Documentation ¶
Index ¶
- Constants
- Variables
- func CanUse1InsnTLS(ctxt *obj.Link) bool
- type AsmBuf
- func (a *AsmBuf) At(i int) byte
- func (a *AsmBuf) Bytes() []byte
- func (a *AsmBuf) Insert(i int, b byte)
- func (a *AsmBuf) Last() byte
- func (a *AsmBuf) Len() int
- func (a *AsmBuf) Put(b []byte)
- func (a *AsmBuf) Put1(x byte)
- func (a *AsmBuf) Put2(x, y byte)
- func (a *AsmBuf) Put3(x, y, z byte)
- func (a *AsmBuf) Put4(x, y, z, w byte)
- func (a *AsmBuf) PutInt16(v int16)
- func (a *AsmBuf) PutInt32(v int32)
- func (a *AsmBuf) PutInt64(v int64)
- func (asmbuf *AsmBuf) PutOpBytesLit(offset int, op *[23]uint8)
- func (a *AsmBuf) Reset()
- type Movtab
- type Optab
Constants ¶
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const ( REG_AL = obj.RBaseAMD64 + iota REG_CL REG_DL REG_BL REG_SPB REG_BPB REG_SIB REG_DIB REG_R8B REG_R9B REG_R10B REG_R11B REG_R12B REG_R13B REG_R14B REG_R15B REG_AX REG_CX REG_DX REG_BX REG_SP REG_BP REG_SI REG_DI REG_R8 REG_R9 REG_R10 REG_R11 REG_R12 REG_R13 REG_R14 REG_R15 REG_AH REG_CH REG_DH REG_BH REG_F0 REG_F1 REG_F2 REG_F3 REG_F4 REG_F5 REG_F6 REG_F7 REG_M0 REG_M1 REG_M2 REG_M3 REG_M4 REG_M5 REG_M6 REG_M7 REG_X0 REG_X1 REG_X2 REG_X3 REG_X4 REG_X5 REG_X6 REG_X7 REG_X8 REG_X9 REG_X10 REG_X11 REG_X12 REG_X13 REG_X14 REG_X15 REG_Y0 REG_Y1 REG_Y2 REG_Y3 REG_Y4 REG_Y5 REG_Y6 REG_Y7 REG_Y8 REG_Y9 REG_Y10 REG_Y11 REG_Y12 REG_Y13 REG_Y14 REG_Y15 REG_CS REG_SS REG_DS REG_ES REG_FS REG_GS REG_GDTR /* global descriptor table register */ REG_IDTR /* interrupt descriptor table register */ REG_LDTR /* local descriptor table register */ REG_MSW /* machine status word */ REG_TASK /* task register */ REG_CR0 REG_CR1 REG_CR2 REG_CR3 REG_CR4 REG_CR5 REG_CR6 REG_CR7 REG_CR8 REG_CR9 REG_CR10 REG_CR11 REG_CR12 REG_CR13 REG_CR14 REG_CR15 REG_DR0 REG_DR1 REG_DR2 REG_DR3 REG_DR4 REG_DR5 REG_DR6 REG_DR7 REG_TR0 REG_TR1 REG_TR2 REG_TR3 REG_TR4 REG_TR5 REG_TR6 REG_TR7 REG_TLS MAXREG REG_CR = REG_CR0 REG_DR = REG_DR0 REG_TR = REG_TR0 REGARG = -1 REGRET = REG_AX FREGRET = REG_X0 REGSP = REG_SP REGCTXT = REG_DX REGEXT = REG_R15 /* compiler allocates external registers R15 down */ FREGMIN = REG_X0 + 5 /* first register variable */ FREGEXT = REG_X0 + 15 /* first external register */ T_TYPE = 1 << 0 T_INDEX = 1 << 1 T_OFFSET = 1 << 2 T_FCONST = 1 << 3 T_SYM = 1 << 4 T_SCONST = 1 << 5 T_64 = 1 << 6 T_GOTYPE = 1 << 7 )
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const ( AAAA = obj.ABaseAMD64 + obj.A_ARCHSPECIFIC + iota AAAD AAAM AAAS AADCB AADCL AADCQ AADCW AADCXL AADCXQ AADDB AADDL AADDPD AADDPS AADDQ AADDSD AADDSS AADDSUBPD AADDSUBPS AADDW AADJSP AADOXL AADOXQ AAESDEC AAESDECLAST AAESENC AAESENCLAST AAESIMC AAESKEYGENASSIST AANDB AANDL AANDNL AANDNPD AANDNPS AANDNQ AANDPD AANDPS AANDQ AANDW AARPL ABEXTRL ABEXTRQ ABLENDPD ABLENDPS ABLENDVPD ABLENDVPS ABLSIL ABLSIQ ABLSMSKL ABLSMSKQ ABLSRL ABLSRQ ABOUNDL ABOUNDW ABSFL ABSFQ ABSFW ABSRL ABSRQ ABSRW ABSWAPL ABSWAPQ ABSWAPW ABTCL ABTCQ ABTCW ABTL ABTQ ABTRL ABTRQ ABTRW ABTSL ABTSQ ABTSW ABTW ABYTE ABZHIL ABZHIQ ACBW ACDQ ACDQE ACLAC ACLC ACLD ACLFLUSH ACLFLUSHOPT ACLI ACLTS ACMC ACMOVLCC ACMOVLCS ACMOVLEQ ACMOVLGE ACMOVLGT ACMOVLHI ACMOVLLE ACMOVLLS ACMOVLLT ACMOVLMI ACMOVLNE ACMOVLOC ACMOVLOS ACMOVLPC ACMOVLPL ACMOVLPS ACMOVQCC ACMOVQCS ACMOVQEQ ACMOVQGE ACMOVQGT ACMOVQHI ACMOVQLE ACMOVQLS ACMOVQLT ACMOVQMI ACMOVQNE ACMOVQOC ACMOVQOS ACMOVQPC ACMOVQPL ACMOVQPS ACMOVWCC ACMOVWCS ACMOVWEQ ACMOVWGE ACMOVWGT ACMOVWHI ACMOVWLE ACMOVWLS ACMOVWLT ACMOVWMI ACMOVWNE ACMOVWOC ACMOVWOS ACMOVWPC ACMOVWPL ACMOVWPS ACMPB ACMPL ACMPPD ACMPPS ACMPQ ACMPSB ACMPSD ACMPSL ACMPSQ ACMPSS ACMPSW ACMPW ACMPXCHG16B ACMPXCHG8B ACMPXCHGB ACMPXCHGL ACMPXCHGQ ACMPXCHGW ACOMISD ACOMISS ACPUID ACQO ACRC32B ACRC32L ACRC32Q ACRC32W ACVTPD2PL ACVTPD2PS ACVTPL2PD ACVTPL2PS ACVTPS2PD ACVTPS2PL ACVTSD2SL ACVTSD2SQ ACVTSD2SS ACVTSL2SD ACVTSL2SS ACVTSQ2SD ACVTSQ2SS ACVTSS2SD ACVTSS2SL ACVTSS2SQ ACVTTPD2PL ACVTTPS2PL ACVTTSD2SL ACVTTSD2SQ ACVTTSS2SL ACVTTSS2SQ ACWD ACWDE ADAA ADAS ADECB ADECL ADECQ ADECW ADIVB ADIVL ADIVPD ADIVPS ADIVQ ADIVSD ADIVSS ADIVW ADPPD ADPPS AEMMS AENTER AEXTRACTPS AF2XM1 AFABS AFADDD AFADDDP AFADDF AFADDL AFADDW AFBLD AFBSTP AFCHS AFCLEX AFCMOVB AFCMOVBE AFCMOVCC AFCMOVCS AFCMOVE AFCMOVEQ AFCMOVHI AFCMOVLS AFCMOVNB AFCMOVNBE AFCMOVNE AFCMOVNU AFCMOVU AFCMOVUN AFCOMD AFCOMDP AFCOMDPP AFCOMF AFCOMFP AFCOMI AFCOMIP AFCOML AFCOMLP AFCOMW AFCOMWP AFCOS AFDECSTP AFDIVD AFDIVDP AFDIVF AFDIVL AFDIVRD AFDIVRDP AFDIVRF AFDIVRL AFDIVRW AFDIVW AFFREE AFINCSTP AFINIT AFLD1 AFLDCW AFLDENV AFLDL2E AFLDL2T AFLDLG2 AFLDLN2 AFLDPI AFLDZ AFMOVB AFMOVBP AFMOVD AFMOVDP AFMOVF AFMOVFP AFMOVL AFMOVLP AFMOVV AFMOVVP AFMOVW AFMOVWP AFMOVX AFMOVXP AFMULD AFMULDP AFMULF AFMULL AFMULW AFNOP AFPATAN AFPREM AFPREM1 AFPTAN AFRNDINT AFRSTOR AFSAVE AFSCALE AFSIN AFSINCOS AFSQRT AFSTCW AFSTENV AFSTSW AFSUBD AFSUBDP AFSUBF AFSUBL AFSUBRD AFSUBRDP AFSUBRF AFSUBRL AFSUBRW AFSUBW AFTST AFUCOM AFUCOMI AFUCOMIP AFUCOMP AFUCOMPP AFXAM AFXCHD AFXRSTOR AFXRSTOR64 AFXSAVE AFXSAVE64 AFXTRACT AFYL2X AFYL2XP1 AHADDPD AHADDPS AHLT AHSUBPD AHSUBPS AICEBP AIDIVB AIDIVL AIDIVQ AIDIVW AIMUL3L AIMUL3Q AIMUL3W AIMULB AIMULL AIMULQ AIMULW AINB AINCB AINCL AINCQ AINCW AINL AINSB AINSERTPS AINSL AINSW AINT AINTO AINVD AINVLPG AINVPCID AINW AIRETL AIRETQ AIRETW AJCC // >= unsigned AJCS // < unsigned AJCXZL AJCXZQ AJCXZW AJEQ // == (zero) AJGE // >= signed AJGT // > signed AJHI // > unsigned AJLE // <= signed AJLS // <= unsigned AJLT // < signed AJMI // sign bit set (negative) AJNE // != (nonzero) AJOC // overflow clear AJOS // overflow set AJPC // parity clear AJPL // sign bit clear (positive) AJPS // parity set ALAHF ALARL ALARQ ALARW ALDDQU ALDMXCSR ALEAL ALEAQ ALEAVEL ALEAVEQ ALEAVEW ALEAW ALFENCE ALFSL ALFSQ ALFSW ALGDT ALGSL ALGSQ ALGSW ALIDT ALLDT ALMSW ALOCK ALODSB ALODSL ALODSQ ALODSW ALONG ALOOP ALOOPEQ ALOOPNE ALSLL ALSLQ ALSLW ALSSL ALSSQ ALSSW ALTR ALZCNTL ALZCNTQ ALZCNTW AMASKMOVOU AMASKMOVQ AMAXPD AMAXPS AMAXSD AMAXSS AMFENCE AMINPD AMINPS AMINSD AMINSS AMONITOR AMOVAPD AMOVAPS AMOVB AMOVBELL AMOVBEQQ AMOVBEWW AMOVBLSX AMOVBLZX AMOVBQSX AMOVBQZX AMOVBWSX AMOVBWZX AMOVDDUP AMOVHLPS AMOVHPD AMOVHPS AMOVL AMOVLHPS AMOVLPD AMOVLPS AMOVLQSX AMOVLQZX AMOVMSKPD AMOVMSKPS AMOVNTDQA AMOVNTIL AMOVNTIQ AMOVNTO AMOVNTPD AMOVNTPS AMOVNTQ AMOVO AMOVOU AMOVQ AMOVQL AMOVQOZX AMOVSB AMOVSD AMOVSHDUP AMOVSL AMOVSLDUP AMOVSQ AMOVSS AMOVSW AMOVSWW AMOVUPD AMOVUPS AMOVW AMOVWLSX AMOVWLZX AMOVWQSX AMOVWQZX AMOVZWW AMPSADBW AMULB AMULL AMULPD AMULPS AMULQ AMULSD AMULSS AMULW AMULXL AMULXQ AMWAIT ANEGB ANEGL ANEGQ ANEGW ANOPL ANOPW ANOTB ANOTL ANOTQ ANOTW AORB AORL AORPD AORPS AORQ AORW AOUTB AOUTL AOUTSB AOUTSL AOUTSW AOUTW APABSB APABSD APABSW APACKSSLW APACKSSWB APACKUSDW APACKUSWB APADDB APADDL APADDQ APADDSB APADDSW APADDUSB APADDUSW APADDW APALIGNR APAND APANDN APAUSE APAVGB APAVGW APBLENDVB APBLENDW APCLMULQDQ APCMPEQB APCMPEQL APCMPEQQ APCMPEQW APCMPESTRI APCMPESTRM APCMPGTB APCMPGTL APCMPGTQ APCMPGTW APCMPISTRI APCMPISTRM APDEPL APDEPQ APEXTL APEXTQ APEXTRB APEXTRD APEXTRQ APEXTRW APHADDD APHADDSW APHADDW APHMINPOSUW APHSUBD APHSUBSW APHSUBW APINSRB APINSRD APINSRQ APINSRW APMADDUBSW APMADDWL APMAXSB APMAXSD APMAXSW APMAXUB APMAXUD APMAXUW APMINSB APMINSD APMINSW APMINUB APMINUD APMINUW APMOVMSKB APMOVSXBD APMOVSXBQ APMOVSXBW APMOVSXDQ APMOVSXWD APMOVSXWQ APMOVZXBD APMOVZXBQ APMOVZXBW APMOVZXDQ APMOVZXWD APMOVZXWQ APMULDQ APMULHRSW APMULHUW APMULHW APMULLD APMULLW APMULULQ APOPAL APOPAW APOPCNTL APOPCNTQ APOPCNTW APOPFL APOPFQ APOPFW APOPL APOPQ APOPW APOR APREFETCHNTA APREFETCHT0 APREFETCHT1 APREFETCHT2 APSADBW APSHUFB APSHUFD APSHUFHW APSHUFL APSHUFLW APSHUFW APSIGNB APSIGND APSIGNW APSLLL APSLLO APSLLQ APSLLW APSRAL APSRAW APSRLL APSRLO APSRLQ APSRLW APSUBB APSUBL APSUBQ APSUBSB APSUBSW APSUBUSB APSUBUSW APSUBW APTEST APUNPCKHBW APUNPCKHLQ APUNPCKHQDQ APUNPCKHWL APUNPCKLBW APUNPCKLLQ APUNPCKLQDQ APUNPCKLWL APUSHAL APUSHAW APUSHFL APUSHFQ APUSHFW APUSHL APUSHQ APUSHW APXOR AQUAD ARCLB ARCLL ARCLQ ARCLW ARCPPS ARCPSS ARCRB ARCRL ARCRQ ARCRW ARDFSBASEL ARDFSBASEQ ARDGSBASEL ARDGSBASEQ ARDMSR ARDPKRU ARDPMC ARDRANDL ARDRANDQ ARDRANDW ARDSEEDL ARDSEEDQ ARDSEEDW ARDTSC ARDTSCP AREP AREPN ARETFL ARETFQ ARETFW AROLB AROLL AROLQ AROLW ARORB ARORL ARORQ ARORW ARORXL ARORXQ AROUNDPD AROUNDPS AROUNDSD AROUNDSS ARSM ARSQRTPS ARSQRTSS ASAHF ASALB ASALL ASALQ ASALW ASARB ASARL ASARQ ASARW ASARXL ASARXQ ASBBB ASBBL ASBBQ ASBBW ASCASB ASCASL ASCASQ ASCASW ASETCC ASETCS ASETEQ ASETGE ASETGT ASETHI ASETLE ASETLS ASETLT ASETMI ASETNE ASETOC ASETOS ASETPC ASETPL ASETPS ASFENCE ASGDT ASHA1MSG1 ASHA1MSG2 ASHA1NEXTE ASHA1RNDS4 ASHA256MSG1 ASHA256MSG2 ASHA256RNDS2 ASHLB ASHLL ASHLQ ASHLW ASHLXL ASHLXQ ASHRB ASHRL ASHRQ ASHRW ASHRXL ASHRXQ ASHUFPD ASHUFPS ASIDT ASLDTL ASLDTQ ASLDTW ASMSWL ASMSWQ ASMSWW ASQRTPD ASQRTPS ASQRTSD ASQRTSS ASTAC ASTC ASTD ASTI ASTMXCSR ASTOSB ASTOSL ASTOSQ ASTOSW ASTRL ASTRQ ASTRW ASUBB ASUBL ASUBPD ASUBPS ASUBQ ASUBSD ASUBSS ASUBW ASWAPGS ASYSCALL ASYSENTER ASYSENTER64 ASYSEXIT ASYSEXIT64 ASYSRET ATESTB ATESTL ATESTQ ATESTW ATZCNTL ATZCNTQ ATZCNTW AUCOMISD AUCOMISS AUD1 AUD2 AUNPCKHPD AUNPCKHPS AUNPCKLPD AUNPCKLPS AVADDPD AVADDPS AVADDSD AVADDSS AVADDSUBPD AVADDSUBPS AVAESDEC AVAESDECLAST AVAESENC AVAESENCLAST AVAESIMC AVAESKEYGENASSIST AVANDNPD AVANDNPS AVANDPD AVANDPS AVBLENDPD AVBLENDPS AVBLENDVPD AVBLENDVPS AVBROADCASTF128 AVBROADCASTI128 AVBROADCASTSD AVBROADCASTSS AVCMPPD AVCMPPS AVCMPSD AVCMPSS AVCOMISD AVCOMISS AVCVTDQ2PD AVCVTDQ2PS AVCVTPD2DQX AVCVTPD2DQY AVCVTPD2PSX AVCVTPD2PSY AVCVTPH2PS AVCVTPS2DQ AVCVTPS2PD AVCVTPS2PH AVCVTSD2SI AVCVTSD2SIQ AVCVTSD2SS AVCVTSI2SDL AVCVTSI2SDQ AVCVTSI2SSL AVCVTSI2SSQ AVCVTSS2SD AVCVTSS2SI AVCVTSS2SIQ AVCVTTPD2DQX AVCVTTPD2DQY AVCVTTPS2DQ AVCVTTSD2SI AVCVTTSD2SIQ AVCVTTSS2SI AVCVTTSS2SIQ AVDIVPD AVDIVPS AVDIVSD AVDIVSS AVDPPD AVDPPS AVERR AVERW AVEXTRACTF128 AVEXTRACTI128 AVEXTRACTPS AVFMADD132PD AVFMADD132PS AVFMADD132SD AVFMADD132SS AVFMADD213PD AVFMADD213PS AVFMADD213SD AVFMADD213SS AVFMADD231PD AVFMADD231PS AVFMADD231SD AVFMADD231SS AVFMADDSUB132PD AVFMADDSUB132PS AVFMADDSUB213PD AVFMADDSUB213PS AVFMADDSUB231PD AVFMADDSUB231PS AVFMSUB132PD AVFMSUB132PS AVFMSUB132SD AVFMSUB132SS AVFMSUB213PD AVFMSUB213PS AVFMSUB213SD AVFMSUB213SS AVFMSUB231PD AVFMSUB231PS AVFMSUB231SD AVFMSUB231SS AVFMSUBADD132PD AVFMSUBADD132PS AVFMSUBADD213PD AVFMSUBADD213PS AVFMSUBADD231PD AVFMSUBADD231PS AVFNMADD132PD AVFNMADD132PS AVFNMADD132SD AVFNMADD132SS AVFNMADD213PD AVFNMADD213PS AVFNMADD213SD AVFNMADD213SS AVFNMADD231PD AVFNMADD231PS AVFNMADD231SD AVFNMADD231SS AVFNMSUB132PD AVFNMSUB132PS AVFNMSUB132SD AVFNMSUB132SS AVFNMSUB213PD AVFNMSUB213PS AVFNMSUB213SD AVFNMSUB213SS AVFNMSUB231PD AVFNMSUB231PS AVFNMSUB231SD AVFNMSUB231SS AVGATHERDPD AVGATHERDPS AVGATHERQPD AVGATHERQPS AVHADDPD AVHADDPS AVHSUBPD AVHSUBPS AVINSERTF128 AVINSERTI128 AVINSERTPS AVLDDQU AVLDMXCSR AVMASKMOVDQU AVMASKMOVPD AVMASKMOVPS AVMAXPD AVMAXPS AVMAXSD AVMAXSS AVMINPD AVMINPS AVMINSD AVMINSS AVMOVAPD AVMOVAPS AVMOVD AVMOVDDUP AVMOVDQA AVMOVDQU AVMOVHLPS AVMOVHPD AVMOVHPS AVMOVLHPS AVMOVLPD AVMOVLPS AVMOVMSKPD AVMOVMSKPS AVMOVNTDQ AVMOVNTDQA AVMOVNTPD AVMOVNTPS AVMOVQ AVMOVSD AVMOVSHDUP AVMOVSLDUP AVMOVSS AVMOVUPD AVMOVUPS AVMPSADBW AVMULPD AVMULPS AVMULSD AVMULSS AVORPD AVORPS AVPABSB AVPABSD AVPABSW AVPACKSSDW AVPACKSSWB AVPACKUSDW AVPACKUSWB AVPADDB AVPADDD AVPADDQ AVPADDSB AVPADDSW AVPADDUSB AVPADDUSW AVPADDW AVPALIGNR AVPAND AVPANDN AVPAVGB AVPAVGW AVPBLENDD AVPBLENDVB AVPBLENDW AVPBROADCASTB AVPBROADCASTD AVPBROADCASTQ AVPBROADCASTW AVPCLMULQDQ AVPCMPEQB AVPCMPEQD AVPCMPEQQ AVPCMPEQW AVPCMPESTRI AVPCMPESTRM AVPCMPGTB AVPCMPGTD AVPCMPGTQ AVPCMPGTW AVPCMPISTRI AVPCMPISTRM AVPERM2F128 AVPERM2I128 AVPERMD AVPERMILPD AVPERMILPS AVPERMPD AVPERMPS AVPERMQ AVPEXTRB AVPEXTRD AVPEXTRQ AVPEXTRW AVPGATHERDD AVPGATHERDQ AVPGATHERQD AVPGATHERQQ AVPHADDD AVPHADDSW AVPHADDW AVPHMINPOSUW AVPHSUBD AVPHSUBSW AVPHSUBW AVPINSRB AVPINSRD AVPINSRQ AVPINSRW AVPMADDUBSW AVPMADDWD AVPMASKMOVD AVPMASKMOVQ AVPMAXSB AVPMAXSD AVPMAXSW AVPMAXUB AVPMAXUD AVPMAXUW AVPMINSB AVPMINSD AVPMINSW AVPMINUB AVPMINUD AVPMINUW AVPMOVMSKB AVPMOVSXBD AVPMOVSXBQ AVPMOVSXBW AVPMOVSXDQ AVPMOVSXWD AVPMOVSXWQ AVPMOVZXBD AVPMOVZXBQ AVPMOVZXBW AVPMOVZXDQ AVPMOVZXWD AVPMOVZXWQ AVPMULDQ AVPMULHRSW AVPMULHUW AVPMULHW AVPMULLD AVPMULLW AVPMULUDQ AVPOR AVPSADBW AVPSHUFB AVPSHUFD AVPSHUFHW AVPSHUFLW AVPSIGNB AVPSIGND AVPSIGNW AVPSLLD AVPSLLDQ AVPSLLQ AVPSLLVD AVPSLLVQ AVPSLLW AVPSRAD AVPSRAVD AVPSRAW AVPSRLD AVPSRLDQ AVPSRLQ AVPSRLVD AVPSRLVQ AVPSRLW AVPSUBB AVPSUBD AVPSUBQ AVPSUBSB AVPSUBSW AVPSUBUSB AVPSUBUSW AVPSUBW AVPTEST AVPUNPCKHBW AVPUNPCKHDQ AVPUNPCKHQDQ AVPUNPCKHWD AVPUNPCKLBW AVPUNPCKLDQ AVPUNPCKLQDQ AVPUNPCKLWD AVPXOR AVRCPPS AVRCPSS AVROUNDPD AVROUNDPS AVROUNDSD AVROUNDSS AVRSQRTPS AVRSQRTSS AVSHUFPD AVSHUFPS AVSQRTPD AVSQRTPS AVSQRTSD AVSQRTSS AVSTMXCSR AVSUBPD AVSUBPS AVSUBSD AVSUBSS AVTESTPD AVTESTPS AVUCOMISD AVUCOMISS AVUNPCKHPD AVUNPCKHPS AVUNPCKLPD AVUNPCKLPS AVXORPD AVXORPS AVZEROALL AVZEROUPPER AWAIT AWBINVD AWORD AWRFSBASEL AWRFSBASEQ AWRGSBASEL AWRGSBASEQ AWRMSR AWRPKRU AXABORT AXACQUIRE AXADDB AXADDL AXADDQ AXADDW AXBEGIN AXCHGB AXCHGL AXCHGQ AXCHGW AXEND AXGETBV AXLAT AXORB AXORL AXORPD AXORPS AXORQ AXORW AXRELEASE AXRSTOR AXRSTOR64 AXRSTORS AXRSTORS64 AXSAVE AXSAVE64 AXSAVEC AXSAVEC64 AXSAVEOPT AXSAVEOPT64 AXSAVES AXSAVES64 AXSETBV AXTEST ALAST )
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const ( // Loop alignment constants: // want to align loop entry to LoopAlign-byte boundary, // and willing to insert at most MaxLoopPad bytes of NOP to do so. // We define a loop entry as the target of a backward jump. // // gcc uses MaxLoopPad = 10 for its 'generic x86-64' config, // and it aligns all jump targets, not just backward jump targets. // // As of 6/1/2012, the effect of setting MaxLoopPad = 10 here // is very slight but negative, so the alignment is disabled by // setting MaxLoopPad = 0. The code is here for reference and // for future experiments. // LoopAlign = 16 MaxLoopPad = 0 )
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const ( Yxxx = iota Ynone Yi0 // $0 Yi1 // $1 Yu2 // $x, x fits in uint2 Yi8 // $x, x fits in int8 Yu8 // $x, x fits in uint8 Yu7 // $x, x in 0..127 (fits in both int8 and uint8) Ys32 Yi32 Yi64 Yiauto Yal Ycl Yax Ycx Yrb Yrl Yrl32 // Yrl on 32-bit system Yrf Yf0 Yrx Ymb Yml Ym Ybr Ycs Yss Yds Yes Yfs Ygs Ygdtr Yidtr Yldtr Ymsw Ytask Ycr0 Ycr1 Ycr2 Ycr3 Ycr4 Ycr5 Ycr6 Ycr7 Ycr8 Ydr0 Ydr1 Ydr2 Ydr3 Ydr4 Ydr5 Ydr6 Ydr7 Ytr0 Ytr1 Ytr2 Ytr3 Ytr4 Ytr5 Ytr6 Ytr7 Ymr Ymm Yxr0 // X0 only. "<XMM0>" notation in Intel manual. Yxr Yxm Yxvm // VSIB vector array; vm32x/vm64x Yyr Yym Yyvm // VSIB vector array; vm32y/vm64y Ytls Ytextsize Yindir Ymax )
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const ( Zxxx = iota Zlit Zlitm_r Zlitr_m Zlit_m_r Z_rp Zbr Zcall Zcallcon Zcallduff Zcallind Zcallindreg Zib_ Zib_rp Zibo_m Zibo_m_xm Zil_ Zil_rp Ziq_rp Zilo_m Zjmp Zjmpcon Zloop Zo_iw Zm_o Zm_r Z_m_r Zm2_r Zm_r_xm Zm_r_i_xm Zm_r_xm_nr Zr_m_xm_nr Zibm_r /* mmx1,mmx2/mem64,imm8 */ Zibr_m Zmb_r Zaut_r Zo_m Zo_m64 Zpseudo Zr_m Zr_m_xm Zrp_ Z_ib Z_il Zm_ibo Zm_ilo Zib_rr Zil_rr Zbyte Zvex_rm_v_r Zvex_rm_v_ro Zvex_r_v_rm Zvex_v_rm_r Zvex_i_rm_r Zvex_i_r_v Zvex_i_rm_v_r Zvex Zvex_rm_r_vo Zvex_i_r_rm Zvex_hr_rm_v_r Zmax )
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const ( Px = 0 Px1 = 1 // symbolic; exact value doesn't matter P32 = 0x32 /* 32-bit only */ Pe = 0x66 /* operand escape */ Pm = 0x0f /* 2byte opcode escape */ Pq = 0xff /* both escapes: 66 0f */ Pb = 0xfe /* byte operands */ Pf2 = 0xf2 /* xmm escape 1: f2 0f */ Pf3 = 0xf3 /* xmm escape 2: f3 0f */ Pef3 = 0xf5 /* xmm escape 2 with 16-bit prefix: 66 f3 0f */ Pq3 = 0x67 /* xmm escape 3: 66 48 0f */ Pq4 = 0x68 /* xmm escape 4: 66 0F 38 */ Pq4w = 0x69 /* Pq4 with Rex.w 66 0F 38 */ Pq5 = 0x6a /* xmm escape 5: F3 0F 38 */ Pq5w = 0x6b /* Pq5 with Rex.w F3 0F 38 */ Pfw = 0xf4 /* Pf3 with Rex.w: f3 48 0f */ Pw = 0x48 /* Rex.w */ Pw8 = 0x90 // symbolic; exact value doesn't matter Py = 0x80 /* defaults to 64-bit mode */ Py1 = 0x81 // symbolic; exact value doesn't matter Py3 = 0x83 // symbolic; exact value doesn't matter Pvex = 0x84 // symbolic: exact value doesn't matter Rxw = 1 << 3 /* =1, 64-bit operand size */ Rxr = 1 << 2 /* extend modrm reg */ Rxx = 1 << 1 /* extend sib index */ Rxb = 1 << 0 /* extend modrm r/m, sib base, or opcode reg */ )
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const ( // Combinations used in the manual. VEX_DDS_LIG_66_0F38_W1 = vexDDS | vexLIG | vex66 | vex0F38 | vexW1 VEX_NDD_128_66_0F_WIG = vexNDD | vex128 | vex66 | vex0F | vexWIG VEX_NDD_256_66_0F_WIG = vexNDD | vex256 | vex66 | vex0F | vexWIG VEX_NDD_LZ_F2_0F38_W0 = vexNDD | vexLZ | vexF2 | vex0F38 | vexW0 VEX_NDD_LZ_F2_0F38_W1 = vexNDD | vexLZ | vexF2 | vex0F38 | vexW1 VEX_NDS_128_66_0F_WIG = vexNDS | vex128 | vex66 | vex0F | vexWIG VEX_NDS_128_66_0F38_WIG = vexNDS | vex128 | vex66 | vex0F38 | vexWIG VEX_NDS_128_F2_0F_WIG = vexNDS | vex128 | vexF2 | vex0F | vexWIG VEX_NDS_256_66_0F_WIG = vexNDS | vex256 | vex66 | vex0F | vexWIG VEX_NDS_256_66_0F38_WIG = vexNDS | vex256 | vex66 | vex0F38 | vexWIG VEX_NDS_256_66_0F3A_W0 = vexNDS | vex256 | vex66 | vex0F3A | vexW0 VEX_NDS_256_66_0F3A_WIG = vexNDS | vex256 | vex66 | vex0F3A | vexWIG VEX_NDS_LZ_0F38_W0 = vexNDS | vexLZ | vex0F38 | vexW0 VEX_NDS_LZ_0F38_W1 = vexNDS | vexLZ | vex0F38 | vexW1 VEX_NDS_LZ_66_0F38_W0 = vexNDS | vexLZ | vex66 | vex0F38 | vexW0 VEX_NDS_LZ_66_0F38_W1 = vexNDS | vexLZ | vex66 | vex0F38 | vexW1 VEX_NDS_LZ_F2_0F38_W0 = vexNDS | vexLZ | vexF2 | vex0F38 | vexW0 VEX_NDS_LZ_F2_0F38_W1 = vexNDS | vexLZ | vexF2 | vex0F38 | vexW1 VEX_NDS_LZ_F3_0F38_W0 = vexNDS | vexLZ | vexF3 | vex0F38 | vexW0 VEX_NDS_LZ_F3_0F38_W1 = vexNDS | vexLZ | vexF3 | vex0F38 | vexW1 VEX_NOVSR_128_66_0F_WIG = vexNOVSR | vex128 | vex66 | vex0F | vexWIG VEX_NOVSR_128_66_0F38_W0 = vexNOVSR | vex128 | vex66 | vex0F38 | vexW0 VEX_NOVSR_128_66_0F38_WIG = vexNOVSR | vex128 | vex66 | vex0F38 | vexWIG VEX_NOVSR_128_F2_0F_WIG = vexNOVSR | vex128 | vexF2 | vex0F | vexWIG VEX_NOVSR_128_F3_0F_WIG = vexNOVSR | vex128 | vexF3 | vex0F | vexWIG VEX_NOVSR_256_66_0F_WIG = vexNOVSR | vex256 | vex66 | vex0F | vexWIG VEX_NOVSR_256_66_0F38_W0 = vexNOVSR | vex256 | vex66 | vex0F38 | vexW0 VEX_NOVSR_256_66_0F38_WIG = vexNOVSR | vex256 | vex66 | vex0F38 | vexWIG VEX_NOVSR_256_F2_0F_WIG = vexNOVSR | vex256 | vexF2 | vex0F | vexWIG VEX_NOVSR_256_F3_0F_WIG = vexNOVSR | vex256 | vexF3 | vex0F | vexWIG VEX_NOVSR_LZ_F2_0F3A_W0 = vexNOVSR | vexLZ | vexF2 | vex0F3A | vexW0 VEX_NOVSR_LZ_F2_0F3A_W1 = vexNOVSR | vexLZ | vexF2 | vex0F3A | vexW1 )
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const ( /* mark flags */ DONE = 1 << iota )
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const (
E = 0xff
)
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const (
REG_NONE = 0
)
Variables ¶
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var AMD64DWARFRegisters = map[int16]int16{ REG_AX: 0, REG_DX: 1, REG_CX: 2, REG_BX: 3, REG_SI: 4, REG_DI: 5, REG_BP: 6, REG_SP: 7, REG_R8: 8, REG_R9: 9, REG_R10: 10, REG_R11: 11, REG_R12: 12, REG_R13: 13, REG_R14: 14, REG_R15: 15, REG_X0: 17, REG_X1: 18, REG_X2: 19, REG_X3: 20, REG_X4: 21, REG_X5: 22, REG_X6: 23, REG_X7: 24, REG_X8: 25, REG_X9: 26, REG_X10: 27, REG_X11: 28, REG_X12: 29, REG_X13: 30, REG_X14: 31, REG_X15: 32, REG_F0: 33, REG_F1: 34, REG_F2: 35, REG_F3: 36, REG_F4: 37, REG_F5: 38, REG_F6: 39, REG_F7: 40, REG_M0: 41, REG_M1: 42, REG_M2: 43, REG_M3: 44, REG_M4: 45, REG_M5: 46, REG_M6: 47, REG_M7: 48, REG_ES: 50, REG_CS: 51, REG_SS: 52, REG_DS: 53, REG_FS: 54, REG_GS: 55, REG_TR: 62, REG_LDTR: 63, }
https://www.uclibc.org/docs/psABI-x86_64.pdf, figure 3.36
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var Anames = []string{}/* 1236 elements not displayed */
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var Link386 = obj.LinkArch{ Arch: sys.Arch386, Init: instinit, Preprocess: preprocess, Assemble: span6, Progedit: progedit, UnaryDst: unaryDst, DWARFRegisters: X86DWARFRegisters, }
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var Linkamd64 = obj.LinkArch{ Arch: sys.ArchAMD64, Init: instinit, Preprocess: preprocess, Assemble: span6, Progedit: progedit, UnaryDst: unaryDst, DWARFRegisters: AMD64DWARFRegisters, }
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var Linkamd64p32 = obj.LinkArch{ Arch: sys.ArchAMD64P32, Init: instinit, Preprocess: preprocess, Assemble: span6, Progedit: progedit, UnaryDst: unaryDst, DWARFRegisters: AMD64DWARFRegisters, }
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var Register = []string{}/* 129 elements not displayed */
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var X86DWARFRegisters = map[int16]int16{ REG_AX: 0, REG_CX: 1, REG_DX: 2, REG_BX: 3, REG_SP: 4, REG_BP: 5, REG_SI: 6, REG_DI: 7, REG_F0: 11, REG_F1: 12, REG_F2: 13, REG_F3: 14, REG_F4: 15, REG_F5: 16, REG_F6: 17, REG_F7: 18, REG_X0: 21, REG_X1: 22, REG_X2: 23, REG_X3: 24, REG_X4: 25, REG_X5: 26, REG_X6: 27, REG_X7: 28, REG_M0: 29, REG_M1: 30, REG_M2: 31, REG_M3: 32, REG_M4: 33, REG_M5: 34, REG_M6: 35, REG_M7: 36, REG_ES: 40, REG_CS: 41, REG_SS: 42, REG_DS: 43, REG_FS: 44, REG_GS: 45, REG_TR: 48, REG_LDTR: 49, }
https://www.uclibc.org/docs/psABI-i386.pdf, table 2.14
Functions ¶
func CanUse1InsnTLS ¶
Types ¶
type AsmBuf ¶
type AsmBuf struct {
// contains filtered or unexported fields
}
AsmBuf is a simple buffer to assemble variable-length x86 instructions into and hold assembly state.
func (*AsmBuf) PutOpBytesLit ¶
PutOpBytesLit writes zero terminated sequence of bytes from op, starting at specified offsed (e.g. z counter value). Trailing 0 is not written.
Intended to be used for literal Z cases. Literal Z cases usually have "Zlit" in their name (Zlit, Zlitr_m, Zlitm_r).
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