#![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)]
#[derive(PartialEq,Clone,Default)]
pub struct CoordinatedJob {
pub name: ::std::string::String,
pub num_tasks: i32,
pub unknown_fields: ::protobuf::UnknownFields,
pub cached_size: ::protobuf::CachedSize,
}
impl<'a> ::std::default::Default for &'a CoordinatedJob {
fn default() -> &'a CoordinatedJob {
<CoordinatedJob as ::protobuf::Message>::default_instance()
}
}
impl CoordinatedJob {
pub fn new() -> CoordinatedJob {
::std::default::Default::default()
}
pub fn get_name(&self) -> &str {
&self.name
}
pub fn clear_name(&mut self) {
self.name.clear();
}
pub fn set_name(&mut self, v: ::std::string::String) {
self.name = v;
}
pub fn mut_name(&mut self) -> &mut ::std::string::String {
&mut self.name
}
pub fn take_name(&mut self) -> ::std::string::String {
::std::mem::replace(&mut self.name, ::std::string::String::new())
}
pub fn get_num_tasks(&self) -> i32 {
self.num_tasks
}
pub fn clear_num_tasks(&mut self) {
self.num_tasks = 0;
}
pub fn set_num_tasks(&mut self, v: i32) {
self.num_tasks = v;
}
}
impl ::protobuf::Message for CoordinatedJob {
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_proto3_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_int32()?;
self.num_tasks = tmp;
},
_ => {
::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?;
},
};
}
::std::result::Result::Ok(())
}
#[allow(unused_variables)]
fn compute_size(&self) -> u32 {
let mut my_size = 0;
if !self.name.is_empty() {
my_size += ::protobuf::rt::string_size(1, &self.name);
}
if self.num_tasks != 0 {
my_size += ::protobuf::rt::value_size(2, self.num_tasks, ::protobuf::wire_format::WireTypeVarint);
}
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 !self.name.is_empty() {
os.write_string(1, &self.name)?;
}
if self.num_tasks != 0 {
os.write_int32(2, self.num_tasks)?;
}
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<Self>) -> ::std::boxed::Box<dyn (::std::any::Any)> {
self
}
fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor {
Self::descriptor_static()
}
fn new() -> CoordinatedJob {
CoordinatedJob::new()
}
fn descriptor_static() -> &'static ::protobuf::reflect::MessageDescriptor {
static descriptor: ::protobuf::rt::LazyV2<::protobuf::reflect::MessageDescriptor> = ::protobuf::rt::LazyV2::INIT;
descriptor.get(|| {
let mut fields = ::std::vec::Vec::new();
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeString>(
"name",
|m: &CoordinatedJob| { &m.name },
|m: &mut CoordinatedJob| { &mut m.name },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeInt32>(
"num_tasks",
|m: &CoordinatedJob| { &m.num_tasks },
|m: &mut CoordinatedJob| { &mut m.num_tasks },
));
::protobuf::reflect::MessageDescriptor::new_pb_name::<CoordinatedJob>(
"CoordinatedJob",
fields,
file_descriptor_proto()
)
})
}
fn default_instance() -> &'static CoordinatedJob {
static instance: ::protobuf::rt::LazyV2<CoordinatedJob> = ::protobuf::rt::LazyV2::INIT;
instance.get(CoordinatedJob::new)
}
}
impl ::protobuf::Clear for CoordinatedJob {
fn clear(&mut self) {
self.name.clear();
self.num_tasks = 0;
self.unknown_fields.clear();
}
}
impl ::std::fmt::Debug for CoordinatedJob {
fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result {
::protobuf::text_format::fmt(self, f)
}
}
impl ::protobuf::reflect::ProtobufValue for CoordinatedJob {
fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef {
::protobuf::reflect::ReflectValueRef::Message(self)
}
}
#[derive(PartialEq,Clone,Default)]
pub struct CoordinationServiceConfig {
pub service_type: ::std::string::String,
pub service_leader: ::std::string::String,
pub enable_health_check: bool,
pub cluster_register_timeout_in_ms: i64,
pub heartbeat_timeout_in_ms: i64,
pub coordinated_job_list: ::protobuf::RepeatedField<CoordinatedJob>,
pub shutdown_barrier_timeout_in_ms: i64,
pub agent_destruction_without_shutdown: bool,
pub recoverable_jobs: ::protobuf::RepeatedField<::std::string::String>,
pub allow_new_incarnation_to_reconnect: bool,
pub unknown_fields: ::protobuf::UnknownFields,
pub cached_size: ::protobuf::CachedSize,
}
impl<'a> ::std::default::Default for &'a CoordinationServiceConfig {
fn default() -> &'a CoordinationServiceConfig {
<CoordinationServiceConfig as ::protobuf::Message>::default_instance()
}
}
impl CoordinationServiceConfig {
pub fn new() -> CoordinationServiceConfig {
::std::default::Default::default()
}
pub fn get_service_type(&self) -> &str {
&self.service_type
}
pub fn clear_service_type(&mut self) {
self.service_type.clear();
}
pub fn set_service_type(&mut self, v: ::std::string::String) {
self.service_type = v;
}
pub fn mut_service_type(&mut self) -> &mut ::std::string::String {
&mut self.service_type
}
pub fn take_service_type(&mut self) -> ::std::string::String {
::std::mem::replace(&mut self.service_type, ::std::string::String::new())
}
pub fn get_service_leader(&self) -> &str {
&self.service_leader
}
pub fn clear_service_leader(&mut self) {
self.service_leader.clear();
}
pub fn set_service_leader(&mut self, v: ::std::string::String) {
self.service_leader = v;
}
pub fn mut_service_leader(&mut self) -> &mut ::std::string::String {
&mut self.service_leader
}
pub fn take_service_leader(&mut self) -> ::std::string::String {
::std::mem::replace(&mut self.service_leader, ::std::string::String::new())
}
pub fn get_enable_health_check(&self) -> bool {
self.enable_health_check
}
pub fn clear_enable_health_check(&mut self) {
self.enable_health_check = false;
}
pub fn set_enable_health_check(&mut self, v: bool) {
self.enable_health_check = v;
}
pub fn get_cluster_register_timeout_in_ms(&self) -> i64 {
self.cluster_register_timeout_in_ms
}
pub fn clear_cluster_register_timeout_in_ms(&mut self) {
self.cluster_register_timeout_in_ms = 0;
}
pub fn set_cluster_register_timeout_in_ms(&mut self, v: i64) {
self.cluster_register_timeout_in_ms = v;
}
pub fn get_heartbeat_timeout_in_ms(&self) -> i64 {
self.heartbeat_timeout_in_ms
}
pub fn clear_heartbeat_timeout_in_ms(&mut self) {
self.heartbeat_timeout_in_ms = 0;
}
pub fn set_heartbeat_timeout_in_ms(&mut self, v: i64) {
self.heartbeat_timeout_in_ms = v;
}
pub fn get_coordinated_job_list(&self) -> &[CoordinatedJob] {
&self.coordinated_job_list
}
pub fn clear_coordinated_job_list(&mut self) {
self.coordinated_job_list.clear();
}
pub fn set_coordinated_job_list(&mut self, v: ::protobuf::RepeatedField<CoordinatedJob>) {
self.coordinated_job_list = v;
}
pub fn mut_coordinated_job_list(&mut self) -> &mut ::protobuf::RepeatedField<CoordinatedJob> {
&mut self.coordinated_job_list
}
pub fn take_coordinated_job_list(&mut self) -> ::protobuf::RepeatedField<CoordinatedJob> {
::std::mem::replace(&mut self.coordinated_job_list, ::protobuf::RepeatedField::new())
}
pub fn get_shutdown_barrier_timeout_in_ms(&self) -> i64 {
self.shutdown_barrier_timeout_in_ms
}
pub fn clear_shutdown_barrier_timeout_in_ms(&mut self) {
self.shutdown_barrier_timeout_in_ms = 0;
}
pub fn set_shutdown_barrier_timeout_in_ms(&mut self, v: i64) {
self.shutdown_barrier_timeout_in_ms = v;
}
pub fn get_agent_destruction_without_shutdown(&self) -> bool {
self.agent_destruction_without_shutdown
}
pub fn clear_agent_destruction_without_shutdown(&mut self) {
self.agent_destruction_without_shutdown = false;
}
pub fn set_agent_destruction_without_shutdown(&mut self, v: bool) {
self.agent_destruction_without_shutdown = v;
}
pub fn get_recoverable_jobs(&self) -> &[::std::string::String] {
&self.recoverable_jobs
}
pub fn clear_recoverable_jobs(&mut self) {
self.recoverable_jobs.clear();
}
pub fn set_recoverable_jobs(&mut self, v: ::protobuf::RepeatedField<::std::string::String>) {
self.recoverable_jobs = v;
}
pub fn mut_recoverable_jobs(&mut self) -> &mut ::protobuf::RepeatedField<::std::string::String> {
&mut self.recoverable_jobs
}
pub fn take_recoverable_jobs(&mut self) -> ::protobuf::RepeatedField<::std::string::String> {
::std::mem::replace(&mut self.recoverable_jobs, ::protobuf::RepeatedField::new())
}
pub fn get_allow_new_incarnation_to_reconnect(&self) -> bool {
self.allow_new_incarnation_to_reconnect
}
pub fn clear_allow_new_incarnation_to_reconnect(&mut self) {
self.allow_new_incarnation_to_reconnect = false;
}
pub fn set_allow_new_incarnation_to_reconnect(&mut self, v: bool) {
self.allow_new_incarnation_to_reconnect = v;
}
}
impl ::protobuf::Message for CoordinationServiceConfig {
fn is_initialized(&self) -> bool {
for v in &self.coordinated_job_list {
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_proto3_string_into(wire_type, is, &mut self.service_type)?;
},
2 => {
::protobuf::rt::read_singular_proto3_string_into(wire_type, is, &mut self.service_leader)?;
},
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.enable_health_check = 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_int64()?;
self.cluster_register_timeout_in_ms = tmp;
},
5 => {
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.heartbeat_timeout_in_ms = tmp;
},
10 => {
::protobuf::rt::read_repeated_message_into(wire_type, is, &mut self.coordinated_job_list)?;
},
7 => {
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.shutdown_barrier_timeout_in_ms = tmp;
},
8 => {
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.agent_destruction_without_shutdown = tmp;
},
9 => {
::protobuf::rt::read_repeated_string_into(wire_type, is, &mut self.recoverable_jobs)?;
},
11 => {
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.allow_new_incarnation_to_reconnect = tmp;
},
_ => {
::protobuf::rt::read_unknown_or_skip_group(field_number, wire_type, is, self.mut_unknown_fields())?;
},
};
}
::std::result::Result::Ok(())
}
#[allow(unused_variables)]
fn compute_size(&self) -> u32 {
let mut my_size = 0;
if !self.service_type.is_empty() {
my_size += ::protobuf::rt::string_size(1, &self.service_type);
}
if !self.service_leader.is_empty() {
my_size += ::protobuf::rt::string_size(2, &self.service_leader);
}
if self.enable_health_check != false {
my_size += 2;
}
if self.cluster_register_timeout_in_ms != 0 {
my_size += ::protobuf::rt::value_size(4, self.cluster_register_timeout_in_ms, ::protobuf::wire_format::WireTypeVarint);
}
if self.heartbeat_timeout_in_ms != 0 {
my_size += ::protobuf::rt::value_size(5, self.heartbeat_timeout_in_ms, ::protobuf::wire_format::WireTypeVarint);
}
for value in &self.coordinated_job_list {
let len = value.compute_size();
my_size += 1 + ::protobuf::rt::compute_raw_varint32_size(len) + len;
};
if self.shutdown_barrier_timeout_in_ms != 0 {
my_size += ::protobuf::rt::value_size(7, self.shutdown_barrier_timeout_in_ms, ::protobuf::wire_format::WireTypeVarint);
}
if self.agent_destruction_without_shutdown != false {
my_size += 2;
}
for value in &self.recoverable_jobs {
my_size += ::protobuf::rt::string_size(9, &value);
};
if self.allow_new_incarnation_to_reconnect != false {
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 !self.service_type.is_empty() {
os.write_string(1, &self.service_type)?;
}
if !self.service_leader.is_empty() {
os.write_string(2, &self.service_leader)?;
}
if self.enable_health_check != false {
os.write_bool(3, self.enable_health_check)?;
}
if self.cluster_register_timeout_in_ms != 0 {
os.write_int64(4, self.cluster_register_timeout_in_ms)?;
}
if self.heartbeat_timeout_in_ms != 0 {
os.write_int64(5, self.heartbeat_timeout_in_ms)?;
}
for v in &self.coordinated_job_list {
os.write_tag(10, ::protobuf::wire_format::WireTypeLengthDelimited)?;
os.write_raw_varint32(v.get_cached_size())?;
v.write_to_with_cached_sizes(os)?;
};
if self.shutdown_barrier_timeout_in_ms != 0 {
os.write_int64(7, self.shutdown_barrier_timeout_in_ms)?;
}
if self.agent_destruction_without_shutdown != false {
os.write_bool(8, self.agent_destruction_without_shutdown)?;
}
for v in &self.recoverable_jobs {
os.write_string(9, &v)?;
};
if self.allow_new_incarnation_to_reconnect != false {
os.write_bool(11, self.allow_new_incarnation_to_reconnect)?;
}
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<Self>) -> ::std::boxed::Box<dyn (::std::any::Any)> {
self
}
fn descriptor(&self) -> &'static ::protobuf::reflect::MessageDescriptor {
Self::descriptor_static()
}
fn new() -> CoordinationServiceConfig {
CoordinationServiceConfig::new()
}
fn descriptor_static() -> &'static ::protobuf::reflect::MessageDescriptor {
static descriptor: ::protobuf::rt::LazyV2<::protobuf::reflect::MessageDescriptor> = ::protobuf::rt::LazyV2::INIT;
descriptor.get(|| {
let mut fields = ::std::vec::Vec::new();
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeString>(
"service_type",
|m: &CoordinationServiceConfig| { &m.service_type },
|m: &mut CoordinationServiceConfig| { &mut m.service_type },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeString>(
"service_leader",
|m: &CoordinationServiceConfig| { &m.service_leader },
|m: &mut CoordinationServiceConfig| { &mut m.service_leader },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeBool>(
"enable_health_check",
|m: &CoordinationServiceConfig| { &m.enable_health_check },
|m: &mut CoordinationServiceConfig| { &mut m.enable_health_check },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeInt64>(
"cluster_register_timeout_in_ms",
|m: &CoordinationServiceConfig| { &m.cluster_register_timeout_in_ms },
|m: &mut CoordinationServiceConfig| { &mut m.cluster_register_timeout_in_ms },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeInt64>(
"heartbeat_timeout_in_ms",
|m: &CoordinationServiceConfig| { &m.heartbeat_timeout_in_ms },
|m: &mut CoordinationServiceConfig| { &mut m.heartbeat_timeout_in_ms },
));
fields.push(::protobuf::reflect::accessor::make_repeated_field_accessor::<_, ::protobuf::types::ProtobufTypeMessage<CoordinatedJob>>(
"coordinated_job_list",
|m: &CoordinationServiceConfig| { &m.coordinated_job_list },
|m: &mut CoordinationServiceConfig| { &mut m.coordinated_job_list },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeInt64>(
"shutdown_barrier_timeout_in_ms",
|m: &CoordinationServiceConfig| { &m.shutdown_barrier_timeout_in_ms },
|m: &mut CoordinationServiceConfig| { &mut m.shutdown_barrier_timeout_in_ms },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeBool>(
"agent_destruction_without_shutdown",
|m: &CoordinationServiceConfig| { &m.agent_destruction_without_shutdown },
|m: &mut CoordinationServiceConfig| { &mut m.agent_destruction_without_shutdown },
));
fields.push(::protobuf::reflect::accessor::make_repeated_field_accessor::<_, ::protobuf::types::ProtobufTypeString>(
"recoverable_jobs",
|m: &CoordinationServiceConfig| { &m.recoverable_jobs },
|m: &mut CoordinationServiceConfig| { &mut m.recoverable_jobs },
));
fields.push(::protobuf::reflect::accessor::make_simple_field_accessor::<_, ::protobuf::types::ProtobufTypeBool>(
"allow_new_incarnation_to_reconnect",
|m: &CoordinationServiceConfig| { &m.allow_new_incarnation_to_reconnect },
|m: &mut CoordinationServiceConfig| { &mut m.allow_new_incarnation_to_reconnect },
));
::protobuf::reflect::MessageDescriptor::new_pb_name::<CoordinationServiceConfig>(
"CoordinationServiceConfig",
fields,
file_descriptor_proto()
)
})
}
fn default_instance() -> &'static CoordinationServiceConfig {
static instance: ::protobuf::rt::LazyV2<CoordinationServiceConfig> = ::protobuf::rt::LazyV2::INIT;
instance.get(CoordinationServiceConfig::new)
}
}
impl ::protobuf::Clear for CoordinationServiceConfig {
fn clear(&mut self) {
self.service_type.clear();
self.service_leader.clear();
self.enable_health_check = false;
self.cluster_register_timeout_in_ms = 0;
self.heartbeat_timeout_in_ms = 0;
self.coordinated_job_list.clear();
self.shutdown_barrier_timeout_in_ms = 0;
self.agent_destruction_without_shutdown = false;
self.recoverable_jobs.clear();
self.allow_new_incarnation_to_reconnect = false;
self.unknown_fields.clear();
}
}
impl ::std::fmt::Debug for CoordinationServiceConfig {
fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result {
::protobuf::text_format::fmt(self, f)
}
}
impl ::protobuf::reflect::ProtobufValue for CoordinationServiceConfig {
fn as_ref(&self) -> ::protobuf::reflect::ReflectValueRef {
::protobuf::reflect::ReflectValueRef::Message(self)
}
}
static file_descriptor_proto_data: &'static [u8] = b"\
\n1tensorflow/tsl/protobuf/coordination_config.proto\x12\ntensorflow\"A\
\n\x0eCoordinatedJob\x12\x12\n\x04name\x18\x01\x20\x01(\tR\x04name\x12\
\x1b\n\tnum_tasks\x18\x02\x20\x01(\x05R\x08numTasks\"\xec\x04\n\x19Coord\
inationServiceConfig\x12!\n\x0cservice_type\x18\x01\x20\x01(\tR\x0bservi\
ceType\x12%\n\x0eservice_leader\x18\x02\x20\x01(\tR\rserviceLeader\x12.\
\n\x13enable_health_check\x18\x03\x20\x01(\x08R\x11enableHealthCheck\x12\
B\n\x1ecluster_register_timeout_in_ms\x18\x04\x20\x01(\x03R\x1aclusterRe\
gisterTimeoutInMs\x125\n\x17heartbeat_timeout_in_ms\x18\x05\x20\x01(\x03\
R\x14heartbeatTimeoutInMs\x12L\n\x14coordinated_job_list\x18\n\x20\x03(\
\x0b2\x1a.tensorflow.CoordinatedJobR\x12coordinatedJobList\x12B\n\x1eshu\
tdown_barrier_timeout_in_ms\x18\x07\x20\x01(\x03R\x1ashutdownBarrierTime\
outInMs\x12K\n\"agent_destruction_without_shutdown\x18\x08\x20\x01(\x08R\
\x1fagentDestructionWithoutShutdown\x12)\n\x10recoverable_jobs\x18\t\x20\
\x03(\tR\x0frecoverableJobs\x12J\n\"allow_new_incarnation_to_reconnect\
\x18\x0b\x20\x01(\x08R\x1eallowNewIncarnationToReconnectJ\x04\x08\x06\
\x10\x07BWZUgithub.com/tensorflow/tensorflow/tensorflow/go/core/protobuf\
/for_core_protos_go_protob\x06proto3\
";
static file_descriptor_proto_lazy: ::protobuf::rt::LazyV2<::protobuf::descriptor::FileDescriptorProto> = ::protobuf::rt::LazyV2::INIT;
fn parse_descriptor_proto() -> ::protobuf::descriptor::FileDescriptorProto {
::protobuf::Message::parse_from_bytes(file_descriptor_proto_data).unwrap()
}
pub fn file_descriptor_proto() -> &'static ::protobuf::descriptor::FileDescriptorProto {
file_descriptor_proto_lazy.get(|| {
parse_descriptor_proto()
})
}