mirror of
https://github.com/42wim/matterbridge.git
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180 lines
4.4 KiB
Go
180 lines
4.4 KiB
Go
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// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package ppc64asm
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import (
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"encoding/binary"
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"fmt"
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"log"
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)
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const debugDecode = false
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// instFormat is a decoding rule for one specific instruction form.
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// a uint32 instruction ins matches the rule if ins&Mask == Value
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// DontCare bits should be zero, but the machine might not reject
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// ones in those bits, they are mainly reserved for future expansion
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// of the instruction set.
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// The Args are stored in the same order as the instruction manual.
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type instFormat struct {
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Op Op
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Mask uint32
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Value uint32
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DontCare uint32
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Args [5]*argField
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}
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// argField indicate how to decode an argument to an instruction.
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// First parse the value from the BitFields, shift it left by Shift
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// bits to get the actual numerical value.
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type argField struct {
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Type ArgType
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Shift uint8
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BitFields
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}
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// Parse parses the Arg out from the given binary instruction i.
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func (a argField) Parse(i uint32) Arg {
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switch a.Type {
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default:
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return nil
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case TypeUnknown:
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return nil
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case TypeReg:
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return R0 + Reg(a.BitFields.Parse(i))
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case TypeCondRegBit:
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return Cond0LT + CondReg(a.BitFields.Parse(i))
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case TypeCondRegField:
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return CR0 + CondReg(a.BitFields.Parse(i))
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case TypeFPReg:
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return F0 + Reg(a.BitFields.Parse(i))
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case TypeVecReg:
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return V0 + Reg(a.BitFields.Parse(i))
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case TypeVecSReg:
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return VS0 + Reg(a.BitFields.Parse(i))
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case TypeSpReg:
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return SpReg(a.BitFields.Parse(i))
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case TypeImmSigned:
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return Imm(a.BitFields.ParseSigned(i) << a.Shift)
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case TypeImmUnsigned:
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return Imm(a.BitFields.Parse(i) << a.Shift)
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case TypePCRel:
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return PCRel(a.BitFields.ParseSigned(i) << a.Shift)
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case TypeLabel:
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return Label(a.BitFields.ParseSigned(i) << a.Shift)
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case TypeOffset:
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return Offset(a.BitFields.ParseSigned(i) << a.Shift)
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}
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}
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type ArgType int8
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const (
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TypeUnknown ArgType = iota
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TypePCRel // PC-relative address
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TypeLabel // absolute address
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TypeReg // integer register
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TypeCondRegBit // conditional register bit (0-31)
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TypeCondRegField // conditional register field (0-7)
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TypeFPReg // floating point register
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TypeVecReg // vector register
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TypeVecSReg // VSX register
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TypeSpReg // special register (depends on Op)
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TypeImmSigned // signed immediate
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TypeImmUnsigned // unsigned immediate/flag/mask, this is the catch-all type
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TypeOffset // signed offset in load/store
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TypeLast // must be the last one
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)
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func (t ArgType) String() string {
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switch t {
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default:
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return fmt.Sprintf("ArgType(%d)", int(t))
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case TypeUnknown:
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return "Unknown"
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case TypeReg:
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return "Reg"
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case TypeCondRegBit:
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return "CondRegBit"
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case TypeCondRegField:
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return "CondRegField"
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case TypeFPReg:
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return "FPReg"
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case TypeVecReg:
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return "VecReg"
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case TypeVecSReg:
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return "VecSReg"
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case TypeSpReg:
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return "SpReg"
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case TypeImmSigned:
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return "ImmSigned"
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case TypeImmUnsigned:
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return "ImmUnsigned"
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case TypePCRel:
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return "PCRel"
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case TypeLabel:
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return "Label"
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case TypeOffset:
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return "Offset"
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}
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}
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func (t ArgType) GoString() string {
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s := t.String()
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if t > 0 && t < TypeLast {
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return "Type" + s
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}
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return s
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}
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var (
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// Errors
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errShort = fmt.Errorf("truncated instruction")
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errUnknown = fmt.Errorf("unknown instruction")
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)
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var decoderCover []bool
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// Decode decodes the leading bytes in src as a single instruction using
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// byte order ord.
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func Decode(src []byte, ord binary.ByteOrder) (inst Inst, err error) {
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if len(src) < 4 {
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return inst, errShort
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}
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if decoderCover == nil {
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decoderCover = make([]bool, len(instFormats))
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}
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inst.Len = 4 // only 4-byte instructions are supported
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ui := ord.Uint32(src[:inst.Len])
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inst.Enc = ui
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for i, iform := range instFormats {
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if ui&iform.Mask != iform.Value {
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continue
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}
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if ui&iform.DontCare != 0 {
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if debugDecode {
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log.Printf("Decode(%#x): unused bit is 1 for Op %s", ui, iform.Op)
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}
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// to match GNU objdump (libopcodes), we ignore don't care bits
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}
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for i, argfield := range iform.Args {
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if argfield == nil {
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break
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}
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inst.Args[i] = argfield.Parse(ui)
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}
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inst.Op = iform.Op
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if debugDecode {
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log.Printf("%#x: search entry %d", ui, i)
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continue
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}
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break
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}
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if inst.Op == 0 {
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return inst, errUnknown
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}
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return inst, nil
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}
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