func MemReadPointer(as AS.AddressSpace, va AS.VA, mode Mode) (AS.VA, error) {
if mode == MODE_32 {
var data uint32
d, e := as.MemRead(va, 0x4)
if e != nil {
return AS.VA(0), e
}
p := bytes.NewBuffer(d)
binary.Read(p, binary.LittleEndian, &data)
return AS.VA(uint64(data)), nil
} else if mode == MODE_64 {
var data uint64
d, e := as.MemRead(va, 0x8)
if e != nil {
return AS.VA(0), e
}
p := bytes.NewBuffer(d)
binary.Read(p, binary.LittleEndian, &data)
return AS.VA(uint64(data)), nil
} else {
return 0, InvalidModeError
}
}
func DumpMemoryRegions(as AS.AddressSpace) error {
fmt.Printf("=== memory map ===\n")
mmaps, e := as.GetMaps()
check(e)
for _, region := range mmaps {
fmt.Printf(" name: %s\n", region.Name)
fmt.Printf(" address: %s\n", region.Address)
fmt.Printf(" length: %x\n", region.Length)
}
return nil
}
// ReadInstruction fetches bytes from the provided address space at the given
// address and parses them into a single instruction instance.
func (dis *GapstoneDisassembler) ReadInstruction(as AS.AddressSpace, va AS.VA) (gapstone.Instruction, error) {
d, e := as.MemRead(va, uint64(MAX_INSN_SIZE))
if e != nil {
logrus.Warnf("read instruction invalid: %s 0x%x", va, MAX_INSN_SIZE)
}
check(e)
if e != nil {
return gapstone.Instruction{}, AS.ErrInvalidMemoryRead
}
n := gapstone.Engine(*dis)
insns, e := n.Disasm(d, uint64(va), 1)
check(e)
if e != nil {
return gapstone.Instruction{}, ErrFailedToDisassembleInstruction
}
if len(insns) == 0 {
return gapstone.Instruction{}, ErrFailedToDisassembleInstruction
}
insn := insns[0]
return insn, nil
}
func ProbeMemory(as AS.AddressSpace, va AS.VA, size uint64) bool {
_, e := as.MemRead(va, size)
return e == nil
}
