mirror of
https://github.com/ceph/ceph-csi.git
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4f0bb2315b
With Amazon STS and kubernetes cluster is configured with OIDC identity provider, credentials to access Amazon KMS can be fetched using oidc-token(serviceaccount token). Each tenant/namespace needs to create a secret with aws region, role and CMK ARN. Ceph-CSI will assume the given role with oidc token and access aws KMS, with given CMK to encrypt/decrypt DEK which will stored in the image metdata. Refer: https://docs.aws.amazon.com/STS/latest/APIReference/welcome.html Resolves: #2879 Signed-off-by: Rakshith R <rar@redhat.com>
303 lines
8.1 KiB
Go
303 lines
8.1 KiB
Go
package xml
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import (
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"encoding/base64"
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"fmt"
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"math/big"
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"strconv"
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"github.com/aws/smithy-go/encoding"
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)
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// Value represents an XML Value type
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// XML Value types: Object, Array, Map, String, Number, Boolean.
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type Value struct {
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w writer
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scratch *[]byte
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// xml start element is the associated start element for the Value
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startElement StartElement
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// indicates if the Value represents a flattened shape
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isFlattened bool
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}
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// newFlattenedValue returns a Value encoder. newFlattenedValue does NOT write the start element tag
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func newFlattenedValue(w writer, scratch *[]byte, startElement StartElement) Value {
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return Value{
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w: w,
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scratch: scratch,
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startElement: startElement,
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}
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}
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// newValue writes the start element xml tag and returns a Value
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func newValue(w writer, scratch *[]byte, startElement StartElement) Value {
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writeStartElement(w, startElement)
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return Value{w: w, scratch: scratch, startElement: startElement}
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}
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// writeStartElement takes in a start element and writes it.
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// It handles namespace, attributes in start element.
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func writeStartElement(w writer, el StartElement) error {
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if el.isZero() {
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return fmt.Errorf("xml start element cannot be nil")
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}
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w.WriteRune(leftAngleBracket)
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if len(el.Name.Space) != 0 {
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escapeString(w, el.Name.Space)
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w.WriteRune(colon)
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}
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escapeString(w, el.Name.Local)
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for _, attr := range el.Attr {
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w.WriteRune(' ')
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writeAttribute(w, &attr)
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}
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w.WriteRune(rightAngleBracket)
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return nil
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}
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// writeAttribute writes an attribute from a provided Attribute
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// For a namespace attribute, the attr.Name.Space must be defined as "xmlns".
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// https://www.w3.org/TR/REC-xml-names/#NT-DefaultAttName
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func writeAttribute(w writer, attr *Attr) {
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// if local, space both are not empty
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if len(attr.Name.Space) != 0 && len(attr.Name.Local) != 0 {
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escapeString(w, attr.Name.Space)
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w.WriteRune(colon)
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}
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// if prefix is empty, the default `xmlns` space should be used as prefix.
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if len(attr.Name.Local) == 0 {
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attr.Name.Local = attr.Name.Space
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}
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escapeString(w, attr.Name.Local)
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w.WriteRune(equals)
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w.WriteRune(quote)
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escapeString(w, attr.Value)
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w.WriteRune(quote)
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}
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// writeEndElement takes in a end element and writes it.
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func writeEndElement(w writer, el EndElement) error {
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if el.isZero() {
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return fmt.Errorf("xml end element cannot be nil")
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}
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w.WriteRune(leftAngleBracket)
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w.WriteRune(forwardSlash)
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if len(el.Name.Space) != 0 {
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escapeString(w, el.Name.Space)
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w.WriteRune(colon)
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}
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escapeString(w, el.Name.Local)
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w.WriteRune(rightAngleBracket)
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return nil
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}
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// String encodes v as a XML string.
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// It will auto close the parent xml element tag.
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func (xv Value) String(v string) {
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escapeString(xv.w, v)
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xv.Close()
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}
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// Byte encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Byte(v int8) {
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xv.Long(int64(v))
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}
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// Short encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Short(v int16) {
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xv.Long(int64(v))
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}
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// Integer encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Integer(v int32) {
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xv.Long(int64(v))
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}
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// Long encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Long(v int64) {
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*xv.scratch = strconv.AppendInt((*xv.scratch)[:0], v, 10)
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xv.w.Write(*xv.scratch)
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xv.Close()
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}
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// Float encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Float(v float32) {
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xv.float(float64(v), 32)
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xv.Close()
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}
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// Double encodes v as a XML number.
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// It will auto close the parent xml element tag.
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func (xv Value) Double(v float64) {
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xv.float(v, 64)
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xv.Close()
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}
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func (xv Value) float(v float64, bits int) {
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*xv.scratch = encoding.EncodeFloat((*xv.scratch)[:0], v, bits)
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xv.w.Write(*xv.scratch)
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}
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// Boolean encodes v as a XML boolean.
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// It will auto close the parent xml element tag.
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func (xv Value) Boolean(v bool) {
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*xv.scratch = strconv.AppendBool((*xv.scratch)[:0], v)
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xv.w.Write(*xv.scratch)
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xv.Close()
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}
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// Base64EncodeBytes writes v as a base64 value in XML string.
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// It will auto close the parent xml element tag.
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func (xv Value) Base64EncodeBytes(v []byte) {
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encodeByteSlice(xv.w, (*xv.scratch)[:0], v)
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xv.Close()
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}
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// BigInteger encodes v big.Int as XML value.
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// It will auto close the parent xml element tag.
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func (xv Value) BigInteger(v *big.Int) {
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xv.w.Write([]byte(v.Text(10)))
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xv.Close()
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}
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// BigDecimal encodes v big.Float as XML value.
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// It will auto close the parent xml element tag.
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func (xv Value) BigDecimal(v *big.Float) {
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if i, accuracy := v.Int64(); accuracy == big.Exact {
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xv.Long(i)
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return
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}
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xv.w.Write([]byte(v.Text('e', -1)))
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xv.Close()
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}
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// Write writes v directly to the xml document
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// if escapeXMLText is set to true, write will escape text.
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// It will auto close the parent xml element tag.
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func (xv Value) Write(v []byte, escapeXMLText bool) {
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// escape and write xml text
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if escapeXMLText {
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escapeText(xv.w, v)
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} else {
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// write xml directly
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xv.w.Write(v)
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}
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xv.Close()
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}
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// MemberElement does member element encoding. It returns a Value.
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// Member Element method should be used for all shapes except flattened shapes.
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//
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// A call to MemberElement will write nested element tags directly using the
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// provided start element. The value returned by MemberElement should be closed.
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func (xv Value) MemberElement(element StartElement) Value {
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return newValue(xv.w, xv.scratch, element)
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}
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// FlattenedElement returns flattened element encoding. It returns a Value.
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// This method should be used for flattened shapes.
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//
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// Unlike MemberElement, flattened element will NOT write element tags
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// directly for the associated start element.
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//
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// The value returned by the FlattenedElement does not need to be closed.
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func (xv Value) FlattenedElement(element StartElement) Value {
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v := newFlattenedValue(xv.w, xv.scratch, element)
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v.isFlattened = true
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return v
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}
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// Array returns an array encoder. By default, the members of array are
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// wrapped with `<member>` element tag.
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// If value is marked as flattened, the start element is used to wrap the members instead of
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// the `<member>` element.
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func (xv Value) Array() *Array {
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return newArray(xv.w, xv.scratch, arrayMemberWrapper, xv.startElement, xv.isFlattened)
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}
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/*
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ArrayWithCustomName returns an array encoder.
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It takes named start element as an argument, the named start element will used to wrap xml array entries.
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for eg, `<someList><customName>entry1</customName></someList>`
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Here `customName` named start element will be wrapped on each array member.
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*/
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func (xv Value) ArrayWithCustomName(element StartElement) *Array {
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return newArray(xv.w, xv.scratch, element, xv.startElement, xv.isFlattened)
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}
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/*
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Map returns a map encoder. By default, the map entries are
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wrapped with `<entry>` element tag.
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If value is marked as flattened, the start element is used to wrap the entry instead of
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the `<member>` element.
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*/
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func (xv Value) Map() *Map {
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// flattened map
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if xv.isFlattened {
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return newFlattenedMap(xv.w, xv.scratch, xv.startElement)
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}
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// un-flattened map
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return newMap(xv.w, xv.scratch)
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}
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// encodeByteSlice is modified copy of json encoder's encodeByteSlice.
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// It is used to base64 encode a byte slice.
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func encodeByteSlice(w writer, scratch []byte, v []byte) {
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if v == nil {
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return
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}
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encodedLen := base64.StdEncoding.EncodedLen(len(v))
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if encodedLen <= len(scratch) {
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// If the encoded bytes fit in e.scratch, avoid an extra
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// allocation and use the cheaper Encoding.Encode.
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dst := scratch[:encodedLen]
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base64.StdEncoding.Encode(dst, v)
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w.Write(dst)
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} else if encodedLen <= 1024 {
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// The encoded bytes are short enough to allocate for, and
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// Encoding.Encode is still cheaper.
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dst := make([]byte, encodedLen)
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base64.StdEncoding.Encode(dst, v)
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w.Write(dst)
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} else {
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// The encoded bytes are too long to cheaply allocate, and
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// Encoding.Encode is no longer noticeably cheaper.
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enc := base64.NewEncoder(base64.StdEncoding, w)
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enc.Write(v)
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enc.Close()
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}
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}
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// IsFlattened returns true if value is for flattened shape.
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func (xv Value) IsFlattened() bool {
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return xv.isFlattened
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}
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// Close closes the value.
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func (xv Value) Close() {
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writeEndElement(xv.w, xv.startElement.End())
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}
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