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ceph-csi/e2e/vendor/github.com/modern-go/reflect2/unsafe_slice.go
Niels de Vos f87d06ed85 build: move e2e dependencies into e2e/go.mod 
Several packages are only used while running the e2e suite. These
packages are less important to update, as the they can not influence the
final executable that is part of the Ceph-CSI container-image.

By moving these dependencies out of the main Ceph-CSI go.mod, it is
easier to identify if a reported CVE affects Ceph-CSI, or only the
testing (like most of the Kubernetes CVEs).

Signed-off-by: Niels de Vos <ndevos@ibm.com>
2025-03-04 17:43:49 +01:00

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package reflect2
import (
"reflect"
"unsafe"
)
// sliceHeader is a safe version of SliceHeader used within this package.
type sliceHeader struct {
Data unsafe.Pointer
Len int
Cap int
}
type UnsafeSliceType struct {
unsafeType
elemRType unsafe.Pointer
pElemRType unsafe.Pointer
elemSize uintptr
}
func newUnsafeSliceType(cfg *frozenConfig, type1 reflect.Type) SliceType {
elemType := type1.Elem()
return &UnsafeSliceType{
unsafeType: *newUnsafeType(cfg, type1),
pElemRType: unpackEFace(reflect.PtrTo(elemType)).data,
elemRType: unpackEFace(elemType).data,
elemSize: elemType.Size(),
}
}
func (type2 *UnsafeSliceType) Set(obj interface{}, val interface{}) {
objEFace := unpackEFace(obj)
assertType("Type.Set argument 1", type2.ptrRType, objEFace.rtype)
valEFace := unpackEFace(val)
assertType("Type.Set argument 2", type2.ptrRType, valEFace.rtype)
type2.UnsafeSet(objEFace.data, valEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeSet(ptr unsafe.Pointer, val unsafe.Pointer) {
*(*sliceHeader)(ptr) = *(*sliceHeader)(val)
}
func (type2 *UnsafeSliceType) IsNil(obj interface{}) bool {
if obj == nil {
return true
}
objEFace := unpackEFace(obj)
assertType("Type.IsNil argument 1", type2.ptrRType, objEFace.rtype)
return type2.UnsafeIsNil(objEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeIsNil(ptr unsafe.Pointer) bool {
if ptr == nil {
return true
}
return (*sliceHeader)(ptr).Data == nil
}
func (type2 *UnsafeSliceType) SetNil(obj interface{}) {
objEFace := unpackEFace(obj)
assertType("SliceType.SetNil argument 1", type2.ptrRType, objEFace.rtype)
type2.UnsafeSetNil(objEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeSetNil(ptr unsafe.Pointer) {
header := (*sliceHeader)(ptr)
header.Len = 0
header.Cap = 0
header.Data = nil
}
func (type2 *UnsafeSliceType) MakeSlice(length int, cap int) interface{} {
return packEFace(type2.ptrRType, type2.UnsafeMakeSlice(length, cap))
}
func (type2 *UnsafeSliceType) UnsafeMakeSlice(length int, cap int) unsafe.Pointer {
header := &sliceHeader{unsafe_NewArray(type2.elemRType, cap), length, cap}
return unsafe.Pointer(header)
}
func (type2 *UnsafeSliceType) LengthOf(obj interface{}) int {
objEFace := unpackEFace(obj)
assertType("SliceType.Len argument 1", type2.ptrRType, objEFace.rtype)
return type2.UnsafeLengthOf(objEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeLengthOf(obj unsafe.Pointer) int {
header := (*sliceHeader)(obj)
return header.Len
}
func (type2 *UnsafeSliceType) SetIndex(obj interface{}, index int, elem interface{}) {
objEFace := unpackEFace(obj)
assertType("SliceType.SetIndex argument 1", type2.ptrRType, objEFace.rtype)
elemEFace := unpackEFace(elem)
assertType("SliceType.SetIndex argument 3", type2.pElemRType, elemEFace.rtype)
type2.UnsafeSetIndex(objEFace.data, index, elemEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeSetIndex(obj unsafe.Pointer, index int, elem unsafe.Pointer) {
header := (*sliceHeader)(obj)
elemPtr := arrayAt(header.Data, index, type2.elemSize, "i < s.Len")
typedmemmove(type2.elemRType, elemPtr, elem)
}
func (type2 *UnsafeSliceType) GetIndex(obj interface{}, index int) interface{} {
objEFace := unpackEFace(obj)
assertType("SliceType.GetIndex argument 1", type2.ptrRType, objEFace.rtype)
elemPtr := type2.UnsafeGetIndex(objEFace.data, index)
return packEFace(type2.pElemRType, elemPtr)
}
func (type2 *UnsafeSliceType) UnsafeGetIndex(obj unsafe.Pointer, index int) unsafe.Pointer {
header := (*sliceHeader)(obj)
return arrayAt(header.Data, index, type2.elemSize, "i < s.Len")
}
func (type2 *UnsafeSliceType) Append(obj interface{}, elem interface{}) {
objEFace := unpackEFace(obj)
assertType("SliceType.Append argument 1", type2.ptrRType, objEFace.rtype)
elemEFace := unpackEFace(elem)
assertType("SliceType.Append argument 2", type2.pElemRType, elemEFace.rtype)
type2.UnsafeAppend(objEFace.data, elemEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeAppend(obj unsafe.Pointer, elem unsafe.Pointer) {
header := (*sliceHeader)(obj)
oldLen := header.Len
type2.UnsafeGrow(obj, oldLen+1)
type2.UnsafeSetIndex(obj, oldLen, elem)
}
func (type2 *UnsafeSliceType) Cap(obj interface{}) int {
objEFace := unpackEFace(obj)
assertType("SliceType.Cap argument 1", type2.ptrRType, objEFace.rtype)
return type2.UnsafeCap(objEFace.data)
}
func (type2 *UnsafeSliceType) UnsafeCap(ptr unsafe.Pointer) int {
return (*sliceHeader)(ptr).Cap
}
func (type2 *UnsafeSliceType) Grow(obj interface{}, newLength int) {
objEFace := unpackEFace(obj)
assertType("SliceType.Grow argument 1", type2.ptrRType, objEFace.rtype)
type2.UnsafeGrow(objEFace.data, newLength)
}
func (type2 *UnsafeSliceType) UnsafeGrow(obj unsafe.Pointer, newLength int) {
header := (*sliceHeader)(obj)
if newLength <= header.Cap {
header.Len = newLength
return
}
newCap := calcNewCap(header.Cap, newLength)
newHeader := (*sliceHeader)(type2.UnsafeMakeSlice(header.Len, newCap))
typedslicecopy(type2.elemRType, *newHeader, *header)
header.Data = newHeader.Data
header.Cap = newHeader.Cap
header.Len = newLength
}
func calcNewCap(cap int, expectedCap int) int {
if cap == 0 {
cap = expectedCap
} else {
for cap < expectedCap {
if cap < 1024 {
cap += cap
} else {
cap += cap / 4
}
}
}
return cap
}
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