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[protobuf] Update protobuf definitions to v1.30.1 (#364)
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Signed-off-by: envoy-bot <envoy-bot@users.noreply.github.com>
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344 changes: 344 additions & 0 deletions api/src/main/proto/cel/expr/checked.proto
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// Copyright 2023 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

syntax = "proto3";

package cel.expr;

import "cel/expr/syntax.proto";
import "google/protobuf/empty.proto";
import "google/protobuf/struct.proto";

option cc_enable_arenas = true;
option go_package = "cel.dev/expr";
option java_multiple_files = true;
option java_outer_classname = "DeclProto";
option java_package = "dev.cel.expr";

// Protos for representing CEL declarations and typed checked expressions.

// A CEL expression which has been successfully type checked.
message CheckedExpr {
// A map from expression ids to resolved references.
//
// The following entries are in this table:
//
// - An Ident or Select expression is represented here if it resolves to a
// declaration. For instance, if `a.b.c` is represented by
// `select(select(id(a), b), c)`, and `a.b` resolves to a declaration,
// while `c` is a field selection, then the reference is attached to the
// nested select expression (but not to the id or or the outer select).
// In turn, if `a` resolves to a declaration and `b.c` are field selections,
// the reference is attached to the ident expression.
// - Every Call expression has an entry here, identifying the function being
// called.
// - Every CreateStruct expression for a message has an entry, identifying
// the message.
map<int64, Reference> reference_map = 2;

// A map from expression ids to types.
//
// Every expression node which has a type different than DYN has a mapping
// here. If an expression has type DYN, it is omitted from this map to save
// space.
map<int64, Type> type_map = 3;

// The source info derived from input that generated the parsed `expr` and
// any optimizations made during the type-checking pass.
SourceInfo source_info = 5;

// The expr version indicates the major / minor version number of the `expr`
// representation.
//
// The most common reason for a version change will be to indicate to the CEL
// runtimes that transformations have been performed on the expr during static
// analysis. In some cases, this will save the runtime the work of applying
// the same or similar transformations prior to evaluation.
string expr_version = 6;

// The checked expression. Semantically equivalent to the parsed `expr`, but
// may have structural differences.
Expr expr = 4;
}

// Represents a CEL type.
message Type {
// List type with typed elements, e.g. `list<example.proto.MyMessage>`.
message ListType {
// The element type.
Type elem_type = 1;
}

// Map type with parameterized key and value types, e.g. `map<string, int>`.
message MapType {
// The type of the key.
Type key_type = 1;

// The type of the value.
Type value_type = 2;
}

// Function type with result and arg types.
message FunctionType {
// Result type of the function.
Type result_type = 1;

// Argument types of the function.
repeated Type arg_types = 2;
}

// Application defined abstract type.
message AbstractType {
// The fully qualified name of this abstract type.
string name = 1;

// Parameter types for this abstract type.
repeated Type parameter_types = 2;
}

// CEL primitive types.
enum PrimitiveType {
// Unspecified type.
PRIMITIVE_TYPE_UNSPECIFIED = 0;

// Boolean type.
BOOL = 1;

// Int64 type.
//
// 32-bit integer values are widened to int64.
INT64 = 2;

// Uint64 type.
//
// 32-bit unsigned integer values are widened to uint64.
UINT64 = 3;

// Double type.
//
// 32-bit float values are widened to double values.
DOUBLE = 4;

// String type.
STRING = 5;

// Bytes type.
BYTES = 6;
}

// Well-known protobuf types treated with first-class support in CEL.
enum WellKnownType {
// Unspecified type.
WELL_KNOWN_TYPE_UNSPECIFIED = 0;

// Well-known protobuf.Any type.
//
// Any types are a polymorphic message type. During type-checking they are
// treated like `DYN` types, but at runtime they are resolved to a specific
// message type specified at evaluation time.
ANY = 1;

// Well-known protobuf.Timestamp type, internally referenced as `timestamp`.
TIMESTAMP = 2;

// Well-known protobuf.Duration type, internally referenced as `duration`.
DURATION = 3;
}

// The kind of type.
oneof type_kind {
// Dynamic type.
google.protobuf.Empty dyn = 1;

// Null value.
google.protobuf.NullValue null = 2;

// Primitive types: `true`, `1u`, `-2.0`, `'string'`, `b'bytes'`.
PrimitiveType primitive = 3;

// Wrapper of a primitive type, e.g. `google.protobuf.Int64Value`.
PrimitiveType wrapper = 4;

// Well-known protobuf type such as `google.protobuf.Timestamp`.
WellKnownType well_known = 5;

// Parameterized list with elements of `list_type`, e.g. `list<timestamp>`.
ListType list_type = 6;

// Parameterized map with typed keys and values.
MapType map_type = 7;

// Function type.
FunctionType function = 8;

// Protocol buffer message type.
//
// The `message_type` string specifies the qualified message type name. For
// example, `google.type.PhoneNumber`.
string message_type = 9;

// Type param type.
//
// The `type_param` string specifies the type parameter name, e.g. `list<E>`
// would be a `list_type` whose element type was a `type_param` type
// named `E`.
string type_param = 10;

// Type type.
//
// The `type` value specifies the target type. e.g. int is type with a
// target type of `Primitive.INT64`.
Type type = 11;

// Error type.
//
// During type-checking if an expression is an error, its type is propagated
// as the `ERROR` type. This permits the type-checker to discover other
// errors present in the expression.
google.protobuf.Empty error = 12;

// Abstract, application defined type.
//
// An abstract type has no accessible field names, and it can only be
// inspected via helper / member functions.
AbstractType abstract_type = 14;
}
}

// Represents a declaration of a named value or function.
//
// A declaration is part of the contract between the expression, the agent
// evaluating that expression, and the caller requesting evaluation.
message Decl {
// Identifier declaration which specifies its type and optional `Expr` value.
//
// An identifier without a value is a declaration that must be provided at
// evaluation time. An identifier with a value should resolve to a constant,
// but may be used in conjunction with other identifiers bound at evaluation
// time.
message IdentDecl {
// Required. The type of the identifier.
Type type = 1;

// The constant value of the identifier. If not specified, the identifier
// must be supplied at evaluation time.
Constant value = 2;

// Documentation string for the identifier.
string doc = 3;
}

// Function declaration specifies one or more overloads which indicate the
// function's parameter types and return type.
//
// Functions have no observable side-effects (there may be side-effects like
// logging which are not observable from CEL).
message FunctionDecl {
// An overload indicates a function's parameter types and return type, and
// may optionally include a function body described in terms of
// [Expr][cel.expr.Expr] values.
//
// Functions overloads are declared in either a function or method
// call-style. For methods, the `params[0]` is the expected type of the
// target receiver.
//
// Overloads must have non-overlapping argument types after erasure of all
// parameterized type variables (similar as type erasure in Java).
message Overload {
// Required. Globally unique overload name of the function which reflects
// the function name and argument types.
//
// This will be used by a [Reference][cel.expr.Reference] to
// indicate the `overload_id` that was resolved for the function `name`.
string overload_id = 1;

// List of function parameter [Type][cel.expr.Type] values.
//
// Param types are disjoint after generic type parameters have been
// replaced with the type `DYN`. Since the `DYN` type is compatible with
// any other type, this means that if `A` is a type parameter, the
// function types `int<A>` and `int<int>` are not disjoint. Likewise,
// `map<string, string>` is not disjoint from `map<K, V>`.
//
// When the `result_type` of a function is a generic type param, the
// type param name also appears as the `type` of on at least one params.
repeated Type params = 2;

// The type param names associated with the function declaration.
//
// For example, `function ex<K,V>(K key, map<K, V> map) : V` would yield
// the type params of `K, V`.
repeated string type_params = 3;

// Required. The result type of the function. For example, the operator
// `string.isEmpty()` would have `result_type` of `kind: BOOL`.
Type result_type = 4;

// Whether the function is to be used in a method call-style `x.f(...)`
// of a function call-style `f(x, ...)`.
//
// For methods, the first parameter declaration, `params[0]` is the
// expected type of the target receiver.
bool is_instance_function = 5;

// Documentation string for the overload.
string doc = 6;
}

// Required. List of function overloads, must contain at least one overload.
repeated Overload overloads = 1;
}

// The fully qualified name of the declaration.
//
// Declarations are organized in containers and this represents the full path
// to the declaration in its container, as in `cel.expr.Decl`.
//
// Declarations used as
// [FunctionDecl.Overload][cel.expr.Decl.FunctionDecl.Overload]
// parameters may or may not have a name depending on whether the overload is
// function declaration or a function definition containing a result
// [Expr][cel.expr.Expr].
string name = 1;

// Required. The declaration kind.
oneof decl_kind {
// Identifier declaration.
IdentDecl ident = 2;

// Function declaration.
FunctionDecl function = 3;
}
}

// Describes a resolved reference to a declaration.
message Reference {
// The fully qualified name of the declaration.
string name = 1;

// For references to functions, this is a list of `Overload.overload_id`
// values which match according to typing rules.
//
// If the list has more than one element, overload resolution among the
// presented candidates must happen at runtime because of dynamic types. The
// type checker attempts to narrow down this list as much as possible.
//
// Empty if this is not a reference to a
// [Decl.FunctionDecl][cel.expr.Decl.FunctionDecl].
repeated string overload_id = 3;

// For references to constants, this may contain the value of the
// constant if known at compile time.
Constant value = 4;
}

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