googleapis_tonic_google_bigtable_v2/vec_u8_hash_map/google.bigtable.v2.rs
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// This file is @generated by prost-build.
/// `Type` represents the type of data that is written to, read from, or stored
/// in Bigtable. It is heavily based on the GoogleSQL standard to help maintain
/// familiarity and consistency across products and features.
///
/// For compatibility with Bigtable's existing untyped APIs, each `Type` includes
/// an `Encoding` which describes how to convert to/from the underlying data.
///
/// Each encoding also defines the following properties:
///
/// * Order-preserving: Does the encoded value sort consistently with the
/// original typed value? Note that Bigtable will always sort data based on
/// the raw encoded value, *not* the decoded type.
/// - Example: BYTES values sort in the same order as their raw encodings.
/// - Counterexample: Encoding INT64 as a fixed-width decimal string does
/// *not* preserve sort order when dealing with negative numbers.
/// `INT64(1) > INT64(-1)`, but `STRING("-00001") > STRING("00001)`.
/// * Self-delimiting: If we concatenate two encoded values, can we always tell
/// where the first one ends and the second one begins?
/// - Example: If we encode INT64s to fixed-width STRINGs, the first value
/// will always contain exactly N digits, possibly preceded by a sign.
/// - Counterexample: If we concatenate two UTF-8 encoded STRINGs, we have
/// no way to tell where the first one ends.
/// * Compatibility: Which other systems have matching encoding schemes? For
/// example, does this encoding have a GoogleSQL equivalent? HBase? Java?
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Type {
/// The kind of type that this represents.
#[prost(oneof = "r#type::Kind", tags = "1, 2, 5, 12, 9, 8, 10, 11, 6, 7, 3, 4")]
pub kind: ::core::option::Option<r#type::Kind>,
}
/// Nested message and enum types in `Type`.
pub mod r#type {
/// Bytes
/// Values of type `Bytes` are stored in `Value.bytes_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Bytes {
/// The encoding to use when converting to/from lower level types.
#[prost(message, optional, tag = "1")]
pub encoding: ::core::option::Option<bytes::Encoding>,
}
/// Nested message and enum types in `Bytes`.
pub mod bytes {
/// Rules used to convert to/from lower level types.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Encoding {
/// Which encoding to use.
#[prost(oneof = "encoding::Encoding", tags = "1")]
pub encoding: ::core::option::Option<encoding::Encoding>,
}
/// Nested message and enum types in `Encoding`.
pub mod encoding {
/// Leaves the value "as-is"
/// * Order-preserving? Yes
/// * Self-delimiting? No
/// * Compatibility? N/A
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Raw {}
/// Which encoding to use.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum Encoding {
/// Use `Raw` encoding.
#[prost(message, tag = "1")]
Raw(Raw),
}
}
}
/// String
/// Values of type `String` are stored in `Value.string_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct String {
/// The encoding to use when converting to/from lower level types.
#[prost(message, optional, tag = "1")]
pub encoding: ::core::option::Option<string::Encoding>,
}
/// Nested message and enum types in `String`.
pub mod string {
/// Rules used to convert to/from lower level types.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Encoding {
/// Which encoding to use.
#[prost(oneof = "encoding::Encoding", tags = "1, 2")]
pub encoding: ::core::option::Option<encoding::Encoding>,
}
/// Nested message and enum types in `Encoding`.
pub mod encoding {
/// Deprecated: prefer the equivalent `Utf8Bytes`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Utf8Raw {}
/// UTF-8 encoding
/// * Order-preserving? Yes (code point order)
/// * Self-delimiting? No
/// * Compatibility?
/// - BigQuery Federation `TEXT` encoding
/// - HBase `Bytes.toBytes`
/// - Java `String#getBytes(StandardCharsets.UTF_8)`
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Utf8Bytes {}
/// Which encoding to use.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum Encoding {
/// Deprecated: if set, converts to an empty `utf8_bytes`.
#[prost(message, tag = "1")]
Utf8Raw(Utf8Raw),
/// Use `Utf8Bytes` encoding.
#[prost(message, tag = "2")]
Utf8Bytes(Utf8Bytes),
}
}
}
/// Int64
/// Values of type `Int64` are stored in `Value.int_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Int64 {
/// The encoding to use when converting to/from lower level types.
#[prost(message, optional, tag = "1")]
pub encoding: ::core::option::Option<int64::Encoding>,
}
/// Nested message and enum types in `Int64`.
pub mod int64 {
/// Rules used to convert to/from lower level types.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Encoding {
/// Which encoding to use.
#[prost(oneof = "encoding::Encoding", tags = "1")]
pub encoding: ::core::option::Option<encoding::Encoding>,
}
/// Nested message and enum types in `Encoding`.
pub mod encoding {
/// Encodes the value as an 8-byte big endian twos complement `Bytes`
/// value.
/// * Order-preserving? No (positive values only)
/// * Self-delimiting? Yes
/// * Compatibility?
/// - BigQuery Federation `BINARY` encoding
/// - HBase `Bytes.toBytes`
/// - Java `ByteBuffer.putLong()` with `ByteOrder.BIG_ENDIAN`
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct BigEndianBytes {
/// Deprecated: ignored if set.
#[prost(message, optional, tag = "1")]
pub bytes_type: ::core::option::Option<super::super::Bytes>,
}
/// Which encoding to use.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum Encoding {
/// Use `BigEndianBytes` encoding.
#[prost(message, tag = "1")]
BigEndianBytes(BigEndianBytes),
}
}
}
/// bool
/// Values of type `Bool` are stored in `Value.bool_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Bool {}
/// Float32
/// Values of type `Float32` are stored in `Value.float_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Float32 {}
/// Float64
/// Values of type `Float64` are stored in `Value.float_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Float64 {}
/// Timestamp
/// Values of type `Timestamp` are stored in `Value.timestamp_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Timestamp {}
/// Date
/// Values of type `Date` are stored in `Value.date_value`.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Date {}
/// A structured data value, consisting of fields which map to dynamically
/// typed values.
/// Values of type `Struct` are stored in `Value.array_value` where entries are
/// in the same order and number as `field_types`.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Struct {
/// The names and types of the fields in this struct.
#[prost(message, repeated, tag = "1")]
pub fields: ::prost::alloc::vec::Vec<r#struct::Field>,
}
/// Nested message and enum types in `Struct`.
pub mod r#struct {
/// A struct field and its type.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Field {
/// The field name (optional). Fields without a `field_name` are considered
/// anonymous and cannot be referenced by name.
#[prost(string, tag = "1")]
pub field_name: ::prost::alloc::string::String,
/// The type of values in this field.
#[prost(message, optional, tag = "2")]
pub r#type: ::core::option::Option<super::super::Type>,
}
}
/// An ordered list of elements of a given type.
/// Values of type `Array` are stored in `Value.array_value`.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Array {
/// The type of the elements in the array. This must not be `Array`.
#[prost(message, optional, boxed, tag = "1")]
pub element_type: ::core::option::Option<
::prost::alloc::boxed::Box<super::Type>,
>,
}
/// A mapping of keys to values of a given type.
/// Values of type `Map` are stored in a `Value.array_value` where each entry
/// is another `Value.array_value` with two elements (the key and the value,
/// in that order).
/// Normally encoded Map values won't have repeated keys, however, clients are
/// expected to handle the case in which they do. If the same key appears
/// multiple times, the _last_ value takes precedence.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Map {
/// The type of a map key.
/// Only `Bytes`, `String`, and `Int64` are allowed as key types.
#[prost(message, optional, boxed, tag = "1")]
pub key_type: ::core::option::Option<::prost::alloc::boxed::Box<super::Type>>,
/// The type of the values in a map.
#[prost(message, optional, boxed, tag = "2")]
pub value_type: ::core::option::Option<::prost::alloc::boxed::Box<super::Type>>,
}
/// A value that combines incremental updates into a summarized value.
///
/// Data is never directly written or read using type `Aggregate`. Writes will
/// provide either the `input_type` or `state_type`, and reads will always
/// return the `state_type` .
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Aggregate {
/// Type of the inputs that are accumulated by this `Aggregate`, which must
/// specify a full encoding.
/// Use `AddInput` mutations to accumulate new inputs.
#[prost(message, optional, boxed, tag = "1")]
pub input_type: ::core::option::Option<::prost::alloc::boxed::Box<super::Type>>,
/// Output only. Type that holds the internal accumulator state for the
/// `Aggregate`. This is a function of the `input_type` and `aggregator`
/// chosen, and will always specify a full encoding.
#[prost(message, optional, boxed, tag = "2")]
pub state_type: ::core::option::Option<::prost::alloc::boxed::Box<super::Type>>,
/// Which aggregator function to use. The configured types must match.
#[prost(oneof = "aggregate::Aggregator", tags = "4, 5, 6, 7")]
pub aggregator: ::core::option::Option<aggregate::Aggregator>,
}
/// Nested message and enum types in `Aggregate`.
pub mod aggregate {
/// Computes the sum of the input values.
/// Allowed input: `Int64`
/// State: same as input
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Sum {}
/// Computes the max of the input values.
/// Allowed input: `Int64`
/// State: same as input
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Max {}
/// Computes the min of the input values.
/// Allowed input: `Int64`
/// State: same as input
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Min {}
/// Computes an approximate unique count over the input values. When using
/// raw data as input, be careful to use a consistent encoding. Otherwise
/// the same value encoded differently could count more than once, or two
/// distinct values could count as identical.
/// Input: Any, or omit for Raw
/// State: TBD
/// Special state conversions: `Int64` (the unique count estimate)
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct HyperLogLogPlusPlusUniqueCount {}
/// Which aggregator function to use. The configured types must match.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum Aggregator {
/// Sum aggregator.
#[prost(message, tag = "4")]
Sum(Sum),
/// HyperLogLogPlusPlusUniqueCount aggregator.
#[prost(message, tag = "5")]
HllppUniqueCount(HyperLogLogPlusPlusUniqueCount),
/// Max aggregator.
#[prost(message, tag = "6")]
Max(Max),
/// Min aggregator.
#[prost(message, tag = "7")]
Min(Min),
}
}
/// The kind of type that this represents.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Kind {
/// Bytes
#[prost(message, tag = "1")]
BytesType(Bytes),
/// String
#[prost(message, tag = "2")]
StringType(String),
/// Int64
#[prost(message, tag = "5")]
Int64Type(Int64),
/// Float32
#[prost(message, tag = "12")]
Float32Type(Float32),
/// Float64
#[prost(message, tag = "9")]
Float64Type(Float64),
/// Bool
#[prost(message, tag = "8")]
BoolType(Bool),
/// Timestamp
#[prost(message, tag = "10")]
TimestampType(Timestamp),
/// Date
#[prost(message, tag = "11")]
DateType(Date),
/// Aggregate
#[prost(message, tag = "6")]
AggregateType(::prost::alloc::boxed::Box<Aggregate>),
/// Struct
#[prost(message, tag = "7")]
StructType(Struct),
/// Array
#[prost(message, tag = "3")]
ArrayType(::prost::alloc::boxed::Box<Array>),
/// Map
#[prost(message, tag = "4")]
MapType(::prost::alloc::boxed::Box<Map>),
}
}
/// Specifies the complete (requested) contents of a single row of a table.
/// Rows which exceed 256MiB in size cannot be read in full.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Row {
/// The unique key which identifies this row within its table. This is the same
/// key that's used to identify the row in, for example, a MutateRowRequest.
/// May contain any non-empty byte string up to 4KiB in length.
#[prost(bytes = "vec", tag = "1")]
pub key: ::prost::alloc::vec::Vec<u8>,
/// May be empty, but only if the entire row is empty.
/// The mutual ordering of column families is not specified.
#[prost(message, repeated, tag = "2")]
pub families: ::prost::alloc::vec::Vec<Family>,
}
/// Specifies (some of) the contents of a single row/column family intersection
/// of a table.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Family {
/// The unique key which identifies this family within its row. This is the
/// same key that's used to identify the family in, for example, a RowFilter
/// which sets its "family_name_regex_filter" field.
/// Must match `\[-_.a-zA-Z0-9\]+`, except that AggregatingRowProcessors may
/// produce cells in a sentinel family with an empty name.
/// Must be no greater than 64 characters in length.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// Must not be empty. Sorted in order of increasing "qualifier".
#[prost(message, repeated, tag = "2")]
pub columns: ::prost::alloc::vec::Vec<Column>,
}
/// Specifies (some of) the contents of a single row/column intersection of a
/// table.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Column {
/// The unique key which identifies this column within its family. This is the
/// same key that's used to identify the column in, for example, a RowFilter
/// which sets its `column_qualifier_regex_filter` field.
/// May contain any byte string, including the empty string, up to 16kiB in
/// length.
#[prost(bytes = "vec", tag = "1")]
pub qualifier: ::prost::alloc::vec::Vec<u8>,
/// Must not be empty. Sorted in order of decreasing "timestamp_micros".
#[prost(message, repeated, tag = "2")]
pub cells: ::prost::alloc::vec::Vec<Cell>,
}
/// Specifies (some of) the contents of a single row/column/timestamp of a table.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Cell {
/// The cell's stored timestamp, which also uniquely identifies it within
/// its column.
/// Values are always expressed in microseconds, but individual tables may set
/// a coarser granularity to further restrict the allowed values. For
/// example, a table which specifies millisecond granularity will only allow
/// values of `timestamp_micros` which are multiples of 1000.
#[prost(int64, tag = "1")]
pub timestamp_micros: i64,
/// The value stored in the cell.
/// May contain any byte string, including the empty string, up to 100MiB in
/// length.
#[prost(bytes = "vec", tag = "2")]
pub value: ::prost::alloc::vec::Vec<u8>,
/// Labels applied to the cell by a [RowFilter][google.bigtable.v2.RowFilter].
#[prost(string, repeated, tag = "3")]
pub labels: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
}
/// `Value` represents a dynamically typed value.
/// The typed fields in `Value` are used as a transport encoding for the actual
/// value (which may be of a more complex type). See the documentation of the
/// `Type` message for more details.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Value {
/// The verified `Type` of this `Value`, if it cannot be inferred.
///
/// Read results will never specify the encoding for `type` since the value
/// will already have been decoded by the server. Furthermore, the `type` will
/// be omitted entirely if it can be inferred from a previous response. The
/// exact semantics for inferring `type` will vary, and are therefore
/// documented separately for each read method.
///
/// When using composite types (Struct, Array, Map) only the outermost `Value`
/// will specify the `type`. This top-level `type` will define the types for
/// any nested `Struct' fields, `Array` elements, or `Map` key/value pairs.
/// If a nested `Value` provides a `type` on write, the request will be
/// rejected with INVALID_ARGUMENT.
#[prost(message, optional, tag = "7")]
pub r#type: ::core::option::Option<Type>,
/// Options for transporting values within the protobuf type system. A given
/// `kind` may support more than one `type` and vice versa. On write, this is
/// roughly analogous to a GoogleSQL literal.
///
/// The value is `NULL` if none of the fields in `kind` is set. If `type` is
/// also omitted on write, we will infer it based on the schema.
#[prost(oneof = "value::Kind", tags = "8, 9, 2, 3, 6, 10, 11, 12, 13, 4")]
pub kind: ::core::option::Option<value::Kind>,
}
/// Nested message and enum types in `Value`.
pub mod value {
/// Options for transporting values within the protobuf type system. A given
/// `kind` may support more than one `type` and vice versa. On write, this is
/// roughly analogous to a GoogleSQL literal.
///
/// The value is `NULL` if none of the fields in `kind` is set. If `type` is
/// also omitted on write, we will infer it based on the schema.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Kind {
/// Represents a raw byte sequence with no type information.
/// The `type` field must be omitted.
#[prost(bytes, tag = "8")]
RawValue(::prost::alloc::vec::Vec<u8>),
/// Represents a raw cell timestamp with no type information.
/// The `type` field must be omitted.
#[prost(int64, tag = "9")]
RawTimestampMicros(i64),
/// Represents a typed value transported as a byte sequence.
#[prost(bytes, tag = "2")]
BytesValue(::prost::alloc::vec::Vec<u8>),
/// Represents a typed value transported as a string.
#[prost(string, tag = "3")]
StringValue(::prost::alloc::string::String),
/// Represents a typed value transported as an integer.
#[prost(int64, tag = "6")]
IntValue(i64),
/// Represents a typed value transported as a boolean.
#[prost(bool, tag = "10")]
BoolValue(bool),
/// Represents a typed value transported as a floating point number.
#[prost(double, tag = "11")]
FloatValue(f64),
/// Represents a typed value transported as a timestamp.
#[prost(message, tag = "12")]
TimestampValue(::prost_types::Timestamp),
/// Represents a typed value transported as a date.
#[prost(message, tag = "13")]
DateValue(super::super::super::r#type::Date),
/// Represents a typed value transported as a sequence of values.
/// To differentiate between `Struct`, `Array`, and `Map`, the outermost
/// `Value` must provide an explicit `type` on write. This `type` will
/// apply recursively to the nested `Struct` fields, `Array` elements,
/// or `Map` key/value pairs, which *must not* supply their own `type`.
#[prost(message, tag = "4")]
ArrayValue(super::ArrayValue),
}
}
/// `ArrayValue` is an ordered list of `Value`.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ArrayValue {
/// The ordered elements in the array.
#[prost(message, repeated, tag = "1")]
pub values: ::prost::alloc::vec::Vec<Value>,
}
/// Specifies a contiguous range of rows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct RowRange {
/// The row key at which to start the range.
/// If neither field is set, interpreted as the empty string, inclusive.
#[prost(oneof = "row_range::StartKey", tags = "1, 2")]
pub start_key: ::core::option::Option<row_range::StartKey>,
/// The row key at which to end the range.
/// If neither field is set, interpreted as the infinite row key, exclusive.
#[prost(oneof = "row_range::EndKey", tags = "3, 4")]
pub end_key: ::core::option::Option<row_range::EndKey>,
}
/// Nested message and enum types in `RowRange`.
pub mod row_range {
/// The row key at which to start the range.
/// If neither field is set, interpreted as the empty string, inclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum StartKey {
/// Used when giving an inclusive lower bound for the range.
#[prost(bytes, tag = "1")]
StartKeyClosed(::prost::alloc::vec::Vec<u8>),
/// Used when giving an exclusive lower bound for the range.
#[prost(bytes, tag = "2")]
StartKeyOpen(::prost::alloc::vec::Vec<u8>),
}
/// The row key at which to end the range.
/// If neither field is set, interpreted as the infinite row key, exclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum EndKey {
/// Used when giving an exclusive upper bound for the range.
#[prost(bytes, tag = "3")]
EndKeyOpen(::prost::alloc::vec::Vec<u8>),
/// Used when giving an inclusive upper bound for the range.
#[prost(bytes, tag = "4")]
EndKeyClosed(::prost::alloc::vec::Vec<u8>),
}
}
/// Specifies a non-contiguous set of rows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct RowSet {
/// Single rows included in the set.
#[prost(bytes = "vec", repeated, tag = "1")]
pub row_keys: ::prost::alloc::vec::Vec<::prost::alloc::vec::Vec<u8>>,
/// Contiguous row ranges included in the set.
#[prost(message, repeated, tag = "2")]
pub row_ranges: ::prost::alloc::vec::Vec<RowRange>,
}
/// Specifies a contiguous range of columns within a single column family.
/// The range spans from <column_family>:<start_qualifier> to
/// <column_family>:<end_qualifier>, where both bounds can be either
/// inclusive or exclusive.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ColumnRange {
/// The name of the column family within which this range falls.
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The column qualifier at which to start the range (within `column_family`).
/// If neither field is set, interpreted as the empty string, inclusive.
#[prost(oneof = "column_range::StartQualifier", tags = "2, 3")]
pub start_qualifier: ::core::option::Option<column_range::StartQualifier>,
/// The column qualifier at which to end the range (within `column_family`).
/// If neither field is set, interpreted as the infinite string, exclusive.
#[prost(oneof = "column_range::EndQualifier", tags = "4, 5")]
pub end_qualifier: ::core::option::Option<column_range::EndQualifier>,
}
/// Nested message and enum types in `ColumnRange`.
pub mod column_range {
/// The column qualifier at which to start the range (within `column_family`).
/// If neither field is set, interpreted as the empty string, inclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum StartQualifier {
/// Used when giving an inclusive lower bound for the range.
#[prost(bytes, tag = "2")]
StartQualifierClosed(::prost::alloc::vec::Vec<u8>),
/// Used when giving an exclusive lower bound for the range.
#[prost(bytes, tag = "3")]
StartQualifierOpen(::prost::alloc::vec::Vec<u8>),
}
/// The column qualifier at which to end the range (within `column_family`).
/// If neither field is set, interpreted as the infinite string, exclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum EndQualifier {
/// Used when giving an inclusive upper bound for the range.
#[prost(bytes, tag = "4")]
EndQualifierClosed(::prost::alloc::vec::Vec<u8>),
/// Used when giving an exclusive upper bound for the range.
#[prost(bytes, tag = "5")]
EndQualifierOpen(::prost::alloc::vec::Vec<u8>),
}
}
/// Specified a contiguous range of microsecond timestamps.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct TimestampRange {
/// Inclusive lower bound. If left empty, interpreted as 0.
#[prost(int64, tag = "1")]
pub start_timestamp_micros: i64,
/// Exclusive upper bound. If left empty, interpreted as infinity.
#[prost(int64, tag = "2")]
pub end_timestamp_micros: i64,
}
/// Specifies a contiguous range of raw byte values.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ValueRange {
/// The value at which to start the range.
/// If neither field is set, interpreted as the empty string, inclusive.
#[prost(oneof = "value_range::StartValue", tags = "1, 2")]
pub start_value: ::core::option::Option<value_range::StartValue>,
/// The value at which to end the range.
/// If neither field is set, interpreted as the infinite string, exclusive.
#[prost(oneof = "value_range::EndValue", tags = "3, 4")]
pub end_value: ::core::option::Option<value_range::EndValue>,
}
/// Nested message and enum types in `ValueRange`.
pub mod value_range {
/// The value at which to start the range.
/// If neither field is set, interpreted as the empty string, inclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum StartValue {
/// Used when giving an inclusive lower bound for the range.
#[prost(bytes, tag = "1")]
StartValueClosed(::prost::alloc::vec::Vec<u8>),
/// Used when giving an exclusive lower bound for the range.
#[prost(bytes, tag = "2")]
StartValueOpen(::prost::alloc::vec::Vec<u8>),
}
/// The value at which to end the range.
/// If neither field is set, interpreted as the infinite string, exclusive.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum EndValue {
/// Used when giving an inclusive upper bound for the range.
#[prost(bytes, tag = "3")]
EndValueClosed(::prost::alloc::vec::Vec<u8>),
/// Used when giving an exclusive upper bound for the range.
#[prost(bytes, tag = "4")]
EndValueOpen(::prost::alloc::vec::Vec<u8>),
}
}
/// Takes a row as input and produces an alternate view of the row based on
/// specified rules. For example, a RowFilter might trim down a row to include
/// just the cells from columns matching a given regular expression, or might
/// return all the cells of a row but not their values. More complicated filters
/// can be composed out of these components to express requests such as, "within
/// every column of a particular family, give just the two most recent cells
/// which are older than timestamp X."
///
/// There are two broad categories of RowFilters (true filters and transformers),
/// as well as two ways to compose simple filters into more complex ones
/// (chains and interleaves). They work as follows:
///
/// * True filters alter the input row by excluding some of its cells wholesale
/// from the output row. An example of a true filter is the `value_regex_filter`,
/// which excludes cells whose values don't match the specified pattern. All
/// regex true filters use RE2 syntax (<https://github.com/google/re2/wiki/Syntax>)
/// in raw byte mode (RE2::Latin1), and are evaluated as full matches. An
/// important point to keep in mind is that `RE2(.)` is equivalent by default to
/// `RE2(\[^\n\])`, meaning that it does not match newlines. When attempting to
/// match an arbitrary byte, you should therefore use the escape sequence `\C`,
/// which may need to be further escaped as `\\C` in your client language.
///
/// * Transformers alter the input row by changing the values of some of its
/// cells in the output, without excluding them completely. Currently, the only
/// supported transformer is the `strip_value_transformer`, which replaces every
/// cell's value with the empty string.
///
/// * Chains and interleaves are described in more detail in the
/// RowFilter.Chain and RowFilter.Interleave documentation.
///
/// The total serialized size of a RowFilter message must not
/// exceed 20480 bytes, and RowFilters may not be nested within each other
/// (in Chains or Interleaves) to a depth of more than 20.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct RowFilter {
/// Which of the possible RowFilter types to apply. If none are set, this
/// RowFilter returns all cells in the input row.
#[prost(
oneof = "row_filter::Filter",
tags = "1, 2, 3, 16, 17, 18, 4, 14, 5, 6, 7, 8, 9, 15, 10, 11, 12, 13, 19"
)]
pub filter: ::core::option::Option<row_filter::Filter>,
}
/// Nested message and enum types in `RowFilter`.
pub mod row_filter {
/// A RowFilter which sends rows through several RowFilters in sequence.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Chain {
/// The elements of "filters" are chained together to process the input row:
/// in row -> f(0) -> intermediate row -> f(1) -> ... -> f(N) -> out row
/// The full chain is executed atomically.
#[prost(message, repeated, tag = "1")]
pub filters: ::prost::alloc::vec::Vec<super::RowFilter>,
}
/// A RowFilter which sends each row to each of several component
/// RowFilters and interleaves the results.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Interleave {
/// The elements of "filters" all process a copy of the input row, and the
/// results are pooled, sorted, and combined into a single output row.
/// If multiple cells are produced with the same column and timestamp,
/// they will all appear in the output row in an unspecified mutual order.
/// Consider the following example, with three filters:
///
/// input row
/// |
/// -----------------------------------------------------
/// | | |
/// f(0) f(1) f(2)
/// | | |
/// 1: foo,bar,10,x foo,bar,10,z far,bar,7,a
/// 2: foo,blah,11,z far,blah,5,x far,blah,5,x
/// | | |
/// -----------------------------------------------------
/// |
/// 1: foo,bar,10,z // could have switched with #2
/// 2: foo,bar,10,x // could have switched with #1
/// 3: foo,blah,11,z
/// 4: far,bar,7,a
/// 5: far,blah,5,x // identical to #6
/// 6: far,blah,5,x // identical to #5
///
/// All interleaved filters are executed atomically.
#[prost(message, repeated, tag = "1")]
pub filters: ::prost::alloc::vec::Vec<super::RowFilter>,
}
/// A RowFilter which evaluates one of two possible RowFilters, depending on
/// whether or not a predicate RowFilter outputs any cells from the input row.
///
/// IMPORTANT NOTE: The predicate filter does not execute atomically with the
/// true and false filters, which may lead to inconsistent or unexpected
/// results. Additionally, Condition filters have poor performance, especially
/// when filters are set for the false condition.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Condition {
/// If `predicate_filter` outputs any cells, then `true_filter` will be
/// evaluated on the input row. Otherwise, `false_filter` will be evaluated.
#[prost(message, optional, boxed, tag = "1")]
pub predicate_filter: ::core::option::Option<
::prost::alloc::boxed::Box<super::RowFilter>,
>,
/// The filter to apply to the input row if `predicate_filter` returns any
/// results. If not provided, no results will be returned in the true case.
#[prost(message, optional, boxed, tag = "2")]
pub true_filter: ::core::option::Option<
::prost::alloc::boxed::Box<super::RowFilter>,
>,
/// The filter to apply to the input row if `predicate_filter` does not
/// return any results. If not provided, no results will be returned in the
/// false case.
#[prost(message, optional, boxed, tag = "3")]
pub false_filter: ::core::option::Option<
::prost::alloc::boxed::Box<super::RowFilter>,
>,
}
/// Which of the possible RowFilter types to apply. If none are set, this
/// RowFilter returns all cells in the input row.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Filter {
/// Applies several RowFilters to the data in sequence, progressively
/// narrowing the results.
#[prost(message, tag = "1")]
Chain(Chain),
/// Applies several RowFilters to the data in parallel and combines the
/// results.
#[prost(message, tag = "2")]
Interleave(Interleave),
/// Applies one of two possible RowFilters to the data based on the output of
/// a predicate RowFilter.
#[prost(message, tag = "3")]
Condition(::prost::alloc::boxed::Box<Condition>),
/// ADVANCED USE ONLY.
/// Hook for introspection into the RowFilter. Outputs all cells directly to
/// the output of the read rather than to any parent filter. Consider the
/// following example:
///
/// Chain(
/// FamilyRegex("A"),
/// Interleave(
/// All(),
/// Chain(Label("foo"), Sink())
/// ),
/// QualifierRegex("B")
/// )
///
/// A,A,1,w
/// A,B,2,x
/// B,B,4,z
/// |
/// FamilyRegex("A")
/// |
/// A,A,1,w
/// A,B,2,x
/// |
/// +------------+-------------+
/// | |
/// All() Label(foo)
/// | |
/// A,A,1,w A,A,1,w,labels:\[foo\]
/// A,B,2,x A,B,2,x,labels:\[foo\]
/// | |
/// | Sink() --------------+
/// | | |
/// +------------+ x------+ A,A,1,w,labels:\[foo\]
/// | A,B,2,x,labels:\[foo\]
/// A,A,1,w |
/// A,B,2,x |
/// | |
/// QualifierRegex("B") |
/// | |
/// A,B,2,x |
/// | |
/// +--------------------------------+
/// |
/// A,A,1,w,labels:\[foo\]
/// A,B,2,x,labels:\[foo\] // could be switched
/// A,B,2,x // could be switched
///
/// Despite being excluded by the qualifier filter, a copy of every cell
/// that reaches the sink is present in the final result.
///
/// As with an [Interleave][google.bigtable.v2.RowFilter.Interleave],
/// duplicate cells are possible, and appear in an unspecified mutual order.
/// In this case we have a duplicate with column "A:B" and timestamp 2,
/// because one copy passed through the all filter while the other was
/// passed through the label and sink. Note that one copy has label "foo",
/// while the other does not.
///
/// Cannot be used within the `predicate_filter`, `true_filter`, or
/// `false_filter` of a [Condition][google.bigtable.v2.RowFilter.Condition].
#[prost(bool, tag = "16")]
Sink(bool),
/// Matches all cells, regardless of input. Functionally equivalent to
/// leaving `filter` unset, but included for completeness.
#[prost(bool, tag = "17")]
PassAllFilter(bool),
/// Does not match any cells, regardless of input. Useful for temporarily
/// disabling just part of a filter.
#[prost(bool, tag = "18")]
BlockAllFilter(bool),
/// Matches only cells from rows whose keys satisfy the given RE2 regex. In
/// other words, passes through the entire row when the key matches, and
/// otherwise produces an empty row.
/// Note that, since row keys can contain arbitrary bytes, the `\C` escape
/// sequence must be used if a true wildcard is desired. The `.` character
/// will not match the new line character `\n`, which may be present in a
/// binary key.
#[prost(bytes, tag = "4")]
RowKeyRegexFilter(::prost::alloc::vec::Vec<u8>),
/// Matches all cells from a row with probability p, and matches no cells
/// from the row with probability 1-p.
#[prost(double, tag = "14")]
RowSampleFilter(f64),
/// Matches only cells from columns whose families satisfy the given RE2
/// regex. For technical reasons, the regex must not contain the `:`
/// character, even if it is not being used as a literal.
/// Note that, since column families cannot contain the new line character
/// `\n`, it is sufficient to use `.` as a full wildcard when matching
/// column family names.
#[prost(string, tag = "5")]
FamilyNameRegexFilter(::prost::alloc::string::String),
/// Matches only cells from columns whose qualifiers satisfy the given RE2
/// regex.
/// Note that, since column qualifiers can contain arbitrary bytes, the `\C`
/// escape sequence must be used if a true wildcard is desired. The `.`
/// character will not match the new line character `\n`, which may be
/// present in a binary qualifier.
#[prost(bytes, tag = "6")]
ColumnQualifierRegexFilter(::prost::alloc::vec::Vec<u8>),
/// Matches only cells from columns within the given range.
#[prost(message, tag = "7")]
ColumnRangeFilter(super::ColumnRange),
/// Matches only cells with timestamps within the given range.
#[prost(message, tag = "8")]
TimestampRangeFilter(super::TimestampRange),
/// Matches only cells with values that satisfy the given regular expression.
/// Note that, since cell values can contain arbitrary bytes, the `\C` escape
/// sequence must be used if a true wildcard is desired. The `.` character
/// will not match the new line character `\n`, which may be present in a
/// binary value.
#[prost(bytes, tag = "9")]
ValueRegexFilter(::prost::alloc::vec::Vec<u8>),
/// Matches only cells with values that fall within the given range.
#[prost(message, tag = "15")]
ValueRangeFilter(super::ValueRange),
/// Skips the first N cells of each row, matching all subsequent cells.
/// If duplicate cells are present, as is possible when using an Interleave,
/// each copy of the cell is counted separately.
#[prost(int32, tag = "10")]
CellsPerRowOffsetFilter(i32),
/// Matches only the first N cells of each row.
/// If duplicate cells are present, as is possible when using an Interleave,
/// each copy of the cell is counted separately.
#[prost(int32, tag = "11")]
CellsPerRowLimitFilter(i32),
/// Matches only the most recent N cells within each column. For example,
/// if N=2, this filter would match column `foo:bar` at timestamps 10 and 9,
/// skip all earlier cells in `foo:bar`, and then begin matching again in
/// column `foo:bar2`.
/// If duplicate cells are present, as is possible when using an Interleave,
/// each copy of the cell is counted separately.
#[prost(int32, tag = "12")]
CellsPerColumnLimitFilter(i32),
/// Replaces each cell's value with the empty string.
#[prost(bool, tag = "13")]
StripValueTransformer(bool),
/// Applies the given label to all cells in the output row. This allows
/// the client to determine which results were produced from which part of
/// the filter.
///
/// Values must be at most 15 characters in length, and match the RE2
/// pattern `\[a-z0-9\\-\]+`
///
/// Due to a technical limitation, it is not currently possible to apply
/// multiple labels to a cell. As a result, a Chain may have no more than
/// one sub-filter which contains a `apply_label_transformer`. It is okay for
/// an Interleave to contain multiple `apply_label_transformers`, as they
/// will be applied to separate copies of the input. This may be relaxed in
/// the future.
#[prost(string, tag = "19")]
ApplyLabelTransformer(::prost::alloc::string::String),
}
}
/// Specifies a particular change to be made to the contents of a row.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Mutation {
/// Which of the possible Mutation types to apply.
#[prost(oneof = "mutation::Mutation", tags = "1, 5, 6, 2, 3, 4")]
pub mutation: ::core::option::Option<mutation::Mutation>,
}
/// Nested message and enum types in `Mutation`.
pub mod mutation {
/// A Mutation which sets the value of the specified cell.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SetCell {
/// The name of the family into which new data should be written.
/// Must match `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The qualifier of the column into which new data should be written.
/// Can be any byte string, including the empty string.
#[prost(bytes = "vec", tag = "2")]
pub column_qualifier: ::prost::alloc::vec::Vec<u8>,
/// The timestamp of the cell into which new data should be written.
/// Use -1 for current Bigtable server time.
/// Otherwise, the client should set this value itself, noting that the
/// default value is a timestamp of zero if the field is left unspecified.
/// Values must match the granularity of the table (e.g. micros, millis).
#[prost(int64, tag = "3")]
pub timestamp_micros: i64,
/// The value to be written into the specified cell.
#[prost(bytes = "vec", tag = "4")]
pub value: ::prost::alloc::vec::Vec<u8>,
}
/// A Mutation which incrementally updates a cell in an `Aggregate` family.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct AddToCell {
/// The name of the `Aggregate` family into which new data should be added.
/// This must be a family with a `value_type` of `Aggregate`.
/// Format: `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The qualifier of the column into which new data should be added. This
/// must be a `raw_value`.
#[prost(message, optional, tag = "2")]
pub column_qualifier: ::core::option::Option<super::Value>,
/// The timestamp of the cell to which new data should be added. This must
/// be a `raw_timestamp_micros` that matches the table's `granularity`.
#[prost(message, optional, tag = "3")]
pub timestamp: ::core::option::Option<super::Value>,
/// The input value to be accumulated into the specified cell. This must be
/// compatible with the family's `value_type.input_type`.
#[prost(message, optional, tag = "4")]
pub input: ::core::option::Option<super::Value>,
}
/// A Mutation which merges accumulated state into a cell in an `Aggregate`
/// family.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MergeToCell {
/// The name of the `Aggregate` family into which new data should be added.
/// This must be a family with a `value_type` of `Aggregate`.
/// Format: `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The qualifier of the column into which new data should be added. This
/// must be a `raw_value`.
#[prost(message, optional, tag = "2")]
pub column_qualifier: ::core::option::Option<super::Value>,
/// The timestamp of the cell to which new data should be added. This must
/// be a `raw_timestamp_micros` that matches the table's `granularity`.
#[prost(message, optional, tag = "3")]
pub timestamp: ::core::option::Option<super::Value>,
/// The input value to be merged into the specified cell. This must be
/// compatible with the family's `value_type.state_type`. Merging `NULL` is
/// allowed, but has no effect.
#[prost(message, optional, tag = "4")]
pub input: ::core::option::Option<super::Value>,
}
/// A Mutation which deletes cells from the specified column, optionally
/// restricting the deletions to a given timestamp range.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct DeleteFromColumn {
/// The name of the family from which cells should be deleted.
/// Must match `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The qualifier of the column from which cells should be deleted.
/// Can be any byte string, including the empty string.
#[prost(bytes = "vec", tag = "2")]
pub column_qualifier: ::prost::alloc::vec::Vec<u8>,
/// The range of timestamps within which cells should be deleted.
#[prost(message, optional, tag = "3")]
pub time_range: ::core::option::Option<super::TimestampRange>,
}
/// A Mutation which deletes all cells from the specified column family.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct DeleteFromFamily {
/// The name of the family from which cells should be deleted.
/// Must match `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
}
/// A Mutation which deletes all cells from the containing row.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct DeleteFromRow {}
/// Which of the possible Mutation types to apply.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Mutation {
/// Set a cell's value.
#[prost(message, tag = "1")]
SetCell(SetCell),
/// Incrementally updates an `Aggregate` cell.
#[prost(message, tag = "5")]
AddToCell(AddToCell),
/// Merges accumulated state to an `Aggregate` cell.
#[prost(message, tag = "6")]
MergeToCell(MergeToCell),
/// Deletes cells from a column.
#[prost(message, tag = "2")]
DeleteFromColumn(DeleteFromColumn),
/// Deletes cells from a column family.
#[prost(message, tag = "3")]
DeleteFromFamily(DeleteFromFamily),
/// Deletes cells from the entire row.
#[prost(message, tag = "4")]
DeleteFromRow(DeleteFromRow),
}
}
/// Specifies an atomic read/modify/write operation on the latest value of the
/// specified column.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadModifyWriteRule {
/// The name of the family to which the read/modify/write should be applied.
/// Must match `\[-_.a-zA-Z0-9\]+`
#[prost(string, tag = "1")]
pub family_name: ::prost::alloc::string::String,
/// The qualifier of the column to which the read/modify/write should be
/// applied.
/// Can be any byte string, including the empty string.
#[prost(bytes = "vec", tag = "2")]
pub column_qualifier: ::prost::alloc::vec::Vec<u8>,
/// The rule used to determine the column's new latest value from its current
/// latest value.
#[prost(oneof = "read_modify_write_rule::Rule", tags = "3, 4")]
pub rule: ::core::option::Option<read_modify_write_rule::Rule>,
}
/// Nested message and enum types in `ReadModifyWriteRule`.
pub mod read_modify_write_rule {
/// The rule used to determine the column's new latest value from its current
/// latest value.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Rule {
/// Rule specifying that `append_value` be appended to the existing value.
/// If the targeted cell is unset, it will be treated as containing the
/// empty string.
#[prost(bytes, tag = "3")]
AppendValue(::prost::alloc::vec::Vec<u8>),
/// Rule specifying that `increment_amount` be added to the existing value.
/// If the targeted cell is unset, it will be treated as containing a zero.
/// Otherwise, the targeted cell must contain an 8-byte value (interpreted
/// as a 64-bit big-endian signed integer), or the entire request will fail.
#[prost(int64, tag = "4")]
IncrementAmount(i64),
}
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// A partition of a change stream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct StreamPartition {
/// The row range covered by this partition and is specified by
/// [`start_key_closed`, `end_key_open`).
#[prost(message, optional, tag = "1")]
pub row_range: ::core::option::Option<RowRange>,
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// The information required to continue reading the data from multiple
/// `StreamPartitions` from where a previous read left off.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct StreamContinuationTokens {
/// List of continuation tokens.
#[prost(message, repeated, tag = "1")]
pub tokens: ::prost::alloc::vec::Vec<StreamContinuationToken>,
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// The information required to continue reading the data from a
/// `StreamPartition` from where a previous read left off.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct StreamContinuationToken {
/// The partition that this token applies to.
#[prost(message, optional, tag = "1")]
pub partition: ::core::option::Option<StreamPartition>,
/// An encoded position in the stream to restart reading from.
#[prost(string, tag = "2")]
pub token: ::prost::alloc::string::String,
}
/// Protocol buffers format descriptor, as described by Messages ProtoSchema and
/// ProtoRows
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct ProtoFormat {}
/// Describes a column in a Bigtable Query Language result set.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ColumnMetadata {
/// The name of the column.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// The type of the column.
#[prost(message, optional, tag = "2")]
pub r#type: ::core::option::Option<Type>,
}
/// ResultSet schema in proto format
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ProtoSchema {
/// The columns in the result set.
#[prost(message, repeated, tag = "1")]
pub columns: ::prost::alloc::vec::Vec<ColumnMetadata>,
}
/// Describes the structure of a Bigtable result set.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ResultSetMetadata {
/// The schema of the ResultSet, contains ordered list of column names
/// with types
#[prost(oneof = "result_set_metadata::Schema", tags = "1")]
pub schema: ::core::option::Option<result_set_metadata::Schema>,
}
/// Nested message and enum types in `ResultSetMetadata`.
pub mod result_set_metadata {
/// The schema of the ResultSet, contains ordered list of column names
/// with types
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Schema {
/// Schema in proto format
#[prost(message, tag = "1")]
ProtoSchema(super::ProtoSchema),
}
}
/// Rows represented in proto format.
///
/// This should be constructed by concatenating the `batch_data` from each
/// of the relevant `ProtoRowsBatch` messages and parsing the result as a
/// `ProtoRows` message.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ProtoRows {
/// A proto rows message consists of a list of values. Every N complete values
/// defines a row, where N is equal to the number of entries in the
/// `metadata.proto_schema.columns` value received in the first response.
#[prost(message, repeated, tag = "2")]
pub values: ::prost::alloc::vec::Vec<Value>,
}
/// Batch of serialized ProtoRows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ProtoRowsBatch {
/// Merge partial results by concatenating these bytes, then parsing the
/// overall value as a `ProtoRows` message.
#[prost(bytes = "vec", tag = "1")]
pub batch_data: ::prost::alloc::vec::Vec<u8>,
}
/// A partial result set from the streaming query API.
/// CBT client will buffer partial_rows from result_sets until it gets a
/// resumption_token.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct PartialResultSet {
/// An opaque token sent by the server to allow query resumption and signal
/// the client to accumulate `partial_rows` since the last non-empty
/// `resume_token`. On resumption, the resumed query will return the remaining
/// rows for this query.
///
/// If there is a batch in progress, a non-empty `resume_token`
/// means that that the batch of `partial_rows` will be complete after merging
/// the `partial_rows` from this response. The client must only yield
/// completed batches to the application, and must ensure that any future
/// retries send the latest token to avoid returning duplicate data.
///
/// The server may set 'resume_token' without a 'partial_rows'. If there is a
/// batch in progress the client should yield it.
///
/// The server will also send a sentinel `resume_token` when last batch of
/// `partial_rows` is sent. If the client retries the ExecuteQueryRequest with
/// the sentinel `resume_token`, the server will emit it again without any
/// `partial_rows`, then return OK.
#[prost(bytes = "vec", tag = "5")]
pub resume_token: ::prost::alloc::vec::Vec<u8>,
/// Estimated size of a new batch. The server will always set this when
/// returning the first `partial_rows` of a batch, and will not set it at any
/// other time.
///
/// The client can use this estimate to allocate an initial buffer for the
/// batched results. This helps minimize the number of allocations required,
/// though the buffer size may still need to be increased if the estimate is
/// too low.
#[prost(int32, tag = "4")]
pub estimated_batch_size: i32,
/// Partial Rows in one of the supported formats. It may require many
/// PartialResultSets to stream a batch of rows that can decoded on the client.
/// The client should buffer partial_rows until it gets a `resume_token`,
/// at which point the batch is complete and can be decoded and yielded to the
/// user. Each sub-message documents the appropriate way to combine results.
#[prost(oneof = "partial_result_set::PartialRows", tags = "3")]
pub partial_rows: ::core::option::Option<partial_result_set::PartialRows>,
}
/// Nested message and enum types in `PartialResultSet`.
pub mod partial_result_set {
/// Partial Rows in one of the supported formats. It may require many
/// PartialResultSets to stream a batch of rows that can decoded on the client.
/// The client should buffer partial_rows until it gets a `resume_token`,
/// at which point the batch is complete and can be decoded and yielded to the
/// user. Each sub-message documents the appropriate way to combine results.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum PartialRows {
/// Partial rows in serialized ProtoRows format.
#[prost(message, tag = "3")]
ProtoRowsBatch(super::ProtoRowsBatch),
}
}
/// ReadIterationStats captures information about the iteration of rows or cells
/// over the course of a read, e.g. how many results were scanned in a read
/// operation versus the results returned.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct ReadIterationStats {
/// The rows seen (scanned) as part of the request. This includes the count of
/// rows returned, as captured below.
#[prost(int64, tag = "1")]
pub rows_seen_count: i64,
/// The rows returned as part of the request.
#[prost(int64, tag = "2")]
pub rows_returned_count: i64,
/// The cells seen (scanned) as part of the request. This includes the count of
/// cells returned, as captured below.
#[prost(int64, tag = "3")]
pub cells_seen_count: i64,
/// The cells returned as part of the request.
#[prost(int64, tag = "4")]
pub cells_returned_count: i64,
}
/// RequestLatencyStats provides a measurement of the latency of the request as
/// it interacts with different systems over its lifetime, e.g. how long the
/// request took to execute within a frontend server.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct RequestLatencyStats {
/// The latency measured by the frontend server handling this request, from
/// when the request was received, to when this value is sent back in the
/// response. For more context on the component that is measuring this latency,
/// see: <https://cloud.google.com/bigtable/docs/overview>
///
/// Note: This value may be slightly shorter than the value reported into
/// aggregate latency metrics in Monitoring for this request
/// (<https://cloud.google.com/bigtable/docs/monitoring-instance>) as this value
/// needs to be sent in the response before the latency measurement including
/// that transmission is finalized.
///
/// Note: This value includes the end-to-end latency of contacting nodes in
/// the targeted cluster, e.g. measuring from when the first byte arrives at
/// the frontend server, to when this value is sent back as the last value in
/// the response, including any latency incurred by contacting nodes, waiting
/// for results from nodes, and finally sending results from nodes back to the
/// caller.
#[prost(message, optional, tag = "1")]
pub frontend_server_latency: ::core::option::Option<::prost_types::Duration>,
}
/// FullReadStatsView captures all known information about a read.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct FullReadStatsView {
/// Iteration stats describe how efficient the read is, e.g. comparing
/// rows seen vs. rows returned or cells seen vs cells returned can provide an
/// indication of read efficiency (the higher the ratio of seen to retuned the
/// better).
#[prost(message, optional, tag = "1")]
pub read_iteration_stats: ::core::option::Option<ReadIterationStats>,
/// Request latency stats describe the time taken to complete a request, from
/// the server side.
#[prost(message, optional, tag = "2")]
pub request_latency_stats: ::core::option::Option<RequestLatencyStats>,
}
/// RequestStats is the container for additional information pertaining to a
/// single request, helpful for evaluating the performance of the sent request.
/// Currently, there are the following supported methods:
/// * google.bigtable.v2.ReadRows
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct RequestStats {
/// Information pertaining to each request type received. The type is chosen
/// based on the requested view.
///
/// See the messages above for additional context.
#[prost(oneof = "request_stats::StatsView", tags = "1")]
pub stats_view: ::core::option::Option<request_stats::StatsView>,
}
/// Nested message and enum types in `RequestStats`.
pub mod request_stats {
/// Information pertaining to each request type received. The type is chosen
/// based on the requested view.
///
/// See the messages above for additional context.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum StatsView {
/// Available with the ReadRowsRequest.RequestStatsView.REQUEST_STATS_FULL
/// view, see package google.bigtable.v2.
#[prost(message, tag = "1")]
FullReadStatsView(super::FullReadStatsView),
}
}
/// Request message for Bigtable.ReadRows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadRowsRequest {
/// Optional. The unique name of the table from which to read.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView from which to read.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "9")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "5")]
pub app_profile_id: ::prost::alloc::string::String,
/// The row keys and/or ranges to read sequentially. If not specified, reads
/// from all rows.
#[prost(message, optional, tag = "2")]
pub rows: ::core::option::Option<RowSet>,
/// The filter to apply to the contents of the specified row(s). If unset,
/// reads the entirety of each row.
#[prost(message, optional, tag = "3")]
pub filter: ::core::option::Option<RowFilter>,
/// The read will stop after committing to N rows' worth of results. The
/// default (zero) is to return all results.
#[prost(int64, tag = "4")]
pub rows_limit: i64,
/// The view into RequestStats, as described above.
#[prost(enumeration = "read_rows_request::RequestStatsView", tag = "6")]
pub request_stats_view: i32,
/// Experimental API - Please note that this API is currently experimental
/// and can change in the future.
///
/// Return rows in lexiographical descending order of the row keys. The row
/// contents will not be affected by this flag.
///
/// Example result set:
///
/// [
/// {key: "k2", "f:col1": "v1", "f:col2": "v1"},
/// {key: "k1", "f:col1": "v2", "f:col2": "v2"}
/// ]
#[prost(bool, tag = "7")]
pub reversed: bool,
}
/// Nested message and enum types in `ReadRowsRequest`.
pub mod read_rows_request {
/// The desired view into RequestStats that should be returned in the response.
///
/// See also: RequestStats message.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum RequestStatsView {
/// The default / unset value. The API will default to the NONE option below.
Unspecified = 0,
/// Do not include any RequestStats in the response. This will leave the
/// RequestStats embedded message unset in the response.
RequestStatsNone = 1,
/// Include the full set of available RequestStats in the response,
/// applicable to this read.
RequestStatsFull = 2,
}
impl RequestStatsView {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Self::Unspecified => "REQUEST_STATS_VIEW_UNSPECIFIED",
Self::RequestStatsNone => "REQUEST_STATS_NONE",
Self::RequestStatsFull => "REQUEST_STATS_FULL",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"REQUEST_STATS_VIEW_UNSPECIFIED" => Some(Self::Unspecified),
"REQUEST_STATS_NONE" => Some(Self::RequestStatsNone),
"REQUEST_STATS_FULL" => Some(Self::RequestStatsFull),
_ => None,
}
}
}
}
/// Response message for Bigtable.ReadRows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadRowsResponse {
/// A collection of a row's contents as part of the read request.
#[prost(message, repeated, tag = "1")]
pub chunks: ::prost::alloc::vec::Vec<read_rows_response::CellChunk>,
/// Optionally the server might return the row key of the last row it
/// has scanned. The client can use this to construct a more
/// efficient retry request if needed: any row keys or portions of
/// ranges less than this row key can be dropped from the request.
/// This is primarily useful for cases where the server has read a
/// lot of data that was filtered out since the last committed row
/// key, allowing the client to skip that work on a retry.
#[prost(bytes = "vec", tag = "2")]
pub last_scanned_row_key: ::prost::alloc::vec::Vec<u8>,
///
/// If requested, provide enhanced query performance statistics. The semantics
/// dictate:
/// * request_stats is empty on every (streamed) response, except
/// * request_stats has non-empty information after all chunks have been
/// streamed, where the ReadRowsResponse message only contains
/// request_stats.
/// * For example, if a read request would have returned an empty
/// response instead a single ReadRowsResponse is streamed with empty
/// chunks and request_stats filled.
///
/// Visually, response messages will stream as follows:
/// ... -> {chunks: \[...\]} -> {chunks: \[\], request_stats: {...}}
/// \______________________/ \________________________________/
/// Primary response Trailer of RequestStats info
///
/// Or if the read did not return any values:
/// {chunks: \[\], request_stats: {...}}
/// \________________________________/
/// Trailer of RequestStats info
#[prost(message, optional, tag = "3")]
pub request_stats: ::core::option::Option<RequestStats>,
}
/// Nested message and enum types in `ReadRowsResponse`.
pub mod read_rows_response {
/// Specifies a piece of a row's contents returned as part of the read
/// response stream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct CellChunk {
/// The row key for this chunk of data. If the row key is empty,
/// this CellChunk is a continuation of the same row as the previous
/// CellChunk in the response stream, even if that CellChunk was in a
/// previous ReadRowsResponse message.
#[prost(bytes = "vec", tag = "1")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// The column family name for this chunk of data. If this message
/// is not present this CellChunk is a continuation of the same column
/// family as the previous CellChunk. The empty string can occur as a
/// column family name in a response so clients must check
/// explicitly for the presence of this message, not just for
/// `family_name.value` being non-empty.
#[prost(message, optional, tag = "2")]
pub family_name: ::core::option::Option<::prost::alloc::string::String>,
/// The column qualifier for this chunk of data. If this message
/// is not present, this CellChunk is a continuation of the same column
/// as the previous CellChunk. Column qualifiers may be empty so
/// clients must check for the presence of this message, not just
/// for `qualifier.value` being non-empty.
#[prost(message, optional, tag = "3")]
pub qualifier: ::core::option::Option<::prost::alloc::vec::Vec<u8>>,
/// The cell's stored timestamp, which also uniquely identifies it
/// within its column. Values are always expressed in
/// microseconds, but individual tables may set a coarser
/// granularity to further restrict the allowed values. For
/// example, a table which specifies millisecond granularity will
/// only allow values of `timestamp_micros` which are multiples of
/// 1000. Timestamps are only set in the first CellChunk per cell
/// (for cells split into multiple chunks).
#[prost(int64, tag = "4")]
pub timestamp_micros: i64,
/// Labels applied to the cell by a
/// [RowFilter][google.bigtable.v2.RowFilter]. Labels are only set
/// on the first CellChunk per cell.
#[prost(string, repeated, tag = "5")]
pub labels: ::prost::alloc::vec::Vec<::prost::alloc::string::String>,
/// The value stored in the cell. Cell values can be split across
/// multiple CellChunks. In that case only the value field will be
/// set in CellChunks after the first: the timestamp and labels
/// will only be present in the first CellChunk, even if the first
/// CellChunk came in a previous ReadRowsResponse.
#[prost(bytes = "vec", tag = "6")]
pub value: ::prost::alloc::vec::Vec<u8>,
/// If this CellChunk is part of a chunked cell value and this is
/// not the final chunk of that cell, value_size will be set to the
/// total length of the cell value. The client can use this size
/// to pre-allocate memory to hold the full cell value.
#[prost(int32, tag = "7")]
pub value_size: i32,
/// Signals to the client concerning previous CellChunks received.
#[prost(oneof = "cell_chunk::RowStatus", tags = "8, 9")]
pub row_status: ::core::option::Option<cell_chunk::RowStatus>,
}
/// Nested message and enum types in `CellChunk`.
pub mod cell_chunk {
/// Signals to the client concerning previous CellChunks received.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum RowStatus {
/// Indicates that the client should drop all previous chunks for
/// `row_key`, as it will be re-read from the beginning.
#[prost(bool, tag = "8")]
ResetRow(bool),
/// Indicates that the client can safely process all previous chunks for
/// `row_key`, as its data has been fully read.
#[prost(bool, tag = "9")]
CommitRow(bool),
}
}
}
/// Request message for Bigtable.SampleRowKeys.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SampleRowKeysRequest {
/// Optional. The unique name of the table from which to sample row keys.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView from which to sample row
/// keys.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "4")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "2")]
pub app_profile_id: ::prost::alloc::string::String,
}
/// Response message for Bigtable.SampleRowKeys.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SampleRowKeysResponse {
/// Sorted streamed sequence of sample row keys in the table. The table might
/// have contents before the first row key in the list and after the last one,
/// but a key containing the empty string indicates "end of table" and will be
/// the last response given, if present.
/// Note that row keys in this list may not have ever been written to or read
/// from, and users should therefore not make any assumptions about the row key
/// structure that are specific to their use case.
#[prost(bytes = "vec", tag = "1")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// Approximate total storage space used by all rows in the table which precede
/// `row_key`. Buffering the contents of all rows between two subsequent
/// samples would require space roughly equal to the difference in their
/// `offset_bytes` fields.
#[prost(int64, tag = "2")]
pub offset_bytes: i64,
}
/// Request message for Bigtable.MutateRow.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MutateRowRequest {
/// Optional. The unique name of the table to which the mutation should be
/// applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView to which the mutation
/// should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "6")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "4")]
pub app_profile_id: ::prost::alloc::string::String,
/// Required. The key of the row to which the mutation should be applied.
#[prost(bytes = "vec", tag = "2")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// Required. Changes to be atomically applied to the specified row. Entries
/// are applied in order, meaning that earlier mutations can be masked by later
/// ones. Must contain at least one entry and at most 100000.
#[prost(message, repeated, tag = "3")]
pub mutations: ::prost::alloc::vec::Vec<Mutation>,
}
/// Response message for Bigtable.MutateRow.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct MutateRowResponse {}
/// Request message for BigtableService.MutateRows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MutateRowsRequest {
/// Optional. The unique name of the table to which the mutations should be
/// applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView to which the mutations
/// should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "5")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "3")]
pub app_profile_id: ::prost::alloc::string::String,
/// Required. The row keys and corresponding mutations to be applied in bulk.
/// Each entry is applied as an atomic mutation, but the entries may be
/// applied in arbitrary order (even between entries for the same row).
/// At least one entry must be specified, and in total the entries can
/// contain at most 100000 mutations.
#[prost(message, repeated, tag = "2")]
pub entries: ::prost::alloc::vec::Vec<mutate_rows_request::Entry>,
}
/// Nested message and enum types in `MutateRowsRequest`.
pub mod mutate_rows_request {
/// A mutation for a given row.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Entry {
/// The key of the row to which the `mutations` should be applied.
#[prost(bytes = "vec", tag = "1")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// Required. Changes to be atomically applied to the specified row.
/// Mutations are applied in order, meaning that earlier mutations can be
/// masked by later ones. You must specify at least one mutation.
#[prost(message, repeated, tag = "2")]
pub mutations: ::prost::alloc::vec::Vec<super::Mutation>,
}
}
/// Response message for BigtableService.MutateRows.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MutateRowsResponse {
/// One or more results for Entries from the batch request.
#[prost(message, repeated, tag = "1")]
pub entries: ::prost::alloc::vec::Vec<mutate_rows_response::Entry>,
/// Information about how client should limit the rate (QPS). Primirily used by
/// supported official Cloud Bigtable clients. If unset, the rate limit info is
/// not provided by the server.
#[prost(message, optional, tag = "3")]
pub rate_limit_info: ::core::option::Option<RateLimitInfo>,
}
/// Nested message and enum types in `MutateRowsResponse`.
pub mod mutate_rows_response {
/// The result of applying a passed mutation in the original request.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Entry {
/// The index into the original request's `entries` list of the Entry
/// for which a result is being reported.
#[prost(int64, tag = "1")]
pub index: i64,
/// The result of the request Entry identified by `index`.
/// Depending on how requests are batched during execution, it is possible
/// for one Entry to fail due to an error with another Entry. In the event
/// that this occurs, the same error will be reported for both entries.
#[prost(message, optional, tag = "2")]
pub status: ::core::option::Option<super::super::super::rpc::Status>,
}
}
/// Information about how client should adjust the load to Bigtable.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct RateLimitInfo {
/// Time that clients should wait before adjusting the target rate again.
/// If clients adjust rate too frequently, the impact of the previous
/// adjustment may not have been taken into account and may
/// over-throttle or under-throttle. If clients adjust rate too slowly, they
/// will not be responsive to load changes on server side, and may
/// over-throttle or under-throttle.
#[prost(message, optional, tag = "1")]
pub period: ::core::option::Option<::prost_types::Duration>,
/// If it has been at least one `period` since the last load adjustment, the
/// client should multiply the current load by this value to get the new target
/// load. For example, if the current load is 100 and `factor` is 0.8, the new
/// target load should be 80. After adjusting, the client should ignore
/// `factor` until another `period` has passed.
///
/// The client can measure its load using any unit that's comparable over time
/// For example, QPS can be used as long as each request involves a similar
/// amount of work.
#[prost(double, tag = "2")]
pub factor: f64,
}
/// Request message for Bigtable.CheckAndMutateRow.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct CheckAndMutateRowRequest {
/// Optional. The unique name of the table to which the conditional mutation
/// should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView to which the conditional
/// mutation should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "9")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "7")]
pub app_profile_id: ::prost::alloc::string::String,
/// Required. The key of the row to which the conditional mutation should be
/// applied.
#[prost(bytes = "vec", tag = "2")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// The filter to be applied to the contents of the specified row. Depending
/// on whether or not any results are yielded, either `true_mutations` or
/// `false_mutations` will be executed. If unset, checks that the row contains
/// any values at all.
#[prost(message, optional, tag = "6")]
pub predicate_filter: ::core::option::Option<RowFilter>,
/// Changes to be atomically applied to the specified row if `predicate_filter`
/// yields at least one cell when applied to `row_key`. Entries are applied in
/// order, meaning that earlier mutations can be masked by later ones.
/// Must contain at least one entry if `false_mutations` is empty, and at most
/// 100000.
#[prost(message, repeated, tag = "4")]
pub true_mutations: ::prost::alloc::vec::Vec<Mutation>,
/// Changes to be atomically applied to the specified row if `predicate_filter`
/// does not yield any cells when applied to `row_key`. Entries are applied in
/// order, meaning that earlier mutations can be masked by later ones.
/// Must contain at least one entry if `true_mutations` is empty, and at most
/// 100000.
#[prost(message, repeated, tag = "5")]
pub false_mutations: ::prost::alloc::vec::Vec<Mutation>,
}
/// Response message for Bigtable.CheckAndMutateRow.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct CheckAndMutateRowResponse {
/// Whether or not the request's `predicate_filter` yielded any results for
/// the specified row.
#[prost(bool, tag = "1")]
pub predicate_matched: bool,
}
/// Request message for client connection keep-alive and warming.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct PingAndWarmRequest {
/// Required. The unique name of the instance to check permissions for as well
/// as respond. Values are of the form
/// `projects/<project>/instances/<instance>`.
#[prost(string, tag = "1")]
pub name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "2")]
pub app_profile_id: ::prost::alloc::string::String,
}
/// Response message for Bigtable.PingAndWarm connection keepalive and warming.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct PingAndWarmResponse {}
/// Request message for Bigtable.ReadModifyWriteRow.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadModifyWriteRowRequest {
/// Optional. The unique name of the table to which the read/modify/write rules
/// should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// Optional. The unique name of the AuthorizedView to which the
/// read/modify/write rules should be applied.
///
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>/authorizedViews/<authorized_view>`.
#[prost(string, tag = "6")]
pub authorized_view_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
#[prost(string, tag = "4")]
pub app_profile_id: ::prost::alloc::string::String,
/// Required. The key of the row to which the read/modify/write rules should be
/// applied.
#[prost(bytes = "vec", tag = "2")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// Required. Rules specifying how the specified row's contents are to be
/// transformed into writes. Entries are applied in order, meaning that earlier
/// rules will affect the results of later ones.
#[prost(message, repeated, tag = "3")]
pub rules: ::prost::alloc::vec::Vec<ReadModifyWriteRule>,
}
/// Response message for Bigtable.ReadModifyWriteRow.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadModifyWriteRowResponse {
/// A Row containing the new contents of all cells modified by the request.
#[prost(message, optional, tag = "1")]
pub row: ::core::option::Option<Row>,
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Request message for Bigtable.GenerateInitialChangeStreamPartitions.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct GenerateInitialChangeStreamPartitionsRequest {
/// Required. The unique name of the table from which to get change stream
/// partitions. Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
/// Change streaming must be enabled on the table.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
/// Single cluster routing must be configured on the profile.
#[prost(string, tag = "2")]
pub app_profile_id: ::prost::alloc::string::String,
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Response message for Bigtable.GenerateInitialChangeStreamPartitions.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct GenerateInitialChangeStreamPartitionsResponse {
/// A partition of the change stream.
#[prost(message, optional, tag = "1")]
pub partition: ::core::option::Option<StreamPartition>,
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Request message for Bigtable.ReadChangeStream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadChangeStreamRequest {
/// Required. The unique name of the table from which to read a change stream.
/// Values are of the form
/// `projects/<project>/instances/<instance>/tables/<table>`.
/// Change streaming must be enabled on the table.
#[prost(string, tag = "1")]
pub table_name: ::prost::alloc::string::String,
/// This value specifies routing for replication. If not specified, the
/// "default" application profile will be used.
/// Single cluster routing must be configured on the profile.
#[prost(string, tag = "2")]
pub app_profile_id: ::prost::alloc::string::String,
/// The partition to read changes from.
#[prost(message, optional, tag = "3")]
pub partition: ::core::option::Option<StreamPartition>,
/// If specified, OK will be returned when the stream advances beyond
/// this time. Otherwise, changes will be continuously delivered on the stream.
/// This value is inclusive and will be truncated to microsecond granularity.
#[prost(message, optional, tag = "5")]
pub end_time: ::core::option::Option<::prost_types::Timestamp>,
/// If specified, the duration between `Heartbeat` messages on the stream.
/// Otherwise, defaults to 5 seconds.
#[prost(message, optional, tag = "7")]
pub heartbeat_duration: ::core::option::Option<::prost_types::Duration>,
/// Options for describing where we want to start reading from the stream.
#[prost(oneof = "read_change_stream_request::StartFrom", tags = "4, 6")]
pub start_from: ::core::option::Option<read_change_stream_request::StartFrom>,
}
/// Nested message and enum types in `ReadChangeStreamRequest`.
pub mod read_change_stream_request {
/// Options for describing where we want to start reading from the stream.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum StartFrom {
/// Start reading the stream at the specified timestamp. This timestamp must
/// be within the change stream retention period, less than or equal to the
/// current time, and after change stream creation, whichever is greater.
/// This value is inclusive and will be truncated to microsecond granularity.
#[prost(message, tag = "4")]
StartTime(::prost_types::Timestamp),
/// Tokens that describe how to resume reading a stream where reading
/// previously left off. If specified, changes will be read starting at the
/// the position. Tokens are delivered on the stream as part of `Heartbeat`
/// and `CloseStream` messages.
///
/// If a single token is provided, the token’s partition must exactly match
/// the request’s partition. If multiple tokens are provided, as in the case
/// of a partition merge, the union of the token partitions must exactly
/// cover the request’s partition. Otherwise, INVALID_ARGUMENT will be
/// returned.
#[prost(message, tag = "6")]
ContinuationTokens(super::StreamContinuationTokens),
}
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Response message for Bigtable.ReadChangeStream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ReadChangeStreamResponse {
/// The data or control message on the stream.
#[prost(oneof = "read_change_stream_response::StreamRecord", tags = "1, 2, 3")]
pub stream_record: ::core::option::Option<read_change_stream_response::StreamRecord>,
}
/// Nested message and enum types in `ReadChangeStreamResponse`.
pub mod read_change_stream_response {
/// A partial or complete mutation.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct MutationChunk {
/// If set, then the mutation is a `SetCell` with a chunked value across
/// multiple messages.
#[prost(message, optional, tag = "1")]
pub chunk_info: ::core::option::Option<mutation_chunk::ChunkInfo>,
/// If this is a continuation of a chunked message (`chunked_value_offset` >
/// 0), ignore all fields except the `SetCell`'s value and merge it with
/// the previous message by concatenating the value fields.
#[prost(message, optional, tag = "2")]
pub mutation: ::core::option::Option<super::Mutation>,
}
/// Nested message and enum types in `MutationChunk`.
pub mod mutation_chunk {
/// Information about the chunking of this mutation.
/// Only `SetCell` mutations can be chunked, and all chunks for a `SetCell`
/// will be delivered contiguously with no other mutation types interleaved.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct ChunkInfo {
/// The total value size of all the chunks that make up the `SetCell`.
#[prost(int32, tag = "1")]
pub chunked_value_size: i32,
/// The byte offset of this chunk into the total value size of the
/// mutation.
#[prost(int32, tag = "2")]
pub chunked_value_offset: i32,
/// When true, this is the last chunk of a chunked `SetCell`.
#[prost(bool, tag = "3")]
pub last_chunk: bool,
}
}
/// A message corresponding to one or more mutations to the partition
/// being streamed. A single logical `DataChange` message may also be split
/// across a sequence of multiple individual messages. Messages other than
/// the first in a sequence will only have the `type` and `chunks` fields
/// populated, with the final message in the sequence also containing `done`
/// set to true.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct DataChange {
/// The type of the mutation.
#[prost(enumeration = "data_change::Type", tag = "1")]
pub r#type: i32,
/// The cluster where the mutation was applied.
/// Not set when `type` is `GARBAGE_COLLECTION`.
#[prost(string, tag = "2")]
pub source_cluster_id: ::prost::alloc::string::String,
/// The row key for all mutations that are part of this `DataChange`.
/// If the `DataChange` is chunked across multiple messages, then this field
/// will only be set for the first message.
#[prost(bytes = "vec", tag = "3")]
pub row_key: ::prost::alloc::vec::Vec<u8>,
/// The timestamp at which the mutation was applied on the Bigtable server.
#[prost(message, optional, tag = "4")]
pub commit_timestamp: ::core::option::Option<::prost_types::Timestamp>,
/// A value that lets stream consumers reconstruct Bigtable's
/// conflict resolution semantics.
/// <https://cloud.google.com/bigtable/docs/writes#conflict-resolution>
/// In the event that the same row key, column family, column qualifier,
/// timestamp are modified on different clusters at the same
/// `commit_timestamp`, the mutation with the larger `tiebreaker` will be the
/// one chosen for the eventually consistent state of the system.
#[prost(int32, tag = "5")]
pub tiebreaker: i32,
/// The mutations associated with this change to the partition.
/// May contain complete mutations or chunks of a multi-message chunked
/// `DataChange` record.
#[prost(message, repeated, tag = "6")]
pub chunks: ::prost::alloc::vec::Vec<MutationChunk>,
/// When true, indicates that the entire `DataChange` has been read
/// and the client can safely process the message.
#[prost(bool, tag = "8")]
pub done: bool,
/// An encoded position for this stream's partition to restart reading from.
/// This token is for the StreamPartition from the request.
#[prost(string, tag = "9")]
pub token: ::prost::alloc::string::String,
/// An estimate of the commit timestamp that is usually lower than or equal
/// to any timestamp for a record that will be delivered in the future on the
/// stream. It is possible that, under particular circumstances that a future
/// record has a timestamp is is lower than a previously seen timestamp. For
/// an example usage see
/// <https://beam.apache.org/documentation/basics/#watermarks>
#[prost(message, optional, tag = "10")]
pub estimated_low_watermark: ::core::option::Option<::prost_types::Timestamp>,
}
/// Nested message and enum types in `DataChange`.
pub mod data_change {
/// The type of mutation.
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum Type {
/// The type is unspecified.
Unspecified = 0,
/// A user-initiated mutation.
User = 1,
/// A system-initiated mutation as part of garbage collection.
/// <https://cloud.google.com/bigtable/docs/garbage-collection>
GarbageCollection = 2,
/// This is a continuation of a multi-message change.
Continuation = 3,
}
impl Type {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Self::Unspecified => "TYPE_UNSPECIFIED",
Self::User => "USER",
Self::GarbageCollection => "GARBAGE_COLLECTION",
Self::Continuation => "CONTINUATION",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"TYPE_UNSPECIFIED" => Some(Self::Unspecified),
"USER" => Some(Self::User),
"GARBAGE_COLLECTION" => Some(Self::GarbageCollection),
"CONTINUATION" => Some(Self::Continuation),
_ => None,
}
}
}
}
/// A periodic message with information that can be used to checkpoint
/// the state of a stream.
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Heartbeat {
/// A token that can be provided to a subsequent `ReadChangeStream` call
/// to pick up reading at the current stream position.
#[prost(message, optional, tag = "1")]
pub continuation_token: ::core::option::Option<super::StreamContinuationToken>,
/// An estimate of the commit timestamp that is usually lower than or equal
/// to any timestamp for a record that will be delivered in the future on the
/// stream. It is possible that, under particular circumstances that a future
/// record has a timestamp is is lower than a previously seen timestamp. For
/// an example usage see
/// <https://beam.apache.org/documentation/basics/#watermarks>
#[prost(message, optional, tag = "2")]
pub estimated_low_watermark: ::core::option::Option<::prost_types::Timestamp>,
}
/// A message indicating that the client should stop reading from the stream.
/// If status is OK and `continuation_tokens` & `new_partitions` are empty, the
/// stream has finished (for example if there was an `end_time` specified).
/// If `continuation_tokens` & `new_partitions` are present, then a change in
/// partitioning requires the client to open a new stream for each token to
/// resume reading. Example:
/// [B, D) ends
/// |
/// v
/// new_partitions: [A, C) [C, E)
/// continuation_tokens.partitions: [B,C) [C,D)
/// ^---^ ^---^
/// ^ ^
/// | |
/// | StreamContinuationToken 2
/// |
/// StreamContinuationToken 1
/// To read the new partition [A,C), supply the continuation tokens whose
/// ranges cover the new partition, for example ContinuationToken[A,B) &
/// ContinuationToken[B,C).
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct CloseStream {
/// The status of the stream.
#[prost(message, optional, tag = "1")]
pub status: ::core::option::Option<super::super::super::rpc::Status>,
/// If non-empty, contains the information needed to resume reading their
/// associated partitions.
#[prost(message, repeated, tag = "2")]
pub continuation_tokens: ::prost::alloc::vec::Vec<
super::StreamContinuationToken,
>,
/// If non-empty, contains the new partitions to start reading from, which
/// are related to but not necessarily identical to the partitions for the
/// above `continuation_tokens`.
#[prost(message, repeated, tag = "3")]
pub new_partitions: ::prost::alloc::vec::Vec<super::StreamPartition>,
}
/// The data or control message on the stream.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum StreamRecord {
/// A mutation to the partition.
#[prost(message, tag = "1")]
DataChange(DataChange),
/// A periodic heartbeat message.
#[prost(message, tag = "2")]
Heartbeat(Heartbeat),
/// An indication that the stream should be closed.
#[prost(message, tag = "3")]
CloseStream(CloseStream),
}
}
/// Request message for Bigtable.ExecuteQuery
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ExecuteQueryRequest {
/// Required. The unique name of the instance against which the query should be
/// executed.
/// Values are of the form `projects/<project>/instances/<instance>`
#[prost(string, tag = "1")]
pub instance_name: ::prost::alloc::string::String,
/// Optional. This value specifies routing for replication. If not specified,
/// the `default` application profile will be used.
#[prost(string, tag = "2")]
pub app_profile_id: ::prost::alloc::string::String,
/// Required. The query string.
#[prost(string, tag = "3")]
pub query: ::prost::alloc::string::String,
/// Optional. If this request is resuming a previously interrupted query
/// execution, `resume_token` should be copied from the last
/// PartialResultSet yielded before the interruption. Doing this
/// enables the query execution to resume where the last one left
/// off.
/// The rest of the request parameters must exactly match the
/// request that yielded this token. Otherwise the request will fail.
#[prost(bytes = "vec", tag = "8")]
pub resume_token: ::prost::alloc::vec::Vec<u8>,
/// Required. params contains string type keys and Bigtable type values that
/// bind to placeholders in the query string. In query string, a parameter
/// placeholder consists of the
/// `@` character followed by the parameter name (for example, `@firstName`) in
/// the query string.
///
/// For example, if
/// `params\["firstName"\] = bytes_value: "foo" type {bytes_type {}}`
/// then `@firstName` will be replaced with googlesql bytes value "foo" in the
/// query string during query evaluation.
///
/// In case of Value.kind is not set, it will be set to corresponding null
/// value in googlesql.
/// `params\["firstName"\] = type {string_type {}}`
/// then `@firstName` will be replaced with googlesql null string.
///
/// Value.type should always be set and no inference of type will be made from
/// Value.kind. If Value.type is not set, we will return INVALID_ARGUMENT
/// error.
#[prost(map = "string, message", tag = "7")]
pub params: ::std::collections::HashMap<::prost::alloc::string::String, Value>,
/// Required. Requested data format for the response.
#[prost(oneof = "execute_query_request::DataFormat", tags = "4")]
pub data_format: ::core::option::Option<execute_query_request::DataFormat>,
}
/// Nested message and enum types in `ExecuteQueryRequest`.
pub mod execute_query_request {
/// Required. Requested data format for the response.
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum DataFormat {
/// Protocol buffer format as described by ProtoSchema and ProtoRows
/// messages.
#[prost(message, tag = "4")]
ProtoFormat(super::ProtoFormat),
}
}
/// Response message for Bigtable.ExecuteQuery
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ExecuteQueryResponse {
/// The first response streamed from the server is of type `ResultSetMetadata`
/// and includes information about the columns and types of the result set.
/// From there on, we stream `PartialResultSet` messages with no additional
/// information. `PartialResultSet` will contain `resume_token` to restart the
/// response if query interrupts. In case of resumption with `resume_token`,
/// the server will not resend the ResultSetMetadata.
#[prost(oneof = "execute_query_response::Response", tags = "1, 2")]
pub response: ::core::option::Option<execute_query_response::Response>,
}
/// Nested message and enum types in `ExecuteQueryResponse`.
pub mod execute_query_response {
/// The first response streamed from the server is of type `ResultSetMetadata`
/// and includes information about the columns and types of the result set.
/// From there on, we stream `PartialResultSet` messages with no additional
/// information. `PartialResultSet` will contain `resume_token` to restart the
/// response if query interrupts. In case of resumption with `resume_token`,
/// the server will not resend the ResultSetMetadata.
#[derive(Clone, PartialEq, ::prost::Oneof)]
pub enum Response {
/// Structure of rows in this response stream. The first (and only the first)
/// response streamed from the server will be of this type.
#[prost(message, tag = "1")]
Metadata(super::ResultSetMetadata),
/// A partial result set with row data potentially including additional
/// instructions on how recent past and future partial responses should be
/// interpreted.
#[prost(message, tag = "2")]
Results(super::PartialResultSet),
}
}
/// Generated client implementations.
pub mod bigtable_client {
#![allow(
unused_variables,
dead_code,
missing_docs,
clippy::wildcard_imports,
clippy::let_unit_value,
)]
use tonic::codegen::*;
use tonic::codegen::http::Uri;
/// Service for reading from and writing to existing Bigtable tables.
#[derive(Debug, Clone)]
pub struct BigtableClient<T> {
inner: tonic::client::Grpc<T>,
}
impl<T> BigtableClient<T>
where
T: tonic::client::GrpcService<tonic::body::BoxBody>,
T::Error: Into<StdError>,
T::ResponseBody: Body<Data = Bytes> + std::marker::Send + 'static,
<T::ResponseBody as Body>::Error: Into<StdError> + std::marker::Send,
{
pub fn new(inner: T) -> Self {
let inner = tonic::client::Grpc::new(inner);
Self { inner }
}
pub fn with_origin(inner: T, origin: Uri) -> Self {
let inner = tonic::client::Grpc::with_origin(inner, origin);
Self { inner }
}
pub fn with_interceptor<F>(
inner: T,
interceptor: F,
) -> BigtableClient<InterceptedService<T, F>>
where
F: tonic::service::Interceptor,
T::ResponseBody: Default,
T: tonic::codegen::Service<
http::Request<tonic::body::BoxBody>,
Response = http::Response<
<T as tonic::client::GrpcService<tonic::body::BoxBody>>::ResponseBody,
>,
>,
<T as tonic::codegen::Service<
http::Request<tonic::body::BoxBody>,
>>::Error: Into<StdError> + std::marker::Send + std::marker::Sync,
{
BigtableClient::new(InterceptedService::new(inner, interceptor))
}
/// Compress requests with the given encoding.
///
/// This requires the server to support it otherwise it might respond with an
/// error.
#[must_use]
pub fn send_compressed(mut self, encoding: CompressionEncoding) -> Self {
self.inner = self.inner.send_compressed(encoding);
self
}
/// Enable decompressing responses.
#[must_use]
pub fn accept_compressed(mut self, encoding: CompressionEncoding) -> Self {
self.inner = self.inner.accept_compressed(encoding);
self
}
/// Limits the maximum size of a decoded message.
///
/// Default: `4MB`
#[must_use]
pub fn max_decoding_message_size(mut self, limit: usize) -> Self {
self.inner = self.inner.max_decoding_message_size(limit);
self
}
/// Limits the maximum size of an encoded message.
///
/// Default: `usize::MAX`
#[must_use]
pub fn max_encoding_message_size(mut self, limit: usize) -> Self {
self.inner = self.inner.max_encoding_message_size(limit);
self
}
/// Streams back the contents of all requested rows in key order, optionally
/// applying the same Reader filter to each. Depending on their size,
/// rows and cells may be broken up across multiple responses, but
/// atomicity of each row will still be preserved. See the
/// ReadRowsResponse documentation for details.
pub async fn read_rows(
&mut self,
request: impl tonic::IntoRequest<super::ReadRowsRequest>,
) -> std::result::Result<
tonic::Response<tonic::codec::Streaming<super::ReadRowsResponse>>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/ReadRows",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "ReadRows"));
self.inner.server_streaming(req, path, codec).await
}
/// Returns a sample of row keys in the table. The returned row keys will
/// delimit contiguous sections of the table of approximately equal size,
/// which can be used to break up the data for distributed tasks like
/// mapreduces.
pub async fn sample_row_keys(
&mut self,
request: impl tonic::IntoRequest<super::SampleRowKeysRequest>,
) -> std::result::Result<
tonic::Response<tonic::codec::Streaming<super::SampleRowKeysResponse>>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/SampleRowKeys",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "SampleRowKeys"));
self.inner.server_streaming(req, path, codec).await
}
/// Mutates a row atomically. Cells already present in the row are left
/// unchanged unless explicitly changed by `mutation`.
pub async fn mutate_row(
&mut self,
request: impl tonic::IntoRequest<super::MutateRowRequest>,
) -> std::result::Result<
tonic::Response<super::MutateRowResponse>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/MutateRow",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "MutateRow"));
self.inner.unary(req, path, codec).await
}
/// Mutates multiple rows in a batch. Each individual row is mutated
/// atomically as in MutateRow, but the entire batch is not executed
/// atomically.
pub async fn mutate_rows(
&mut self,
request: impl tonic::IntoRequest<super::MutateRowsRequest>,
) -> std::result::Result<
tonic::Response<tonic::codec::Streaming<super::MutateRowsResponse>>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/MutateRows",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "MutateRows"));
self.inner.server_streaming(req, path, codec).await
}
/// Mutates a row atomically based on the output of a predicate Reader filter.
pub async fn check_and_mutate_row(
&mut self,
request: impl tonic::IntoRequest<super::CheckAndMutateRowRequest>,
) -> std::result::Result<
tonic::Response<super::CheckAndMutateRowResponse>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/CheckAndMutateRow",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(
GrpcMethod::new("google.bigtable.v2.Bigtable", "CheckAndMutateRow"),
);
self.inner.unary(req, path, codec).await
}
/// Warm up associated instance metadata for this connection.
/// This call is not required but may be useful for connection keep-alive.
pub async fn ping_and_warm(
&mut self,
request: impl tonic::IntoRequest<super::PingAndWarmRequest>,
) -> std::result::Result<
tonic::Response<super::PingAndWarmResponse>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/PingAndWarm",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "PingAndWarm"));
self.inner.unary(req, path, codec).await
}
/// Modifies a row atomically on the server. The method reads the latest
/// existing timestamp and value from the specified columns and writes a new
/// entry based on pre-defined read/modify/write rules. The new value for the
/// timestamp is the greater of the existing timestamp or the current server
/// time. The method returns the new contents of all modified cells.
pub async fn read_modify_write_row(
&mut self,
request: impl tonic::IntoRequest<super::ReadModifyWriteRowRequest>,
) -> std::result::Result<
tonic::Response<super::ReadModifyWriteRowResponse>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/ReadModifyWriteRow",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(
GrpcMethod::new("google.bigtable.v2.Bigtable", "ReadModifyWriteRow"),
);
self.inner.unary(req, path, codec).await
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Returns the current list of partitions that make up the table's
/// change stream. The union of partitions will cover the entire keyspace.
/// Partitions can be read with `ReadChangeStream`.
pub async fn generate_initial_change_stream_partitions(
&mut self,
request: impl tonic::IntoRequest<
super::GenerateInitialChangeStreamPartitionsRequest,
>,
) -> std::result::Result<
tonic::Response<
tonic::codec::Streaming<
super::GenerateInitialChangeStreamPartitionsResponse,
>,
>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/GenerateInitialChangeStreamPartitions",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(
GrpcMethod::new(
"google.bigtable.v2.Bigtable",
"GenerateInitialChangeStreamPartitions",
),
);
self.inner.server_streaming(req, path, codec).await
}
/// NOTE: This API is intended to be used by Apache Beam BigtableIO.
/// Reads changes from a table's change stream. Changes will
/// reflect both user-initiated mutations and mutations that are caused by
/// garbage collection.
pub async fn read_change_stream(
&mut self,
request: impl tonic::IntoRequest<super::ReadChangeStreamRequest>,
) -> std::result::Result<
tonic::Response<tonic::codec::Streaming<super::ReadChangeStreamResponse>>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/ReadChangeStream",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(
GrpcMethod::new("google.bigtable.v2.Bigtable", "ReadChangeStream"),
);
self.inner.server_streaming(req, path, codec).await
}
/// Executes a BTQL query against a particular Cloud Bigtable instance.
pub async fn execute_query(
&mut self,
request: impl tonic::IntoRequest<super::ExecuteQueryRequest>,
) -> std::result::Result<
tonic::Response<tonic::codec::Streaming<super::ExecuteQueryResponse>>,
tonic::Status,
> {
self.inner
.ready()
.await
.map_err(|e| {
tonic::Status::unknown(
format!("Service was not ready: {}", e.into()),
)
})?;
let codec = tonic::codec::ProstCodec::default();
let path = http::uri::PathAndQuery::from_static(
"/google.bigtable.v2.Bigtable/ExecuteQuery",
);
let mut req = request.into_request();
req.extensions_mut()
.insert(GrpcMethod::new("google.bigtable.v2.Bigtable", "ExecuteQuery"));
self.inner.server_streaming(req, path, codec).await
}
}
}
/// Feature flags supported or enabled by a client.
/// This is intended to be sent as part of request metadata to assure the server
/// that certain behaviors are safe to enable. This proto is meant to be
/// serialized and websafe-base64 encoded under the `bigtable-features` metadata
/// key. The value will remain constant for the lifetime of a client and due to
/// HTTP2's HPACK compression, the request overhead will be tiny.
/// This is an internal implementation detail and should not be used by end users
/// directly.
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct FeatureFlags {
/// Notify the server that the client supports reverse scans. The server will
/// reject ReadRowsRequests with the reverse bit set when this is absent.
#[prost(bool, tag = "1")]
pub reverse_scans: bool,
/// Notify the server that the client enables batch write flow control by
/// requesting RateLimitInfo from MutateRowsResponse. Due to technical reasons,
/// this disables partial retries.
#[prost(bool, tag = "3")]
pub mutate_rows_rate_limit: bool,
/// Notify the server that the client enables batch write flow control by
/// requesting RateLimitInfo from MutateRowsResponse. With partial retries
/// enabled.
#[prost(bool, tag = "5")]
pub mutate_rows_rate_limit2: bool,
/// Notify the server that the client supports the last_scanned_row field
/// in ReadRowsResponse for long-running scans.
#[prost(bool, tag = "4")]
pub last_scanned_row_responses: bool,
/// Notify the server that the client supports using encoded routing cookie
/// strings to retry requests with.
#[prost(bool, tag = "6")]
pub routing_cookie: bool,
/// Notify the server that the client supports using retry info back off
/// durations to retry requests with.
#[prost(bool, tag = "7")]
pub retry_info: bool,
/// Notify the server that the client has client side metrics enabled.
#[prost(bool, tag = "8")]
pub client_side_metrics_enabled: bool,
/// Notify the server that the client using Traffic Director endpoint.
#[prost(bool, tag = "9")]
pub traffic_director_enabled: bool,
/// Notify the server that the client explicitly opted in for Direct Access.
#[prost(bool, tag = "10")]
pub direct_access_requested: bool,
}
/// Response metadata proto
/// This is an experimental feature that will be used to get zone_id and
/// cluster_id from response trailers to tag the metrics. This should not be
/// used by customers directly
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ResponseParams {
/// The cloud bigtable zone associated with the cluster.
#[prost(string, optional, tag = "1")]
pub zone_id: ::core::option::Option<::prost::alloc::string::String>,
/// Identifier for a cluster that represents set of
/// bigtable resources.
#[prost(string, optional, tag = "2")]
pub cluster_id: ::core::option::Option<::prost::alloc::string::String>,
}