// This file is generated by rust-protobuf 2.27.1. Do not edit // @generated // https://github.com/rust-lang/rust-clippy/issues/702 #![allow(unknown_lints)] #![allow(clippy::all)] #![allow(unused_attributes)] #![cfg_attr(rustfmt, rustfmt::skip)] #![allow(box_pointers)] #![allow(dead_code)] #![allow(missing_docs)] #![allow(non_camel_case_types)] #![allow(non_snake_case)] #![allow(non_upper_case_globals)] #![allow(trivial_casts)] #![allow(unused_imports)] #![allow(unused_results)] //! Generated file from `key.proto` /// Generated files are compatible only with the same version /// of protobuf runtime. // const _PROTOBUF_VERSION_CHECK: () = ::protobuf::VERSION_2_27_1; #[derive(PartialEq,Clone,Default,Debug)] pub struct KeyPrivileges { // message fields add: ::std::option::Option, remove: ::std::option::Option, update: ::std::option::Option, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a KeyPrivileges { fn default() -> &'a KeyPrivileges { ::default_instance() } } impl KeyPrivileges { pub fn new() -> KeyPrivileges { ::std::default::Default::default() } // optional bool add = 2; pub fn get_add(&self) -> bool { self.add.unwrap_or(true) } pub fn clear_add(&mut self) { self.add = ::std::option::Option::None; } pub fn has_add(&self) -> bool { self.add.is_some() } // Param is passed by value, moved pub fn set_add(&mut self, v: bool) { self.add = ::std::option::Option::Some(v); } // optional bool remove = 3; pub fn get_remove(&self) -> bool { self.remove.unwrap_or(true) } pub fn clear_remove(&mut self) { self.remove = ::std::option::Option::None; } pub fn has_remove(&self) -> bool { self.remove.is_some() } // Param is passed by value, moved pub fn set_remove(&mut self, v: bool) { self.remove = ::std::option::Option::Some(v); } // optional bool update = 4; pub fn get_update(&self) -> bool { self.update.unwrap_or(true) } pub fn clear_update(&mut self) { self.update = ::std::option::Option::None; } pub fn has_update(&self) -> bool { self.update.is_some() } // Param is passed by value, moved pub fn set_update(&mut self, v: bool) { self.update = ::std::option::Option::Some(v); } } impl ::protobuf::Message for KeyPrivileges { fn is_initialized(&self) -> bool { true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 2 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_bool()?; self.add = ::std::option::Option::Some(tmp); }, 3 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_bool()?; self.remove = ::std::option::Option::Some(tmp); }, 4 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_bool()?; self.update = ::std::option::Option::Some(tmp); }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(v) = self.add { my_size += 2; } if let Some(v) = self.remove { my_size += 2; } if let Some(v) = self.update { my_size += 2; } my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(v) = self.add { os.write_bool(2, v)?; } if let Some(v) = self.remove { os.write_bool(3, v)?; } if let Some(v) = self.update { os.write_bool(4, v)?; } os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> KeyPrivileges { KeyPrivileges::new() } fn default_instance() -> &'static KeyPrivileges { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(KeyPrivileges::new) } } impl ::protobuf::Clear for KeyPrivileges { fn clear(&mut self) { self.add = ::std::option::Option::None; self.remove = ::std::option::Option::None; self.update = ::std::option::Option::None; self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for KeyPrivileges { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct KeyProviderData { // message fields pub entry: ::protobuf::RepeatedField, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a KeyProviderData { fn default() -> &'a KeyProviderData { ::default_instance() } } impl KeyProviderData { pub fn new() -> KeyProviderData { ::std::default::Default::default() } // repeated .cryptohome.KeyProviderData.Entry entry = 1; pub fn get_entry(&self) -> &[KeyProviderData_Entry] { &self.entry } pub fn clear_entry(&mut self) { self.entry.clear(); } // Param is passed by value, moved pub fn set_entry(&mut self, v: ::protobuf::RepeatedField) { self.entry = v; } // Mutable pointer to the field. pub fn mut_entry(&mut self) -> &mut ::protobuf::RepeatedField { &mut self.entry } // Take field pub fn take_entry(&mut self) -> ::protobuf::RepeatedField { ::std::mem::replace(&mut self.entry, ::protobuf::RepeatedField::new()) } } impl ::protobuf::Message for KeyProviderData { fn is_initialized(&self) -> bool { for v in &self.entry { if !v.is_initialized() { return false; } }; true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { ::protobuf::rt::read_repeated_message_into(wire_type, is, &mut self.entry)?; }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; for value in &self.entry { let len = value.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; }; my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { for v in &self.entry { os.write_tag(1, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; }; os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> KeyProviderData { KeyProviderData::new() } fn default_instance() -> &'static KeyProviderData { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(KeyProviderData::new) } } impl ::protobuf::Clear for KeyProviderData { fn clear(&mut self) { self.entry.clear(); self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for KeyProviderData { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct KeyProviderData_Entry { // message fields name: ::protobuf::SingularField<::std::string::String>, number: ::std::option::Option, bytes: ::protobuf::SingularField<::std::vec::Vec>, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a KeyProviderData_Entry { fn default() -> &'a KeyProviderData_Entry { ::default_instance() } } impl KeyProviderData_Entry { pub fn new() -> KeyProviderData_Entry { ::std::default::Default::default() } // optional string name = 1; pub fn get_name(&self) -> &str { match self.name.as_ref() { Some(v) => &v, None => "", } } pub fn clear_name(&mut self) { self.name.clear(); } pub fn has_name(&self) -> bool { self.name.is_some() } // Param is passed by value, moved pub fn set_name(&mut self, v: ::std::string::String) { self.name = ::protobuf::SingularField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_name(&mut self) -> &mut ::std::string::String { if self.name.is_none() { self.name.set_default(); } self.name.as_mut().unwrap() } // Take field pub fn take_name(&mut self) -> ::std::string::String { self.name.take().unwrap_or_else(|| ::std::string::String::new()) } // optional int64 number = 2; pub fn get_number(&self) -> i64 { self.number.unwrap_or(0) } pub fn clear_number(&mut self) { self.number = ::std::option::Option::None; } pub fn has_number(&self) -> bool { self.number.is_some() } // Param is passed by value, moved pub fn set_number(&mut self, v: i64) { self.number = ::std::option::Option::Some(v); } // optional bytes bytes = 3; pub fn get_bytes(&self) -> &[u8] { match self.bytes.as_ref() { Some(v) => &v, None => &[], } } pub fn clear_bytes(&mut self) { self.bytes.clear(); } pub fn has_bytes(&self) -> bool { self.bytes.is_some() } // Param is passed by value, moved pub fn set_bytes(&mut self, v: ::std::vec::Vec) { self.bytes = ::protobuf::SingularField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_bytes(&mut self) -> &mut ::std::vec::Vec { if self.bytes.is_none() { self.bytes.set_default(); } self.bytes.as_mut().unwrap() } // Take field pub fn take_bytes(&mut self) -> ::std::vec::Vec { self.bytes.take().unwrap_or_else(|| ::std::vec::Vec::new()) } } impl ::protobuf::Message for KeyProviderData_Entry { fn is_initialized(&self) -> bool { true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { ::protobuf::rt::read_singular_string_into(wire_type, is, &mut self.name)?; }, 2 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_int64()?; self.number = ::std::option::Option::Some(tmp); }, 3 => { ::protobuf::rt::read_singular_bytes_into(wire_type, is, &mut self.bytes)?; }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(ref v) = self.name.as_ref() { my_size += ::protobuf::rt::string_size(1, &v); } if let Some(v) = self.number { my_size += ::protobuf::rt::value_size(2, v, ::protobuf::wire_format::WireTypeVarint); } if let Some(ref v) = self.bytes.as_ref() { my_size += ::protobuf::rt::bytes_size(3, &v); } my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(ref v) = self.name.as_ref() { os.write_string(1, &v)?; } if let Some(v) = self.number { os.write_int64(2, v)?; } if let Some(ref v) = self.bytes.as_ref() { os.write_bytes(3, &v)?; } os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> KeyProviderData_Entry { KeyProviderData_Entry::new() } fn default_instance() -> &'static KeyProviderData_Entry { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(KeyProviderData_Entry::new) } } impl ::protobuf::Clear for KeyProviderData_Entry { fn clear(&mut self) { self.name.clear(); self.number = ::std::option::Option::None; self.bytes.clear(); self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for KeyProviderData_Entry { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct ChallengePublicKeyInfo { // message fields public_key_spki_der: ::protobuf::SingularField<::std::vec::Vec>, pub signature_algorithm: ::std::vec::Vec, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a ChallengePublicKeyInfo { fn default() -> &'a ChallengePublicKeyInfo { ::default_instance() } } impl ChallengePublicKeyInfo { pub fn new() -> ChallengePublicKeyInfo { ::std::default::Default::default() } // optional bytes public_key_spki_der = 1; pub fn get_public_key_spki_der(&self) -> &[u8] { match self.public_key_spki_der.as_ref() { Some(v) => &v, None => &[], } } pub fn clear_public_key_spki_der(&mut self) { self.public_key_spki_der.clear(); } pub fn has_public_key_spki_der(&self) -> bool { self.public_key_spki_der.is_some() } // Param is passed by value, moved pub fn set_public_key_spki_der(&mut self, v: ::std::vec::Vec) { self.public_key_spki_der = ::protobuf::SingularField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_public_key_spki_der(&mut self) -> &mut ::std::vec::Vec { if self.public_key_spki_der.is_none() { self.public_key_spki_der.set_default(); } self.public_key_spki_der.as_mut().unwrap() } // Take field pub fn take_public_key_spki_der(&mut self) -> ::std::vec::Vec { self.public_key_spki_der.take().unwrap_or_else(|| ::std::vec::Vec::new()) } // repeated .cryptohome.ChallengeSignatureAlgorithm signature_algorithm = 2; pub fn get_signature_algorithm(&self) -> &[ChallengeSignatureAlgorithm] { &self.signature_algorithm } pub fn clear_signature_algorithm(&mut self) { self.signature_algorithm.clear(); } // Param is passed by value, moved pub fn set_signature_algorithm(&mut self, v: ::std::vec::Vec) { self.signature_algorithm = v; } // Mutable pointer to the field. pub fn mut_signature_algorithm(&mut self) -> &mut ::std::vec::Vec { &mut self.signature_algorithm } // Take field pub fn take_signature_algorithm(&mut self) -> ::std::vec::Vec { ::std::mem::replace(&mut self.signature_algorithm, ::std::vec::Vec::new()) } } impl ::protobuf::Message for ChallengePublicKeyInfo { fn is_initialized(&self) -> bool { true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { ::protobuf::rt::read_singular_bytes_into(wire_type, is, &mut self.public_key_spki_der)?; }, 2 => { ::protobuf::rt::read_repeated_enum_with_unknown_fields_into(wire_type, is, &mut self.signature_algorithm, 2, &mut self.unknown_fields)? }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(ref v) = self.public_key_spki_der.as_ref() { my_size += ::protobuf::rt::bytes_size(1, &v); } for value in &self.signature_algorithm { my_size += ::protobuf::rt::enum_size(2, *value); }; my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(ref v) = self.public_key_spki_der.as_ref() { os.write_bytes(1, &v)?; } for v in &self.signature_algorithm { os.write_enum(2, ::protobuf::ProtobufEnum::value(v))?; }; os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> ChallengePublicKeyInfo { ChallengePublicKeyInfo::new() } fn default_instance() -> &'static ChallengePublicKeyInfo { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(ChallengePublicKeyInfo::new) } } impl ::protobuf::Clear for ChallengePublicKeyInfo { fn clear(&mut self) { self.public_key_spki_der.clear(); self.signature_algorithm.clear(); self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for ChallengePublicKeyInfo { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct KeyPolicy { // message fields low_entropy_credential: ::std::option::Option, auth_locked: ::std::option::Option, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a KeyPolicy { fn default() -> &'a KeyPolicy { ::default_instance() } } impl KeyPolicy { pub fn new() -> KeyPolicy { ::std::default::Default::default() } // optional bool low_entropy_credential = 1; pub fn get_low_entropy_credential(&self) -> bool { self.low_entropy_credential.unwrap_or(false) } pub fn clear_low_entropy_credential(&mut self) { self.low_entropy_credential = ::std::option::Option::None; } pub fn has_low_entropy_credential(&self) -> bool { self.low_entropy_credential.is_some() } // Param is passed by value, moved pub fn set_low_entropy_credential(&mut self, v: bool) { self.low_entropy_credential = ::std::option::Option::Some(v); } // optional bool auth_locked = 2; pub fn get_auth_locked(&self) -> bool { self.auth_locked.unwrap_or(false) } pub fn clear_auth_locked(&mut self) { self.auth_locked = ::std::option::Option::None; } pub fn has_auth_locked(&self) -> bool { self.auth_locked.is_some() } // Param is passed by value, moved pub fn set_auth_locked(&mut self, v: bool) { self.auth_locked = ::std::option::Option::Some(v); } } impl ::protobuf::Message for KeyPolicy { fn is_initialized(&self) -> bool { true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_bool()?; self.low_entropy_credential = ::std::option::Option::Some(tmp); }, 2 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_bool()?; self.auth_locked = ::std::option::Option::Some(tmp); }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(v) = self.low_entropy_credential { my_size += 2; } if let Some(v) = self.auth_locked { my_size += 2; } my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(v) = self.low_entropy_credential { os.write_bool(1, v)?; } if let Some(v) = self.auth_locked { os.write_bool(2, v)?; } os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> KeyPolicy { KeyPolicy::new() } fn default_instance() -> &'static KeyPolicy { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(KeyPolicy::new) } } impl ::protobuf::Clear for KeyPolicy { fn clear(&mut self) { self.low_entropy_credential = ::std::option::Option::None; self.auth_locked = ::std::option::Option::None; self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for KeyPolicy { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct KeyData { // message fields field_type: ::std::option::Option, label: ::protobuf::SingularField<::std::string::String>, pub privileges: ::protobuf::SingularPtrField, revision: ::std::option::Option, pub provider_data: ::protobuf::SingularPtrField, pub challenge_response_key: ::protobuf::RepeatedField, pub policy: ::protobuf::SingularPtrField, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a KeyData { fn default() -> &'a KeyData { ::default_instance() } } impl KeyData { pub fn new() -> KeyData { ::std::default::Default::default() } // optional .cryptohome.KeyData.KeyType type = 1; pub fn get_field_type(&self) -> KeyData_KeyType { self.field_type.unwrap_or(KeyData_KeyType::KEY_TYPE_PASSWORD) } pub fn clear_field_type(&mut self) { self.field_type = ::std::option::Option::None; } pub fn has_field_type(&self) -> bool { self.field_type.is_some() } // Param is passed by value, moved pub fn set_field_type(&mut self, v: KeyData_KeyType) { self.field_type = ::std::option::Option::Some(v); } // optional string label = 2; pub fn get_label(&self) -> &str { match self.label.as_ref() { Some(v) => &v, None => "", } } pub fn clear_label(&mut self) { self.label.clear(); } pub fn has_label(&self) -> bool { self.label.is_some() } // Param is passed by value, moved pub fn set_label(&mut self, v: ::std::string::String) { self.label = ::protobuf::SingularField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_label(&mut self) -> &mut ::std::string::String { if self.label.is_none() { self.label.set_default(); } self.label.as_mut().unwrap() } // Take field pub fn take_label(&mut self) -> ::std::string::String { self.label.take().unwrap_or_else(|| ::std::string::String::new()) } // optional .cryptohome.KeyPrivileges privileges = 3; pub fn get_privileges(&self) -> &KeyPrivileges { self.privileges.as_ref().unwrap_or_else(|| ::default_instance()) } pub fn clear_privileges(&mut self) { self.privileges.clear(); } pub fn has_privileges(&self) -> bool { self.privileges.is_some() } // Param is passed by value, moved pub fn set_privileges(&mut self, v: KeyPrivileges) { self.privileges = ::protobuf::SingularPtrField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_privileges(&mut self) -> &mut KeyPrivileges { if self.privileges.is_none() { self.privileges.set_default(); } self.privileges.as_mut().unwrap() } // Take field pub fn take_privileges(&mut self) -> KeyPrivileges { self.privileges.take().unwrap_or_else(|| KeyPrivileges::new()) } // optional int64 revision = 4; pub fn get_revision(&self) -> i64 { self.revision.unwrap_or(0) } pub fn clear_revision(&mut self) { self.revision = ::std::option::Option::None; } pub fn has_revision(&self) -> bool { self.revision.is_some() } // Param is passed by value, moved pub fn set_revision(&mut self, v: i64) { self.revision = ::std::option::Option::Some(v); } // optional .cryptohome.KeyProviderData provider_data = 6; pub fn get_provider_data(&self) -> &KeyProviderData { self.provider_data.as_ref().unwrap_or_else(|| ::default_instance()) } pub fn clear_provider_data(&mut self) { self.provider_data.clear(); } pub fn has_provider_data(&self) -> bool { self.provider_data.is_some() } // Param is passed by value, moved pub fn set_provider_data(&mut self, v: KeyProviderData) { self.provider_data = ::protobuf::SingularPtrField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_provider_data(&mut self) -> &mut KeyProviderData { if self.provider_data.is_none() { self.provider_data.set_default(); } self.provider_data.as_mut().unwrap() } // Take field pub fn take_provider_data(&mut self) -> KeyProviderData { self.provider_data.take().unwrap_or_else(|| KeyProviderData::new()) } // repeated .cryptohome.ChallengePublicKeyInfo challenge_response_key = 7; pub fn get_challenge_response_key(&self) -> &[ChallengePublicKeyInfo] { &self.challenge_response_key } pub fn clear_challenge_response_key(&mut self) { self.challenge_response_key.clear(); } // Param is passed by value, moved pub fn set_challenge_response_key(&mut self, v: ::protobuf::RepeatedField) { self.challenge_response_key = v; } // Mutable pointer to the field. pub fn mut_challenge_response_key(&mut self) -> &mut ::protobuf::RepeatedField { &mut self.challenge_response_key } // Take field pub fn take_challenge_response_key(&mut self) -> ::protobuf::RepeatedField { ::std::mem::replace(&mut self.challenge_response_key, ::protobuf::RepeatedField::new()) } // optional .cryptohome.KeyPolicy policy = 8; pub fn get_policy(&self) -> &KeyPolicy { self.policy.as_ref().unwrap_or_else(|| ::default_instance()) } pub fn clear_policy(&mut self) { self.policy.clear(); } pub fn has_policy(&self) -> bool { self.policy.is_some() } // Param is passed by value, moved pub fn set_policy(&mut self, v: KeyPolicy) { self.policy = ::protobuf::SingularPtrField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_policy(&mut self) -> &mut KeyPolicy { if self.policy.is_none() { self.policy.set_default(); } self.policy.as_mut().unwrap() } // Take field pub fn take_policy(&mut self) -> KeyPolicy { self.policy.take().unwrap_or_else(|| KeyPolicy::new()) } } impl ::protobuf::Message for KeyData { fn is_initialized(&self) -> bool { for v in &self.privileges { if !v.is_initialized() { return false; } }; for v in &self.provider_data { if !v.is_initialized() { return false; } }; for v in &self.challenge_response_key { if !v.is_initialized() { return false; } }; for v in &self.policy { if !v.is_initialized() { return false; } }; true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { ::protobuf::rt::read_proto2_enum_with_unknown_fields_into(wire_type, is, &mut self.field_type, 1, &mut self.unknown_fields)? }, 2 => { ::protobuf::rt::read_singular_string_into(wire_type, is, &mut self.label)?; }, 3 => { ::protobuf::rt::read_singular_message_into(wire_type, is, &mut self.privileges)?; }, 4 => { if wire_type != ::protobuf::wire_format::WireTypeVarint { return ::std::result::Result::Err(::protobuf::rt::unexpected_wire_type(wire_type)); } let tmp = is.read_int64()?; self.revision = ::std::option::Option::Some(tmp); }, 6 => { ::protobuf::rt::read_singular_message_into(wire_type, is, &mut self.provider_data)?; }, 7 => { ::protobuf::rt::read_repeated_message_into(wire_type, is, &mut self.challenge_response_key)?; }, 8 => { ::protobuf::rt::read_singular_message_into(wire_type, is, &mut self.policy)?; }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(v) = self.field_type { my_size += ::protobuf::rt::enum_size(1, v); } if let Some(ref v) = self.label.as_ref() { my_size += ::protobuf::rt::string_size(2, &v); } if let Some(ref v) = self.privileges.as_ref() { let len = v.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; } if let Some(v) = self.revision { my_size += ::protobuf::rt::value_size(4, v, ::protobuf::wire_format::WireTypeVarint); } if let Some(ref v) = self.provider_data.as_ref() { let len = v.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; } for value in &self.challenge_response_key { let len = value.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; }; if let Some(ref v) = self.policy.as_ref() { let len = v.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; } my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(v) = self.field_type { os.write_enum(1, ::protobuf::ProtobufEnum::value(&v))?; } if let Some(ref v) = self.label.as_ref() { os.write_string(2, &v)?; } if let Some(ref v) = self.privileges.as_ref() { os.write_tag(3, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; } if let Some(v) = self.revision { os.write_int64(4, v)?; } if let Some(ref v) = self.provider_data.as_ref() { os.write_tag(6, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; } for v in &self.challenge_response_key { os.write_tag(7, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; }; if let Some(ref v) = self.policy.as_ref() { os.write_tag(8, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; } os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> KeyData { KeyData::new() } fn default_instance() -> &'static KeyData { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(KeyData::new) } } impl ::protobuf::Clear for KeyData { fn clear(&mut self) { self.field_type = ::std::option::Option::None; self.label.clear(); self.privileges.clear(); self.revision = ::std::option::Option::None; self.provider_data.clear(); self.challenge_response_key.clear(); self.policy.clear(); self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for KeyData { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(Clone,PartialEq,Eq,Debug,Hash)] pub enum KeyData_KeyType { KEY_TYPE_PASSWORD = 0, KEY_TYPE_CHALLENGE_RESPONSE = 1, KEY_TYPE_FINGERPRINT = 2, KEY_TYPE_KIOSK = 3, } impl ::protobuf::ProtobufEnum for KeyData_KeyType { fn value(&self) -> i32 { *self as i32 } fn from_i32(value: i32) -> ::std::option::Option { match value { 0 => ::std::option::Option::Some(KeyData_KeyType::KEY_TYPE_PASSWORD), 1 => ::std::option::Option::Some(KeyData_KeyType::KEY_TYPE_CHALLENGE_RESPONSE), 2 => ::std::option::Option::Some(KeyData_KeyType::KEY_TYPE_FINGERPRINT), 3 => ::std::option::Option::Some(KeyData_KeyType::KEY_TYPE_KIOSK), _ => ::std::option::Option::None } } fn values() -> &'static [Self] { static values: &'static [KeyData_KeyType] = &[ KeyData_KeyType::KEY_TYPE_PASSWORD, KeyData_KeyType::KEY_TYPE_CHALLENGE_RESPONSE, KeyData_KeyType::KEY_TYPE_FINGERPRINT, KeyData_KeyType::KEY_TYPE_KIOSK, ]; values } } impl ::std::marker::Copy for KeyData_KeyType { } impl ::std::default::Default for KeyData_KeyType { fn default() -> Self { KeyData_KeyType::KEY_TYPE_PASSWORD } } impl ::protobuf::reflect::ProtobufValue for KeyData_KeyType { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Enum(::protobuf::ProtobufEnum::descriptor(self)) } } #[derive(PartialEq,Clone,Default,Debug)] pub struct Key { // message fields pub data: ::protobuf::SingularPtrField, secret: ::protobuf::SingularField<::std::vec::Vec>, // special fields pub unknown_fields: ::protobuf::UnknownFields, pub cached_size: ::protobuf::CachedSize, } impl<'a> ::std::default::Default for &'a Key { fn default() -> &'a Key { ::default_instance() } } impl Key { pub fn new() -> Key { ::std::default::Default::default() } // optional .cryptohome.KeyData data = 1; pub fn get_data(&self) -> &KeyData { self.data.as_ref().unwrap_or_else(|| ::default_instance()) } pub fn clear_data(&mut self) { self.data.clear(); } pub fn has_data(&self) -> bool { self.data.is_some() } // Param is passed by value, moved pub fn set_data(&mut self, v: KeyData) { self.data = ::protobuf::SingularPtrField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_data(&mut self) -> &mut KeyData { if self.data.is_none() { self.data.set_default(); } self.data.as_mut().unwrap() } // Take field pub fn take_data(&mut self) -> KeyData { self.data.take().unwrap_or_else(|| KeyData::new()) } // optional bytes secret = 2; pub fn get_secret(&self) -> &[u8] { match self.secret.as_ref() { Some(v) => &v, None => &[], } } pub fn clear_secret(&mut self) { self.secret.clear(); } pub fn has_secret(&self) -> bool { self.secret.is_some() } // Param is passed by value, moved pub fn set_secret(&mut self, v: ::std::vec::Vec) { self.secret = ::protobuf::SingularField::some(v); } // Mutable pointer to the field. // If field is not initialized, it is initialized with default value first. pub fn mut_secret(&mut self) -> &mut ::std::vec::Vec { if self.secret.is_none() { self.secret.set_default(); } self.secret.as_mut().unwrap() } // Take field pub fn take_secret(&mut self) -> ::std::vec::Vec { self.secret.take().unwrap_or_else(|| ::std::vec::Vec::new()) } } impl ::protobuf::Message for Key { fn is_initialized(&self) -> bool { for v in &self.data { if !v.is_initialized() { return false; } }; true } fn merge_from(&mut self, is: &mut ::protobuf::CodedInputStream<'_>) -> ::protobuf::ProtobufResult<()> { while !is.eof()? { let (field_number, wire_type) = is.read_tag_unpack()?; match field_number { 1 => { ::protobuf::rt::read_singular_message_into(wire_type, is, &mut self.data)?; }, 2 => { ::protobuf::rt::read_singular_bytes_into(wire_type, is, &mut self.secret)?; }, _ => { ::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?; }, }; } ::std::result::Result::Ok(()) } // Compute sizes of nested messages #[allow(unused_variables)] fn compute_size(&self) -> u32 { let mut my_size = 0; if let Some(ref v) = self.data.as_ref() { let len = v.compute_size(); my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len; } if let Some(ref v) = self.secret.as_ref() { my_size += ::protobuf::rt::bytes_size(2, &v); } my_size += ::protobuf::rt::unknown_fields_size(self.get_unknown_fields()); self.cached_size.set(my_size); my_size } fn write_to_with_cached_sizes(&self, os: &mut ::protobuf::CodedOutputStream<'_>) -> ::protobuf::ProtobufResult<()> { if let Some(ref v) = self.data.as_ref() { os.write_tag(1, ::protobuf::wire_format::WireTypeLengthDelimited)?; os.write_raw_varint32(v.get_cached_size())?; v.write_to_with_cached_sizes(os)?; } if let Some(ref v) = self.secret.as_ref() { os.write_bytes(2, &v)?; } os.write_unknown_fields(self.get_unknown_fields())?; ::std::result::Result::Ok(()) } fn get_cached_size(&self) -> u32 { self.cached_size.get() } fn get_unknown_fields(&self) -> &::protobuf::UnknownFields { &self.unknown_fields } fn mut_unknown_fields(&mut self) -> &mut ::protobuf::UnknownFields { &mut self.unknown_fields } fn as_any(&self) -> &dyn (::std::any::Any) { self as &dyn (::std::any::Any) } fn as_any_mut(&mut self) -> &mut dyn (::std::any::Any) { self as &mut dyn (::std::any::Any) } fn into_any(self: ::std::boxed::Box) -> ::std::boxed::Box { self } fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor { Self::descriptor_static() } fn new() -> Key { Key::new() } fn default_instance() -> &'static Key { static instance: ::protobuf::rt::LazyV2 = ::protobuf::rt::LazyV2::INIT; instance.get(Key::new) } } impl ::protobuf::Clear for Key { fn clear(&mut self) { self.data.clear(); self.secret.clear(); self.unknown_fields.clear(); } } impl ::protobuf::reflect::ProtobufValue for Key { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Message(self) } } #[derive(Clone,PartialEq,Eq,Debug,Hash)] pub enum ChallengeSignatureAlgorithm { CHALLENGE_RSASSA_PKCS1_V1_5_SHA1 = 1, CHALLENGE_RSASSA_PKCS1_V1_5_SHA256 = 2, CHALLENGE_RSASSA_PKCS1_V1_5_SHA384 = 3, CHALLENGE_RSASSA_PKCS1_V1_5_SHA512 = 4, } impl ::protobuf::ProtobufEnum for ChallengeSignatureAlgorithm { fn value(&self) -> i32 { *self as i32 } fn from_i32(value: i32) -> ::std::option::Option { match value { 1 => ::std::option::Option::Some(ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA1), 2 => ::std::option::Option::Some(ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA256), 3 => ::std::option::Option::Some(ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA384), 4 => ::std::option::Option::Some(ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA512), _ => ::std::option::Option::None } } fn values() -> &'static [Self] { static values: &'static [ChallengeSignatureAlgorithm] = &[ ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA1, ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA256, ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA384, ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA512, ]; values } } impl ::std::marker::Copy for ChallengeSignatureAlgorithm { } // Note, `Default` is implemented although default value is not 0 impl ::std::default::Default for ChallengeSignatureAlgorithm { fn default() -> Self { ChallengeSignatureAlgorithm::CHALLENGE_RSASSA_PKCS1_V1_5_SHA1 } } impl ::protobuf::reflect::ProtobufValue for ChallengeSignatureAlgorithm { fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef { ::protobuf::reflect::ReflectValueRef::Enum(::protobuf::ProtobufEnum::descriptor(self)) } }