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|
;; @file
; IPRT - Global YASM/NASM macros
;
;
; Copyright (C) 2006-2023 Oracle and/or its affiliates.
;
; This file is part of VirtualBox base platform packages, as
; available from https://www.virtualbox.org.
;
; This program is free software; you can redistribute it and/or
; modify it under the terms of the GNU General Public License
; as published by the Free Software Foundation, in version 3 of the
; License.
;
; This program is distributed in the hope that it will be useful, but
; WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
; General Public License for more details.
;
; You should have received a copy of the GNU General Public License
; along with this program; if not, see <https://www.gnu.org/licenses>.
;
; The contents of this file may alternatively be used under the terms
; of the Common Development and Distribution License Version 1.0
; (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
; in the VirtualBox distribution, in which case the provisions of the
; CDDL are applicable instead of those of the GPL.
;
; You may elect to license modified versions of this file under the
; terms and conditions of either the GPL or the CDDL or both.
;
; SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
;
; Special hack for bs3kit.
%ifdef RT_ASMDEFS_INC_FIRST_FILE
%include "asmdefs-first.mac"
%endif
%ifndef ___iprt_asmdefs_mac
%define ___iprt_asmdefs_mac
;; @defgroup grp_rt_cdefs_size Size Constants
; (Of course, these are binary computer terms, not SI.)
; @{
;; 1 K (Kilo) (1 024).
%define _1K 000000400h
;; 4 K (Kilo) (4 096).
%define _4K 000001000h
;; 8 K (Kilo) (8 192).
%define _8K 000002000h
;; 16 K (Kilo) (16 384).
%define _16K 000004000h
;; 32 K (Kilo) (32 768).
%define _32K 000008000h
;; 64 K (Kilo) (65 536).
%define _64K 000010000h
;; 128 K (Kilo) (131 072).
%define _128K 000020000h
;; 256 K (Kilo) (262 144).
%define _256K 000040000h
;; 512 K (Kilo) (524 288).
%define _512K 000080000h
;; 1 M (Mega) (1 048 576).
%define _1M 000100000h
;; 2 M (Mega) (2 097 152).
%define _2M 000200000h
;; 4 M (Mega) (4 194 304).
%define _4M 000400000h
;; 1 G (Giga) (1 073 741 824).
%define _1G 040000000h
;; 2 G (Giga) (2 147 483 648).
%define _2G 00000000080000000h
;; 4 G (Giga) (4 294 967 296).
%define _4G 00000000100000000h
;; 1 T (Tera) (1 099 511 627 776).
%define _1T 00000010000000000h
;; 1 P (Peta) (1 125 899 906 842 624).
%define _1P 00004000000000000h
;; 1 E (Exa) (1 152 921 504 606 846 976).
%define _1E 01000000000000000h
;; 2 E (Exa) (2 305 843 009 213 693 952).
%define _2E 02000000000000000h
;; @}
;;
; Define RT_STRICT for debug builds like iprt/cdefs.h does.
%ifndef RT_STRICT
%ifdef DEBUG
%define RT_STRICT
%endif
%endif
%ifdef RT_NO_STRICT
%undef RT_STRICT
%endif
;;
; Make the mask for the given bit.
%define RT_BIT(bit) (1 << bit)
;;
; Make the mask for the given bit.
%define RT_BIT_32(bit) (1 << bit)
;;
; Make the mask for the given bit.
%define RT_BIT_64(bit) (1 << bit)
;;
; Makes a 32-bit unsigned (not type safe, but whatever) out of four byte values.
%define RT_MAKE_U32_FROM_U8(b0, b1, b2, b3) ( (b3 << 24) | (b2 << 16) | (b1 << 8) | b0 )
;; Preprocessor concatenation macro.
%define RT_CONCAT(a_1,a_2) a_1 %+ a_2
;; Preprocessor concatenation macro, three arguments.
%define RT_CONCAT3(a_1,a_2,a_3) a_1 %+ a_2 %+ a_3
;; Preprocessor concatenation macro, four arguments.
%define RT_CONCAT4(a_1,a_2,a_3,a_4) a_1 %+ a_2 %+ a_3 %+ a_4
;;
; Trick for using RT_CONCAT and the like on %define names.
; @param 1 The name (expression.
; @param 2 The value.
%macro RT_DEFINE_EX 2
%error 1=%1 2=%2
%define %1 %2
%endmacro
;;
; Trick for using RT_CONCAT and the like on %xdefine names.
; @param 1 The name (expression.
; @param 2 The value.
%macro RT_XDEFINE_EX 2
%xdefine %1 %2
%endmacro
;;
; Trick for using RT_CONCAT and the like on %undef names.
; @param 1 The name (expression.
%macro RT_UNDEF_EX 1
%error 1=%1
%undef %1
%endmacro
;;
; Empty define
%define RT_NOTHING
;; Define ASM_FORMAT_PE64 if applicable.
%ifdef ASM_FORMAT_PE
%ifdef RT_ARCH_AMD64
%define ASM_FORMAT_PE64 1
%endif
%endif
;;
; SEH64 macros.
%ifdef RT_ASM_WITH_SEH64
%ifndef ASM_FORMAT_PE64
%undef RT_ASM_WITH_SEH64
%endif
%endif
%ifdef RT_ASM_WITH_SEH64_ALT
%ifdef ASM_FORMAT_PE64
;; @name Register numbers. Used with RT_CONCAT to convert macro inputs to numbers.
;; @{
%define SEH64_PE_GREG_rax 0
%define SEH64_PE_GREG_xAX 0
%define SEH64_PE_GREG_rcx 1
%define SEH64_PE_GREG_xCX 1
%define SEH64_PE_GREG_rdx 2
%define SEH64_PE_GREG_xDX 2
%define SEH64_PE_GREG_rbx 3
%define SEH64_PE_GREG_xBX 3
%define SEH64_PE_GREG_rsp 4
%define SEH64_PE_GREG_xSP 4
%define SEH64_PE_GREG_rbp 5
%define SEH64_PE_GREG_xBP 5
%define SEH64_PE_GREG_rsi 6
%define SEH64_PE_GREG_xSI 6
%define SEH64_PE_GREG_rdi 7
%define SEH64_PE_GREG_xDI 7
%define SEH64_PE_GREG_r8 8
%define SEH64_PE_GREG_r9 9
%define SEH64_PE_GREG_r10 10
%define SEH64_PE_GREG_r11 11
%define SEH64_PE_GREG_r12 12
%define SEH64_PE_GREG_r13 13
%define SEH64_PE_GREG_r14 14
%define SEH64_PE_GREG_r15 15
;; @}
;; @name PE unwind operations.
;; @{
%define SEH64_PE_PUSH_NONVOL 0
%define SEH64_PE_ALLOC_LARGE 1
%define SEH64_PE_ALLOC_SMALL 2
%define SEH64_PE_SET_FPREG 3
%define SEH64_PE_SAVE_NONVOL 4
%define SEH64_PE_SAVE_NONVOL_FAR 5
%define SEH64_PE_SAVE_XMM128 8
%define SEH64_PE_SAVE_XMM128_FAR 9
;; @}
;;
; Starts the unwind info for the manual SEH64 info generation.
; @param 1 Function name.
%macro SEH64_ALT_START_UNWIND_INFO 1
%assign seh64_idxOps 0
%assign seh64_FrameReg SEH64_PE_GREG_rsp
%assign seh64_offFrame 0
%define asm_seh64_proc %1
%undef seh64_slot_bytes
%endmacro
;; We keep the unwind bytes in the seh64_slot_bytes (x)define, in reverse order as per spec.
%macro SEH64_APPEND_SLOT_PAIR 2
%ifdef seh64_slot_bytes
%xdefine seh64_slot_bytes %1, %2, seh64_slot_bytes
%else
%xdefine seh64_slot_bytes %1, %2
%endif
%endmacro
;; For multi-slot unwind info.
%macro SEH64_APPEND_SLOT_BYTES 2+
%rep %0
%rotate -1
%ifdef seh64_slot_bytes
%xdefine seh64_slot_bytes %1, seh64_slot_bytes
%else
%xdefine seh64_slot_bytes %1
%endif
%endrep
%endmacro
%else
%undef RT_ASM_WITH_SEH64_ALT
%endif
%endif
;;
; Records a xBP push.
%macro SEH64_PUSH_xBP 0
%ifdef RT_ASM_WITH_SEH64
[pushreg rbp]
%elifdef RT_ASM_WITH_SEH64_ALT
RT_CONCAT(.seh64_op_label_,seh64_idxOps):
%ifdef ASM_FORMAT_PE64
SEH64_APPEND_SLOT_PAIR RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_PUSH_NONVOL | (SEH64_PE_GREG_rbp << 4)
%endif
%assign seh64_idxOps seh64_idxOps + 1
%endif
%endmacro
;;
; Records a general register push.
; @param 1 Register name.
%macro SEH64_PUSH_GREG 1
%ifdef RT_ASM_WITH_SEH64
[pushreg %1]
%elifdef RT_ASM_WITH_SEH64_ALT
RT_CONCAT(.seh64_op_label_,seh64_idxOps):
%ifdef ASM_FORMAT_PE64
SEH64_APPEND_SLOT_PAIR RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_PUSH_NONVOL | (RT_CONCAT(SEH64_PE_GREG_,%1) << 4)
%endif
%assign seh64_idxOps seh64_idxOps + 1
%endif
%endmacro
;;
; Sets xBP as frame pointer that's pointing to a stack position %1 relative to xBP.
%macro SEH64_SET_FRAME_xBP 1
%ifdef RT_ASM_WITH_SEH64
[setframe rbp, %1]
%elifdef RT_ASM_WITH_SEH64_ALT
RT_CONCAT(.seh64_op_label_,seh64_idxOps):
%ifdef ASM_FORMAT_PE64
SEH64_APPEND_SLOT_PAIR RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_SET_FPREG | 0 ; vs2019 seems to put the offset in the info field
%assign seh64_FrameReg SEH64_PE_GREG_rbp
%assign seh64_offFrame %1
%endif
%assign seh64_idxOps seh64_idxOps + 1
%endif
%endmacro
;;
; Records an ADD xSP, %1.
%macro SEH64_ALLOCATE_STACK 1
%ifdef RT_ASM_WITH_SEH64
[allocstack %1]
%elifdef RT_ASM_WITH_SEH64_ALT
RT_CONCAT(.seh64_op_label_,seh64_idxOps):
%ifdef ASM_FORMAT_PE64
%if (%1) & 7
%error "SEH64_ALLOCATE_STACK must be a multiple of 8"
%endif
%if (%1) < 8
%error "SEH64_ALLOCATE_STACK must have an argument that's 8 or higher."
%elif (%1) <= 128
SEH64_APPEND_SLOT_PAIR RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_ALLOC_SMALL | ((((%1) / 8) - 1) << 4)
%elif (%1) < 512
SEH64_APPEND_SLOT_BYTES RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_ALLOC_LARGE | 0, \
((%1) / 8) & 0xff, ((%1) / 8) >> 8
%else
SEH64_APPEND_SLOT_BYTES RT_CONCAT(.seh64_op_label_,seh64_idxOps) - .start_of_prologue, \
SEH64_PE_ALLOC_LARGE | 1, \
(%1) & 0xff, ((%1) >> 8) & 0xff, ((%1) >> 16) & 0xff, ((%1) >> 24) & 0xff
%endif
%endif
%assign seh64_idxOps seh64_idxOps + 1
%endif
%endmacro
%macro SEH64_INFO_HELPER 1
%if defined(%1)
dw %1
%endif
%endmacro
;;
; Ends the prologue.
%macro SEH64_END_PROLOGUE 0
.end_of_prologue:
%ifdef RT_ASM_WITH_SEH64
[endprolog]
%elifdef RT_ASM_WITH_SEH64_ALT
%ifdef ASM_FORMAT_PE
; Emit the unwind info now.
%ifndef ASM_DEFINED_XDATA_SECTION
%define ASM_DEFINED_XDATA_SECTION
section .xdata rdata align=4
%else
section .xdata
align 4, db 0
%endif
.unwind_info:
db 1 ; version 1 (3 bit), no flags (5 bits)
db .end_of_prologue - .start_of_prologue
db (.unwind_info_array_end - .unwind_info_array) / 2
db seh64_FrameReg | (seh64_offFrame & 0xf0) ; framereg and offset/16.
.unwind_info_array:
%ifdef seh64_slot_bytes
db seh64_slot_bytes
%undef seh64_slot_bytes
%endif
.unwind_info_array_end:
; Reset the segment
BEGINCODE
%endif
%endif
%endmacro
;;
; Macro for generating the endbr32/64 instruction when
; RT_WITH_IBT_BRANCH_PROTECTION is defined.
%macro IBT_ENDBRxx 0
%ifdef RT_WITH_IBT_BRANCH_PROTECTION
%ifdef RT_ARCH_AMD64
db 0xf3, 0x0f, 0x1e, 0xfa ; yasm doesn't know about endbr64
%elifdef RT_ARCH_X86
db 0xf3, 0x0f, 0x1e, 0xfb ; yasm doesn't know about endbr32
%else
%error "Which arch?"
%endif
%endif
%endmacro
;;
; Macro for generating the endbr32/64 instruction when
; RT_WITH_IBT_BRANCH_PROTECTION_WITHOUT_NOTRACK is defined.
%macro IBT_ENDBRxx_WITHOUT_NOTRACK 0
%ifdef RT_WITH_IBT_BRANCH_PROTECTION_WITHOUT_NOTRACK
%ifdef RT_ARCH_AMD64
db 0xf3, 0x0f, 0x1e, 0xfa ; yasm doesn't know about endbr64
%elifdef RT_ARCH_X86
db 0xf3, 0x0f, 0x1e, 0xfb ; yasm doesn't know about endbr32
%else
%error "Which arch?"
%endif
%endif
%endmacro
;;
; Macro for generating a NOTRACK prefix to an indirect jmp or call
; instruction when RT_WITH_IBT_BRANCH_PROTECTION is defined.
;
; @note Carful if mixing with other segment prefixes (should work, but needs
; testing).
%macro IBT_NOTRACK 0
%ifdef RT_WITH_IBT_BRANCH_PROTECTION
%ifndef RT_WITH_IBT_BRANCH_PROTECTION_WITHOUT_NOTRACK
db 0x3e ; DS prefix.
%endif
%endif
%endmacro
;;
; Align code, pad with INT3.
%define ALIGNCODE(alignment) align alignment, db 0cch
;;
; Align data, pad with ZEROs.
%define ALIGNDATA(alignment) align alignment, db 0
;;
; Align BSS, pad with ZEROs.
%define ALIGNBSS(alignment) align alignment, resb 1
;;
; NAME_OVERLOAD can be defined by a .asm module to modify all the
; names created using the name macros in this files.
; This is handy when you've got some kind of template code.
%ifndef NAME_OVERLOAD
%ifdef RT_MANGLER_PREFIX
%define NAME_OVERLOAD(name) RT_MANGLER_PREFIX %+ name
%else
%define NAME_OVERLOAD(name) name
%endif
%endif
;;
; Mangles the given name so it can be referenced using DECLASM() in the
; C/C++ world.
%ifndef ASM_FORMAT_BIN
%ifdef RT_ARCH_X86
%ifdef RT_OS_OS2
%define NAME(name) _ %+ NAME_OVERLOAD(name)
%endif
%ifdef RT_OS_WINDOWS
%define NAME(name) _ %+ NAME_OVERLOAD(name)
%endif
%endif
%ifdef RT_OS_DARWIN
%define NAME(name) _ %+ NAME_OVERLOAD(name)
%endif
%endif
%ifndef NAME
%define NAME(name) NAME_OVERLOAD(name)
%endif
;;
; Mangles the given C name so it will _import_ the right symbol.
%ifdef ASM_FORMAT_PE
%define IMPNAME(name) __imp_ %+ NAME(name)
%else
%define IMPNAME(name) NAME(name)
%endif
;;
; Gets the pointer to an imported object.
%ifdef ASM_FORMAT_PE
%ifdef RT_ARCH_AMD64
%define IMP(name) qword [IMPNAME(name) wrt rip]
%else
%define IMP(name) dword [IMPNAME(name)]
%endif
%else
%define IMP(name) IMPNAME(name)
%endif
;;
; Gets the pointer to an imported object.
%ifdef ASM_FORMAT_PE
%ifdef RT_ARCH_AMD64
%define IMP_SEG(SegOverride, name) qword [SegOverride:IMPNAME(name) wrt rip]
%else
%define IMP_SEG(SegOverride, name) dword [SegOverride:IMPNAME(name)]
%endif
%else
%define IMP_SEG(SegOverride, name) IMPNAME(name)
%endif
;;
; Declares an imported object for use with IMP2.
; @note May change the current section!
%macro EXTERN_IMP2 1
extern IMPNAME(%1)
BEGINDATA
%ifdef ASM_FORMAT_MACHO
g_Imp2_ %+ %1: RTCCPTR_DEF IMPNAME(%1)
%endif
%endmacro
;;
; Gets the pointer to an imported object, version 2.
%ifdef ASM_FORMAT_PE
%ifdef RT_ARCH_AMD64
%define IMP2(name) qword [IMPNAME(name) wrt rip]
%else
%define IMP2(name) dword [IMPNAME(name)]
%endif
%elifdef ASM_FORMAT_ELF
%ifdef PIC
%ifdef RT_ARCH_AMD64
%define IMP2(name) qword [rel IMPNAME(name) wrt ..got]
%else
%define IMP2(name) IMPNAME(name) wrt ..plt
%endif
%endif
%elifdef ASM_FORMAT_MACHO
%define IMP2(name) RTCCPTR_PRE [g_Imp2_ %+ name xWrtRIP]
%endif
%ifndef IMP2
%define IMP2(name) IMPNAME(name)
%endif
;;
; Define a label as given, with a '$' prepended to permit using instruction
; names like fdiv as labels.
%macro SAFE_LABEL 1
$%1:
%endmacro
;;
; Global marker which is DECLASM() compatible.
%macro GLOBALNAME 1
%ifndef ASM_FORMAT_BIN
global NAME(%1)
%endif
SAFE_LABEL NAME(%1)
%endmacro
;;
; Global exported marker which is DECLASM() compatible.
%macro EXPORTEDNAME 1
%ifdef ASM_FORMAT_PE
export %1=NAME(%1)
%endif
%ifdef __NASM__
%ifdef ASM_FORMAT_OMF
export NAME(%1) NAME(%1)
%endif
%endif
GLOBALNAME %1
%endmacro
;;
; Same as GLOBALNAME_EX, but without the name mangling.
;
; @param %1 The symbol name - subjected to NAME().
; @param %2 ELF and PE attributes: 'function', 'object', 'data', 'notype'.
; PE ignores all but 'function' (yasm only). Other formats ignores
; this completely.
; @param %3 Symbol visibility: 'hidden', 'protected', 'internal', and
; RT_NOTHING (for 'default' visibility).
; These are ELF attributes, but 'hidden' is translated to
; 'private_extern' for the Macho-O format.
; Ignored by other formats.
;
%macro GLOBALNAME_RAW 3
%ifdef ASM_FORMAT_ELF
global %1:%2 %3
%elifdef ASM_FORMAT_PE
%ifidn %2,function
%ifdef __YASM__ ; nasm does not support any attributes, it errors out. So, nasm is no good with control flow guard atm.
global %1:function
%else
global %1
%endif
%else
global %1
%endif
%elifdef ASM_FORMAT_MACHO
%ifidn %3,hidden
global %1:private_extern
%else
global %1
%endif
%elifndef ASM_FORMAT_BIN
global %1
%endif
%1:
%endmacro
;;
; Global marker which is DECLASM() compatible.
;
; @param %1 The symbol name - subjected to NAME().
; @param %2 ELF and PE attributes: 'function', 'object', 'data', 'notype'.
; PE ignores all but 'function' (yasm only). Other formats ignores
; this completely.
; @param %3 Symbol visibility: 'hidden', 'protected', 'internal', and
; RT_NOTHING (for 'default' visibility).
; These are ELF attributes, but 'hidden' is translated to
; 'private_extern' for the Macho-O format.
; Ignored by other formats.
;
%macro GLOBALNAME_EX 3
GLOBALNAME_RAW NAME(%1), %2, %3
%endmacro
;;
; Global exported marker, raw version w/o automatic name mangling.
;
; @param %1 The internal symbol name.
; @param %2 The external symbol name.
; @param %3 ELF and PE attributes: 'function', 'object', 'data', 'notype'.
; PE ignores all but 'function' (yasm only). Other formats ignores
; this completely.
;
%macro EXPORTEDNAME_RAW 3
%ifdef ASM_FORMAT_PE
export %2=%1
%endif
%ifdef __NASM__
%ifdef ASM_FORMAT_OMF
export %1 %2
%endif
%endif
GLOBALNAME_RAW %1, %3, RT_NOTHING
%endmacro
;;
; Global exported marker which is DECLASM() compatible.
;
; @param %1 The symbol name - subjected to NAME().
; @param %2 ELF and PE attributes: 'function', 'object', 'data', 'notype'.
; PE ignores all but 'function' (yasm only). Other formats ignores
; this completely.
;
%macro EXPORTEDNAME_EX 2
EXPORTEDNAME_RAW NAME(%1), %1, %2
%endmacro
;;
; Begins a procedure, raw version w/o automatic name mangling.
; @param 1 The (raw) name.
; @param 2 Whether to manually apply IBT_ENDBRxx (1) or
; not (0, default). Optional
%macro BEGINPROC_RAW 1-2 0
%ifdef RT_ASM_WITH_SEH64_ALT
SEH64_ALT_START_UNWIND_INFO %1
%endif
%ifdef RT_ASM_WITH_SEH64
global %1:function
proc_frame %1
%else
GLOBALNAME_RAW %1, function, hidden
%endif
.start_of_prologue:
%if %2 == 0
IBT_ENDBRxx
%endif
%endmacro
;;
; Begins a C callable (DECLASM) procedure.
%macro BEGINPROC 1-2 0
BEGINPROC_RAW NAME(%1), %2
%endmacro
;;
; Begins a exported procedure, raw version w/o automatic name mangling.
; @param 1 Internal name.
; @param 2 Exported name.
; @param 3 Whether to manually apply IBT_ENDBRxx (1) or
; not (0, default). Optional
%macro BEGINPROC_EXPORTED_RAW 2-3 0
%ifdef RT_ASM_WITH_SEH64_ALT
SEH64_ALT_START_UNWIND_INFO %1
%endif
%ifdef RT_ASM_WITH_SEH64
%ifdef ASM_FORMAT_PE
export %2=%1
%endif
global %1:function
proc_frame %1
%else
EXPORTEDNAME_RAW %1, %2, function
%endif
.start_of_prologue:
%if %3 == 0
IBT_ENDBRxx
%endif
%endmacro
;;
; Begins a C callable (DECLASM) exported procedure.
%macro BEGINPROC_EXPORTED 1-2 0
BEGINPROC_EXPORTED_RAW NAME(%1), %1, %2
%endmacro
;;
; Ends a procedure, raw version w/o automatic name mangling.
%macro ENDPROC_RAW 1
%ifdef RT_ASM_WITH_SEH64
endproc_frame
%endif
GLOBALNAME_RAW %1 %+ _EndProc, , hidden ; no function here, this isn't a valid code flow target.
%ifdef ASM_FORMAT_ELF
%ifndef __NASM__ ; nasm does this in the global directive.
size %1 %1 %+ _EndProc - %1
size %1 %+ _EndProc 4 ; make it non-zero to shut up warnigns from Linux's objtool.
%endif
%endif
db 0xCC, 0xCC, 0xCC, 0xCC
%ifdef RT_ASM_WITH_SEH64_ALT
%ifdef ASM_FORMAT_PE
; Emit the RUNTIME_FUNCTION entry. The linker is picky here, no label.
%ifndef ASM_DEFINED_PDATA_SECTION
%define ASM_DEFINED_PDATA_SECTION
section .pdata rdata align=4
%else
section .pdata
%endif
dd %1 wrt ..imagebase
dd %1 %+ _EndProc wrt ..imagebase
dd %1 %+ .unwind_info wrt ..imagebase
; Restore code section.
BEGINCODE
%endif
%endif
%endmacro
;;
; Ends a C callable procedure.
%macro ENDPROC 1
ENDPROC_RAW NAME(%1)
%endmacro
;
; Do OMF and Mach-O/Yasm segment definitions
;
; Both format requires this to get the segment order right, in the Mach-O/Yasm case
; it's only to make sure the .bss section ends up last (it's not declared here).
;
%ifdef ASM_FORMAT_OMF
%ifndef RT_NOINC_SEGMENTS
; 16-bit segments first (OMF / OS/2 specific).
%ifdef RT_INCL_16BIT_SEGMENTS
segment DATA16 public CLASS=FAR_DATA align=16 use16
segment DATA16_INIT public CLASS=FAR_DATA align=16 use16
group DGROUP16 DATA16 DATA16_INIT
;;
; Begins 16-bit data
%macro BEGINDATA16 0
segment DATA16
%endmacro
;;
; Begins 16-bit init data
%macro BEGINDATA16INIT 0
segment DATA16_INIT
%endmacro
segment CODE16 public CLASS=FAR_CODE align=16 use16
segment CODE16_INIT public CLASS=FAR_CODE align=16 use16
group CGROUP16 CODE16 CODE16_INIT
;;
; Begins 16-bit code
%macro BEGINCODE16 0
segment CODE16
%endmacro
;;
; Begins 16-bit init code
%macro BEGINCODE16INIT 0
segment CODE16_INIT
%endmacro
%endif
; 32-bit segments.
segment TEXT32 public CLASS=CODE align=16 use32 flat
segment DATA32 public CLASS=DATA align=16 use32 flat
segment BSS32 public CLASS=BSS align=16 use32 flat
; Make the TEXT32 segment default.
segment TEXT32
%endif ; RT_NOINC_SEGMENTS
%endif
%ifdef ASM_FORMAT_MACHO
%ifdef __YASM__
section .text
section .data
%endif
%endif
;;
; Begins code
%ifdef ASM_FORMAT_OMF
%macro BEGINCODE 0
segment TEXT32
%endmacro
%else
%macro BEGINCODE 0
section .text
%endmacro
%endif
;;
; Begins constant (read-only) data
;
; @remarks This is mapped to the CODE section/segment when there isn't
; any dedicated const section/segment. (There is code that
; assumes this, so don't try change it.)
%ifdef ASM_FORMAT_OMF
%macro BEGINCONST 0
segment TEXT32
%endmacro
%else
%macro BEGINCONST 0
%ifdef ASM_FORMAT_MACHO ;; @todo check the other guys too.
section .rodata
%else
section .text
%endif
%endmacro
%endif
;;
; Begins initialized data
%ifdef ASM_FORMAT_OMF
%macro BEGINDATA 0
segment DATA32
%endmacro
%else
%macro BEGINDATA 0
section .data
%endmacro
%endif
;;
; Begins uninitialized data
%ifdef ASM_FORMAT_OMF
%macro BEGINBSS 0
segment BSS32
%endmacro
%else
%macro BEGINBSS 0
section .bss
%endmacro
%endif
;; @def ARCH_BITS
; Defines the bit count of the current context.
%ifndef ARCH_BITS
%ifdef RT_ARCH_AMD64
%define ARCH_BITS 64
%else
%define ARCH_BITS 32
%endif
%endif
;; @def HC_ARCH_BITS
; Defines the host architechture bit count.
%ifndef HC_ARCH_BITS
%ifndef IN_RC
%define HC_ARCH_BITS ARCH_BITS
%else
%define HC_ARCH_BITS 32
%endif
%endif
;; @def R3_ARCH_BITS
; Defines the host ring-3 architechture bit count.
%ifndef R3_ARCH_BITS
%ifdef IN_RING3
%define R3_ARCH_BITS ARCH_BITS
%else
%define R3_ARCH_BITS HC_ARCH_BITS
%endif
%endif
;; @def R0_ARCH_BITS
; Defines the host ring-0 architechture bit count.
%ifndef R0_ARCH_BITS
%ifdef IN_RING0
%define R0_ARCH_BITS ARCH_BITS
%else
%define R0_ARCH_BITS HC_ARCH_BITS
%endif
%endif
;; @def GC_ARCH_BITS
; Defines the guest architechture bit count.
%ifndef GC_ARCH_BITS
%ifdef IN_RC
%define GC_ARCH_BITS ARCH_BITS
%else
%define GC_ARCH_BITS 32
%endif
%endif
;; @def RTHCPTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the host context.
%if HC_ARCH_BITS == 64
%define RTHCPTR_DEF dq
%else
%define RTHCPTR_DEF dd
%endif
;; @def RTHCPTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the host context.
%if HC_ARCH_BITS == 64
%define RTHCPTR_RES resq
%else
%define RTHCPTR_RES resd
%endif
;; @def RTHCPTR_PRE
; The memory operand prefix used for a pointer in the host context.
%if HC_ARCH_BITS == 64
%define RTHCPTR_PRE qword
%else
%define RTHCPTR_PRE dword
%endif
;; @def RTHCPTR_CB
; The size in bytes of a pointer in the host context.
%if HC_ARCH_BITS == 64
%define RTHCPTR_CB 8
%else
%define RTHCPTR_CB 4
%endif
;; @def RTR0PTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the ring-0 host context.
%if R0_ARCH_BITS == 64
%define RTR0PTR_DEF dq
%else
%define RTR0PTR_DEF dd
%endif
;; @def RTR0PTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the ring-0 host context.
%if R0_ARCH_BITS == 64
%define RTR0PTR_RES resq
%else
%define RTR0PTR_RES resd
%endif
;; @def RTR0PTR_PRE
; The memory operand prefix used for a pointer in the ring-0 host context.
%if R0_ARCH_BITS == 64
%define RTR0PTR_PRE qword
%else
%define RTR0PTR_PRE dword
%endif
;; @def RTR0PTR_CB
; The size in bytes of a pointer in the ring-0 host context.
%if R0_ARCH_BITS == 64
%define RTR0PTR_CB 8
%else
%define RTR0PTR_CB 4
%endif
;; @def RTR3PTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the ring-3 host context.
%if R3_ARCH_BITS == 64
%define RTR3PTR_DEF dq
%else
%define RTR3PTR_DEF dd
%endif
;; @def RTR3PTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the ring-3 host context.
%if R3_ARCH_BITS == 64
%define RTR3PTR_RES resq
%else
%define RTR3PTR_RES resd
%endif
;; @def RTR3PTR_PRE
; The memory operand prefix used for a pointer in the ring-3 host context.
%if R3_ARCH_BITS == 64
%define RTR3PTR_PRE qword
%else
%define RTR3PTR_PRE dword
%endif
;; @def RTR3PTR_CB
; The size in bytes of a pointer in the ring-3 host context.
%if R3_ARCH_BITS == 64
%define RTR3PTR_CB 8
%else
%define RTR3PTR_CB 4
%endif
;; @def RTGCPTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the guest context.
%if GC_ARCH_BITS == 64
%define RTGCPTR_DEF dq
%else
%define RTGCPTR_DEF dd
%endif
;; @def RTGCPTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the guest context.
%if GC_ARCH_BITS == 64
%define RTGCPTR_RES resq
%else
%define RTGCPTR_RES resd
%endif
%define RTGCPTR32_RES resd
%define RTGCPTR64_RES resq
;; @def RTGCPTR_PRE
; The memory operand prefix used for a pointer in the guest context.
%if GC_ARCH_BITS == 64
%define RTGCPTR_PRE qword
%else
%define RTGCPTR_PRE dword
%endif
;; @def RTGCPTR_CB
; The size in bytes of a pointer in the guest context.
%if GC_ARCH_BITS == 64
%define RTGCPTR_CB 8
%else
%define RTGCPTR_CB 4
%endif
;; @def RTRCPTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the raw mode context.
%define RTRCPTR_DEF dd
;; @def RTRCPTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the raw mode context.
%define RTRCPTR_RES resd
;; @def RTRCPTR_PRE
; The memory operand prefix used for a pointer in the raw mode context.
%define RTRCPTR_PRE dword
;; @def RTRCPTR_CB
; The size in bytes of a pointer in the raw mode context.
%define RTRCPTR_CB 4
;; @def RT_CCPTR_DEF
; The pesudo-instruction used to declare an initialized pointer variable in the current context.
;; @def RT_CCPTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized pointer
; variable of the current context.
;; @def RT_CCPTR_PRE
; The memory operand prefix used for a pointer in the current context.
;; @def RT_CCPTR_CB
; The size in bytes of a pointer in the current context.
%ifdef IN_RC
%define RTCCPTR_DEF RTRCPTR_DEF
%define RTCCPTR_RES RTRCPTR_RES
%define RTCCPTR_PRE RTRCPTR_PRE
%define RTCCPTR_CB RTRCPTR_CB
%else
%ifdef IN_RING0
%define RTCCPTR_DEF RTR0PTR_DEF
%define RTCCPTR_RES RTR0PTR_RES
%define RTCCPTR_PRE RTR0PTR_PRE
%define RTCCPTR_CB RTR0PTR_CB
%else
%define RTCCPTR_DEF RTR3PTR_DEF
%define RTCCPTR_RES RTR3PTR_RES
%define RTCCPTR_PRE RTR3PTR_PRE
%define RTCCPTR_CB RTR3PTR_CB
%endif
%endif
;; @def RTHCPHYS_DEF
; The pesudo-instruction used to declare an initialized host physical address.
%define RTHCPHYS_DEF dq
;; @def RTHCPTR_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized
; host physical address variable
%define RTHCPHYS_RES resq
;; @def RTHCPTR_PRE
; The memory operand prefix used for a host physical address.
%define RTHCPHYS_PRE qword
;; @def RTHCPHYS_CB
; The size in bytes of a host physical address.
%define RTHCPHYS_CB 8
;; @def RTGCPHYS_DEF
; The pesudo-instruction used to declare an initialized guest physical address.
%define RTGCPHYS_DEF dq
;; @def RTGCPHYS_RES
; The pesudo-instruction used to declare (=reserve space for) an uninitialized
; guest physical address variable
%define RTGCPHYS_RES resq
;; @def RTGCPTR_PRE
; The memory operand prefix used for a guest physical address.
%define RTGCPHYS_PRE qword
;; @def RTGCPHYS_CB
; The size in bytes of a guest physical address.
%define RTGCPHYS_CB 8
;;
; The size of the long double C/C++ type.
; On 32-bit Darwin this is 16 bytes, on L4, Linux, OS/2 and Windows
; it's 12 bytes.
; @todo figure out what 64-bit Windows does (I don't recall right now).
%ifdef RT_ARCH_X86
%ifdef RT_OS_DARWIN
%define RTLRD_CB 16
%else
%define RTLRD_CB 12
%endif
%else
%define RTLRD_CB 16
%endif
;; @name Floating point constants along the lines of the iprt/types.h types.
; @note YASM does support special the __Infinity__ and __NaN__ nasm tokens.
; @{
%define RTFLOAT32U_QNAN_PLUS 0x7fc00000
%define RTFLOAT32U_QNAN_MINUS 0xffc00000
%define RTFLOAT32U_INF_PLUS 0x7f800000
%define RTFLOAT32U_INF_MINUS 0xff800000
%define RTFLOAT64U_QNAN_PLUS 0x7ff8000000000000
%define RTFLOAT64U_QNAN_MINUS 0xfff8000000000000
%define RTFLOAT64U_INF_PLUS 0x7ff0000000000000
%define RTFLOAT64U_INF_MINUS 0xfff0000000000000
; @}
;; @def ASM_CALL64_GCC
; Indicates that we're using the GCC 64-bit calling convention.
; @see @ref sec_vboxrem_amd64_compare (in VBoxREMWrapper.cpp) for an ABI description.
;; @def ASM_CALL64_MSC
; Indicates that we're using the Microsoft 64-bit calling convention (fastcall on steroids).
; @see @ref sec_vboxrem_amd64_compare (in VBoxREMWrapper.cpp) for an ABI description.
; Note: On X86 we're using cdecl unconditionally. There is not yet any common
; calling convention on AMD64, that's why we need to support two different ones.)
%ifdef RT_ARCH_AMD64
%ifndef ASM_CALL64_GCC
%ifndef ASM_CALL64_MSC
; define it based on the object format.
%ifdef ASM_FORMAT_PE
%define ASM_CALL64_MSC
%else
%define ASM_CALL64_GCC
%endif
%endif
%else
; sanity check.
%ifdef ASM_CALL64_MSC
%error "Only one of the ASM_CALL64_* defines should be defined!"
%endif
%endif
%else
;later; %ifdef ASM_CALL64_GCC
;later; %error "ASM_CALL64_GCC is defined without RT_ARCH_AMD64!" ASM_CALL64_GCC
;later; %endif
;later; %ifdef ASM_CALL64_MSC
;later; %error "ASM_CALL64_MSC is defined without RT_ARCH_AMD64!" ASM_CALL64_MSC
;later; %endif
%endif
;; @def RT_BEGINPROC
; Starts an IPRT procedure that should be exported unless IN_RT_STATIC is defined.
;
; @param 1 The function name. Will apply NAME macro to it.
%macro RT_BEGINPROC 1
%ifdef IN_RT_STATIC
BEGINPROC %1, 0
%else
BEGINPROC_EXPORTED %1, 0
%endif
%endmacro ; RT_BEGINPROC
;; @def RT_NOCRT
; Symbol name wrapper for the No-CRT bits.
;
; In order to coexist in the same process as other CRTs, we need to
; decorate the symbols such that they don't conflict the ones in the
; other CRTs. The result of such conflicts / duplicate symbols can
; confuse the dynamic loader on unix like systems.
;
; @remark Always feed the name to this macro first and then pass the result
; on to the next *NAME* macro.
;
%ifndef RT_WITHOUT_NOCRT_WRAPPERS
%define RT_NOCRT(name) nocrt_ %+ name
%else
%define RT_NOCRT(name) name
%endif
;; @def RT_NOCRT_BEGINPROC
; Starts a NOCRT procedure, taking care of name wrapping and aliasing.
;
; Weak aliases for regular crt (%1) names to the nocrt_ prefixed ones will be
; added when RT_WITH_NOCRT_ALIASES is defined and the output is ELF. If
; RT_WITH_GENALIAS_NOCRT_ALIASES is undefined, strong aliases will be added for
; for non-ELF targets, otherwise it's assumed the genalias build tool will do
; the weak aliasing for us.
;
%macro RT_NOCRT_BEGINPROC 1
%ifdef RT_WITH_NOCRT_ALIASES
%ifdef IN_RT_STATIC
BEGINPROC RT_NOCRT(%1), 1 ; Do our own IBT_ENDBRxx after aliasing/
%else
BEGINPROC_EXPORTED RT_NOCRT(%1), 1 ; Do our own IBT_ENDBRxx after aliasing/
%endif
%ifdef ASM_FORMAT_ELF
; ELF
%ifdef RT_WITH_NOCRT_UNDERSCORE_ALIASES
global NAME(_ %+ %1):function
weak NAME(_ %+ %1)
SAFE_LABEL NAME(_ %+ %1)
%endif
global NAME(%1):function
weak NAME(%1)
SAFE_LABEL NAME(%1)
%elifndef RT_WITH_GENALIAS_NOCRT_ALIASES
; non-ELF when not using genalias.
%ifdef RT_WITH_NOCRT_UNDERSCORE_ALIASES
GLOBALNAME _%1
%endif
GLOBALNAME %1
%endif
IBT_ENDBRxx
%else ; !RT_WITH_NOCRT_ALIASES
%ifdef IN_RT_STATIC
BEGINPROC RT_NOCRT(%1), 0
%else
BEGINPROC_EXPORTED RT_NOCRT(%1), 0
%endif
%endif ; !RT_WITH_NOCRT_ALIASES
%endmacro ; RT_NOCRT_BEGINPROC
;; @def xCB
; The stack unit size / The register unit size.
;; @def xSP
; The stack pointer register (RSP or ESP).
;; @def xBP
; The base pointer register (RBP or ESP).
;; @def xAX
; RAX or EAX depending on context.
;; @def xBX
; RBX or EBX depending on context.
;; @def xCX
; RCX or ECX depending on context.
;; @def xDX
; RDX or EDX depending on context.
;; @def xDI
; RDI or EDI depending on context.
;; @def xSI
; RSI or ESI depending on context.
;; @def xWrtRIP
; 'wrt rip' for AMD64 targets, nothing for x86 ones.
%ifdef RT_ARCH_AMD64
%define xCB 8
%define xSP rsp
%define xBP rbp
%define xAX rax
%define xBX rbx
%define xCX rcx
%define xDX rdx
%define xDI rdi
%define xSI rsi
%define xWrtRIP wrt rip
%else
%define xCB 4
%define xSP esp
%define xBP ebp
%define xAX eax
%define xBX ebx
%define xCX ecx
%define xDX edx
%define xDI edi
%define xSI esi
%define xWrtRIP
%endif
;
; NASM sets __PASS__ to 0 in preprocess-only mode, and to 3 when only generating dependencies.
; YASM has no such setting which is why we must rely on kBuild to tell us what we're doing.
; For simplicity, we'll set the kBuild macro when using NASM.
;
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%ifdef __NASM__
%if __PASS__ == 0 || __PASS__ == 3
%define KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%endif
%endif
%endif
;
; Some simple compile time assertions.
;
; Note! Requires new kBuild to work with YASM (see above).
;
;;
; Structure size assertion macro.
%define AssertCompileSize(a_Type, a_Size) AssertCompileSizeML a_Type, a_Size
%macro AssertCompileSizeML 2
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%assign AssertVar_cbActual %1 %+ _size
%assign AssertVar_cbExpected %2
%if AssertVar_cbActual != AssertVar_cbExpected
%error %1 is AssertVar_cbActual bytes instead of AssertVar_cbExpected
%endif
%endif
%endmacro
;;
; Structure size alignment assertion macro.
%define AssertCompileSizeAlignment(a_Type, a_Align) AssertCompileSizeAlignmentML a_Type, a_Align
%macro AssertCompileSizeAlignmentML 2
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%assign AssertVar_cbActual %1 %+ _size
%assign AssertVar_cbAlignment %2
%if (AssertVar_cbActual & (AssertVar_cbAlignment - 1)) != 0
%error %1 is AssertVar_cbActual bytes, expected size with AssertVar_cbAlignment bytes alignment.
%endif
%endif
%endmacro
;;
; Structure member offset assertion macro.
%define AssertCompileMemberOffset(a_Type, a_Member, a_off) AssertCompileMemberOffsetML a_Type, a_Member, a_off
%macro AssertCompileMemberOffsetML 3
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%assign AssertVar_offActual %1 %+ . %+ %2
%assign AssertVar_offExpected %3
%if AssertVar_offActual != AssertVar_offExpected
%error %1 %+ . %+ %2 is at AssertVar_offActual instead of AssertVar_offExpected
%endif
%endif
%endmacro
;;
; Structure member alignment assertion macro.
%define AssertCompileMemberAlignment(a_Type, a_Member, a_cbAlign) AssertCompileMemberAlignmentML a_Type, a_Member, a_cbAlign
%macro AssertCompileMemberAlignmentML 3
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%assign AssertVar_offActual %1 %+ . %+ %2
%assign AssertVar_cbAlign %3
%if AssertVar_offActual & (AssertVar_cbAlign - 1)
%error %1 %+ . %+ %2 is at AssertVar_offActual, expected AssertVar_cbAlign alignment
%endif
%endif
%endmacro
;;
; Generic compile time expression assertion.
%define AssertCompile(a_Expr) AssertCompileML { a_Expr }
%macro AssertCompileML 1
%ifndef KBUILD_GENERATING_MAKEFILE_DEPENDENCIES
%if (%1) != 1
%assign AssertVar_uResult %1
%error %1 => AssertVar_uResult
%endif
%endif
%endmacro
%endif
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