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authorWim <wim@42.be>2017-03-23 23:28:55 +0100
committerWim <wim@42.be>2017-03-23 23:28:55 +0100
commit2f68519b3c6b5a70028882c99afeb76f291b7725 (patch)
tree2555d0b8b81491f136a176a58e2618a25edc8edc /vendor/golang.org/x/arch/x86/x86asm/inst.go
parentefe641f202653dfd3bc7bde221188e098db3def7 (diff)
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Add gops agentv0.10.2-dev
Diffstat (limited to 'vendor/golang.org/x/arch/x86/x86asm/inst.go')
-rw-r--r--vendor/golang.org/x/arch/x86/x86asm/inst.go649
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diff --git a/vendor/golang.org/x/arch/x86/x86asm/inst.go b/vendor/golang.org/x/arch/x86/x86asm/inst.go
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+++ b/vendor/golang.org/x/arch/x86/x86asm/inst.go
@@ -0,0 +1,649 @@
+// Copyright 2014 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// Package x86asm implements decoding of x86 machine code.
+package x86asm
+
+import (
+ "bytes"
+ "fmt"
+)
+
+// An Inst is a single instruction.
+type Inst struct {
+ Prefix Prefixes // Prefixes applied to the instruction.
+ Op Op // Opcode mnemonic
+ Opcode uint32 // Encoded opcode bits, left aligned (first byte is Opcode>>24, etc)
+ Args Args // Instruction arguments, in Intel order
+ Mode int // processor mode in bits: 16, 32, or 64
+ AddrSize int // address size in bits: 16, 32, or 64
+ DataSize int // operand size in bits: 16, 32, or 64
+ MemBytes int // size of memory argument in bytes: 1, 2, 4, 8, 16, and so on.
+ Len int // length of encoded instruction in bytes
+ PCRel int // length of PC-relative address in instruction encoding
+ PCRelOff int // index of start of PC-relative address in instruction encoding
+}
+
+// Prefixes is an array of prefixes associated with a single instruction.
+// The prefixes are listed in the same order as found in the instruction:
+// each prefix byte corresponds to one slot in the array. The first zero
+// in the array marks the end of the prefixes.
+type Prefixes [14]Prefix
+
+// A Prefix represents an Intel instruction prefix.
+// The low 8 bits are the actual prefix byte encoding,
+// and the top 8 bits contain distinguishing bits and metadata.
+type Prefix uint16
+
+const (
+ // Metadata about the role of a prefix in an instruction.
+ PrefixImplicit Prefix = 0x8000 // prefix is implied by instruction text
+ PrefixIgnored Prefix = 0x4000 // prefix is ignored: either irrelevant or overridden by a later prefix
+ PrefixInvalid Prefix = 0x2000 // prefix makes entire instruction invalid (bad LOCK)
+
+ // Memory segment overrides.
+ PrefixES Prefix = 0x26 // ES segment override
+ PrefixCS Prefix = 0x2E // CS segment override
+ PrefixSS Prefix = 0x36 // SS segment override
+ PrefixDS Prefix = 0x3E // DS segment override
+ PrefixFS Prefix = 0x64 // FS segment override
+ PrefixGS Prefix = 0x65 // GS segment override
+
+ // Branch prediction.
+ PrefixPN Prefix = 0x12E // predict not taken (conditional branch only)
+ PrefixPT Prefix = 0x13E // predict taken (conditional branch only)
+
+ // Size attributes.
+ PrefixDataSize Prefix = 0x66 // operand size override
+ PrefixData16 Prefix = 0x166
+ PrefixData32 Prefix = 0x266
+ PrefixAddrSize Prefix = 0x67 // address size override
+ PrefixAddr16 Prefix = 0x167
+ PrefixAddr32 Prefix = 0x267
+
+ // One of a kind.
+ PrefixLOCK Prefix = 0xF0 // lock
+ PrefixREPN Prefix = 0xF2 // repeat not zero
+ PrefixXACQUIRE Prefix = 0x1F2
+ PrefixBND Prefix = 0x2F2
+ PrefixREP Prefix = 0xF3 // repeat
+ PrefixXRELEASE Prefix = 0x1F3
+
+ // The REX prefixes must be in the range [PrefixREX, PrefixREX+0x10).
+ // the other bits are set or not according to the intended use.
+ PrefixREX Prefix = 0x40 // REX 64-bit extension prefix
+ PrefixREXW Prefix = 0x08 // extension bit W (64-bit instruction width)
+ PrefixREXR Prefix = 0x04 // extension bit R (r field in modrm)
+ PrefixREXX Prefix = 0x02 // extension bit X (index field in sib)
+ PrefixREXB Prefix = 0x01 // extension bit B (r/m field in modrm or base field in sib)
+ PrefixVEX2Bytes Prefix = 0xC5 // Short form of vex prefix
+ PrefixVEX3Bytes Prefix = 0xC4 // Long form of vex prefix
+)
+
+// IsREX reports whether p is a REX prefix byte.
+func (p Prefix) IsREX() bool {
+ return p&0xF0 == PrefixREX
+}
+
+func (p Prefix) IsVEX() bool {
+ return p&0xFF == PrefixVEX2Bytes || p&0xFF == PrefixVEX3Bytes
+}
+
+func (p Prefix) String() string {
+ p &^= PrefixImplicit | PrefixIgnored | PrefixInvalid
+ if s := prefixNames[p]; s != "" {
+ return s
+ }
+
+ if p.IsREX() {
+ s := "REX."
+ if p&PrefixREXW != 0 {
+ s += "W"
+ }
+ if p&PrefixREXR != 0 {
+ s += "R"
+ }
+ if p&PrefixREXX != 0 {
+ s += "X"
+ }
+ if p&PrefixREXB != 0 {
+ s += "B"
+ }
+ return s
+ }
+
+ return fmt.Sprintf("Prefix(%#x)", int(p))
+}
+
+// An Op is an x86 opcode.
+type Op uint32
+
+func (op Op) String() string {
+ i := int(op)
+ if i < 0 || i >= len(opNames) || opNames[i] == "" {
+ return fmt.Sprintf("Op(%d)", i)
+ }
+ return opNames[i]
+}
+
+// An Args holds the instruction arguments.
+// If an instruction has fewer than 4 arguments,
+// the final elements in the array are nil.
+type Args [4]Arg
+
+// An Arg is a single instruction argument,
+// one of these types: Reg, Mem, Imm, Rel.
+type Arg interface {
+ String() string
+ isArg()
+}
+
+// Note that the implements of Arg that follow are all sized
+// so that on a 64-bit machine the data can be inlined in
+// the interface value instead of requiring an allocation.
+
+// A Reg is a single register.
+// The zero Reg value has no name but indicates ``no register.''
+type Reg uint8
+
+const (
+ _ Reg = iota
+
+ // 8-bit
+ AL
+ CL
+ DL
+ BL
+ AH
+ CH
+ DH
+ BH
+ SPB
+ BPB
+ SIB
+ DIB
+ R8B
+ R9B
+ R10B
+ R11B
+ R12B
+ R13B
+ R14B
+ R15B
+
+ // 16-bit
+ AX
+ CX
+ DX
+ BX
+ SP
+ BP
+ SI
+ DI
+ R8W
+ R9W
+ R10W
+ R11W
+ R12W
+ R13W
+ R14W
+ R15W
+
+ // 32-bit
+ EAX
+ ECX
+ EDX
+ EBX
+ ESP
+ EBP
+ ESI
+ EDI
+ R8L
+ R9L
+ R10L
+ R11L
+ R12L
+ R13L
+ R14L
+ R15L
+
+ // 64-bit
+ RAX
+ RCX
+ RDX
+ RBX
+ RSP
+ RBP
+ RSI
+ RDI
+ R8
+ R9
+ R10
+ R11
+ R12
+ R13
+ R14
+ R15
+
+ // Instruction pointer.
+ IP // 16-bit
+ EIP // 32-bit
+ RIP // 64-bit
+
+ // 387 floating point registers.
+ F0
+ F1
+ F2
+ F3
+ F4
+ F5
+ F6
+ F7
+
+ // MMX registers.
+ M0
+ M1
+ M2
+ M3
+ M4
+ M5
+ M6
+ M7
+
+ // XMM registers.
+ X0
+ X1
+ X2
+ X3
+ X4
+ X5
+ X6
+ X7
+ X8
+ X9
+ X10
+ X11
+ X12
+ X13
+ X14
+ X15
+
+ // Segment registers.
+ ES
+ CS
+ SS
+ DS
+ FS
+ GS
+
+ // System registers.
+ GDTR
+ IDTR
+ LDTR
+ MSW
+ TASK
+
+ // Control registers.
+ CR0
+ CR1
+ CR2
+ CR3
+ CR4
+ CR5
+ CR6
+ CR7
+ CR8
+ CR9
+ CR10
+ CR11
+ CR12
+ CR13
+ CR14
+ CR15
+
+ // Debug registers.
+ DR0
+ DR1
+ DR2
+ DR3
+ DR4
+ DR5
+ DR6
+ DR7
+ DR8
+ DR9
+ DR10
+ DR11
+ DR12
+ DR13
+ DR14
+ DR15
+
+ // Task registers.
+ TR0
+ TR1
+ TR2
+ TR3
+ TR4
+ TR5
+ TR6
+ TR7
+)
+
+const regMax = TR7
+
+func (Reg) isArg() {}
+
+func (r Reg) String() string {
+ i := int(r)
+ if i < 0 || i >= len(regNames) || regNames[i] == "" {
+ return fmt.Sprintf("Reg(%d)", i)
+ }
+ return regNames[i]
+}
+
+// A Mem is a memory reference.
+// The general form is Segment:[Base+Scale*Index+Disp].
+type Mem struct {
+ Segment Reg
+ Base Reg
+ Scale uint8
+ Index Reg
+ Disp int64
+}
+
+func (Mem) isArg() {}
+
+func (m Mem) String() string {
+ var base, plus, scale, index, disp string
+
+ if m.Base != 0 {
+ base = m.Base.String()
+ }
+ if m.Scale != 0 {
+ if m.Base != 0 {
+ plus = "+"
+ }
+ if m.Scale > 1 {
+ scale = fmt.Sprintf("%d*", m.Scale)
+ }
+ index = m.Index.String()
+ }
+ if m.Disp != 0 || m.Base == 0 && m.Scale == 0 {
+ disp = fmt.Sprintf("%+#x", m.Disp)
+ }
+ return "[" + base + plus + scale + index + disp + "]"
+}
+
+// A Rel is an offset relative to the current instruction pointer.
+type Rel int32
+
+func (Rel) isArg() {}
+
+func (r Rel) String() string {
+ return fmt.Sprintf(".%+d", r)
+}
+
+// An Imm is an integer constant.
+type Imm int64
+
+func (Imm) isArg() {}
+
+func (i Imm) String() string {
+ return fmt.Sprintf("%#x", int64(i))
+}
+
+func (i Inst) String() string {
+ var buf bytes.Buffer
+ for _, p := range i.Prefix {
+ if p == 0 {
+ break
+ }
+ if p&PrefixImplicit != 0 {
+ continue
+ }
+ fmt.Fprintf(&buf, "%v ", p)
+ }
+ fmt.Fprintf(&buf, "%v", i.Op)
+ sep := " "
+ for _, v := range i.Args {
+ if v == nil {
+ break
+ }
+ fmt.Fprintf(&buf, "%s%v", sep, v)
+ sep = ", "
+ }
+ return buf.String()
+}
+
+func isReg(a Arg) bool {
+ _, ok := a.(Reg)
+ return ok
+}
+
+func isSegReg(a Arg) bool {
+ r, ok := a.(Reg)
+ return ok && ES <= r && r <= GS
+}
+
+func isMem(a Arg) bool {
+ _, ok := a.(Mem)
+ return ok
+}
+
+func isImm(a Arg) bool {
+ _, ok := a.(Imm)
+ return ok
+}
+
+func regBytes(a Arg) int {
+ r, ok := a.(Reg)
+ if !ok {
+ return 0
+ }
+ if AL <= r && r <= R15B {
+ return 1
+ }
+ if AX <= r && r <= R15W {
+ return 2
+ }
+ if EAX <= r && r <= R15L {
+ return 4
+ }
+ if RAX <= r && r <= R15 {
+ return 8
+ }
+ return 0
+}
+
+func isSegment(p Prefix) bool {
+ switch p {
+ case PrefixCS, PrefixDS, PrefixES, PrefixFS, PrefixGS, PrefixSS:
+ return true
+ }
+ return false
+}
+
+// The Op definitions and string list are in tables.go.
+
+var prefixNames = map[Prefix]string{
+ PrefixCS: "CS",
+ PrefixDS: "DS",
+ PrefixES: "ES",
+ PrefixFS: "FS",
+ PrefixGS: "GS",
+ PrefixSS: "SS",
+ PrefixLOCK: "LOCK",
+ PrefixREP: "REP",
+ PrefixREPN: "REPN",
+ PrefixAddrSize: "ADDRSIZE",
+ PrefixDataSize: "DATASIZE",
+ PrefixAddr16: "ADDR16",
+ PrefixData16: "DATA16",
+ PrefixAddr32: "ADDR32",
+ PrefixData32: "DATA32",
+ PrefixBND: "BND",
+ PrefixXACQUIRE: "XACQUIRE",
+ PrefixXRELEASE: "XRELEASE",
+ PrefixREX: "REX",
+ PrefixPT: "PT",
+ PrefixPN: "PN",
+}
+
+var regNames = [...]string{
+ AL: "AL",
+ CL: "CL",
+ BL: "BL",
+ DL: "DL",
+ AH: "AH",
+ CH: "CH",
+ BH: "BH",
+ DH: "DH",
+ SPB: "SPB",
+ BPB: "BPB",
+ SIB: "SIB",
+ DIB: "DIB",
+ R8B: "R8B",
+ R9B: "R9B",
+ R10B: "R10B",
+ R11B: "R11B",
+ R12B: "R12B",
+ R13B: "R13B",
+ R14B: "R14B",
+ R15B: "R15B",
+ AX: "AX",
+ CX: "CX",
+ BX: "BX",
+ DX: "DX",
+ SP: "SP",
+ BP: "BP",
+ SI: "SI",
+ DI: "DI",
+ R8W: "R8W",
+ R9W: "R9W",
+ R10W: "R10W",
+ R11W: "R11W",
+ R12W: "R12W",
+ R13W: "R13W",
+ R14W: "R14W",
+ R15W: "R15W",
+ EAX: "EAX",
+ ECX: "ECX",
+ EDX: "EDX",
+ EBX: "EBX",
+ ESP: "ESP",
+ EBP: "EBP",
+ ESI: "ESI",
+ EDI: "EDI",
+ R8L: "R8L",
+ R9L: "R9L",
+ R10L: "R10L",
+ R11L: "R11L",
+ R12L: "R12L",
+ R13L: "R13L",
+ R14L: "R14L",
+ R15L: "R15L",
+ RAX: "RAX",
+ RCX: "RCX",
+ RDX: "RDX",
+ RBX: "RBX",
+ RSP: "RSP",
+ RBP: "RBP",
+ RSI: "RSI",
+ RDI: "RDI",
+ R8: "R8",
+ R9: "R9",
+ R10: "R10",
+ R11: "R11",
+ R12: "R12",
+ R13: "R13",
+ R14: "R14",
+ R15: "R15",
+ IP: "IP",
+ EIP: "EIP",
+ RIP: "RIP",
+ F0: "F0",
+ F1: "F1",
+ F2: "F2",
+ F3: "F3",
+ F4: "F4",
+ F5: "F5",
+ F6: "F6",
+ F7: "F7",
+ M0: "M0",
+ M1: "M1",
+ M2: "M2",
+ M3: "M3",
+ M4: "M4",
+ M5: "M5",
+ M6: "M6",
+ M7: "M7",
+ X0: "X0",
+ X1: "X1",
+ X2: "X2",
+ X3: "X3",
+ X4: "X4",
+ X5: "X5",
+ X6: "X6",
+ X7: "X7",
+ X8: "X8",
+ X9: "X9",
+ X10: "X10",
+ X11: "X11",
+ X12: "X12",
+ X13: "X13",
+ X14: "X14",
+ X15: "X15",
+ CS: "CS",
+ SS: "SS",
+ DS: "DS",
+ ES: "ES",
+ FS: "FS",
+ GS: "GS",
+ GDTR: "GDTR",
+ IDTR: "IDTR",
+ LDTR: "LDTR",
+ MSW: "MSW",
+ TASK: "TASK",
+ CR0: "CR0",
+ CR1: "CR1",
+ CR2: "CR2",
+ CR3: "CR3",
+ CR4: "CR4",
+ CR5: "CR5",
+ CR6: "CR6",
+ CR7: "CR7",
+ CR8: "CR8",
+ CR9: "CR9",
+ CR10: "CR10",
+ CR11: "CR11",
+ CR12: "CR12",
+ CR13: "CR13",
+ CR14: "CR14",
+ CR15: "CR15",
+ DR0: "DR0",
+ DR1: "DR1",
+ DR2: "DR2",
+ DR3: "DR3",
+ DR4: "DR4",
+ DR5: "DR5",
+ DR6: "DR6",
+ DR7: "DR7",
+ DR8: "DR8",
+ DR9: "DR9",
+ DR10: "DR10",
+ DR11: "DR11",
+ DR12: "DR12",
+ DR13: "DR13",
+ DR14: "DR14",
+ DR15: "DR15",
+ TR0: "TR0",
+ TR1: "TR1",
+ TR2: "TR2",
+ TR3: "TR3",
+ TR4: "TR4",
+ TR5: "TR5",
+ TR6: "TR6",
+ TR7: "TR7",
+}