package rego

import "github.com/open-policy-agent/opa/rego"

Package rego exposes high level APIs for evaluating Rego policies.

Index

Examples

Functions

func Compiler 

func Compiler(c *ast.Compiler) func(r *Rego)

Compiler returns an argument that sets the Rego compiler.

func DisableInlining 

func DisableInlining(paths []string) func(r *Rego)

DisableInlining adds a set of paths to exclude from partial evaluation inlining.

func Dump 

func Dump(w io.Writer) func(r *Rego)

Dump returns an argument that sets the writer to dump debugging information to.

func Imports 

func Imports(p []string) func(r *Rego)

Imports returns an argument that adds a Rego import to the query's context.

func Input 

func Input(x interface{}) func(r *Rego)

Input returns an argument that sets the Rego input document. Input should be a native Go value representing the input document.

func Instrument 

func Instrument(yes bool) func(r *Rego)

Instrument returns an argument that enables instrumentation for diagnosing performance issues.

func Metrics 

func Metrics(m metrics.Metrics) func(r *Rego)

Metrics returns an argument that sets the metrics collection.

func Module 

func Module(filename, input string) func(r *Rego)

Module returns an argument that adds a Rego module.

func Package 

func Package(p string) func(r *Rego)

Package returns an argument that sets the Rego package on the query's context.

func ParsedImports 

func ParsedImports(imp []*ast.Import) func(r *Rego)

ParsedImports returns an argument that adds Rego imports to the query's context.

func ParsedInput 

func ParsedInput(x ast.Value) func(r *Rego)

ParsedInput returns an argument that sets the Rego input document.

func ParsedModule 

func ParsedModule(module *ast.Module) func(*Rego)

ParsedModule returns an argument that adds a parsed Rego module. If a string module with the same filename name is added, it will override the parsed module.

func ParsedPackage 

func ParsedPackage(pkg *ast.Package) func(r *Rego)

ParsedPackage returns an argument that sets the Rego package on the query's context.

func ParsedQuery 

func ParsedQuery(q ast.Body) func(r *Rego)

ParsedQuery returns an argument that sets the Rego query.

func ParsedUnknowns 

func ParsedUnknowns(unknowns []*ast.Term) func(r *Rego)

ParsedUnknowns returns an argument that sets the values to treat as unknown during partial evaluation.

func PartialNamespace 

func PartialNamespace(ns string) func(r *Rego)

PartialNamespace returns an argument that sets the namespace to use for partial evaluation results. The namespace must be a valid package path component.

func PrintTrace 

func PrintTrace(w io.Writer, r *Rego)

PrintTrace is a helper function to write a human-readable version of the trace to the writer w.

func Query 

func Query(q string) func(r *Rego)

Query returns an argument that sets the Rego query.

func Runtime 

func Runtime(term *ast.Term) func(r *Rego)

Runtime returns an argument that sets the runtime data to provide to the evaluation engine.

func Store 

func Store(s storage.Store) func(r *Rego)

Store returns an argument that sets the policy engine's data storage layer.

func Trace 

func Trace(yes bool) func(r *Rego)

Trace returns an argument that enables tracing on r.

func Tracer 

func Tracer(t topdown.Tracer) func(r *Rego)

Tracer returns an argument that adds a query tracer to r.

func Transaction 

func Transaction(txn storage.Transaction) func(r *Rego)

Transaction returns an argument that sets the transaction to use for storage layer operations.

func Unknowns 

func Unknowns(unknowns []string) func(r *Rego)

Unknowns returns an argument that sets the values to treat as unknown during partial evaluation.

func UnsafeBuiltins 

func UnsafeBuiltins(unsafeBuiltins map[string]struct{}) func(r *Rego)

UnsafeBuiltins is a helper that sets a set of unsafe builtins on the compiler.

If a rule or query is found to refer to an unsafe a built-in function, an error will be returned when the Rego object is executed.

Types

type CompileContext 

type CompileContext struct {
	// contains filtered or unexported fields
}

CompileContext contains options for Compile calls.

type CompileOption 

type CompileOption func(*CompileContext)

CompileOption defines a function to set options on Compile calls.

func CompilePartial 

func CompilePartial(yes bool) CompileOption

CompilePartial defines an option to control whether partial evaluation is run before the query is planned and compiled.

type CompileResult 

type CompileResult struct {
	Bytes []byte `json:"bytes"`
}

CompileResult represents the result of compiling a Rego query, zero or more Rego modules, and arbitrary contextual data into an executable.

type Errors 

type Errors []error

Errors represents a collection of errors returned when evaluating Rego.

func (Errors) Error 

func (errs Errors) Error() string

type EvalContext 

type EvalContext struct {
	// contains filtered or unexported fields
}

EvalContext defines the set of options allowed to be set at evaluation time. Any other options will need to be set on a new Rego object.

type EvalOption 

type EvalOption func(*EvalContext)

EvalOption defines a function to set an option on an EvalConfig

func EvalDisableInlining 

func EvalDisableInlining(paths []ast.Ref) EvalOption

EvalDisableInlining returns an argument that adds a set of paths to exclude from partial evaluation inlining.

func EvalInput 

func EvalInput(input interface{}) EvalOption

EvalInput configures the input for a Prepared Query's evaluation

func EvalInstrument 

func EvalInstrument(instrument bool) EvalOption

EvalInstrument enables or disables instrumenting for a Prepared Query's evaluation

func EvalMetrics 

func EvalMetrics(metric metrics.Metrics) EvalOption

EvalMetrics configures the metrics for a Prepared Query's evaluation

func EvalParsedInput 

func EvalParsedInput(input ast.Value) EvalOption

EvalParsedInput configures the input for a Prepared Query's evaluation

func EvalParsedUnknowns 

func EvalParsedUnknowns(unknowns []*ast.Term) EvalOption

EvalParsedUnknowns returns an argument that sets the values to treat as unknown during partial evaluation.

func EvalPartialNamespace 

func EvalPartialNamespace(ns string) EvalOption

EvalPartialNamespace returns an argument that sets the namespace to use for partial evaluation results. The namespace must be a valid package path component.

func EvalTracer 

func EvalTracer(tracer topdown.Tracer) EvalOption

EvalTracer configures a tracer for a Prepared Query's evaluation

func EvalTransaction 

func EvalTransaction(txn storage.Transaction) EvalOption

EvalTransaction configures the Transaction for a Prepared Query's evaluation

func EvalUnknowns 

func EvalUnknowns(unknowns []string) EvalOption

EvalUnknowns returns an argument that sets the values to treat as unknown during partial evaluation.

type ExpressionValue 

type ExpressionValue struct {
	Value    interface{} `json:"value"`
	Text     string      `json:"text"`
	Location *Location   `json:"location"`
}

ExpressionValue defines the value of an expression in a Rego query.

func (*ExpressionValue) String 

func (ev *ExpressionValue) String() string

type Location 

type Location struct {
	Row int `json:"row"`
	Col int `json:"col"`
}

Location defines a position in a Rego query or module.

type PartialQueries 

type PartialQueries struct {
	Queries []ast.Body    `json:"queries,omitempty"`
	Support []*ast.Module `json:"modules,omitempty"`
}

PartialQueries contains the queries and support modules produced by partial evaluation.

type PartialResult 

type PartialResult struct {
	// contains filtered or unexported fields
}

PartialResult represents the result of partial evaluation. The result can be used to generate a new query that can be run when inputs are known.

func (PartialResult) Rego 

func (pr PartialResult) Rego(options ...func(*Rego)) *Rego

Rego returns an object that can be evaluated to produce a query result. If rego.Rego#Prepare was used to create the PartialResult this may lose the pre-parsed/compiled parts of the original Rego object. In those cases using rego.PartialResult#Eval is likely to be more performant.

type PrepareConfig 

type PrepareConfig struct {
	// contains filtered or unexported fields
}

PrepareConfig holds settings to control the behavior of the Prepare call.

type PrepareOption 

type PrepareOption func(*PrepareConfig)

PrepareOption defines a function to set an option to control the behavior of the Prepare call.

func WithNoInline 

func WithNoInline(paths []string) PrepareOption

WithNoInline adds a set of paths to exclude from partial evaluation inlining.

func WithPartialEval 

func WithPartialEval() PrepareOption

WithPartialEval configures an option for PrepareForEval which will have it perform partial evaluation while preparing the query (similar to rego.Rego#PartialResult)

type PreparedEvalQuery 

type PreparedEvalQuery struct {
	// contains filtered or unexported fields
}

PreparedEvalQuery holds the prepared Rego state that has been pre-processed for subsequent evaluations.

func (PreparedEvalQuery) Eval 

func (pq PreparedEvalQuery) Eval(ctx context.Context, options ...EvalOption) (ResultSet, error)

Eval evaluates this PartialResult's Rego object with additional eval options and returns a ResultSet. If options are provided they will override the original Rego options respective value. The original Rego object transaction will *not* be re-used. A new transaction will be opened if one is not provided with an EvalOption.

type PreparedPartialQuery 

type PreparedPartialQuery struct {
	// contains filtered or unexported fields
}

PreparedPartialQuery holds the prepared Rego state that has been pre-processed for partial evaluations.

func (PreparedPartialQuery) Partial 

func (pq PreparedPartialQuery) Partial(ctx context.Context, options ...EvalOption) (*PartialQueries, error)

Partial runs partial evaluation on the prepared query and returns the result. The original Rego object transaction will *not* be re-used. A new transaction will be opened if one is not provided with an EvalOption.

type Rego 

type Rego struct {
	// contains filtered or unexported fields
}

Rego constructs a query and can be evaluated to obtain results.

func New 

func New(options ...func(r *Rego)) *Rego

New returns a new Rego object.

func (*Rego) Compile 

func (r *Rego) Compile(ctx context.Context, opts ...CompileOption) (*CompileResult, error)

Compile returns a compiled policy query.

func (*Rego) Eval 

func (r *Rego) Eval(ctx context.Context) (ResultSet, error)

Eval evaluates this Rego object and returns a ResultSet.

Example (Compiler)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/ast"
	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Define a simple policy.
	module := `
		package example

		default allow = false

		allow {
			input.identity = "admin"
		}

		allow {
			input.method = "GET"
		}
	`

	// Compile the module. The keys are used as identifiers in error messages.
	compiler, err := ast.CompileModules(map[string]string{
		"example.rego": module,
	})

	// Create a new query that uses the compiled policy from above.
	rego := rego.New(
		rego.Query("data.example.allow"),
		rego.Compiler(compiler),
		rego.Input(
			map[string]interface{}{
				"identity": "bob",
				"method":   "GET",
			},
		),
	)

	// Run evaluation.
	rs, err := rego.Eval(ctx)

	if err != nil {
		// Handle error.
	}

	// Inspect results.
	fmt.Println("len:", len(rs))
	fmt.Println("value:", rs[0].Expressions[0].Value)

}

Output:

len: 1
value: true
Example (Errors)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/ast"
	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	r := rego.New(
		rego.Query("data.example.p"),
		rego.Module("example_error.rego",
			`package example

p = true { not q[x] }
q = {1, 2, 3} { true }`,
		))

	_, err := r.Eval(ctx)

	switch err := err.(type) {
	case rego.Errors:
		for i := range err {
			switch e := err[i].(type) {
			case *ast.Error:
				fmt.Println("code:", e.Code)
				fmt.Println("row:", e.Location.Row)
				fmt.Println("filename:", e.Location.File)
			}
		}
	default:
		// Some other error occurred.
	}

}

Output:

code: rego_unsafe_var_error
row: 3
filename: example_error.rego
Example (Input)

Code:play  

package main

import (
	"bytes"
	"context"
	"encoding/json"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Raw input data that will be used in evaluation.
	raw := `{"users": [{"id": "bob"}, {"id": "alice"}]}`
	d := json.NewDecoder(bytes.NewBufferString(raw))

	// Numeric values must be represented using json.Number.
	d.UseNumber()

	var input interface{}

	if err := d.Decode(&input); err != nil {
		panic(err)
	}

	// Create a simple query over the input.
	rego := rego.New(
		rego.Query("input.users[idx].id = user_id"),
		rego.Input(input))

	//Run evaluation.
	rs, err := rego.Eval(ctx)

	if err != nil {
		// Handle error.
	}

	// Inspect results.
	fmt.Println("len:", len(rs))
	fmt.Println("bindings.idx:", rs[1].Bindings["idx"])
	fmt.Println("bindings.user_id:", rs[1].Bindings["user_id"])

}

Output:

len: 2
bindings.idx: 1
bindings.user_id: alice
Example (MultipleBindings)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Create query that produces multiple bindings for variable.
	rego := rego.New(
		rego.Query(`a = ["ex", "am", "ple"]; x = a[_]; not p[x]`),
		rego.Package(`example`),
		rego.Module("example.rego", `package example

		p["am"] { true }
		`),
	)

	// Run evaluation.
	rs, err := rego.Eval(ctx)

	// Inspect results.
	fmt.Println("len:", len(rs))
	fmt.Println("err:", err)
	for i := range rs {
		fmt.Printf("bindings[\"x\"]: %v (i=%d)\n", rs[i].Bindings["x"], i)
	}

}

Output:

len: 2
err: <nil>
bindings["x"]: ex (i=0)
bindings["x"]: ple (i=1)
Example (MultipleDocuments)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Create query that produces multiple documents.
	rego := rego.New(
		rego.Query("data.example.p[x]"),
		rego.Module("example.rego",
			`package example

p = {"hello": "alice", "goodbye": "bob"} { true }`,
		))

	// Run evaluation.
	rs, err := rego.Eval(ctx)

	// Inspect results.
	fmt.Println("len:", len(rs))
	fmt.Println("err:", err)
	for i := range rs {
		fmt.Printf("bindings[\"x\"]: %v (i=%d)\n", rs[i].Bindings["x"], i)
		fmt.Printf("value: %v (i=%d)\n", rs[i].Expressions[0].Value, i)
	}

}

Output:

len: 2
err: <nil>
bindings["x"]: hello (i=0)
value: alice (i=0)
bindings["x"]: goodbye (i=1)
value: bob (i=1)
Example (Simple)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Create very simple query that binds a single variable.
	rego := rego.New(rego.Query("x = 1"))

	// Run evaluation.
	rs, err := rego.Eval(ctx)

	// Inspect results.
	fmt.Println("len:", len(rs))
	fmt.Println("bindings:", rs[0].Bindings)
	fmt.Println("err:", err)

}

Output:

len: 1
bindings: map[x:1]
err: <nil>
Example (SingleDocument)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Create query that produces a single document.
	rego := rego.New(
		rego.Query("data.example.p"),
		rego.Module("example.rego",
			`package example

p = ["hello", "world"] { true }`,
		))

	// Run evaluation.
	rs, err := rego.Eval(ctx)

	// Inspect result.
	fmt.Println("value:", rs[0].Expressions[0].Value)
	fmt.Println("err:", err)

}

Output:

value: [hello world]
err: <nil>
Example (Storage)

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
	"github.com/open-policy-agent/opa/storage/inmem"
	"github.com/open-policy-agent/opa/util"
)

func main() {

	ctx := context.Background()

	data := `{
        "example": {
            "users": [
                {
                    "name": "alice",
                    "likes": ["dogs", "clouds"]
                },
                {
                    "name": "bob",
                    "likes": ["pizza", "cats"]
                }
            ]
        }
    }`

	var json map[string]interface{}

	err := util.UnmarshalJSON([]byte(data), &json)
	if err != nil {
		// Handle error.
	}

	// Manually create the storage layer. inmem.NewFromObject returns an
	// in-memory store containing the supplied data.
	store := inmem.NewFromObject(json)

	// Create new query that returns the value
	rego := rego.New(
		rego.Query("data.example.users[0].likes"),
		rego.Store(store))

	// Run evaluation.
	rs, err := rego.Eval(ctx)
	if err != nil {
		// Handle error.
	}

	// Inspect the result.
	fmt.Println("value:", rs[0].Expressions[0].Value)

}

Output:

value: [dogs clouds]
Example (Tracer)

Code:play  

package main

import (
	"context"
	"os"

	"github.com/open-policy-agent/opa/rego"
	"github.com/open-policy-agent/opa/topdown"
)

func main() {

	ctx := context.Background()

	buf := topdown.NewBufferTracer()

	// Create very simple query that binds a single variable, and enables tracing.
	rego := rego.New(
		rego.Query("x = 1"),
		rego.Tracer(buf),
	)

	// Run evaluation.
	rego.Eval(ctx)

	// Inspect results.
	topdown.PrettyTrace(os.Stdout, *buf)

}

Output:

Enter x = 1
| Eval x = 1
| Exit x = 1
Redo x = 1
| Redo x = 1
Example (Transactions)

Code:play  

package main

import (
	"bytes"
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
	"github.com/open-policy-agent/opa/storage"
	"github.com/open-policy-agent/opa/storage/inmem"
)

func main() {

	ctx := context.Background()

	// Create storage layer and load dummy data.
	store := inmem.NewFromReader(bytes.NewBufferString(`{
		"favourites": {
			"pizza": "cheese",
			"colour": "violet"
		}
	}`))

	// Open a write transaction on the store that will perform write operations.
	txn, err := store.NewTransaction(ctx, storage.WriteParams)
	if err != nil {
		// Handle error.
	}

	// Create rego query that uses the transaction created above.
	inside := rego.New(
		rego.Query("data.favourites.pizza"),
		rego.Store(store),
		rego.Transaction(txn),
	)

	// Create rego query that DOES NOT use the transaction created above. Under
	// the hood, the rego package will create it's own read-only transaction to
	// ensure it evaluates over a consistent snapshot of the storage layer.
	outside := rego.New(
		rego.Query("data.favourites.pizza"),
		rego.Store(store),
	)

	// Write change to storage layer inside the transaction.
	err = store.Write(ctx, txn, storage.AddOp, storage.MustParsePath("/favourites/pizza"), "pepperoni")
	if err != nil {
		// Handle error.
	}

	// Run evaluation INSIDE the transction.
	rs, err := inside.Eval(ctx)
	if err != nil {
		// Handle error.
	}

	fmt.Println("value (inside txn):", rs[0].Expressions[0].Value)

	// Run evaluation OUTSIDE the transaction.
	rs, err = outside.Eval(ctx)
	if err != nil {
		// Handle error.
	}

	fmt.Println("value (outside txn):", rs[0].Expressions[0].Value)

	if err := store.Commit(ctx, txn); err != nil {
		// Handle error.
	}

	// Run evaluation AFTER the transaction commits.
	rs, err = outside.Eval(ctx)
	if err != nil {
		fmt.Println("error (after txn):", err)
	}

}

Output:

value (inside txn): pepperoni
value (outside txn): cheese
error (after txn): storage_invalid_txn_error: stale transaction

func (*Rego) Partial 

func (r *Rego) Partial(ctx context.Context) (*PartialQueries, error)

Partial runs partial evaluation on r and returns the result.

Example

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Define a simple policy for example purposes.
	module := `package test

	allow {
		input.method = read_methods[_]
		input.path = ["reviews", user]
		input.user = user
	}

	allow {
		input.method = read_methods[_]
		input.path = ["reviews", _]
		input.is_admin
	}

	read_methods = ["GET"]
	`

	r := rego.New(rego.Query("data.test.allow == true"), rego.Module("example.rego", module))
	pq, err := r.Partial(ctx)
	if err != nil {
		// Handle error.
	}

	// Inspect result.
	for i := range pq.Queries {
		fmt.Printf("Query #%d: %v\n", i+1, pq.Queries[i])
	}

}

Output:

Query #1: "GET" = input.method; input.path = ["reviews", _]; input.is_admin
Query #2: "GET" = input.method; input.path = ["reviews", user3]; user3 = input.user

func (*Rego) PartialEval 

func (r *Rego) PartialEval(ctx context.Context) (PartialResult, error)

PartialEval has been deprecated and renamed to PartialResult.

func (*Rego) PartialResult 

func (r *Rego) PartialResult(ctx context.Context) (PartialResult, error)

PartialResult partially evaluates this Rego object and returns a PartialResult.

Example

Code:play  

package main

import (
	"bytes"
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
	"github.com/open-policy-agent/opa/storage/inmem"
)

func main() {

	ctx := context.Background()

	// Define a role-based access control (RBAC) policy that decides whether to
	// allow or deny requests. Requests are allowed if the user is bound to a
	// role that grants permission to perform the operation on the resource.
	module := `
		package example

		import data.bindings
		import data.roles

		default allow = false

		allow {
			user_has_role[role_name]
			role_has_permission[role_name]
		}

		user_has_role[role_name] {
			b = bindings[_]
			b.role = role_name
			b.user = input.subject.user
		}

		role_has_permission[role_name] {
			r = roles[_]
			r.name = role_name
			match_with_wildcard(r.operations, input.operation)
			match_with_wildcard(r.resources, input.resource)
		}

		match_with_wildcard(allowed, value) {
			allowed[_] = "*"
		}

		match_with_wildcard(allowed, value) {
			allowed[_] = value
		}
	`

	// Define dummy roles and role bindings for the example. In real-world
	// scenarios, this data would be pushed or pulled into the service
	// embedding OPA either from an external API or configuration file.
	store := inmem.NewFromReader(bytes.NewBufferString(`{
		"roles": [
			{
				"resources": ["documentA", "documentB"],
				"operations": ["read"],
				"name": "analyst"
			},
			{
				"resources": ["*"],
				"operations": ["*"],
				"name": "admin"
			}
		],
		"bindings": [
			{
				"user": "bob",
				"role": "admin"
			},
			{
				"user": "alice",
				"role": "analyst"
			}
		]
	}`))

	// Prepare and run partial evaluation on the query. The result of partial
	// evaluation can be cached for performance. When the data or policy
	// change, partial evaluation should be re-run.
	r := rego.New(
		rego.Query("data.example.allow"),
		rego.Module("example.rego", module),
		rego.Store(store),
	)

	pr, err := r.PartialEval(ctx)
	if err != nil {
		// Handle error.
	}

	// Define example inputs (representing requests) that will be used to test
	// the policy.
	examples := []map[string]interface{}{
		{
			"resource":  "documentA",
			"operation": "write",
			"subject": map[string]interface{}{
				"user": "bob",
			},
		},
		{
			"resource":  "documentB",
			"operation": "write",
			"subject": map[string]interface{}{
				"user": "alice",
			},
		},
		{
			"resource":  "documentB",
			"operation": "read",
			"subject": map[string]interface{}{
				"user": "alice",
			},
		},
	}

	for i := range examples {

		// Prepare and run normal evaluation from the result of partial
		// evaluation.
		r := pr.Rego(
			rego.Input(examples[i]),
		)

		rs, err := r.Eval(ctx)

		if err != nil || len(rs) != 1 || len(rs[0].Expressions) != 1 {
			// Handle erorr.
		} else {
			fmt.Printf("input %d allowed: %v\n", i+1, rs[0].Expressions[0].Value)
		}
	}

}

Output:

input 1 allowed: true
input 2 allowed: false
input 3 allowed: true

func (*Rego) PrepareForEval 

func (r *Rego) PrepareForEval(ctx context.Context, opts ...PrepareOption) (PreparedEvalQuery, error)

PrepareForEval will parse inputs, modules, and query arguments in preparation of evaluating them.

Example

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {
	ctx := context.Background()

	// Create a simple query
	r := rego.New(
		rego.Query("input.x == 1"),
	)

	// Prepare for evaluation
	pq, err := r.PrepareForEval(ctx)

	if err != nil {
		// Handle error.
	}

	// Raw input data that will be used in the first evaluation
	input := map[string]interface{}{"x": 2}

	// Run the evaluation
	rs, err := pq.Eval(ctx, rego.EvalInput(input))

	if err != nil {
		// Handle error.
	}

	// Inspect results.
	fmt.Println("initial result:", rs[0].Expressions[0])

	// Update input
	input["x"] = 1

	// Run the evaluation with new input
	rs, err = pq.Eval(ctx, rego.EvalInput(input))

	if err != nil {
		// Handle error.
	}

	// Inspect results.
	fmt.Println("updated result:", rs[0].Expressions[0])

}

Output:

initial result: false
updated result: true

func (*Rego) PrepareForPartial 

func (r *Rego) PrepareForPartial(ctx context.Context, opts ...PrepareOption) (PreparedPartialQuery, error)

PrepareForPartial will parse inputs, modules, and query arguments in preparation of partially evaluating them.

Example

Code:play  

package main

import (
	"context"
	"fmt"

	"github.com/open-policy-agent/opa/rego"
)

func main() {

	ctx := context.Background()

	// Define a simple policy for example purposes.
	module := `package test

	allow {
		input.method = read_methods[_]
		input.path = ["reviews", user]
		input.user = user
	}

	allow {
		input.method = read_methods[_]
		input.path = ["reviews", _]
		input.is_admin
	}

	read_methods = ["GET"]
	`

	r := rego.New(
		rego.Query("data.test.allow == true"),
		rego.Module("example.rego", module),
	)

	pq, err := r.PrepareForPartial(ctx)
	if err != nil {
		// Handle error.
	}

	pqs, err := pq.Partial(ctx)
	if err != nil {
		// Handle error.
	}

	// Inspect result
	fmt.Println("First evaluation")
	for i := range pqs.Queries {
		fmt.Printf("Query #%d: %v\n", i+1, pqs.Queries[i])
	}

	// Evaluate with specified input
	exampleInput := map[string]string{
		"method": "GET",
	}

	// Evaluate again with different input and unknowns
	pqs, err = pq.Partial(ctx,
		rego.EvalInput(exampleInput),
		rego.EvalUnknowns([]string{"input.user", "input.is_admin", "input.path"}),
	)
	if err != nil {
		// Handle error.
	}

	// Inspect result
	fmt.Println("Second evaluation")
	for i := range pqs.Queries {
		fmt.Printf("Query #%d: %v\n", i+1, pqs.Queries[i])
	}

}

Output:

First evaluation
Query #1: "GET" = input.method; input.path = ["reviews", _]; input.is_admin
Query #2: "GET" = input.method; input.path = ["reviews", user3]; user3 = input.user
Second evaluation
Query #1: input.path = ["reviews", _]; input.is_admin
Query #2: input.path = ["reviews", user3]; user3 = input.user

type Result 

type Result struct {
	Expressions []*ExpressionValue `json:"expressions"`
	Bindings    Vars               `json:"bindings,omitempty"`
}

Result defines the output of Rego evaluation.

type ResultSet 

type ResultSet []Result

ResultSet represents a collection of output from Rego evaluation. An empty result set represents an undefined query.

type Vars 

type Vars map[string]interface{}

Vars represents a collection of variable bindings. The keys are the variable names and the values are the binding values.

func (Vars) WithoutWildcards 

func (v Vars) WithoutWildcards() Vars

WithoutWildcards returns a copy of v with wildcard variables removed.

Source Files

rego.go

Version
v0.13.0
Published
Aug 6, 2019
Platform
js/wasm
Imports
16 packages
Last checked
1 minute ago

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