pub fn ser_generated_manifest_encryption(
input: &crate::types::GeneratedManifestEncryption,
writer: ::aws_smithy_xml::encode::ElWriter,
) -> ::std::result::Result<(), ::aws_smithy_types::error::operation::SerializationError> {
#[allow(unused_mut)]
let mut scope = writer.finish();
if let Some(_var_1) = &input.sses3 {
scope.start_el("SSE-S3").finish();
}
if let Some(var_2) = &input.ssekms {
let inner_writer = scope.start_el("SSE-KMS");
crate::protocol_serde::shape_ssekms_encryption::ser_ssekms_encryption(var_2, inner_writer)?
}
scope.finish();
Ok(())
}
#[allow(clippy::needless_question_mark)]
pub fn de_generated_manifest_encryption(
decoder: &mut ::aws_smithy_xml::decode::ScopedDecoder,
depth: u32,
) -> ::std::result::Result<crate::types::GeneratedManifestEncryption, ::aws_smithy_xml::decode::XmlDecodeError> {
if depth >= 128u32 {
return Err(::aws_smithy_xml::decode::XmlDecodeError::custom("maximum nesting depth exceeded"));
}
#[allow(unused_mut)]
let mut builder = crate::types::GeneratedManifestEncryption::builder();
while let Some(mut tag) = decoder.next_tag() {
match tag.start_el() {
s if s.matches("SSE-S3") => {
let var_3 =
Some(
crate::protocol_serde::shape_sses3_encryption::de_sses3_encryption(&mut tag, depth + 1)
?
)
;
builder = builder.set_sses3(var_3);
}
,
s if s.matches("SSE-KMS") => {
let var_4 =
Some(
crate::protocol_serde::shape_ssekms_encryption::de_ssekms_encryption(&mut tag, depth + 1)
?
)
;
builder = builder.set_ssekms(var_4);
}
,
_ => {}
}
}
Ok(builder.build())
}