mirror of
https://github.com/beego/bee.git
synced 2024-11-25 20:10:55 +00:00
431 lines
9.2 KiB
Go
431 lines
9.2 KiB
Go
package winutil
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import (
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"fmt"
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"unsafe"
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"golang.org/x/arch/x86/x86asm"
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"github.com/go-delve/delve/pkg/proc"
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)
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// AMD64Registers represents CPU registers on an AMD64 processor.
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type AMD64Registers struct {
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rax uint64
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rbx uint64
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rcx uint64
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rdx uint64
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rdi uint64
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rsi uint64
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rbp uint64
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rsp uint64
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r8 uint64
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r9 uint64
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r10 uint64
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r11 uint64
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r12 uint64
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r13 uint64
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r14 uint64
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r15 uint64
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rip uint64
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eflags uint64
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cs uint64
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fs uint64
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gs uint64
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tls uint64
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Context *CONTEXT
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fltSave *XMM_SAVE_AREA32
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}
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// NewAMD64Registers creates a new AMD64Registers struct from a CONTEXT
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// struct and the TEB base address of the thread.
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func NewAMD64Registers(context *CONTEXT, TebBaseAddress uint64, floatingPoint bool) *AMD64Registers {
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regs := &AMD64Registers{
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rax: uint64(context.Rax),
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rbx: uint64(context.Rbx),
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rcx: uint64(context.Rcx),
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rdx: uint64(context.Rdx),
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rdi: uint64(context.Rdi),
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rsi: uint64(context.Rsi),
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rbp: uint64(context.Rbp),
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rsp: uint64(context.Rsp),
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r8: uint64(context.R8),
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r9: uint64(context.R9),
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r10: uint64(context.R10),
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r11: uint64(context.R11),
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r12: uint64(context.R12),
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r13: uint64(context.R13),
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r14: uint64(context.R14),
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r15: uint64(context.R15),
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rip: uint64(context.Rip),
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eflags: uint64(context.EFlags),
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cs: uint64(context.SegCs),
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fs: uint64(context.SegFs),
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gs: uint64(context.SegGs),
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tls: TebBaseAddress,
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}
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if floatingPoint {
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regs.fltSave = &context.FltSave
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}
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regs.Context = context
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return regs
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}
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// Slice returns the registers as a list of (name, value) pairs.
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func (r *AMD64Registers) Slice(floatingPoint bool) []proc.Register {
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var regs = []struct {
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k string
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v uint64
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}{
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{"Rip", r.rip},
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{"Rsp", r.rsp},
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{"Rax", r.rax},
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{"Rbx", r.rbx},
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{"Rcx", r.rcx},
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{"Rdx", r.rdx},
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{"Rdi", r.rdi},
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{"Rsi", r.rsi},
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{"Rbp", r.rbp},
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{"R8", r.r8},
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{"R9", r.r9},
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{"R10", r.r10},
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{"R11", r.r11},
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{"R12", r.r12},
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{"R13", r.r13},
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{"R14", r.r14},
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{"R15", r.r15},
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{"Eflags", r.eflags},
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{"Cs", r.cs},
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{"Fs", r.fs},
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{"Gs", r.gs},
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{"TLS", r.tls},
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}
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outlen := len(regs)
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if r.fltSave != nil && floatingPoint {
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outlen += 6 + 8 + 2 + 16
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}
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out := make([]proc.Register, 0, outlen)
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for _, reg := range regs {
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if reg.k == "Eflags" {
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out = proc.AppendEflagReg(out, reg.k, reg.v)
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} else {
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out = proc.AppendQwordReg(out, reg.k, reg.v)
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}
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}
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if r.fltSave != nil && floatingPoint {
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out = proc.AppendWordReg(out, "CW", r.fltSave.ControlWord)
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out = proc.AppendWordReg(out, "SW", r.fltSave.StatusWord)
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out = proc.AppendWordReg(out, "TW", uint16(r.fltSave.TagWord))
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out = proc.AppendWordReg(out, "FOP", r.fltSave.ErrorOpcode)
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out = proc.AppendQwordReg(out, "FIP", uint64(r.fltSave.ErrorSelector)<<32|uint64(r.fltSave.ErrorOffset))
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out = proc.AppendQwordReg(out, "FDP", uint64(r.fltSave.DataSelector)<<32|uint64(r.fltSave.DataOffset))
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for i := range r.fltSave.FloatRegisters {
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out = proc.AppendX87Reg(out, i, uint16(r.fltSave.FloatRegisters[i].High), r.fltSave.FloatRegisters[i].Low)
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}
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out = proc.AppendMxcsrReg(out, "MXCSR", uint64(r.fltSave.MxCsr))
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out = proc.AppendDwordReg(out, "MXCSR_MASK", r.fltSave.MxCsr_Mask)
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for i := 0; i < len(r.fltSave.XmmRegisters); i += 16 {
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out = proc.AppendSSEReg(out, fmt.Sprintf("XMM%d", i/16), r.fltSave.XmmRegisters[i:i+16])
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}
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}
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return out
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}
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// PC returns the current program counter
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// i.e. the RIP CPU register.
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func (r *AMD64Registers) PC() uint64 {
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return r.rip
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}
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// SP returns the stack pointer location,
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// i.e. the RSP register.
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func (r *AMD64Registers) SP() uint64 {
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return r.rsp
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}
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func (r *AMD64Registers) BP() uint64 {
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return r.rbp
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}
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// CX returns the value of the RCX register.
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func (r *AMD64Registers) CX() uint64 {
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return r.rcx
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}
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// TLS returns the value of the register
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// that contains the location of the thread
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// local storage segment.
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func (r *AMD64Registers) TLS() uint64 {
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return r.tls
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}
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// GAddr returns the address of the G variable if it is known, 0 and false
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// otherwise.
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func (r *AMD64Registers) GAddr() (uint64, bool) {
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return 0, false
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}
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// Get returns the value of the n-th register (in x86asm order).
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func (r *AMD64Registers) Get(n int) (uint64, error) {
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reg := x86asm.Reg(n)
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const (
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mask8 = 0x000f
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mask16 = 0x00ff
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mask32 = 0xffff
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)
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switch reg {
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// 8-bit
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case x86asm.AL:
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return r.rax & mask8, nil
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case x86asm.CL:
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return r.rcx & mask8, nil
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case x86asm.DL:
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return r.rdx & mask8, nil
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case x86asm.BL:
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return r.rbx & mask8, nil
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case x86asm.AH:
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return (r.rax >> 8) & mask8, nil
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case x86asm.CH:
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return (r.rcx >> 8) & mask8, nil
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case x86asm.DH:
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return (r.rdx >> 8) & mask8, nil
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case x86asm.BH:
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return (r.rbx >> 8) & mask8, nil
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case x86asm.SPB:
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return r.rsp & mask8, nil
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case x86asm.BPB:
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return r.rbp & mask8, nil
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case x86asm.SIB:
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return r.rsi & mask8, nil
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case x86asm.DIB:
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return r.rdi & mask8, nil
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case x86asm.R8B:
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return r.r8 & mask8, nil
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case x86asm.R9B:
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return r.r9 & mask8, nil
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case x86asm.R10B:
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return r.r10 & mask8, nil
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case x86asm.R11B:
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return r.r11 & mask8, nil
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case x86asm.R12B:
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return r.r12 & mask8, nil
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case x86asm.R13B:
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return r.r13 & mask8, nil
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case x86asm.R14B:
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return r.r14 & mask8, nil
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case x86asm.R15B:
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return r.r15 & mask8, nil
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// 16-bit
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case x86asm.AX:
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return r.rax & mask16, nil
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case x86asm.CX:
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return r.rcx & mask16, nil
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case x86asm.DX:
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return r.rdx & mask16, nil
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case x86asm.BX:
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return r.rbx & mask16, nil
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case x86asm.SP:
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return r.rsp & mask16, nil
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case x86asm.BP:
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return r.rbp & mask16, nil
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case x86asm.SI:
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return r.rsi & mask16, nil
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case x86asm.DI:
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return r.rdi & mask16, nil
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case x86asm.R8W:
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return r.r8 & mask16, nil
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case x86asm.R9W:
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return r.r9 & mask16, nil
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case x86asm.R10W:
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return r.r10 & mask16, nil
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case x86asm.R11W:
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return r.r11 & mask16, nil
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case x86asm.R12W:
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return r.r12 & mask16, nil
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case x86asm.R13W:
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return r.r13 & mask16, nil
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case x86asm.R14W:
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return r.r14 & mask16, nil
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case x86asm.R15W:
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return r.r15 & mask16, nil
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// 32-bit
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case x86asm.EAX:
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return r.rax & mask32, nil
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case x86asm.ECX:
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return r.rcx & mask32, nil
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case x86asm.EDX:
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return r.rdx & mask32, nil
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case x86asm.EBX:
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return r.rbx & mask32, nil
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case x86asm.ESP:
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return r.rsp & mask32, nil
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case x86asm.EBP:
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return r.rbp & mask32, nil
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case x86asm.ESI:
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return r.rsi & mask32, nil
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case x86asm.EDI:
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return r.rdi & mask32, nil
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case x86asm.R8L:
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return r.r8 & mask32, nil
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case x86asm.R9L:
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return r.r9 & mask32, nil
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case x86asm.R10L:
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return r.r10 & mask32, nil
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case x86asm.R11L:
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return r.r11 & mask32, nil
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case x86asm.R12L:
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return r.r12 & mask32, nil
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case x86asm.R13L:
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return r.r13 & mask32, nil
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case x86asm.R14L:
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return r.r14 & mask32, nil
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case x86asm.R15L:
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return r.r15 & mask32, nil
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// 64-bit
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case x86asm.RAX:
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return r.rax, nil
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case x86asm.RCX:
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return r.rcx, nil
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case x86asm.RDX:
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return r.rdx, nil
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case x86asm.RBX:
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return r.rbx, nil
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case x86asm.RSP:
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return r.rsp, nil
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case x86asm.RBP:
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return r.rbp, nil
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case x86asm.RSI:
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return r.rsi, nil
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case x86asm.RDI:
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return r.rdi, nil
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case x86asm.R8:
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return r.r8, nil
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case x86asm.R9:
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return r.r9, nil
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case x86asm.R10:
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return r.r10, nil
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case x86asm.R11:
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return r.r11, nil
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case x86asm.R12:
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return r.r12, nil
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case x86asm.R13:
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return r.r13, nil
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case x86asm.R14:
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return r.r14, nil
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case x86asm.R15:
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return r.r15, nil
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}
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return 0, proc.ErrUnknownRegister
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}
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// Copy returns a copy of these registers that is guarenteed not to change.
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func (r *AMD64Registers) Copy() proc.Registers {
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var rr AMD64Registers
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rr = *r
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rr.Context = NewCONTEXT()
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*(rr.Context) = *(r.Context)
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rr.fltSave = &rr.Context.FltSave
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return &rr
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}
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// M128A tracks the _M128A windows struct.
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type M128A struct {
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Low uint64
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High int64
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}
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// XMM_SAVE_AREA32 tracks the _XMM_SAVE_AREA32 windows struct.
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type XMM_SAVE_AREA32 struct {
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ControlWord uint16
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StatusWord uint16
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TagWord byte
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Reserved1 byte
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ErrorOpcode uint16
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ErrorOffset uint32
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ErrorSelector uint16
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Reserved2 uint16
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DataOffset uint32
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DataSelector uint16
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Reserved3 uint16
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MxCsr uint32
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MxCsr_Mask uint32
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FloatRegisters [8]M128A
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XmmRegisters [256]byte
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Reserved4 [96]byte
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}
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// CONTEXT tracks the _CONTEXT of windows.
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type CONTEXT struct {
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P1Home uint64
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P2Home uint64
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P3Home uint64
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P4Home uint64
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P5Home uint64
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P6Home uint64
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ContextFlags uint32
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MxCsr uint32
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SegCs uint16
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SegDs uint16
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SegEs uint16
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SegFs uint16
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SegGs uint16
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SegSs uint16
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EFlags uint32
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Dr0 uint64
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Dr1 uint64
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Dr2 uint64
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Dr3 uint64
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Dr6 uint64
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Dr7 uint64
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Rax uint64
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Rcx uint64
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Rdx uint64
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Rbx uint64
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Rsp uint64
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Rbp uint64
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Rsi uint64
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Rdi uint64
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R8 uint64
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R9 uint64
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R10 uint64
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R11 uint64
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R12 uint64
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R13 uint64
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R14 uint64
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R15 uint64
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Rip uint64
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FltSave XMM_SAVE_AREA32
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VectorRegister [26]M128A
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VectorControl uint64
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DebugControl uint64
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LastBranchToRip uint64
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LastBranchFromRip uint64
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LastExceptionToRip uint64
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LastExceptionFromRip uint64
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}
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// NewCONTEXT allocates Windows CONTEXT structure aligned to 16 bytes.
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func NewCONTEXT() *CONTEXT {
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var c *CONTEXT
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buf := make([]byte, unsafe.Sizeof(*c)+15)
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return (*CONTEXT)(unsafe.Pointer((uintptr(unsafe.Pointer(&buf[15]))) &^ 15))
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}
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