pkg/policy/literal/literal.go

// Package literal holds a collection of functions to create IPLD types to use in policies, selector and args.
package literal

import (
	"fmt"
	"reflect"
	"sort"

	"github.com/ipfs/go-cid"
	"github.com/ipld/go-ipld-prime"
	"github.com/ipld/go-ipld-prime/datamodel"
	"github.com/ipld/go-ipld-prime/fluent/qp"
	cidlink "github.com/ipld/go-ipld-prime/linking/cid"
	"github.com/ipld/go-ipld-prime/node/basicnode"

	"code.sonr.org/go/ucan/pkg/policy/limits"
)

var Bool = basicnode.NewBool
var Int = basicnode.NewInt
var Float = basicnode.NewFloat
var String = basicnode.NewString
var Bytes = basicnode.NewBytes
var Link = basicnode.NewLink

func LinkCid(cid cid.Cid) ipld.Node {
	return Link(cidlink.Link{Cid: cid})
}

func Null() ipld.Node {
	nb := basicnode.Prototype.Any.NewBuilder()
	nb.AssignNull()
	return nb.Build()
}

// Map creates an IPLD node from a map[string]any
func Map[T any](m map[string]T) (ipld.Node, error) {
	return qp.BuildMap(basicnode.Prototype.Any, int64(len(m)), func(ma datamodel.MapAssembler) {
		// deterministic iteration
		keys := make([]string, 0, len(m))
		for key := range m {
			keys = append(keys, key)
		}
		sort.Strings(keys)
		for _, key := range keys {
			qp.MapEntry(ma, key, anyAssemble(m[key]))
		}
	})
}

// List creates an IPLD node from a []any
func List[T any](l []T) (ipld.Node, error) {
	return qp.BuildList(basicnode.Prototype.Any, int64(len(l)), func(la datamodel.ListAssembler) {
		for _, val := range l {
			qp.ListEntry(la, anyAssemble(val))
		}
	})
}

// Any creates an IPLD node from any value
// If possible, use another dedicated function for your type for performance.
func Any(v any) (res ipld.Node, err error) {
	// some fast path
	switch val := v.(type) {
	case bool:
		return basicnode.NewBool(val), nil
	case string:
		return basicnode.NewString(val), nil
	case int:
		i := int64(val)
		if i > limits.MaxInt53 || i < limits.MinInt53 {
			return nil, fmt.Errorf("integer value %d exceeds safe integer bounds", i)
		}
		return basicnode.NewInt(i), nil
	case int8:
		return basicnode.NewInt(int64(val)), nil
	case int16:
		return basicnode.NewInt(int64(val)), nil
	case int32:
		return basicnode.NewInt(int64(val)), nil
	case int64:
		if val > limits.MaxInt53 || val < limits.MinInt53 {
			return nil, fmt.Errorf("integer value %d exceeds safe integer bounds", val)
		}
		return basicnode.NewInt(val), nil
	case uint:
		return basicnode.NewInt(int64(val)), nil
	case uint8:
		return basicnode.NewInt(int64(val)), nil
	case uint16:
		return basicnode.NewInt(int64(val)), nil
	case uint32:
		return basicnode.NewInt(int64(val)), nil
	case uint64:
		if val > uint64(limits.MaxInt53) {
			return nil, fmt.Errorf("unsigned integer value %d exceeds safe integer bounds", val)
		}
		return basicnode.NewInt(int64(val)), nil
	case float32:
		return basicnode.NewFloat(float64(val)), nil
	case float64:
		return basicnode.NewFloat(val), nil
	case []byte:
		return basicnode.NewBytes(val), nil
	case datamodel.Node:
		return val, nil
	case cid.Cid:
		return LinkCid(val), nil
	default:
	}

	builder := basicnode.Prototype__Any{}.NewBuilder()

	defer func() {
		if r := recover(); r != nil {
			err = fmt.Errorf("%v", r)
			res = nil
		}
	}()

	anyAssemble(v)(builder)

	return builder.Build(), nil
}

func anyAssemble(val any) qp.Assemble {
	var rt reflect.Type
	var rv reflect.Value

	// support for recursive calls, staying in reflection land
	if cast, ok := val.(reflect.Value); ok {
		rt = cast.Type()
		rv = cast
	} else {
		rt = reflect.TypeOf(val)
		rv = reflect.ValueOf(val)
	}

	// we need to dereference in some cases, to get the real value type
	if rt.Kind() == reflect.Ptr || rt.Kind() == reflect.Interface {
		rv = rv.Elem()
		rt = rv.Type()
	}

	switch rt.Kind() {
	case reflect.Array:
		if rt.Elem().Kind() == reflect.Uint8 {
			panic("bytes array are not supported yet")
		}
		return qp.List(int64(rv.Len()), func(la datamodel.ListAssembler) {
			for i := range rv.Len() {
				qp.ListEntry(la, anyAssemble(rv.Index(i)))
			}
		})
	case reflect.Slice:
		if rt.Elem().Kind() == reflect.Uint8 {
			return qp.Bytes(val.([]byte))
		}
		return qp.List(int64(rv.Len()), func(la datamodel.ListAssembler) {
			for i := range rv.Len() {
				qp.ListEntry(la, anyAssemble(rv.Index(i)))
			}
		})
	case reflect.Map:
		if rt.Key().Kind() != reflect.String {
			break
		}
		// deterministic iteration
		keys := rv.MapKeys()
		sort.Slice(keys, func(i, j int) bool {
			return keys[i].String() < keys[j].String()
		})
		return qp.Map(int64(rv.Len()), func(ma datamodel.MapAssembler) {
			for _, key := range keys {
				qp.MapEntry(ma, key.String(), anyAssemble(rv.MapIndex(key)))
			}
		})
	case reflect.Bool:
		return qp.Bool(rv.Bool())
	case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
		i := rv.Int()
		if i > limits.MaxInt53 || i < limits.MinInt53 {
			panic(fmt.Sprintf("integer %d exceeds safe bounds", i))
		}
		return qp.Int(i)
	case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
		u := rv.Uint()
		if u > uint64(limits.MaxInt53) {
			panic(fmt.Sprintf("unsigned integer %d exceeds safe bounds", u))
		}
		return qp.Int(int64(u))
	case reflect.Float32, reflect.Float64:
		return qp.Float(rv.Float())
	case reflect.String:
		return qp.String(rv.String())
	case reflect.Struct:
		if rt == reflect.TypeOf(cid.Cid{}) {
			c := rv.Interface().(cid.Cid)
			return qp.Link(cidlink.Link{Cid: c})
		}
	default:
	}

	panic(fmt.Sprintf("unsupported type %T", val))
}
policy: add a way to filter policies with a path Based on exploration work https://github.com/ucan-wg/go-ucan/pull/27 2024-10-16 11:18:02 +02:00			`// Package literal holds a collection of functions to create IPLD types to use in policies, selector and args.`
feat: add policy implementation 2024-08-19 23:16:36 +02:00			`package literal`

			`import (`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00			`"fmt"`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`"reflect"`
literal: fix flacky test also: make tests less noisy everywhere 2024-11-07 11:12:40 +01:00			`"sort"`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00
policy: fluent construction 2024-10-14 20:09:21 +02:00			`"github.com/ipfs/go-cid"`
feat: add policy implementation 2024-08-19 23:16:36 +02:00			`"github.com/ipld/go-ipld-prime"`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`"github.com/ipld/go-ipld-prime/datamodel"`
			`"github.com/ipld/go-ipld-prime/fluent/qp"`
policy: fluent construction 2024-10-14 20:09:21 +02:00			`cidlink "github.com/ipld/go-ipld-prime/linking/cid"`
feat: add policy implementation 2024-08-19 23:16:36 +02:00			`"github.com/ipld/go-ipld-prime/node/basicnode"`
go fmt 2024-11-29 13:03:48 +01:00
refactor(pkg): Migrate package imports to use new code.sonr.org/go/ucan module path 2026-01-08 15:46:00 -05:00			`"code.sonr.org/go/ucan/pkg/policy/limits"`
feat: add policy implementation 2024-08-19 23:16:36 +02:00			`)`

literal: simplify package with built-in functions 2024-10-24 12:55:06 +02:00			`var Bool = basicnode.NewBool`
			`var Int = basicnode.NewInt`
			`var Float = basicnode.NewFloat`
			`var String = basicnode.NewString`
			`var Bytes = basicnode.NewBytes`
			`var Link = basicnode.NewLink`
policy: fluent construction 2024-10-14 20:09:21 +02:00
			`func LinkCid(cid cid.Cid) ipld.Node {`
			`return Link(cidlink.Link{Cid: cid})`
			`}`

feat: better selector 2024-08-20 15:55:04 +02:00			`func Null() ipld.Node {`
			`nb := basicnode.Prototype.Any.NewBuilder()`
			`nb.AssignNull()`
			`return nb.Build()`
feat: add policy implementation 2024-08-19 23:16:36 +02:00			`}`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00
literal: some better typing 2024-11-04 11:15:12 +01:00			`// Map creates an IPLD node from a map[string]any`
literal: make Map and List generic, to avoid requiring conversions 2024-11-05 16:26:14 +01:00			`func Map[T any](m map[string]T) (ipld.Node, error) {`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`return qp.BuildMap(basicnode.Prototype.Any, int64(len(m)), func(ma datamodel.MapAssembler) {`
literal: fix flacky test also: make tests less noisy everywhere 2024-11-07 11:12:40 +01:00			`// deterministic iteration`
			`keys := make([]string, 0, len(m))`
			`for key := range m {`
			`keys = append(keys, key)`
			`}`
			`sort.Strings(keys)`
			`for _, key := range keys {`
			`qp.MapEntry(ma, key, anyAssemble(m[key]))`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`}`
			`})`
			`}`

literal: make Map and List generic, to avoid requiring conversions 2024-11-05 16:26:14 +01:00			`// List creates an IPLD node from a []any`
			`func List[T any](l []T) (ipld.Node, error) {`
			`return qp.BuildList(basicnode.Prototype.Any, int64(len(l)), func(la datamodel.ListAssembler) {`
			`for _, val := range l {`
			`qp.ListEntry(la, anyAssemble(val))`
			`}`
			`})`
			`}`

args: simplify API + code 2024-11-12 12:14:58 +01:00			`// Any creates an IPLD node from any value`
			`// If possible, use another dedicated function for your type for performance.`
			`func Any(v any) (res ipld.Node, err error) {`
args,meta: harmonize supported types, with fast paths 2024-11-12 13:05:48 +01:00			`// some fast path`
			`switch val := v.(type) {`
			`case bool:`
			`return basicnode.NewBool(val), nil`
			`case string:`
			`return basicnode.NewString(val), nil`
			`case int:`
move int validation to where a error can be returned 2024-12-02 11:59:16 +01:00			`i := int64(val)`
			`if i > limits.MaxInt53 \|\| i < limits.MinInt53 {`
			`return nil, fmt.Errorf("integer value %d exceeds safe integer bounds", i)`
			`}`
			`return basicnode.NewInt(i), nil`
args,meta: harmonize supported types, with fast paths 2024-11-12 13:05:48 +01:00			`case int8:`
			`return basicnode.NewInt(int64(val)), nil`
			`case int16:`
			`return basicnode.NewInt(int64(val)), nil`
			`case int32:`
			`return basicnode.NewInt(int64(val)), nil`
			`case int64:`
move int validation to where a error can be returned 2024-12-02 11:59:16 +01:00			`if val > limits.MaxInt53 \|\| val < limits.MinInt53 {`
			`return nil, fmt.Errorf("integer value %d exceeds safe integer bounds", val)`
			`}`
args,meta: harmonize supported types, with fast paths 2024-11-12 13:05:48 +01:00			`return basicnode.NewInt(val), nil`
			`case uint:`
			`return basicnode.NewInt(int64(val)), nil`
			`case uint8:`
			`return basicnode.NewInt(int64(val)), nil`
			`case uint16:`
			`return basicnode.NewInt(int64(val)), nil`
			`case uint32:`
			`return basicnode.NewInt(int64(val)), nil`
			`case uint64:`
move int validation to where a error can be returned 2024-12-02 11:59:16 +01:00			`if val > uint64(limits.MaxInt53) {`
			`return nil, fmt.Errorf("unsigned integer value %d exceeds safe integer bounds", val)`
			`}`
args,meta: harmonize supported types, with fast paths 2024-11-12 13:05:48 +01:00			`return basicnode.NewInt(int64(val)), nil`
			`case float32:`
			`return basicnode.NewFloat(float64(val)), nil`
			`case float64:`
			`return basicnode.NewFloat(val), nil`
			`case []byte:`
			`return basicnode.NewBytes(val), nil`
			`case datamodel.Node:`
			`return val, nil`
			`case cid.Cid:`
			`return LinkCid(val), nil`
			`default:`
			`}`

args: simplify API + code 2024-11-12 12:14:58 +01:00			`builder := basicnode.Prototype__Any{}.NewBuilder()`

			`defer func() {`
			`if r := recover(); r != nil {`
			`err = fmt.Errorf("%v", r)`
			`res = nil`
			`}`
			`}()`

			`anyAssemble(v)(builder)`

			`return builder.Build(), nil`
			`}`

literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`func anyAssemble(val any) qp.Assemble {`
			`var rt reflect.Type`
			`var rv reflect.Value`

			`// support for recursive calls, staying in reflection land`
			`if cast, ok := val.(reflect.Value); ok {`
			`rt = cast.Type()`
			`rv = cast`
			`} else {`
			`rt = reflect.TypeOf(val)`
			`rv = reflect.ValueOf(val)`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00			`}`

literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`// we need to dereference in some cases, to get the real value type`
			`if rt.Kind() == reflect.Ptr \|\| rt.Kind() == reflect.Interface {`
			`rv = rv.Elem()`
			`rt = rv.Type()`
			`}`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`switch rt.Kind() {`
literal: add test suite 2024-11-06 16:42:45 +01:00			`case reflect.Array:`
			`if rt.Elem().Kind() == reflect.Uint8 {`
			`panic("bytes array are not supported yet")`
			`}`
			`return qp.List(int64(rv.Len()), func(la datamodel.ListAssembler) {`
			`for i := range rv.Len() {`
			`qp.ListEntry(la, anyAssemble(rv.Index(i)))`
			`}`
			`})`
			`case reflect.Slice:`
			`if rt.Elem().Kind() == reflect.Uint8 {`
			`return qp.Bytes(val.([]byte))`
			`}`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`return qp.List(int64(rv.Len()), func(la datamodel.ListAssembler) {`
			`for i := range rv.Len() {`
			`qp.ListEntry(la, anyAssemble(rv.Index(i)))`
fix literal.Map to handle list values too 2024-11-04 17:10:57 +01:00			`}`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`})`
			`case reflect.Map:`
			`if rt.Key().Kind() != reflect.String {`
			`break`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00			`}`
literal: fix flacky test also: make tests less noisy everywhere 2024-11-07 11:12:40 +01:00			`// deterministic iteration`
			`keys := rv.MapKeys()`
			`sort.Slice(keys, func(i, j int) bool {`
			`return keys[i].String() < keys[j].String()`
			`})`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`return qp.Map(int64(rv.Len()), func(ma datamodel.MapAssembler) {`
literal: fix flacky test also: make tests less noisy everywhere 2024-11-07 11:12:40 +01:00			`for _, key := range keys {`
			`qp.MapEntry(ma, key.String(), anyAssemble(rv.MapIndex(key)))`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`}`
			`})`
			`case reflect.Bool:`
			`return qp.Bool(rv.Bool())`
			`case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:`
fix: prevent overflow of int values 2024-11-29 13:00:00 +01:00			`i := rv.Int()`
			`if i > limits.MaxInt53 \|\| i < limits.MinInt53 {`
			`panic(fmt.Sprintf("integer %d exceeds safe bounds", i))`
			`}`
			`return qp.Int(i)`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:`
fix: prevent overflow of int values 2024-11-29 13:00:00 +01:00			`u := rv.Uint()`
feat(tinygo): make 53-bit limits portable across platforms 2025-02-21 10:55:24 -05:00			`if u > uint64(limits.MaxInt53) {`
fix: prevent overflow of int values 2024-11-29 13:00:00 +01:00			`panic(fmt.Sprintf("unsigned integer %d exceeds safe bounds", u))`
			`}`
			`return qp.Int(int64(u))`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`case reflect.Float32, reflect.Float64:`
			`return qp.Float(rv.Float())`
			`case reflect.String:`
			`return qp.String(rv.String())`
args: simplify API + code 2024-11-12 12:14:58 +01:00			`case reflect.Struct:`
			`if rt == reflect.TypeOf(cid.Cid{}) {`
			`c := rv.Interface().(cid.Cid)`
			`return qp.Link(cidlink.Link{Cid: c})`
			`}`
literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`default:`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00			`}`

literal: rewrite Map() to cover more types 2024-11-04 18:27:38 +01:00			`panic(fmt.Sprintf("unsupported type %T", val))`
additional tests for optional selectors 2024-11-01 13:07:46 +01:00			`}`