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bee/vendor/github.com/derekparker/delve/proc/registers.go

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2017-03-19 22:45:54 +00:00
package proc
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"math"
"os"
"strings"
)
// Registers is an interface for a generic register type. The
// interface encapsulates the generic values / actions
// we need independent of arch. The concrete register types
// will be different depending on OS/Arch.
type Registers interface {
PC() uint64
SP() uint64
CX() uint64
TLS() uint64
Get(int) (uint64, error)
SetPC(*Thread, uint64) error
Slice() []Register
}
type Register struct {
Name string
Value string
}
func appendWordReg(regs []Register, name string, value uint16) []Register {
return append(regs, Register{name, fmt.Sprintf("%#04x", value)})
}
func appendDwordReg(regs []Register, name string, value uint32) []Register {
return append(regs, Register{name, fmt.Sprintf("%#08x", value)})
}
func appendQwordReg(regs []Register, name string, value uint64) []Register {
return append(regs, Register{name, fmt.Sprintf("%#016x", value)})
}
func appendFlagReg(regs []Register, name string, value uint64, descr flagRegisterDescr, size int) []Register {
return append(regs, Register{name, descr.Describe(value, size)})
}
func appendX87Reg(regs []Register, index int, exponent uint16, mantissa uint64) []Register {
var f float64
fset := false
const (
_SIGNBIT = 1 << 15
_EXP_BIAS = (1 << 14) - 1 // 2^(n-1) - 1 = 16383
_SPECIALEXP = (1 << 15) - 1 // all bits set
_HIGHBIT = 1 << 63
_QUIETBIT = 1 << 62
)
sign := 1.0
if exponent&_SIGNBIT != 0 {
sign = -1.0
}
exponent &= ^uint16(_SIGNBIT)
NaN := math.NaN()
Inf := math.Inf(+1)
switch exponent {
case 0:
switch {
case mantissa == 0:
f = sign * 0.0
fset = true
case mantissa&_HIGHBIT != 0:
f = NaN
fset = true
}
case _SPECIALEXP:
switch {
case mantissa&_HIGHBIT == 0:
f = sign * Inf
fset = true
default:
f = NaN // signaling NaN
fset = true
}
default:
if mantissa&_HIGHBIT == 0 {
f = NaN
fset = true
}
}
if !fset {
significand := float64(mantissa) / (1 << 63)
f = sign * math.Ldexp(significand, int(exponent-_EXP_BIAS))
}
return append(regs, Register{fmt.Sprintf("ST(%d)", index), fmt.Sprintf("%#04x%016x\t%g", exponent, mantissa, f)})
}
func appendSSEReg(regs []Register, name string, xmm []byte) []Register {
buf := bytes.NewReader(xmm)
var out bytes.Buffer
var vi [16]uint8
for i := range vi {
binary.Read(buf, binary.LittleEndian, &vi[i])
}
fmt.Fprintf(&out, "0x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x", vi[15], vi[14], vi[13], vi[12], vi[11], vi[10], vi[9], vi[8], vi[7], vi[6], vi[5], vi[4], vi[3], vi[2], vi[1], vi[0])
fmt.Fprintf(&out, "\tv2_int={ %02x%02x%02x%02x%02x%02x%02x%02x %02x%02x%02x%02x%02x%02x%02x%02x }", vi[7], vi[6], vi[5], vi[4], vi[3], vi[2], vi[1], vi[0], vi[15], vi[14], vi[13], vi[12], vi[11], vi[10], vi[9], vi[8])
fmt.Fprintf(&out, "\tv4_int={ %02x%02x%02x%02x %02x%02x%02x%02x %02x%02x%02x%02x %02x%02x%02x%02x }", vi[3], vi[2], vi[1], vi[0], vi[7], vi[6], vi[5], vi[4], vi[11], vi[10], vi[9], vi[8], vi[15], vi[14], vi[13], vi[12])
fmt.Fprintf(&out, "\tv8_int={ %02x%02x %02x%02x %02x%02x %02x%02x %02x%02x %02x%02x %02x%02x %02x%02x }", vi[1], vi[0], vi[3], vi[2], vi[5], vi[4], vi[7], vi[6], vi[9], vi[8], vi[11], vi[10], vi[13], vi[12], vi[15], vi[14])
fmt.Fprintf(&out, "\tv16_int={ %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x }", vi[0], vi[1], vi[2], vi[3], vi[4], vi[5], vi[6], vi[7], vi[8], vi[9], vi[10], vi[11], vi[12], vi[13], vi[14], vi[15])
buf.Seek(0, os.SEEK_SET)
var v2 [2]float64
for i := range v2 {
binary.Read(buf, binary.LittleEndian, &v2[i])
}
fmt.Fprintf(&out, "\tv2_float={ %g %g }", v2[0], v2[1])
buf.Seek(0, os.SEEK_SET)
var v4 [4]float32
for i := range v4 {
binary.Read(buf, binary.LittleEndian, &v4[i])
}
fmt.Fprintf(&out, "\tv4_float={ %g %g %g %g }", v4[0], v4[1], v4[2], v4[3])
return append(regs, Register{name, out.String()})
}
var UnknownRegisterError = errors.New("unknown register")
// Registers obtains register values from the debugged process.
func (t *Thread) Registers(floatingPoint bool) (Registers, error) {
return registers(t, floatingPoint)
}
// PC returns the current PC for this thread.
func (t *Thread) PC() (uint64, error) {
regs, err := t.Registers(false)
if err != nil {
return 0, err
}
return regs.PC(), nil
}
type flagRegisterDescr []flagDescr
type flagDescr struct {
name string
mask uint64
}
var mxcsrDescription flagRegisterDescr = []flagDescr{
{"FZ", 1 << 15},
{"RZ/RN", 1<<14 | 1<<13},
{"PM", 1 << 12},
{"UM", 1 << 11},
{"OM", 1 << 10},
{"ZM", 1 << 9},
{"DM", 1 << 8},
{"IM", 1 << 7},
{"DAZ", 1 << 6},
{"PE", 1 << 5},
{"UE", 1 << 4},
{"OE", 1 << 3},
{"ZE", 1 << 2},
{"DE", 1 << 1},
{"IE", 1 << 0},
}
var eflagsDescription flagRegisterDescr = []flagDescr{
{"CF", 1 << 0},
{"", 1 << 1},
{"PF", 1 << 2},
{"AF", 1 << 4},
{"ZF", 1 << 6},
{"SF", 1 << 7},
{"TF", 1 << 8},
{"IF", 1 << 9},
{"DF", 1 << 10},
{"OF", 1 << 11},
{"IOPL", 1<<12 | 1<<13},
{"NT", 1 << 14},
{"RF", 1 << 16},
{"VM", 1 << 17},
{"AC", 1 << 18},
{"VIF", 1 << 19},
{"VIP", 1 << 20},
{"ID", 1 << 21},
}
func (descr flagRegisterDescr) Mask() uint64 {
var r uint64
for _, f := range descr {
r = r | f.mask
}
return r
}
func (descr flagRegisterDescr) Describe(reg uint64, bitsize int) string {
var r []string
for _, f := range descr {
if f.name == "" {
continue
}
// rbm is f.mask with only the right-most bit set:
// 0001 1100 -> 0000 0100
rbm := f.mask & -f.mask
if rbm == f.mask {
if reg&f.mask != 0 {
r = append(r, f.name)
}
} else {
x := (reg & f.mask) >> uint64(math.Log2(float64(rbm)))
r = append(r, fmt.Sprintf("%s=%x", f.name, x))
}
}
if reg & ^descr.Mask() != 0 {
r = append(r, fmt.Sprintf("unknown_flags=%x", reg&^descr.Mask()))
}
return fmt.Sprintf("%#0*x\t[%s]", bitsize/4, reg, strings.Join(r, " "))
}