_t *pu32Dst, uint32_t *pu32Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u64,(uint64_t *pu64Dst, uint64_t *pu64Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u8_locked, (uint8_t *pu8Dst, uint8_t *pu8Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u16_locked,(uint16_t *pu16Dst, uint16_t *pu16Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u32_locked,(uint32_t *pu32Dst, uint32_t *pu32Reg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_xadd_u64_locked,(uint64_t *pu64Dst, uint64_t *pu64Reg, uint32_t *pEFlags)); /** @} */ /** @name Compare and exchange. * @{ */ IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u8, (uint8_t *pu8Dst, uint8_t *puAl, uint8_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u8_locked, (uint8_t *pu8Dst, uint8_t *puAl, uint8_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u16, (uint16_t *pu16Dst, uint16_t *puAx, uint16_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u16_locked,(uint16_t *pu16Dst, uint16_t *puAx, uint16_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u32, (uint32_t *pu32Dst, uint32_t *puEax, uint32_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u32_locked,(uint32_t *pu32Dst, uint32_t *puEax, uint32_t uSrcReg, uint32_t *pEFlags)); #ifdef RT_ARCH_X86 IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u64, (uint64_t *pu64Dst, uint64_t *puRax, uint64_t *puSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u64_locked,(uint64_t *pu64Dst, uint64_t *puRax, uint64_t *puSrcReg, uint32_t *pEFlags)); #else IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u64, (uint64_t *pu64Dst, uint64_t *puRax, uint64_t uSrcReg, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg_u64_locked,(uint64_t *pu64Dst, uint64_t *puRax, uint64_t uSrcReg, uint32_t *pEFlags)); #endif IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg8b,(uint64_t *pu64Dst, PRTUINT64U pu64EaxEdx, PRTUINT64U pu64EbxEcx, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg8b_locked,(uint64_t *pu64Dst, PRTUINT64U pu64EaxEdx, PRTUINT64U pu64EbxEcx, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg16b,(PRTUINT128U *pu128Dst, PRTUINT128U pu64RaxRdx, PRTUINT128U pu64RbxRcx, uint32_t *pEFlags)); IEM_DECL_IMPL_DEF(void, iemAImpl_cmpxchg16b_locked,(PRTUINT128U *pu128Dst, PRTUINT128U pu64RaxRdx, PRTUINT128U pu64RbxRcx, uint32_t *pEFlags)); /** @} */ /** @name Memory ordering * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEMFENCE,(void)); typedef FNIEMAIMPLMEMFENCE *PFNIEMAIMPLMEMFENCE; IEM_DECL_IMPL_DEF(void, iemAImpl_mfence,(void)); IEM_DECL_IMPL_DEF(void, iemAImpl_sfence,(void)); IEM_DECL_IMPL_DEF(void, iemAImpl_lfence,(void)); IEM_DECL_IMPL_DEF(void, iemAImpl_alt_mem_fence,(void)); /** @} */ /** @name Double precision shifts * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTDBLU16,(uint16_t *pu16Dst, uint16_t u16Src, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTDBLU16 *PFNIEMAIMPLSHIFTDBLU16; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTDBLU32,(uint32_t *pu32Dst, uint32_t u32Src, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTDBLU32 *PFNIEMAIMPLSHIFTDBLU32; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTDBLU64,(uint64_t *pu64Dst, uint64_t u64Src, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTDBLU64 *PFNIEMAIMPLSHIFTDBLU64; FNIEMAIMPLSHIFTDBLU16 iemAImpl_shld_u16; FNIEMAIMPLSHIFTDBLU32 iemAImpl_shld_u32; FNIEMAIMPLSHIFTDBLU64 iemAImpl_shld_u64; FNIEMAIMPLSHIFTDBLU16 iemAImpl_shrd_u16; FNIEMAIMPLSHIFTDBLU32 iemAImpl_shrd_u32; FNIEMAIMPLSHIFTDBLU64 iemAImpl_shrd_u64; /** @} */ /** @name Bit search operations (thrown in with the binary ops). * @{ */ FNIEMAIMPLBINU16 iemAImpl_bsf_u16; FNIEMAIMPLBINU32 iemAImpl_bsf_u32; FNIEMAIMPLBINU64 iemAImpl_bsf_u64; FNIEMAIMPLBINU16 iemAImpl_bsr_u16; FNIEMAIMPLBINU32 iemAImpl_bsr_u32; FNIEMAIMPLBINU64 iemAImpl_bsr_u64; /** @} */ /** @name Signed multiplication operations (thrown in with the binary ops). * @{ */ FNIEMAIMPLBINU16 iemAImpl_imul_two_u16; FNIEMAIMPLBINU32 iemAImpl_imul_two_u32; FNIEMAIMPLBINU64 iemAImpl_imul_two_u64; /** @} */ /** @name Arithmetic assignment operations on bytes (unary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLUNARYU8, (uint8_t *pu8Dst, uint32_t *pEFlags)); typedef FNIEMAIMPLUNARYU8 *PFNIEMAIMPLUNARYU8; FNIEMAIMPLUNARYU8 iemAImpl_inc_u8, iemAImpl_inc_u8_locked; FNIEMAIMPLUNARYU8 iemAImpl_dec_u8, iemAImpl_dec_u8_locked; FNIEMAIMPLUNARYU8 iemAImpl_not_u8, iemAImpl_not_u8_locked; FNIEMAIMPLUNARYU8 iemAImpl_neg_u8, iemAImpl_neg_u8_locked; /** @} */ /** @name Arithmetic assignment operations on words (unary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLUNARYU16, (uint16_t *pu16Dst, uint32_t *pEFlags)); typedef FNIEMAIMPLUNARYU16 *PFNIEMAIMPLUNARYU16; FNIEMAIMPLUNARYU16 iemAImpl_inc_u16, iemAImpl_inc_u16_locked; FNIEMAIMPLUNARYU16 iemAImpl_dec_u16, iemAImpl_dec_u16_locked; FNIEMAIMPLUNARYU16 iemAImpl_not_u16, iemAImpl_not_u16_locked; FNIEMAIMPLUNARYU16 iemAImpl_neg_u16, iemAImpl_neg_u16_locked; /** @} */ /** @name Arithmetic assignment operations on double words (unary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLUNARYU32, (uint32_t *pu32Dst, uint32_t *pEFlags)); typedef FNIEMAIMPLUNARYU32 *PFNIEMAIMPLUNARYU32; FNIEMAIMPLUNARYU32 iemAImpl_inc_u32, iemAImpl_inc_u32_locked; FNIEMAIMPLUNARYU32 iemAImpl_dec_u32, iemAImpl_dec_u32_locked; FNIEMAIMPLUNARYU32 iemAImpl_not_u32, iemAImpl_not_u32_locked; FNIEMAIMPLUNARYU32 iemAImpl_neg_u32, iemAImpl_neg_u32_locked; /** @} */ /** @name Arithmetic assignment operations on quad words (unary). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLUNARYU64, (uint64_t *pu64Dst, uint32_t *pEFlags)); typedef FNIEMAIMPLUNARYU64 *PFNIEMAIMPLUNARYU64; FNIEMAIMPLUNARYU64 iemAImpl_inc_u64, iemAImpl_inc_u64_locked; FNIEMAIMPLUNARYU64 iemAImpl_dec_u64, iemAImpl_dec_u64_locked; FNIEMAIMPLUNARYU64 iemAImpl_not_u64, iemAImpl_not_u64_locked; FNIEMAIMPLUNARYU64 iemAImpl_neg_u64, iemAImpl_neg_u64_locked; /** @} */ /** @name Shift operations on bytes (Group 2). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTU8,(uint8_t *pu8Dst, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTU8 *PFNIEMAIMPLSHIFTU8; FNIEMAIMPLSHIFTU8 iemAImpl_rol_u8; FNIEMAIMPLSHIFTU8 iemAImpl_ror_u8; FNIEMAIMPLSHIFTU8 iemAImpl_rcl_u8; FNIEMAIMPLSHIFTU8 iemAImpl_rcr_u8; FNIEMAIMPLSHIFTU8 iemAImpl_shl_u8; FNIEMAIMPLSHIFTU8 iemAImpl_shr_u8; FNIEMAIMPLSHIFTU8 iemAImpl_sar_u8; /** @} */ /** @name Shift operations on words (Group 2). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTU16,(uint16_t *pu16Dst, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTU16 *PFNIEMAIMPLSHIFTU16; FNIEMAIMPLSHIFTU16 iemAImpl_rol_u16; FNIEMAIMPLSHIFTU16 iemAImpl_ror_u16; FNIEMAIMPLSHIFTU16 iemAImpl_rcl_u16; FNIEMAIMPLSHIFTU16 iemAImpl_rcr_u16; FNIEMAIMPLSHIFTU16 iemAImpl_shl_u16; FNIEMAIMPLSHIFTU16 iemAImpl_shr_u16; FNIEMAIMPLSHIFTU16 iemAImpl_sar_u16; /** @} */ /** @name Shift operations on double words (Group 2). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTU32,(uint32_t *pu32Dst, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTU32 *PFNIEMAIMPLSHIFTU32; FNIEMAIMPLSHIFTU32 iemAImpl_rol_u32; FNIEMAIMPLSHIFTU32 iemAImpl_ror_u32; FNIEMAIMPLSHIFTU32 iemAImpl_rcl_u32; FNIEMAIMPLSHIFTU32 iemAImpl_rcr_u32; FNIEMAIMPLSHIFTU32 iemAImpl_shl_u32; FNIEMAIMPLSHIFTU32 iemAImpl_shr_u32; FNIEMAIMPLSHIFTU32 iemAImpl_sar_u32; /** @} */ /** @name Shift operations on words (Group 2). * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLSHIFTU64,(uint64_t *pu64Dst, uint8_t cShift, uint32_t *pEFlags)); typedef FNIEMAIMPLSHIFTU64 *PFNIEMAIMPLSHIFTU64; FNIEMAIMPLSHIFTU64 iemAImpl_rol_u64; FNIEMAIMPLSHIFTU64 iemAImpl_ror_u64; FNIEMAIMPLSHIFTU64 iemAImpl_rcl_u64; FNIEMAIMPLSHIFTU64 iemAImpl_rcr_u64; FNIEMAIMPLSHIFTU64 iemAImpl_shl_u64; FNIEMAIMPLSHIFTU64 iemAImpl_shr_u64; FNIEMAIMPLSHIFTU64 iemAImpl_sar_u64; /** @} */ /** @name Multiplication and division operations. * @{ */ typedef IEM_DECL_IMPL_TYPE(int, FNIEMAIMPLMULDIVU8,(uint16_t *pu16AX, uint8_t u8FactorDivisor, uint32_t *pEFlags)); typedef FNIEMAIMPLMULDIVU8 *PFNIEMAIMPLMULDIVU8; FNIEMAIMPLMULDIVU8 iemAImpl_mul_u8, iemAImpl_imul_u8; FNIEMAIMPLMULDIVU8 iemAImpl_div_u8, iemAImpl_idiv_u8; typedef IEM_DECL_IMPL_TYPE(int, FNIEMAIMPLMULDIVU16,(uint16_t *pu16AX, uint16_t *pu16DX, uint16_t u16FactorDivisor, uint32_t *pEFlags)); typedef FNIEMAIMPLMULDIVU16 *PFNIEMAIMPLMULDIVU16; FNIEMAIMPLMULDIVU16 iemAImpl_mul_u16, iemAImpl_imul_u16; FNIEMAIMPLMULDIVU16 iemAImpl_div_u16, iemAImpl_idiv_u16; typedef IEM_DECL_IMPL_TYPE(int, FNIEMAIMPLMULDIVU32,(uint32_t *pu32EAX, uint32_t *pu32EDX, uint32_t u32FactorDivisor, uint32_t *pEFlags)); typedef FNIEMAIMPLMULDIVU32 *PFNIEMAIMPLMULDIVU32; FNIEMAIMPLMULDIVU32 iemAImpl_mul_u32, iemAImpl_imul_u32; FNIEMAIMPLMULDIVU32 iemAImpl_div_u32, iemAImpl_idiv_u32; typedef IEM_DECL_IMPL_TYPE(int, FNIEMAIMPLMULDIVU64,(uint64_t *pu64RAX, uint64_t *pu64RDX, uint64_t u64FactorDivisor, uint32_t *pEFlags)); typedef FNIEMAIMPLMULDIVU64 *PFNIEMAIMPLMULDIVU64; FNIEMAIMPLMULDIVU64 iemAImpl_mul_u64, iemAImpl_imul_u64; FNIEMAIMPLMULDIVU64 iemAImpl_div_u64, iemAImpl_idiv_u64; /** @} */ /** @name Byte Swap. * @{ */ IEM_DECL_IMPL_TYPE(void, iemAImpl_bswap_u16,(uint32_t *pu32Dst)); /* Yes, 32-bit register access. */ IEM_DECL_IMPL_TYPE(void, iemAImpl_bswap_u32,(uint32_t *pu32Dst)); IEM_DECL_IMPL_TYPE(void, iemAImpl_bswap_u64,(uint64_t *pu64Dst)); /** @} */ /** @name Misc. * @{ */ FNIEMAIMPLBINU16 iemAImpl_arpl; /** @} */ /** @name FPU operations taking a 32-bit float argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR32FSW,(PCX86FXSTATE pFpuState, uint16_t *pFSW, PCRTFLOAT80U pr80Val1, PCRTFLOAT32U pr32Val2)); typedef FNIEMAIMPLFPUR32FSW *PFNIEMAIMPLFPUR32FSW; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR32,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, PCRTFLOAT32U pr32Val2)); typedef FNIEMAIMPLFPUR32 *PFNIEMAIMPLFPUR32; FNIEMAIMPLFPUR32FSW iemAImpl_fcom_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fadd_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fmul_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fsub_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fsubr_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fdiv_r80_by_r32; FNIEMAIMPLFPUR32 iemAImpl_fdivr_r80_by_r32; IEM_DECL_IMPL_DEF(void, iemAImpl_fld_r32_to_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT32U pr32Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fst_r80_to_r32,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, PRTFLOAT32U pr32Val, PCRTFLOAT80U pr80Val)); /** @} */ /** @name FPU operations taking a 64-bit float argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR64,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, PCRTFLOAT64U pr64Val2)); typedef FNIEMAIMPLFPUR64 *PFNIEMAIMPLFPUR64; FNIEMAIMPLFPUR64 iemAImpl_fadd_r80_by_r64; FNIEMAIMPLFPUR64 iemAImpl_fmul_r80_by_r64; FNIEMAIMPLFPUR64 iemAImpl_fsub_r80_by_r64; FNIEMAIMPLFPUR64 iemAImpl_fsubr_r80_by_r64; FNIEMAIMPLFPUR64 iemAImpl_fdiv_r80_by_r64; FNIEMAIMPLFPUR64 iemAImpl_fdivr_r80_by_r64; IEM_DECL_IMPL_DEF(void, iemAImpl_fcom_r80_by_r64,(PCX86FXSTATE pFpuState, uint16_t *pFSW, PCRTFLOAT80U pr80Val1, PCRTFLOAT64U pr64Val2)); IEM_DECL_IMPL_DEF(void, iemAImpl_fld_r64_to_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT64U pr64Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fst_r80_to_r64,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, PRTFLOAT64U pr32Val, PCRTFLOAT80U pr80Val)); /** @} */ /** @name FPU operations taking a 80-bit float argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, PCRTFLOAT80U pr80Val2)); typedef FNIEMAIMPLFPUR80 *PFNIEMAIMPLFPUR80; FNIEMAIMPLFPUR80 iemAImpl_fadd_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fmul_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fsub_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fsubr_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fdiv_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fdivr_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fprem_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fprem1_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fscale_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fpatan_r80_by_r80; FNIEMAIMPLFPUR80 iemAImpl_fyl2xp1_r80_by_r80; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80FSW,(PCX86FXSTATE pFpuState, uint16_t *pFSW, PCRTFLOAT80U pr80Val1, PCRTFLOAT80U pr80Val2)); typedef FNIEMAIMPLFPUR80FSW *PFNIEMAIMPLFPUR80FSW; FNIEMAIMPLFPUR80FSW iemAImpl_fcom_r80_by_r80; FNIEMAIMPLFPUR80FSW iemAImpl_fucom_r80_by_r80; typedef IEM_DECL_IMPL_TYPE(uint32_t, FNIEMAIMPLFPUR80EFL,(PCX86FXSTATE pFpuState, uint16_t *pu16Fsw, PCRTFLOAT80U pr80Val1, PCRTFLOAT80U pr80Val2)); typedef FNIEMAIMPLFPUR80EFL *PFNIEMAIMPLFPUR80EFL; FNIEMAIMPLFPUR80EFL iemAImpl_fcomi_r80_by_r80; FNIEMAIMPLFPUR80EFL iemAImpl_fucomi_r80_by_r80; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80UNARY,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val)); typedef FNIEMAIMPLFPUR80UNARY *PFNIEMAIMPLFPUR80UNARY; FNIEMAIMPLFPUR80UNARY iemAImpl_fabs_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_fchs_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_f2xm1_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_fyl2x_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_fsqrt_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_frndint_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_fsin_r80; FNIEMAIMPLFPUR80UNARY iemAImpl_fcos_r80; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80UNARYFSW,(PCX86FXSTATE pFpuState, uint16_t *pu16Fsw, PCRTFLOAT80U pr80Val)); typedef FNIEMAIMPLFPUR80UNARYFSW *PFNIEMAIMPLFPUR80UNARYFSW; FNIEMAIMPLFPUR80UNARYFSW iemAImpl_ftst_r80; FNIEMAIMPLFPUR80UNARYFSW iemAImpl_fxam_r80; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80LDCONST,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes)); typedef FNIEMAIMPLFPUR80LDCONST *PFNIEMAIMPLFPUR80LDCONST; FNIEMAIMPLFPUR80LDCONST iemAImpl_fld1; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldl2t; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldl2e; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldpi; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldlg2; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldln2; FNIEMAIMPLFPUR80LDCONST iemAImpl_fldz; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUR80UNARYTWO,(PCX86FXSTATE pFpuState, PIEMFPURESULTTWO pFpuResTwo, PCRTFLOAT80U pr80Val)); typedef FNIEMAIMPLFPUR80UNARYTWO *PFNIEMAIMPLFPUR80UNARYTWO; FNIEMAIMPLFPUR80UNARYTWO iemAImpl_fptan_r80_r80; FNIEMAIMPLFPUR80UNARYTWO iemAImpl_fxtract_r80_r80; FNIEMAIMPLFPUR80UNARYTWO iemAImpl_fsincos_r80_r80; IEM_DECL_IMPL_DEF(void, iemAImpl_fld_r80_from_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fst_r80_to_r80,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, PRTFLOAT80U pr80Dst, PCRTFLOAT80U pr80Src)); /** @} */ /** @name FPU operations taking a 16-bit signed integer argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUI16,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, int16_t const *pi16Val2)); typedef FNIEMAIMPLFPUI16 *PFNIEMAIMPLFPUI16; FNIEMAIMPLFPUI16 iemAImpl_fiadd_r80_by_i16; FNIEMAIMPLFPUI16 iemAImpl_fimul_r80_by_i16; FNIEMAIMPLFPUI16 iemAImpl_fisub_r80_by_i16; FNIEMAIMPLFPUI16 iemAImpl_fisubr_r80_by_i16; FNIEMAIMPLFPUI16 iemAImpl_fidiv_r80_by_i16; FNIEMAIMPLFPUI16 iemAImpl_fidivr_r80_by_i16; IEM_DECL_IMPL_DEF(void, iemAImpl_ficom_r80_by_i16,(PCX86FXSTATE pFpuState, uint16_t *pu16Fsw, PCRTFLOAT80U pr80Val1, int16_t const *pi16Val2)); IEM_DECL_IMPL_DEF(void, iemAImpl_fild_i16_to_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, int16_t const *pi16Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fist_r80_to_i16,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int16_t *pi16Val, PCRTFLOAT80U pr80Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fistt_r80_to_i16,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int16_t *pi16Val, PCRTFLOAT80U pr80Val)); /** @} */ /** @name FPU operations taking a 32-bit signed integer argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUI32,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, int32_t const *pi32Val2)); typedef FNIEMAIMPLFPUI32 *PFNIEMAIMPLFPUI32; FNIEMAIMPLFPUI32 iemAImpl_fiadd_r80_by_i32; FNIEMAIMPLFPUI32 iemAImpl_fimul_r80_by_i32; FNIEMAIMPLFPUI32 iemAImpl_fisub_r80_by_i32; FNIEMAIMPLFPUI32 iemAImpl_fisubr_r80_by_i32; FNIEMAIMPLFPUI32 iemAImpl_fidiv_r80_by_i32; FNIEMAIMPLFPUI32 iemAImpl_fidivr_r80_by_i32; IEM_DECL_IMPL_DEF(void, iemAImpl_ficom_r80_by_i32,(PCX86FXSTATE pFpuState, uint16_t *pu16Fsw, PCRTFLOAT80U pr80Val1, int32_t const *pi32Val2)); IEM_DECL_IMPL_DEF(void, iemAImpl_fild_i32_to_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, int32_t const *pi32Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fist_r80_to_i32,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int32_t *pi32Val, PCRTFLOAT80U pr80Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fistt_r80_to_i32,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int32_t *pi32Val, PCRTFLOAT80U pr80Val)); /** @} */ /** @name FPU operations taking a 64-bit signed integer argument * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLFPUI64,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, PCRTFLOAT80U pr80Val1, int64_t const *pi64Val2)); typedef FNIEMAIMPLFPUI64 *PFNIEMAIMPLFPUI64; FNIEMAIMPLFPUI64 iemAImpl_fiadd_r80_by_i64; FNIEMAIMPLFPUI64 iemAImpl_fimul_r80_by_i64; FNIEMAIMPLFPUI64 iemAImpl_fisub_r80_by_i64; FNIEMAIMPLFPUI64 iemAImpl_fisubr_r80_by_i64; FNIEMAIMPLFPUI64 iemAImpl_fidiv_r80_by_i64; FNIEMAIMPLFPUI64 iemAImpl_fidivr_r80_by_i64; IEM_DECL_IMPL_DEF(void, iemAImpl_ficom_r80_by_i64,(PCX86FXSTATE pFpuState, uint16_t *pu16Fsw, PCRTFLOAT80U pr80Val1, int64_t const *pi64Val2)); IEM_DECL_IMPL_DEF(void, iemAImpl_fild_i64_to_r80,(PCX86FXSTATE pFpuState, PIEMFPURESULT pFpuRes, int64_t const *pi64Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fist_r80_to_i64,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int64_t *pi64Val, PCRTFLOAT80U pr80Val)); IEM_DECL_IMPL_DEF(void, iemAImpl_fistt_r80_to_i64,(PCX86FXSTATE pFpuState, uint16_t *pu16FSW, int64_t *pi32Val, PCRTFLOAT80U pr80Val)); /** @} */ /** Temporary type representing a 256-bit vector register. */ typedef struct {uint64_t au64[4]; } IEMVMM256; /** Temporary type pointing to a 256-bit vector register. */ typedef IEMVMM256 *PIEMVMM256; /** Temporary type pointing to a const 256-bit vector register. */ typedef IEMVMM256 *PCIEMVMM256; /** @name Media (SSE/MMX/AVX) operations: full1 + full2 -> full1. * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF2U64,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint64_t const *pu64Src)); typedef FNIEMAIMPLMEDIAF2U64 *PFNIEMAIMPLMEDIAF2U64; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF2U128,(PCX86FXSTATE pFpuState, uint128_t *pu128Dst, uint128_t const *pu128Src)); typedef FNIEMAIMPLMEDIAF2U128 *PFNIEMAIMPLMEDIAF2U128; FNIEMAIMPLMEDIAF2U64 iemAImpl_pxor_u64, iemAImpl_pcmpeqb_u64, iemAImpl_pcmpeqw_u64, iemAImpl_pcmpeqd_u64; FNIEMAIMPLMEDIAF2U128 iemAImpl_pxor_u128, iemAImpl_pcmpeqb_u128, iemAImpl_pcmpeqw_u128, iemAImpl_pcmpeqd_u128; /** @} */ /** @name Media (SSE/MMX/AVX) operations: lowhalf1 + lowhalf1 -> full1. * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF1L1U64,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint32_t const *pu32Src)); typedef FNIEMAIMPLMEDIAF1L1U64 *PFNIEMAIMPLMEDIAF1L1U64; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF1L1U128,(PCX86FXSTATE pFpuState, uint128_t *pu128Dst, uint64_t const *pu64Src)); typedef FNIEMAIMPLMEDIAF1L1U128 *PFNIEMAIMPLMEDIAF1L1U128; FNIEMAIMPLMEDIAF1L1U64 iemAImpl_punpcklbw_u64, iemAImpl_punpcklwd_u64, iemAImpl_punpckldq_u64; FNIEMAIMPLMEDIAF1L1U128 iemAImpl_punpcklbw_u128, iemAImpl_punpcklwd_u128, iemAImpl_punpckldq_u128, iemAImpl_punpcklqdq_u128; /** @} */ /** @name Media (SSE/MMX/AVX) operations: hihalf1 + hihalf2 -> full1. * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF1H1U64,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint64_t const *pu64Src)); typedef FNIEMAIMPLMEDIAF2U64 *PFNIEMAIMPLMEDIAF1H1U64; typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAF1H1U128,(PCX86FXSTATE pFpuState, uint128_t *pu128Dst, uint128_t const *pu128Src)); typedef FNIEMAIMPLMEDIAF2U128 *PFNIEMAIMPLMEDIAF1H1U128; FNIEMAIMPLMEDIAF1H1U64 iemAImpl_punpckhbw_u64, iemAImpl_punpckhwd_u64, iemAImpl_punpckhdq_u64; FNIEMAIMPLMEDIAF1H1U128 iemAImpl_punpckhbw_u128, iemAImpl_punpckhwd_u128, iemAImpl_punpckhdq_u128, iemAImpl_punpckhqdq_u128; /** @} */ /** @name Media (SSE/MMX/AVX) operation: Packed Shuffle Stuff (evil) * @{ */ typedef IEM_DECL_IMPL_TYPE(void, FNIEMAIMPLMEDIAPSHUF,(PCX86FXSTATE pFpuState, uint128_t *pu128Dst, uint128_t const *pu128Src, uint8_t bEvil)); typedef FNIEMAIMPLMEDIAPSHUF *PFNIEMAIMPLMEDIAPSHUF; FNIEMAIMPLMEDIAPSHUF iemAImpl_pshufhw, iemAImpl_pshuflw, iemAImpl_pshufd; IEM_DECL_IMPL_DEF(void, iemAImpl_pshufw,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint64_t const *pu64Src, uint8_t bEvil)); /** @} */ /** @name Media (SSE/MMX/AVX) operation: Move Byte Mask * @{ */ IEM_DECL_IMPL_DEF(void, iemAImpl_pmovmskb_u64,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint64_t const *pu64Src)); IEM_DECL_IMPL_DEF(void, iemAImpl_pmovmskb_u128,(PCX86FXSTATE pFpuState, uint64_t *pu64Dst, uint128_t const *pu128Src)); /** @} */ /** @name Function tables. * @{ */ /** * Function table for a binary operator providing implementation based on * operand size. */ typedef struct IEMOPBINSIZES { PFNIEMAIMPLBINU8 pfnNormalU8, pfnLockedU8; PFNIEMAIMPLBINU16 pfnNormalU16, pfnLockedU16; PFNIEMAIMPLBINU32 pfnNormalU32, pfnLockedU32; PFNIEMAIMPLBINU64 pfnNormalU64, pfnLockedU64; } IEMOPBINSIZES; /** Pointer to a binary operator function table. */ typedef IEMOPBINSIZES const *PCIEMOPBINSIZES; /** * Function table for a unary operator providing implementation based on * operand size. */ typedef struct IEMOPUNARYSIZES { PFNIEMAIMPLUNARYU8 pfnNormalU8, pfnLockedU8; PFNIEMAIMPLUNARYU16 pfnNormalU16, pfnLockedU16; PFNIEMAIMPLUNARYU32 pfnNormalU32, pfnLockedU32; PFNIEMAIMPLUNARYU64 pfnNormalU64, pfnLockedU64; } IEMOPUNARYSIZES; /** Pointer to a unary operator function table. */ typedef IEMOPUNARYSIZES const *PCIEMOPUNARYSIZES; /** * Function table for a shift operator providing implementation based on * operand size. */ typedef struct IEMOPSHIFTSIZES { PFNIEMAIMPLSHIFTU8 pfnNormalU8; PFNIEMAIMPLSHIFTU16 pfnNormalU16; PFNIEMAIMPLSHIFTU32 pfnNormalU32; PFNIEMAIMPLSHIFTU64 pfnNormalU64; } IEMOPSHIFTSIZES; /** Pointer to a shift operator function table. */ typedef IEMOPSHIFTSIZES const *PCIEMOPSHIFTSIZES; /** * Function table for a multiplication or division operation. */ typedef struct IEMOPMULDIVSIZES { PFNIEMAIMPLMULDIVU8 pfnU8; PFNIEMAIMPLMULDIVU16 pfnU16; PFNIEMAIMPLMULDIVU32 pfnU32; PFNIEMAIMPLMULDIVU64 pfnU64; } IEMOPMULDIVSIZES; /** Pointer to a multiplication or division operation function table. */ typedef IEMOPMULDIVSIZES const *PCIEMOPMULDIVSIZES; /** * Function table for a double precision shift operator providing implementation * based on operand size. */ typedef struct IEMOPSHIFTDBLSIZES { PFNIEMAIMPLSHIFTDBLU16 pfnNormalU16; PFNIEMAIMPLSHIFTDBLU32 pfnNormalU32; PFNIEMAIMPLSHIFTDBLU64 pfnNormalU64; } IEMOPSHIFTDBLSIZES; /** Pointer to a double precision shift function table. */ typedef IEMOPSHIFTDBLSIZES const *PCIEMOPSHIFTDBLSIZES; /** * Function table for media instruction taking two full sized media registers, * optionally the 2nd being a memory reference (only modifying the first op.) */ typedef struct IEMOPMEDIAF2 { PFNIEMAIMPLMEDIAF2U64 pfnU64; PFNIEMAIMPLMEDIAF2U128 pfnU128; } IEMOPMEDIAF2; /** Pointer to a media operation function table for full sized ops. */ typedef IEMOPMEDIAF2 const *PCIEMOPMEDIAF2; /** * Function table for media instruction taking taking one full and one lower * half media register. */ typedef struct IEMOPMEDIAF1L1 { PFNIEMAIMPLMEDIAF1L1U64 pfnU64; PFNIEMAIMPLMEDIAF1L1U128 pfnU128; } IEMOPMEDIAF1L1; /** Pointer to a media operation function table for lowhalf+lowhalf -> full. */ typedef IEMOPMEDIAF1L1 const *PCIEMOPMEDIAF1L1; /** * Function table for media instruction taking taking one full and one high half * media register. */ typedef struct IEMOPMEDIAF1H1 { PFNIEMAIMPLMEDIAF1H1U64 pfnU64; PFNIEMAIMPLMEDIAF1H1U128 pfnU128; } IEMOPMEDIAF1H1; /** Pointer to a media operation function table for hihalf+hihalf -> full. */ typedef IEMOPMEDIAF1H1 const *PCIEMOPMEDIAF1H1; /** @} */ /** @name C instruction implementations for anything slightly complicated. * @{ */ /** * For typedef'ing or declaring a C instruction implementation function taking * no extra arguments. * * @param a_Name The name of the type. */ # define IEM_CIMPL_DECL_TYPE_0(a_Name) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr)) /** * For defining a C instruction implementation function taking no extra * arguments. * * @param a_Name The name of the function */ # define IEM_CIMPL_DEF_0(a_Name) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr)) /** * For calling a C instruction implementation function taking no extra * arguments. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. */ # define IEM_CIMPL_CALL_0(a_fn) a_fn(pIemCpu, cbInstr) /** * For typedef'ing or declaring a C instruction implementation function taking * one extra argument. * * @param a_Name The name of the type. * @param a_Type0 The argument type. * @param a_Arg0 The argument name. */ # define IEM_CIMPL_DECL_TYPE_1(a_Name, a_Type0, a_Arg0) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0)) /** * For defining a C instruction implementation function taking one extra * argument. * * @param a_Name The name of the function * @param a_Type0 The argument type. * @param a_Arg0 The argument name. */ # define IEM_CIMPL_DEF_1(a_Name, a_Type0, a_Arg0) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0)) /** * For calling a C instruction implementation function taking one extra * argument. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. * @param a0 The name of the 1st argument. */ # define IEM_CIMPL_CALL_1(a_fn, a0) a_fn(pIemCpu, cbInstr, (a0)) /** * For typedef'ing or declaring a C instruction implementation function taking * two extra arguments. * * @param a_Name The name of the type. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. */ # define IEM_CIMPL_DECL_TYPE_2(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1)) /** * For defining a C instruction implementation function taking two extra * arguments. * * @param a_Name The name of the function. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. */ # define IEM_CIMPL_DEF_2(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1)) /** * For calling a C instruction implementation function taking two extra * arguments. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. * @param a0 The name of the 1st argument. * @param a1 The name of the 2nd argument. */ # define IEM_CIMPL_CALL_2(a_fn, a0, a1) a_fn(pIemCpu, cbInstr, (a0), (a1)) /** * For typedef'ing or declaring a C instruction implementation function taking * three extra arguments. * * @param a_Name The name of the type. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. */ # define IEM_CIMPL_DECL_TYPE_3(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1, a_Type2 a_Arg2)) /** * For defining a C instruction implementation function taking three extra * arguments. * * @param a_Name The name of the function. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. */ # define IEM_CIMPL_DEF_3(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1, a_Type2 a_Arg2)) /** * For calling a C instruction implementation function taking three extra * arguments. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. * @param a0 The name of the 1st argument. * @param a1 The name of the 2nd argument. * @param a2 The name of the 3rd argument. */ # define IEM_CIMPL_CALL_3(a_fn, a0, a1, a2) a_fn(pIemCpu, cbInstr, (a0), (a1), (a2)) /** * For typedef'ing or declaring a C instruction implementation function taking * four extra arguments. * * @param a_Name The name of the type. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. * @param a_Type3 The type of the 4th argument. * @param a_Arg3 The name of the 4th argument. */ # define IEM_CIMPL_DECL_TYPE_4(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2, a_Type3, a_Arg3) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1, a_Type2 a_Arg2, a_Type3 a_Arg3)) /** * For defining a C instruction implementation function taking four extra * arguments. * * @param a_Name The name of the function. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. * @param a_Type3 The type of the 4th argument. * @param a_Arg3 The name of the 4th argument. */ # define IEM_CIMPL_DEF_4(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2, a_Type3, a_Arg3) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, a_Type0 a_Arg0, a_Type1 a_Arg1, \ a_Type2 a_Arg2, a_Type3 a_Arg3)) /** * For calling a C instruction implementation function taking four extra * arguments. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. * @param a0 The name of the 1st argument. * @param a1 The name of the 2nd argument. * @param a2 The name of the 3rd argument. * @param a3 The name of the 4th argument. */ # define IEM_CIMPL_CALL_4(a_fn, a0, a1, a2, a3) a_fn(pIemCpu, cbInstr, (a0), (a1), (a2), (a3)) /** * For typedef'ing or declaring a C instruction implementation function taking * five extra arguments. * * @param a_Name The name of the type. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. * @param a_Type3 The type of the 4th argument. * @param a_Arg3 The name of the 4th argument. * @param a_Type4 The type of the 5th argument. * @param a_Arg4 The name of the 5th argument. */ # define IEM_CIMPL_DECL_TYPE_5(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2, a_Type3, a_Arg3, a_Type4, a_Arg4) \ IEM_DECL_IMPL_TYPE(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, \ a_Type0 a_Arg0, a_Type1 a_Arg1, a_Type2 a_Arg2, \ a_Type3 a_Arg3, a_Type4 a_Arg4)) /** * For defining a C instruction implementation function taking five extra * arguments. * * @param a_Name The name of the function. * @param a_Type0 The type of the 1st argument * @param a_Arg0 The name of the 1st argument. * @param a_Type1 The type of the 2nd argument. * @param a_Arg1 The name of the 2nd argument. * @param a_Type2 The type of the 3rd argument. * @param a_Arg2 The name of the 3rd argument. * @param a_Type3 The type of the 4th argument. * @param a_Arg3 The name of the 4th argument. * @param a_Type4 The type of the 5th argument. * @param a_Arg4 The name of the 5th argument. */ # define IEM_CIMPL_DEF_5(a_Name, a_Type0, a_Arg0, a_Type1, a_Arg1, a_Type2, a_Arg2, a_Type3, a_Arg3, a_Type4, a_Arg4) \ IEM_DECL_IMPL_DEF(VBOXSTRICTRC, a_Name, (PIEMCPU pIemCpu, uint8_t cbInstr, \ a_Type0 a_Arg0, a_Type1 a_Arg1, a_Type2 a_Arg2, \ a_Type3 a_Arg3, a_Type4 a_Arg4)) /** * For calling a C instruction implementation function taking five extra * arguments. * * This special call macro adds default arguments to the call and allow us to * change these later. * * @param a_fn The name of the function. * @param a0 The name of the 1st argument. * @param a1 The name of the 2nd argument. * @param a2 The name of the 3rd argument. * @param a3 The name of the 4th argument. * @param a4 The name of the 5th argument. */ # define IEM_CIMPL_CALL_5(a_fn, a0, a1, a2, a3, a4) a_fn(pIemCpu, cbInstr, (a0), (a1), (a2), (a3), (a4)) /** @} */ /** @} */ RT_C_DECLS_END #endif