func (u *Usercorn) mapBinary(f *os.File, isInterp bool, arch string) (interpBase, entry, base, realEntry uint64, err error) {
var l models.Loader
l, err = loader.LoadArch(f, arch)
if err != nil {
return
}
if isInterp {
u.interpLoader = l
}
var dynamic bool
switch l.Type() {
case loader.EXEC:
dynamic = false
case loader.DYN:
dynamic = true
default:
err = errors.New("Unsupported file load type.")
return
}
// find segment bounds
segments, err := l.Segments()
if err != nil {
return
}
var low, high uint64
for _, seg := range segments {
if seg.Addr < low {
low = seg.Addr
}
h := seg.Addr + seg.Size
if h > high {
high = h
}
}
// map contiguous binary
loadBias := u.config.ForceBase
if isInterp {
loadBias = u.config.ForceInterpBase
}
if dynamic {
mapLow := low
if loadBias > 0 {
mapLow = loadBias
} else if mapLow == 0 {
mapLow = 0x1000000
}
var mmap *models.Mmap
mmap, err = u.Mmap(mapLow, high-low)
if err != nil {
return
}
loadBias = mmap.Addr - low
if isInterp {
mmap.Desc = "interp"
} else {
mmap.Desc = "exe"
}
}
// merge overlapping segments
merged := make([]*models.Segment, 0, len(segments))
outer:
for _, seg := range segments {
addr, size := align(seg.Addr, seg.Size, true)
s := &models.Segment{addr, addr + size, seg.Prot}
for _, s2 := range merged {
if s2.Overlaps(s) {
s2.Merge(s)
continue outer
}
}
merged = append(merged, s)
}
// map merged segments
for _, seg := range merged {
prot := seg.Prot
if prot == 0 {
prot = uc.PROT_ALL
}
if !dynamic {
err = u.MemMapProt(loadBias+seg.Start, seg.End-seg.Start, prot)
if mmap := u.mapping(loadBias+seg.Start, loadBias+seg.End); mmap != nil {
mmap.Desc = "exe"
}
}
// register binary for symbolication
u.RegisterAddr(f, loadBias+seg.Start, seg.End-seg.Start, int64(seg.Start))
if err != nil {
return
}
}
// write segment memory
var data []byte
for _, seg := range segments {
if data, err = seg.Data(); err != nil {
return
}
if err = u.MemWrite(loadBias+seg.Addr, data); err != nil {
return
}
}
entry = loadBias + l.Entry()
// load interpreter if present
interp := l.Interp()
if interp != "" && !isInterp && !u.config.SkipInterp {
f, err = os.Open(u.PrefixPath(interp, true))
if err != nil {
return
}
defer f.Close()
var interpBias, interpEntry uint64
_, _, interpBias, interpEntry, err = u.mapBinary(f, true, l.Arch())
if u.interpLoader.Arch() != l.Arch() {
err = fmt.Errorf("Interpreter arch mismatch: %s != %s", l.Arch(), u.interpLoader.Arch())
return
}
return interpBias, interpEntry, loadBias, entry, err
} else {
return 0, entry, loadBias, entry, nil
}
}
func (u *Usercorn) mapBinary(l models.Loader, isInterp bool) (interpBase, entry, base, realEntry uint64, err error) {
var dynamic bool
switch l.Type() {
case loader.EXEC:
dynamic = false
case loader.DYN:
dynamic = true
default:
err = errors.New("Unsupported file load type.")
return
}
segments, err := l.Segments()
if err != nil {
return
}
// merge overlapping segments
merged := make([]*models.Segment, 0, len(segments))
outer:
for _, seg := range segments {
addr, size := align(seg.Addr, seg.Size, true)
s := &models.Segment{addr, addr + size, seg.Prot}
for _, s2 := range merged {
if s2.Overlaps(s) {
s2.Merge(s)
continue outer
}
}
merged = append(merged, s)
}
// map merged segments
loadBias := u.ForceBase
if isInterp {
loadBias = u.ForceInterpBase
}
for _, seg := range merged {
size := seg.End - seg.Start
if dynamic && seg.Start == 0 && loadBias == 0 {
loadBias, err = u.Mmap(0x1000000, size)
} else {
prot := seg.Prot
if prot == 0 {
prot = uc.PROT_ALL
}
err = u.MemMapProt(loadBias+seg.Start, seg.End-seg.Start, prot)
}
if err != nil {
return
}
}
// write segment memory
var data []byte
for _, seg := range segments {
if data, err = seg.Data(); err != nil {
return
}
if err = u.MemWrite(loadBias+seg.Addr, data); err != nil {
return
}
}
entry = loadBias + l.Entry()
// load interpreter if present
interp := l.Interp()
if interp != "" && !isInterp {
var bin models.Loader
bin, err = loader.LoadFileArch(u.PrefixPath(interp, true), l.Arch())
if err != nil {
return
}
if bin.Arch() != l.Arch() {
err = fmt.Errorf("Interpreter arch mismatch: %s != %s", l.Arch() != bin.Arch())
return
}
u.interpLoader = bin
_, _, interpBias, interpEntry, err := u.mapBinary(bin, true)
return interpBias, interpEntry, loadBias, entry, err
} else {
return 0, entry, loadBias, entry, nil
}
}
