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gotosocial/vendor/github.com/go-fed/activity/pub/util.go

996 lines
28 KiB
Go

package pub
import (
"bytes"
"context"
"crypto/sha256"
"encoding/base64"
"encoding/json"
"errors"
"fmt"
"github.com/go-fed/activity/streams"
"github.com/go-fed/activity/streams/vocab"
"net/http"
"net/url"
"strings"
"time"
)
var (
// ErrObjectRequired indicates the activity needs its object property
// set. Can be returned by DelegateActor's PostInbox or PostOutbox so a
// Bad Request response is set.
ErrObjectRequired = errors.New("object property required on the provided activity")
// ErrTargetRequired indicates the activity needs its target property
// set. Can be returned by DelegateActor's PostInbox or PostOutbox so a
// Bad Request response is set.
ErrTargetRequired = errors.New("target property required on the provided activity")
)
// activityStreamsMediaTypes contains all of the accepted ActivityStreams media
// types. Generated at init time.
var activityStreamsMediaTypes []string
func init() {
activityStreamsMediaTypes = []string{
"application/activity+json",
}
jsonLdType := "application/ld+json"
for _, semi := range []string{";", " ;", " ; ", "; "} {
for _, profile := range []string{
"profile=https://www.w3.org/ns/activitystreams",
"profile=\"https://www.w3.org/ns/activitystreams\"",
} {
activityStreamsMediaTypes = append(
activityStreamsMediaTypes,
fmt.Sprintf("%s%s%s", jsonLdType, semi, profile))
}
}
}
// headerIsActivityPubMediaType returns true if the header string contains one
// of the accepted ActivityStreams media types.
//
// Note we don't try to build a comprehensive parser and instead accept a
// tolerable amount of whitespace since the HTTP specification is ambiguous
// about the format and significance of whitespace.
func headerIsActivityPubMediaType(header string) bool {
for _, mediaType := range activityStreamsMediaTypes {
if strings.Contains(header, mediaType) {
return true
}
}
return false
}
const (
// The Content-Type header.
contentTypeHeader = "Content-Type"
// The Accept header.
acceptHeader = "Accept"
)
// isActivityPubPost returns true if the request is a POST request that has the
// ActivityStreams content type header
func isActivityPubPost(r *http.Request) bool {
return r.Method == "POST" && headerIsActivityPubMediaType(r.Header.Get(contentTypeHeader))
}
// isActivityPubGet returns true if the request is a GET request that has the
// ActivityStreams content type header
func isActivityPubGet(r *http.Request) bool {
return r.Method == "GET" && headerIsActivityPubMediaType(r.Header.Get(acceptHeader))
}
// dedupeOrderedItems deduplicates the 'orderedItems' within an ordered
// collection type. Deduplication happens by the 'id' property.
func dedupeOrderedItems(oc orderedItemser) error {
oi := oc.GetActivityStreamsOrderedItems()
if oi == nil {
return nil
}
seen := make(map[string]bool, oi.Len())
for i := 0; i < oi.Len(); {
var id *url.URL
iter := oi.At(i)
asType := iter.GetType()
if asType != nil {
var err error
id, err = GetId(asType)
if err != nil {
return err
}
} else if iter.IsIRI() {
id = iter.GetIRI()
} else {
return fmt.Errorf("element %d in OrderedCollection does not have an ID nor is an IRI", i)
}
if seen[id.String()] {
oi.Remove(i)
} else {
seen[id.String()] = true
i++
}
}
return nil
}
const (
// The Location header
locationHeader = "Location"
// Contains the ActivityStreams Content-Type value.
contentTypeHeaderValue = "application/ld+json; profile=\"https://www.w3.org/ns/activitystreams\""
// The Date header.
dateHeader = "Date"
// The Digest header.
digestHeader = "Digest"
// The delimiter used in the Digest header.
digestDelimiter = "="
// SHA-256 string for the Digest header.
sha256Digest = "SHA-256"
)
// addResponseHeaders sets headers needed in the HTTP response, such but not
// limited to the Content-Type, Date, and Digest headers.
func addResponseHeaders(h http.Header, c Clock, responseContent []byte) {
h.Set(contentTypeHeader, contentTypeHeaderValue)
// RFC 7231 §7.1.1.2
h.Set(dateHeader, c.Now().UTC().Format("Mon, 02 Jan 2006 15:04:05")+" GMT")
// RFC 3230 and RFC 5843
var b bytes.Buffer
b.WriteString(sha256Digest)
b.WriteString(digestDelimiter)
hashed := sha256.Sum256(responseContent)
b.WriteString(base64.StdEncoding.EncodeToString(hashed[:]))
h.Set(digestHeader, b.String())
}
// IdProperty is a property that can readily have its id obtained
type IdProperty interface {
// GetIRI returns the IRI of this property. When IsIRI returns false,
// GetIRI will return an arbitrary value.
GetIRI() *url.URL
// GetType returns the value in this property as a Type. Returns nil if
// the value is not an ActivityStreams type, such as an IRI or another
// value.
GetType() vocab.Type
// IsIRI returns true if this property is an IRI.
IsIRI() bool
}
// ToId returns an IdProperty's id.
func ToId(i IdProperty) (*url.URL, error) {
if i.GetType() != nil {
return GetId(i.GetType())
} else if i.IsIRI() {
return i.GetIRI(), nil
}
return nil, fmt.Errorf("cannot determine id of activitystreams property")
}
// GetId will attempt to find the 'id' property or, if it happens to be a
// Link or derived from Link type, the 'href' property instead.
//
// Returns an error if the id is not set and either the 'href' property is not
// valid on this type, or it is also not set.
func GetId(t vocab.Type) (*url.URL, error) {
if id := t.GetJSONLDId(); id != nil {
return id.Get(), nil
} else if h, ok := t.(hrefer); ok {
if href := h.GetActivityStreamsHref(); href != nil {
return href.Get(), nil
}
}
return nil, fmt.Errorf("cannot determine id of activitystreams value")
}
// getInboxForwardingValues obtains the 'inReplyTo', 'object', 'target', and
// 'tag' values on an ActivityStreams value.
func getInboxForwardingValues(o vocab.Type) (t []vocab.Type, iri []*url.URL) {
// 'inReplyTo'
if i, ok := o.(inReplyToer); ok {
if irt := i.GetActivityStreamsInReplyTo(); irt != nil {
for iter := irt.Begin(); iter != irt.End(); iter = iter.Next() {
if tv := iter.GetType(); tv != nil {
t = append(t, tv)
} else {
iri = append(iri, iter.GetIRI())
}
}
}
}
// 'tag'
if i, ok := o.(tagger); ok {
if tag := i.GetActivityStreamsTag(); tag != nil {
for iter := tag.Begin(); iter != tag.End(); iter = iter.Next() {
if tv := iter.GetType(); tv != nil {
t = append(t, tv)
} else {
iri = append(iri, iter.GetIRI())
}
}
}
}
// 'object'
if i, ok := o.(objecter); ok {
if obj := i.GetActivityStreamsObject(); obj != nil {
for iter := obj.Begin(); iter != obj.End(); iter = iter.Next() {
if tv := iter.GetType(); tv != nil {
t = append(t, tv)
} else {
iri = append(iri, iter.GetIRI())
}
}
}
}
// 'target'
if i, ok := o.(targeter); ok {
if tar := i.GetActivityStreamsTarget(); tar != nil {
for iter := tar.Begin(); iter != tar.End(); iter = iter.Next() {
if tv := iter.GetType(); tv != nil {
t = append(t, tv)
} else {
iri = append(iri, iter.GetIRI())
}
}
}
}
return
}
// wrapInCreate will automatically wrap the provided object in a Create
// activity. This will copy over the 'to', 'bto', 'cc', 'bcc', and 'audience'
// properties. It will also copy over the published time if present.
func wrapInCreate(ctx context.Context, o vocab.Type, actor *url.URL) (c vocab.ActivityStreamsCreate, err error) {
c = streams.NewActivityStreamsCreate()
// Object property
oProp := streams.NewActivityStreamsObjectProperty()
oProp.AppendType(o)
c.SetActivityStreamsObject(oProp)
// Actor Property
actorProp := streams.NewActivityStreamsActorProperty()
actorProp.AppendIRI(actor)
c.SetActivityStreamsActor(actorProp)
// Published Property
if v, ok := o.(publisheder); ok {
c.SetActivityStreamsPublished(v.GetActivityStreamsPublished())
}
// Copying over properties.
if v, ok := o.(toer); ok {
if to := v.GetActivityStreamsTo(); to != nil {
activityTo := streams.NewActivityStreamsToProperty()
for iter := to.Begin(); iter != to.End(); iter = iter.Next() {
var id *url.URL
id, err = ToId(iter)
if err != nil {
return
}
activityTo.AppendIRI(id)
}
c.SetActivityStreamsTo(activityTo)
}
}
if v, ok := o.(btoer); ok {
if bto := v.GetActivityStreamsBto(); bto != nil {
activityBto := streams.NewActivityStreamsBtoProperty()
for iter := bto.Begin(); iter != bto.End(); iter = iter.Next() {
var id *url.URL
id, err = ToId(iter)
if err != nil {
return
}
activityBto.AppendIRI(id)
}
c.SetActivityStreamsBto(activityBto)
}
}
if v, ok := o.(ccer); ok {
if cc := v.GetActivityStreamsCc(); cc != nil {
activityCc := streams.NewActivityStreamsCcProperty()
for iter := cc.Begin(); iter != cc.End(); iter = iter.Next() {
var id *url.URL
id, err = ToId(iter)
if err != nil {
return
}
activityCc.AppendIRI(id)
}
c.SetActivityStreamsCc(activityCc)
}
}
if v, ok := o.(bccer); ok {
if bcc := v.GetActivityStreamsBcc(); bcc != nil {
activityBcc := streams.NewActivityStreamsBccProperty()
for iter := bcc.Begin(); iter != bcc.End(); iter = iter.Next() {
var id *url.URL
id, err = ToId(iter)
if err != nil {
return
}
activityBcc.AppendIRI(id)
}
c.SetActivityStreamsBcc(activityBcc)
}
}
if v, ok := o.(audiencer); ok {
if aud := v.GetActivityStreamsAudience(); aud != nil {
activityAudience := streams.NewActivityStreamsAudienceProperty()
for iter := aud.Begin(); iter != aud.End(); iter = iter.Next() {
var id *url.URL
id, err = ToId(iter)
if err != nil {
return
}
activityAudience.AppendIRI(id)
}
c.SetActivityStreamsAudience(activityAudience)
}
}
return
}
// filterURLs removes urls whose strings match the provided filter
func filterURLs(u []*url.URL, fn func(s string) bool) []*url.URL {
i := 0
for i < len(u) {
if fn(u[i].String()) {
u = append(u[:i], u[i+1:]...)
} else {
i++
}
}
return u
}
const (
// PublicActivityPubIRI is the IRI that indicates an Activity is meant
// to be visible for general public consumption.
PublicActivityPubIRI = "https://www.w3.org/ns/activitystreams#Public"
publicJsonLD = "Public"
publicJsonLDAS = "as:Public"
)
// IsPublic determines if an IRI string is the Public collection as defined in
// the spec, including JSON-LD compliant collections.
func IsPublic(s string) bool {
return s == PublicActivityPubIRI || s == publicJsonLD || s == publicJsonLDAS
}
// getInboxes extracts the 'inbox' IRIs from actor types.
func getInboxes(t []vocab.Type) (u []*url.URL, err error) {
for _, elem := range t {
var iri *url.URL
iri, err = getInbox(elem)
if err != nil {
return
}
u = append(u, iri)
}
return
}
// getInbox extracts the 'inbox' IRI from an actor type.
func getInbox(t vocab.Type) (u *url.URL, err error) {
ib, ok := t.(inboxer)
if !ok {
err = fmt.Errorf("actor type %T has no inbox", t)
return
}
inbox := ib.GetActivityStreamsInbox()
return ToId(inbox)
}
// dedupeIRIs will deduplicate final inbox IRIs. The ignore list is applied to
// the final list.
func dedupeIRIs(recipients, ignored []*url.URL) (out []*url.URL) {
ignoredMap := make(map[string]bool, len(ignored))
for _, elem := range ignored {
ignoredMap[elem.String()] = true
}
outMap := make(map[string]bool, len(recipients))
for _, k := range recipients {
kStr := k.String()
if !ignoredMap[kStr] && !outMap[kStr] {
out = append(out, k)
outMap[kStr] = true
}
}
return
}
// stripHiddenRecipients removes "bto" and "bcc" from the activity.
//
// Note that this requirement of the specification is under "Section 6: Client
// to Server Interactions", the Social API, and not the Federative API.
func stripHiddenRecipients(activity Activity) {
activity.SetActivityStreamsBto(nil)
activity.SetActivityStreamsBcc(nil)
op := activity.GetActivityStreamsObject()
if op != nil {
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
if v, ok := iter.GetType().(btoer); ok {
v.SetActivityStreamsBto(nil)
}
if v, ok := iter.GetType().(bccer); ok {
v.SetActivityStreamsBcc(nil)
}
}
}
}
// mustHaveActivityOriginMatchObjects ensures that the Host in the activity id
// IRI matches all of the Hosts in the object id IRIs.
func mustHaveActivityOriginMatchObjects(a Activity) error {
originIRI, err := GetId(a)
if err != nil {
return err
}
originHost := originIRI.Host
op := a.GetActivityStreamsObject()
if op == nil || op.Len() == 0 {
return nil
}
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
iri, err := ToId(iter)
if err != nil {
return err
}
if originHost != iri.Host {
return fmt.Errorf("object %q: not in activity origin", iri)
}
}
return nil
}
// normalizeRecipients ensures the activity and object have the same 'to',
// 'bto', 'cc', 'bcc', and 'audience' properties. Copy the Activity's recipients
// to objects, and the objects to the activity, but does NOT copy objects'
// recipients to each other.
func normalizeRecipients(a vocab.ActivityStreamsCreate) error {
// Phase 0: Acquire all recipients on the activity.
//
// Obtain the actorTo map
actorToMap := make(map[string]*url.URL)
actorTo := a.GetActivityStreamsTo()
if actorTo == nil {
actorTo = streams.NewActivityStreamsToProperty()
a.SetActivityStreamsTo(actorTo)
}
for iter := actorTo.Begin(); iter != actorTo.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
actorToMap[id.String()] = id
}
// Obtain the actorBto map
actorBtoMap := make(map[string]*url.URL)
actorBto := a.GetActivityStreamsBto()
if actorBto == nil {
actorBto = streams.NewActivityStreamsBtoProperty()
a.SetActivityStreamsBto(actorBto)
}
for iter := actorBto.Begin(); iter != actorBto.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
actorBtoMap[id.String()] = id
}
// Obtain the actorCc map
actorCcMap := make(map[string]*url.URL)
actorCc := a.GetActivityStreamsCc()
if actorCc == nil {
actorCc = streams.NewActivityStreamsCcProperty()
a.SetActivityStreamsCc(actorCc)
}
for iter := actorCc.Begin(); iter != actorCc.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
actorCcMap[id.String()] = id
}
// Obtain the actorBcc map
actorBccMap := make(map[string]*url.URL)
actorBcc := a.GetActivityStreamsBcc()
if actorBcc == nil {
actorBcc = streams.NewActivityStreamsBccProperty()
a.SetActivityStreamsBcc(actorBcc)
}
for iter := actorBcc.Begin(); iter != actorBcc.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
actorBccMap[id.String()] = id
}
// Obtain the actorAudience map
actorAudienceMap := make(map[string]*url.URL)
actorAudience := a.GetActivityStreamsAudience()
if actorAudience == nil {
actorAudience = streams.NewActivityStreamsAudienceProperty()
a.SetActivityStreamsAudience(actorAudience)
}
for iter := actorAudience.Begin(); iter != actorAudience.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
actorAudienceMap[id.String()] = id
}
// Obtain the objects maps for each recipient type.
o := a.GetActivityStreamsObject()
objsTo := make([]map[string]*url.URL, o.Len())
objsBto := make([]map[string]*url.URL, o.Len())
objsCc := make([]map[string]*url.URL, o.Len())
objsBcc := make([]map[string]*url.URL, o.Len())
objsAudience := make([]map[string]*url.URL, o.Len())
for i := 0; i < o.Len(); i++ {
iter := o.At(i)
// Phase 1: Acquire all existing recipients on the object.
//
// Object to
objsTo[i] = make(map[string]*url.URL)
var oTo vocab.ActivityStreamsToProperty
if tr, ok := iter.GetType().(toer); !ok {
return fmt.Errorf("the Create object at %d has no 'to' property", i)
} else {
oTo = tr.GetActivityStreamsTo()
if oTo == nil {
oTo = streams.NewActivityStreamsToProperty()
tr.SetActivityStreamsTo(oTo)
}
}
for iter := oTo.Begin(); iter != oTo.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
objsTo[i][id.String()] = id
}
// Object bto
objsBto[i] = make(map[string]*url.URL)
var oBto vocab.ActivityStreamsBtoProperty
if tr, ok := iter.GetType().(btoer); !ok {
return fmt.Errorf("the Create object at %d has no 'bto' property", i)
} else {
oBto = tr.GetActivityStreamsBto()
if oBto == nil {
oBto = streams.NewActivityStreamsBtoProperty()
tr.SetActivityStreamsBto(oBto)
}
}
for iter := oBto.Begin(); iter != oBto.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
objsBto[i][id.String()] = id
}
// Object cc
objsCc[i] = make(map[string]*url.URL)
var oCc vocab.ActivityStreamsCcProperty
if tr, ok := iter.GetType().(ccer); !ok {
return fmt.Errorf("the Create object at %d has no 'cc' property", i)
} else {
oCc = tr.GetActivityStreamsCc()
if oCc == nil {
oCc = streams.NewActivityStreamsCcProperty()
tr.SetActivityStreamsCc(oCc)
}
}
for iter := oCc.Begin(); iter != oCc.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
objsCc[i][id.String()] = id
}
// Object bcc
objsBcc[i] = make(map[string]*url.URL)
var oBcc vocab.ActivityStreamsBccProperty
if tr, ok := iter.GetType().(bccer); !ok {
return fmt.Errorf("the Create object at %d has no 'bcc' property", i)
} else {
oBcc = tr.GetActivityStreamsBcc()
if oBcc == nil {
oBcc = streams.NewActivityStreamsBccProperty()
tr.SetActivityStreamsBcc(oBcc)
}
}
for iter := oBcc.Begin(); iter != oBcc.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
objsBcc[i][id.String()] = id
}
// Object audience
objsAudience[i] = make(map[string]*url.URL)
var oAudience vocab.ActivityStreamsAudienceProperty
if tr, ok := iter.GetType().(audiencer); !ok {
return fmt.Errorf("the Create object at %d has no 'audience' property", i)
} else {
oAudience = tr.GetActivityStreamsAudience()
if oAudience == nil {
oAudience = streams.NewActivityStreamsAudienceProperty()
tr.SetActivityStreamsAudience(oAudience)
}
}
for iter := oAudience.Begin(); iter != oAudience.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
objsAudience[i][id.String()] = id
}
// Phase 2: Apply missing recipients to the object from the
// activity.
//
// Activity to -> Object to
for k, v := range actorToMap {
if _, ok := objsTo[i][k]; !ok {
oTo.AppendIRI(v)
}
}
// Activity bto -> Object bto
for k, v := range actorBtoMap {
if _, ok := objsBto[i][k]; !ok {
oBto.AppendIRI(v)
}
}
// Activity cc -> Object cc
for k, v := range actorCcMap {
if _, ok := objsCc[i][k]; !ok {
oCc.AppendIRI(v)
}
}
// Activity bcc -> Object bcc
for k, v := range actorBccMap {
if _, ok := objsBcc[i][k]; !ok {
oBcc.AppendIRI(v)
}
}
// Activity audience -> Object audience
for k, v := range actorAudienceMap {
if _, ok := objsAudience[i][k]; !ok {
oAudience.AppendIRI(v)
}
}
}
// Phase 3: Apply missing recipients to the activity from the objects.
//
// Object to -> Activity to
for i := 0; i < len(objsTo); i++ {
for k, v := range objsTo[i] {
if _, ok := actorToMap[k]; !ok {
actorTo.AppendIRI(v)
}
}
}
// Object bto -> Activity bto
for i := 0; i < len(objsBto); i++ {
for k, v := range objsBto[i] {
if _, ok := actorBtoMap[k]; !ok {
actorBto.AppendIRI(v)
}
}
}
// Object cc -> Activity cc
for i := 0; i < len(objsCc); i++ {
for k, v := range objsCc[i] {
if _, ok := actorCcMap[k]; !ok {
actorCc.AppendIRI(v)
}
}
}
// Object bcc -> Activity bcc
for i := 0; i < len(objsBcc); i++ {
for k, v := range objsBcc[i] {
if _, ok := actorBccMap[k]; !ok {
actorBcc.AppendIRI(v)
}
}
}
// Object audience -> Activity audience
for i := 0; i < len(objsAudience); i++ {
for k, v := range objsAudience[i] {
if _, ok := actorAudienceMap[k]; !ok {
actorAudience.AppendIRI(v)
}
}
}
return nil
}
// toTombstone creates a Tombstone object for the given ActivityStreams value.
func toTombstone(obj vocab.Type, id *url.URL, now time.Time) vocab.ActivityStreamsTombstone {
tomb := streams.NewActivityStreamsTombstone()
// id property
idProp := streams.NewJSONLDIdProperty()
idProp.Set(id)
tomb.SetJSONLDId(idProp)
// formerType property
former := streams.NewActivityStreamsFormerTypeProperty()
tomb.SetActivityStreamsFormerType(former)
// Populate Former Type
former.AppendXMLSchemaString(obj.GetTypeName())
// Copy over the published property if it existed
if pubber, ok := obj.(publisheder); ok {
if pub := pubber.GetActivityStreamsPublished(); pub != nil {
tomb.SetActivityStreamsPublished(pub)
}
}
// Copy over the updated property if it existed
if upder, ok := obj.(updateder); ok {
if upd := upder.GetActivityStreamsUpdated(); upd != nil {
tomb.SetActivityStreamsUpdated(upd)
}
}
// Set deleted time to now.
deleted := streams.NewActivityStreamsDeletedProperty()
deleted.Set(now)
tomb.SetActivityStreamsDeleted(deleted)
return tomb
}
// mustHaveActivityActorsMatchObjectActors ensures that the actors on types in
// the 'object' property are all listed in the 'actor' property.
func mustHaveActivityActorsMatchObjectActors(c context.Context,
actors vocab.ActivityStreamsActorProperty,
op vocab.ActivityStreamsObjectProperty,
newTransport func(c context.Context, actorBoxIRI *url.URL, gofedAgent string) (t Transport, err error),
boxIRI *url.URL) error {
activityActorMap := make(map[string]bool, actors.Len())
for iter := actors.Begin(); iter != actors.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
activityActorMap[id.String()] = true
}
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
iri, err := ToId(iter)
if err != nil {
return err
}
// Attempt to dereference the IRI, regardless whether it is a
// type or IRI
tport, err := newTransport(c, boxIRI, goFedUserAgent())
if err != nil {
return err
}
b, err := tport.Dereference(c, iri)
if err != nil {
return err
}
var m map[string]interface{}
if err = json.Unmarshal(b, &m); err != nil {
return err
}
t, err := streams.ToType(c, m)
if err != nil {
return err
}
ac, ok := t.(actorer)
if !ok {
return fmt.Errorf("cannot verify actors: object value has no 'actor' property")
}
objActors := ac.GetActivityStreamsActor()
for iter := objActors.Begin(); iter != objActors.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
if !activityActorMap[id.String()] {
return fmt.Errorf("activity does not have all actors from its object's actors")
}
}
}
return nil
}
// add implements the logic of adding object ids to a target Collection or
// OrderedCollection. This logic is shared by both the C2S and S2S protocols.
func add(c context.Context,
op vocab.ActivityStreamsObjectProperty,
target vocab.ActivityStreamsTargetProperty,
db Database) error {
opIds := make([]*url.URL, 0, op.Len())
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
opIds = append(opIds, id)
}
targetIds := make([]*url.URL, 0, op.Len())
for iter := target.Begin(); iter != target.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
targetIds = append(targetIds, id)
}
// Create anonymous loop function to be able to properly scope the defer
// for the database lock at each iteration.
loopFn := func(t *url.URL) error {
if err := db.Lock(c, t); err != nil {
return err
}
defer db.Unlock(c, t)
if owns, err := db.Owns(c, t); err != nil {
return err
} else if !owns {
return nil
}
tp, err := db.Get(c, t)
if err != nil {
return err
}
if streams.IsOrExtendsActivityStreamsOrderedCollection(tp) {
oi, ok := tp.(orderedItemser)
if !ok {
return fmt.Errorf("type extending from OrderedCollection cannot convert to orderedItemser interface")
}
oiProp := oi.GetActivityStreamsOrderedItems()
if oiProp == nil {
oiProp = streams.NewActivityStreamsOrderedItemsProperty()
oi.SetActivityStreamsOrderedItems(oiProp)
}
for _, objId := range opIds {
oiProp.AppendIRI(objId)
}
} else if streams.IsOrExtendsActivityStreamsCollection(tp) {
i, ok := tp.(itemser)
if !ok {
return fmt.Errorf("type extending from Collection cannot convert to itemser interface")
}
iProp := i.GetActivityStreamsItems()
if iProp == nil {
iProp = streams.NewActivityStreamsItemsProperty()
i.SetActivityStreamsItems(iProp)
}
for _, objId := range opIds {
iProp.AppendIRI(objId)
}
} else {
return fmt.Errorf("target in Add is neither a Collection nor an OrderedCollection")
}
err = db.Update(c, tp)
if err != nil {
return err
}
return nil
}
for _, t := range targetIds {
if err := loopFn(t); err != nil {
return err
}
}
return nil
}
// remove implements the logic of removing object ids to a target Collection or
// OrderedCollection. This logic is shared by both the C2S and S2S protocols.
func remove(c context.Context,
op vocab.ActivityStreamsObjectProperty,
target vocab.ActivityStreamsTargetProperty,
db Database) error {
opIds := make(map[string]bool, op.Len())
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
opIds[id.String()] = true
}
targetIds := make([]*url.URL, 0, op.Len())
for iter := target.Begin(); iter != target.End(); iter = iter.Next() {
id, err := ToId(iter)
if err != nil {
return err
}
targetIds = append(targetIds, id)
}
// Create anonymous loop function to be able to properly scope the defer
// for the database lock at each iteration.
loopFn := func(t *url.URL) error {
if err := db.Lock(c, t); err != nil {
return err
}
defer db.Unlock(c, t)
if owns, err := db.Owns(c, t); err != nil {
return err
} else if !owns {
return nil
}
tp, err := db.Get(c, t)
if err != nil {
return err
}
if streams.IsOrExtendsActivityStreamsOrderedCollection(tp) {
oi, ok := tp.(orderedItemser)
if !ok {
return fmt.Errorf("type extending from OrderedCollection cannot convert to orderedItemser interface")
}
oiProp := oi.GetActivityStreamsOrderedItems()
if oiProp != nil {
for i := 0; i < oiProp.Len(); /*Conditional*/ {
id, err := ToId(oiProp.At(i))
if err != nil {
return err
}
if opIds[id.String()] {
oiProp.Remove(i)
} else {
i++
}
}
}
} else if streams.IsOrExtendsActivityStreamsCollection(tp) {
i, ok := tp.(itemser)
if !ok {
return fmt.Errorf("type extending from Collection cannot convert to itemser interface")
}
iProp := i.GetActivityStreamsItems()
if iProp != nil {
for i := 0; i < iProp.Len(); /*Conditional*/ {
id, err := ToId(iProp.At(i))
if err != nil {
return err
}
if opIds[id.String()] {
iProp.Remove(i)
} else {
i++
}
}
}
} else {
return fmt.Errorf("target in Remove is neither a Collection nor an OrderedCollection")
}
err = db.Update(c, tp)
if err != nil {
return err
}
return nil
}
for _, t := range targetIds {
if err := loopFn(t); err != nil {
return err
}
}
return nil
}
// clearSensitiveFields removes the 'bto' and 'bcc' entries on the given value
// and recursively on every 'object' property value.
func clearSensitiveFields(obj vocab.Type) {
if t, ok := obj.(btoer); ok {
t.SetActivityStreamsBto(nil)
}
if t, ok := obj.(bccer); ok {
t.SetActivityStreamsBcc(nil)
}
if t, ok := obj.(objecter); ok {
op := t.GetActivityStreamsObject()
if op != nil {
for iter := op.Begin(); iter != op.End(); iter = iter.Next() {
clearSensitiveFields(iter.GetType())
}
}
}
}
// requestId forms an ActivityPub id based on the HTTP request. Always assumes
// that the id is HTTPS.
func requestId(r *http.Request, scheme string) *url.URL {
id := r.URL
id.Host = r.Host
id.Scheme = scheme
return id
}