cel-go

module
v0.22.1 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Nov 22, 2024 License: Apache-2.0, BSD-3-Clause

README

Common Expression Language

Go Report Card GoDoc

The Common Expression Language (CEL) is a non-Turing complete language designed for simplicity, speed, safety, and portability. CEL's C-like syntax looks nearly identical to equivalent expressions in C++, Go, Java, and TypeScript.

// Check whether a resource name starts with a group name.
resource.name.startsWith("/groups/" + auth.claims.group)
// Determine whether the request is in the permitted time window.
request.time - resource.age < duration("24h")
// Check whether all resource names in a list match a given filter.
auth.claims.email_verified && resources.all(r, r.startsWith(auth.claims.email))

A CEL "program" is a single expression. The examples have been tagged as java, go, and typescript within the markdown to showcase the commonality of the syntax.

CEL is ideal for lightweight expression evaluation when a fully sandboxed scripting language is too resource intensive. To get started, try the Codelab.



Overview

Determine the variables and functions you want to provide to CEL. Parse and check an expression to make sure it's valid. Then evaluate the output AST against some input. Checking is optional, but strongly encouraged.

Environment Setup

Let's expose name and group variables to CEL using the cel.Variable environment option:

import "github.com/google/cel-go/cel"

env, err := cel.NewEnv(
    cel.Variable("name", cel.StringType),
    cel.Variable("group", cel.StringType),
)

That's it. The environment is ready to be used for parsing and type-checking. CEL supports all the usual primitive types in addition to lists, maps, as well as first-class support for JSON and Protocol Buffers.

Parse and Check

The parsing phase indicates whether the expression is syntactically valid and expands any macros present within the environment. Parsing and checking are more computationally expensive than evaluation, and it is recommended that expressions be parsed and checked ahead of time.

The parse and check phases are combined for convenience into the Compile step:

ast, issues := env.Compile(`name.startsWith("/groups/" + group)`)
if issues != nil && issues.Err() != nil {
    log.Fatalf("type-check error: %s", issues.Err())
}
prg, err := env.Program(ast)
if err != nil {
    log.Fatalf("program construction error: %s", err)
}

The cel.Program generated at the end of parse and check is stateless, thread-safe, and cachable.

Type-checking is an optional, but strongly encouraged step that can reject some semantically invalid expressions using static analysis. Additionally, the check produces metadata which can improve function invocation performance and object field selection at evaluation-time.

Macros

Macros are optional but enabled by default. Macros were introduced to support optional CEL features that might not be desired in all use cases without the syntactic burden and complexity such features might desire if they were part of the core CEL syntax. Macros are expanded at parse time and their expansions are type-checked at check time.

For example, when macros are enabled it is possible to support bounded iteration / fold operators. The macros all, exists, exists_one, filter, and map are particularly useful for evaluating a single predicate against list and map values.

// Ensure all tweets are less than 140 chars
tweets.all(t, t.size() <= 140)

The has macro is useful for unifying field presence testing logic across protobuf types and dynamic (JSON-like) types.

// Test whether the field is a non-default value if proto-based, or defined
// in the JSON case.
has(message.field)

Both cases traditionally require special syntax at the language level, but these features are exposed via macros in CEL.

Evaluate

Now, evaluate for fun and profit. The evaluation is thread-safe and side-effect free. Many different inputs can be sent to the same cel.Program and if fields are present in the input, but not referenced in the expression, they are ignored.

// The `out` var contains the output of a successful evaluation.
// The `details' var would contain intermediate evaluation state if enabled as
// a cel.ProgramOption. This can be useful for visualizing how the `out` value
// was arrive at.
out, details, err := prg.Eval(map[string]interface{}{
    "name": "/groups/acme.co/documents/secret-stuff",
    "group": "acme.co"})
fmt.Println(out) // 'true'
Partial State

What if name hadn't been supplied? CEL is designed for this case. In distributed apps it is not uncommon to have edge caches and central services. If possible, evaluation should happen at the edge, but it isn't always possible to know the full state required for all values and functions present in the CEL expression.

To improve the odds of successful evaluation with partial state, CEL uses commutative logical operators &&, ||. If an error or unknown value (not the same thing) is encountered on the left-hand side, the right hand side is evaluated also to determine the outcome. While it is possible to implement evaluation with partial state without this feature, this method was chosen because it aligns with the semantics of SQL evaluation and because it's more robust to evaluation against dynamic data types such as JSON inputs.

In the following truth-table, the symbols <x> and <y> represent error or unknown values, with the ? indicating that the branch is not taken due to short-circuiting. When the result is <x, y> this means that the both args are possibly relevant to the result.

Expression Result
false && ? false
true && false false
<x> && false false
true && true true
true && <x> <x>
<x> && true <x>
<x> && <y> <x, y>
true || ? true
false || true true
<x> || true true
false || false false
false || <x> <x>
<x> || false <x>
<x> || <y> <x, y>

In the cases where unknowns are expected, cel.EvalOptions(cel.OptTrackState) should be enabled. The details value returned by Eval() will contain the intermediate evaluation values and can be provided to the interpreter.Prune function to generate a residual expression. e.g.:

// Residual when `name` omitted:
name.startsWith("/groups/acme.co")

This technique can be useful when there are variables that are expensive to compute unless they are absolutely needed. This functionality will be the focus of many future improvements, so keep an eye out for more goodness here!

Errors

Parse and check errors have friendly error messages with pointers to where the issues occur in source:

ERROR: <input>:1:40: undefined field 'undefined'
    | TestAllTypes{single_int32: 1, undefined: 2}
    | .......................................^`,

Both the parsed and checked expressions contain source position information about each node that appears in the output AST. This information can be used to determine error locations at evaluation time as well.

Install

CEL-Go supports modules and uses semantic versioning. For more info see the Go Modules docs.

And of course, there is always the option to build from source directly.

Common Questions

Why not JavaScript, Lua, or WASM?

JavaScript and Lua are rich languages that require sandboxing to execute safely. Sandboxing is costly and factors into the "what will I let users evaluate?" question heavily when the answer is anything more than O(n) complexity.

CEL evaluates linearly with respect to the size of the expression and the input being evaluated when macros are disabled. The only functions beyond the built-ins that may be invoked are provided by the host environment. While extension functions may be more complex, this is a choice by the application embedding CEL.

But, why not WASM? WASM is an excellent choice for certain applications and is far superior to embedded JavaScript and Lua, but it does not have support for garbage collection and non-primitive object types require semi-expensive calls across modules. In most cases CEL will be faster and just as portable for its intended use case, though for node.js and web-based execution CEL too may offer a WASM evaluator with direct to WASM compilation.

Do I need to Parse and Check?

Checking is an optional, but strongly suggested step in CEL expression validation. It is sufficient in some cases to simply parse and rely on the runtime bindings and error handling to do the right thing.

Where can I learn more about the language?
  • See the CEL Spec for the specification and conformance test suite.
  • Ask for support on the CEL Go Discuss Google group.
Where can I learn more about the internals?
  • See GoDoc to learn how to integrate CEL into services written in Go.
  • See the CEL C++ toolchain (under development) for information about how to integrate CEL evaluation into other environments.
How can I contribute?
Some tests don't work with go test?

A handful of tests rely on Bazel. In particular dynamic proto support at check time and the conformance test driver require Bazel to coordinate the test inputs:

bazel test ...

License

Released under the Apache License.

Disclaimer: This is not an official Google product.

Directories

Path Synopsis
Package cel defines the top-level interface for the Common Expression Language (CEL).
Package cel defines the top-level interface for the Common Expression Language (CEL).
Package checker defines functions to type-checked a parsed expression against a set of identifier and function declarations.
Package checker defines functions to type-checked a parsed expression against a set of identifier and function declarations.
decls
Package decls provides helpers for creating variable and function declarations.
Package decls provides helpers for creating variable and function declarations.
codelab module
Package common defines types and utilities common to expression parsing, checking, and interpretation
Package common defines types and utilities common to expression parsing, checking, and interpretation
ast
Package ast declares data structures useful for parsed and checked abstract syntax trees
Package ast declares data structures useful for parsed and checked abstract syntax trees
containers
Package containers defines types and functions for resolving qualified names within a namespace or type provided to CEL.
Package containers defines types and functions for resolving qualified names within a namespace or type provided to CEL.
debug
Package debug provides tools to print a parsed expression graph and adorn each expression element with additional metadata.
Package debug provides tools to print a parsed expression graph and adorn each expression element with additional metadata.
decls
Package decls contains function and variable declaration structs and helper methods.
Package decls contains function and variable declaration structs and helper methods.
functions
Package functions defines the standard builtin functions supported by the interpreter
Package functions defines the standard builtin functions supported by the interpreter
operators
Package operators defines the internal function names of operators.
Package operators defines the internal function names of operators.
overloads
Package overloads defines the internal overload identifiers for function and operator overloads.
Package overloads defines the internal overload identifiers for function and operator overloads.
runes
Package runes provides interfaces and utilities for working with runes.
Package runes provides interfaces and utilities for working with runes.
stdlib
Package stdlib contains all of the standard library function declarations and definitions for CEL.
Package stdlib contains all of the standard library function declarations and definitions for CEL.
types
Package types contains the types, traits, and utilities common to all components of expression handling.
Package types contains the types, traits, and utilities common to all components of expression handling.
types/pb
Package pb reflects over protocol buffer descriptors to generate objects that simplify type, enum, and field lookup.
Package pb reflects over protocol buffer descriptors to generate objects that simplify type, enum, and field lookup.
types/ref
Package ref contains the reference interfaces used throughout the types components.
Package ref contains the reference interfaces used throughout the types components.
types/traits
Package traits defines interfaces that a type may implement to participate in operator overloads and function dispatch.
Package traits defines interfaces that a type may implement to participate in operator overloads and function dispatch.
Package ext contains CEL extension libraries where each library defines a related set of constants, functions, macros, or other configuration settings which may not be covered by the core CEL spec.
Package ext contains CEL extension libraries where each library defines a related set of constants, functions, macros, or other configuration settings which may not be covered by the core CEL spec.
Package interpreter provides functions to evaluate parsed expressions with the option to augment the evaluation with inputs and functions supplied at evaluation time.
Package interpreter provides functions to evaluate parsed expressions with the option to augment the evaluation with inputs and functions supplied at evaluation time.
functions
Package functions defines the standard builtin functions supported by the interpreter and as declared within the checker#StandardDeclarations.
Package functions defines the standard builtin functions supported by the interpreter and as declared within the checker#StandardDeclarations.
Package parser declares an expression parser with support for macro expansion.
Package parser declares an expression parser with support for macro expansion.
gen
Package gen contains all of the ANTLR-generated sources used by the cel-go parser.
Package gen contains all of the ANTLR-generated sources used by the cel-go parser.
policy module
repl module
appengine Module
server module
bench
Package bench defines a structure for benchmarked tests against custom CEL environments.
Package bench defines a structure for benchmarked tests against custom CEL environments.

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL