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7 package unix
8
9 import "unsafe"
10
11 type mremapMmapper struct {
12 mmapper
13 mremap func(oldaddr uintptr, oldlength uintptr, newlength uintptr, flags int, newaddr uintptr) (xaddr uintptr, err error)
14 }
15
16 var mapper = &mremapMmapper{
17 mmapper: mmapper{
18 active: make(map[*byte][]byte),
19 mmap: mmap,
20 munmap: munmap,
21 },
22 mremap: mremap,
23 }
24
25 func (m *mremapMmapper) Mremap(oldData []byte, newLength int, flags int) (data []byte, err error) {
26 if newLength <= 0 || len(oldData) == 0 || len(oldData) != cap(oldData) || flags&mremapFixed != 0 {
27 return nil, EINVAL
28 }
29
30 pOld := &oldData[cap(oldData)-1]
31 m.Lock()
32 defer m.Unlock()
33 bOld := m.active[pOld]
34 if bOld == nil || &bOld[0] != &oldData[0] {
35 return nil, EINVAL
36 }
37 newAddr, errno := m.mremap(uintptr(unsafe.Pointer(&bOld[0])), uintptr(len(bOld)), uintptr(newLength), flags, 0)
38 if errno != nil {
39 return nil, errno
40 }
41 bNew := unsafe.Slice((*byte)(unsafe.Pointer(newAddr)), newLength)
42 pNew := &bNew[cap(bNew)-1]
43 if flags&mremapDontunmap == 0 {
44 delete(m.active, pOld)
45 }
46 m.active[pNew] = bNew
47 return bNew, nil
48 }
49
50 func Mremap(oldData []byte, newLength int, flags int) (data []byte, err error) {
51 return mapper.Mremap(oldData, newLength, flags)
52 }
53
54 func MremapPtr(oldAddr unsafe.Pointer, oldSize uintptr, newAddr unsafe.Pointer, newSize uintptr, flags int) (ret unsafe.Pointer, err error) {
55 xaddr, err := mapper.mremap(uintptr(oldAddr), oldSize, newSize, flags, uintptr(newAddr))
56 return unsafe.Pointer(xaddr), err
57 }
58
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