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OtterScale

UpdateVirtualMachineService

POST
/otterscale.instance.v1.InstanceService/UpdateVirtualMachineService

Parameters

Section titled “ Parameters ”

Header Parameters

Section titled “Header Parameters ”
Connect-Protocol-Version
required
Connect-Protocol-Version

Define the version of the Connect protocol

number
Allowed values: 1
Connect-Timeout-Ms
Connect-Timeout-Ms

Define the timeout, in ms

number

Request Body required

Section titled “Request Body required ”
UpdateVirtualMachineServiceRequest
object
scope
scope
string
namespace
namespace
string
name
name
string
ports
ports
Array<object>
Port
object
port
port
integer format: int32
nodePort
node_port
integer format: int32
name
name
string
protocol
protocol
string
targetPort
target_port
string

Responses

Section titled “ Responses ”

200

Section titled “200 ”

Success

Service
object
name
name
string
type
type
string
clusterIp
cluster_ip
string
ports
ports
Array<object>
Port
object
port
port
integer format: int32
nodePort
node_port
integer format: int32
name
name
string
protocol
protocol
string
targetPort
target_port
string
createdAt
created_at

A Timestamp represents a point in time independent of any time zone or local calendar, encoded as a count of seconds and fractions of seconds at nanosecond resolution. The count is relative to an epoch at UTC midnight on January 1, 1970, in the proleptic Gregorian calendar which extends the Gregorian calendar backwards to year one.

All minutes are 60 seconds long. Leap seconds are “smeared” so that no leap second table is needed for interpretation, using a 24-hour linear smear.

The range is from 0001-01-01T00:00:00Z to 9999-12-31T23:59:59.999999999Z. By restricting to that range, we ensure that we can convert to and from RFC 3339 date strings.

Examples

Example 1: Compute Timestamp from POSIX time().

 Timestamp timestamp;
 timestamp.set_seconds(time(NULL));
 timestamp.set_nanos(0);

Example 2: Compute Timestamp from POSIX gettimeofday().

 struct timeval tv;
 gettimeofday(&tv, NULL);

 Timestamp timestamp;
 timestamp.set_seconds(tv.tv_sec);
 timestamp.set_nanos(tv.tv_usec * 1000);

Example 3: Compute Timestamp from Win32 GetSystemTimeAsFileTime().

 FILETIME ft;
 GetSystemTimeAsFileTime(&ft);
 UINT64 ticks = (((UINT64)ft.dwHighDateTime) << 32) | ft.dwLowDateTime;

 // A Windows tick is 100 nanoseconds. Windows epoch 1601-01-01T00:00:00Z
 // is 11644473600 seconds before Unix epoch 1970-01-01T00:00:00Z.
 Timestamp timestamp;
 timestamp.set_seconds((INT64) ((ticks / 10000000) - 11644473600LL));
 timestamp.set_nanos((INT32) ((ticks % 10000000) * 100));

Example 4: Compute Timestamp from Java System.currentTimeMillis().

 long millis = System.currentTimeMillis();

 Timestamp timestamp = Timestamp.newBuilder().setSeconds(millis / 1000)
     .setNanos((int) ((millis % 1000) * 1000000)).build();

Example 5: Compute Timestamp from Java Instant.now().

 Instant now = Instant.now();

 Timestamp timestamp =
     Timestamp.newBuilder().setSeconds(now.getEpochSecond())
         .setNanos(now.getNano()).build();

Example 6: Compute Timestamp from current time in Python.

 timestamp = Timestamp()
 timestamp.GetCurrentTime()

JSON Mapping

In JSON format, the Timestamp type is encoded as a string in the RFC 3339 format. That is, the format is “{year}-{month}-{day}T{hour}:{min}:{sec}[.{frac_sec}]Z” where {year} is always expressed using four digits while {month}, {day}, {hour}, {min}, and {sec} are zero-padded to two digits each. The fractional seconds, which can go up to 9 digits (i.e. up to 1 nanosecond resolution), are optional. The “Z” suffix indicates the timezone (“UTC”); the timezone is required. A proto3 JSON serializer should always use UTC (as indicated by “Z”) when printing the Timestamp type and a proto3 JSON parser should be able to accept both UTC and other timezones (as indicated by an offset).

For example, “2017-01-15T01:30:15.01Z” encodes 15.01 seconds past 01:30 UTC on January 15, 2017.

In JavaScript, one can convert a Date object to this format using the standard toISOString() method. In Python, a standard datetime.datetime object can be converted to this format using strftime with the time format spec ‘%Y-%m-%dT%H:%M:%S.%fZ’. Likewise, in Java, one can use the Joda Time’s ISODateTimeFormat.dateTime() to obtain a formatter capable of generating timestamps in this format.

string format: date-time

default

Section titled “default ”

Error

Connect Error
object
code

The status code, which should be an enum value of [google.rpc.Code][google.rpc.Code].

string
Allowed values: canceled unknown invalid_argument deadline_exceeded not_found already_exists permission_denied resource_exhausted failed_precondition aborted out_of_range unimplemented internal unavailable data_loss unauthenticated
message

A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the [google.rpc.Status.details][google.rpc.Status.details] field, or localized by the client.

string
details

A list of messages that carry the error details. There is no limit on the number of messages.

Array<object>

Contains an arbitrary serialized message along with a @type that describes the type of the serialized message, with an additional debug field for ConnectRPC error details.

object
type

A URL that acts as a globally unique identifier for the type of the serialized message. For example: type.googleapis.com/google.rpc.ErrorInfo. This is used to determine the schema of the data in the value field and is the discriminator for the debug field.

string
value

The Protobuf message, serialized as bytes and base64-encoded. The specific message type is identified by the type field.

string format: binary
debug
One of: discriminator: type
Any

Detailed error information.

object
key
additional properties
any
key
additional properties
any
key
additional properties
any