matterbridge/vendor/go.mau.fi/whatsmeow/appstate/encode.go
Wim 2f33fe86f5
Update dependencies and build to go1.22 (#2113)
* Update dependencies and build to go1.22

* Fix api changes wrt to dependencies

* Update golangci config
2024-05-23 23:44:31 +02:00

291 lines
8.4 KiB
Go

package appstate
import (
"crypto/sha256"
"encoding/json"
"fmt"
"time"
"google.golang.org/protobuf/proto"
waProto "go.mau.fi/whatsmeow/binary/proto"
"go.mau.fi/whatsmeow/types"
"go.mau.fi/whatsmeow/util/cbcutil"
)
// MutationInfo contains information about a single mutation to the app state.
type MutationInfo struct {
// Index contains the thing being mutated (like `mute` or `pin_v1`), followed by parameters like the target JID.
Index []string
// Version is a static number that depends on the thing being mutated.
Version int32
// Value contains the data for the mutation.
Value *waProto.SyncActionValue
}
// PatchInfo contains information about a patch to the app state.
// A patch can contain multiple mutations, as long as all mutations are in the same app state type.
type PatchInfo struct {
// Timestamp is the time when the patch was created. This will be filled automatically in EncodePatch if it's zero.
Timestamp time.Time
// Type is the app state type being mutated.
Type WAPatchName
// Mutations contains the individual mutations to apply to the app state in this patch.
Mutations []MutationInfo
}
// BuildMute builds an app state patch for muting or unmuting a chat.
//
// If mute is true and the mute duration is zero, the chat is muted forever.
func BuildMute(target types.JID, mute bool, muteDuration time.Duration) PatchInfo {
var muteEndTimestamp *int64
if muteDuration > 0 {
muteEndTimestamp = proto.Int64(time.Now().Add(muteDuration).UnixMilli())
}
return PatchInfo{
Type: WAPatchRegularHigh,
Mutations: []MutationInfo{{
Index: []string{IndexMute, target.String()},
Version: 2,
Value: &waProto.SyncActionValue{
MuteAction: &waProto.MuteAction{
Muted: proto.Bool(mute),
MuteEndTimestamp: muteEndTimestamp,
},
},
}},
}
}
func newPinMutationInfo(target types.JID, pin bool) MutationInfo {
return MutationInfo{
Index: []string{IndexPin, target.String()},
Version: 5,
Value: &waProto.SyncActionValue{
PinAction: &waProto.PinAction{
Pinned: &pin,
},
},
}
}
// BuildPin builds an app state patch for pinning or unpinning a chat.
func BuildPin(target types.JID, pin bool) PatchInfo {
return PatchInfo{
Type: WAPatchRegularLow,
Mutations: []MutationInfo{
newPinMutationInfo(target, pin),
},
}
}
// BuildArchive builds an app state patch for archiving or unarchiving a chat.
//
// The last message timestamp and last message key are optional and can be set to zero values (`time.Time{}` and `nil`).
//
// Archiving a chat will also unpin it automatically.
func BuildArchive(target types.JID, archive bool, lastMessageTimestamp time.Time, lastMessageKey *waProto.MessageKey) PatchInfo {
if lastMessageTimestamp.IsZero() {
lastMessageTimestamp = time.Now()
}
archiveMutationInfo := MutationInfo{
Index: []string{IndexArchive, target.String()},
Version: 3,
Value: &waProto.SyncActionValue{
ArchiveChatAction: &waProto.ArchiveChatAction{
Archived: &archive,
MessageRange: &waProto.SyncActionMessageRange{
LastMessageTimestamp: proto.Int64(lastMessageTimestamp.Unix()),
// TODO set LastSystemMessageTimestamp?
},
},
},
}
if lastMessageKey != nil {
archiveMutationInfo.Value.ArchiveChatAction.MessageRange.Messages = []*waProto.SyncActionMessage{{
Key: lastMessageKey,
Timestamp: proto.Int64(lastMessageTimestamp.Unix()),
}}
}
mutations := []MutationInfo{archiveMutationInfo}
if archive {
mutations = append(mutations, newPinMutationInfo(target, false))
}
result := PatchInfo{
Type: WAPatchRegularLow,
Mutations: mutations,
}
return result
}
func newLabelChatMutation(target types.JID, labelID string, labeled bool) MutationInfo {
return MutationInfo{
Index: []string{IndexLabelAssociationChat, labelID, target.String()},
Version: 3,
Value: &waProto.SyncActionValue{
LabelAssociationAction: &waProto.LabelAssociationAction{
Labeled: &labeled,
},
},
}
}
// BuildLabelChat builds an app state patch for labeling or un(labeling) a chat.
func BuildLabelChat(target types.JID, labelID string, labeled bool) PatchInfo {
return PatchInfo{
Type: WAPatchRegular,
Mutations: []MutationInfo{
newLabelChatMutation(target, labelID, labeled),
},
}
}
func newLabelMessageMutation(target types.JID, labelID, messageID string, labeled bool) MutationInfo {
return MutationInfo{
Index: []string{IndexLabelAssociationMessage, labelID, target.String(), messageID, "0", "0"},
Version: 3,
Value: &waProto.SyncActionValue{
LabelAssociationAction: &waProto.LabelAssociationAction{
Labeled: &labeled,
},
},
}
}
// BuildLabelMessage builds an app state patch for labeling or un(labeling) a message.
func BuildLabelMessage(target types.JID, labelID, messageID string, labeled bool) PatchInfo {
return PatchInfo{
Type: WAPatchRegular,
Mutations: []MutationInfo{
newLabelMessageMutation(target, labelID, messageID, labeled),
},
}
}
func newLabelEditMutation(labelID string, labelName string, labelColor int32, deleted bool) MutationInfo {
return MutationInfo{
Index: []string{IndexLabelEdit, labelID},
Version: 3,
Value: &waProto.SyncActionValue{
LabelEditAction: &waProto.LabelEditAction{
Name: &labelName,
Color: &labelColor,
Deleted: &deleted,
},
},
}
}
// BuildLabelEdit builds an app state patch for editing a label.
func BuildLabelEdit(labelID string, labelName string, labelColor int32, deleted bool) PatchInfo {
return PatchInfo{
Type: WAPatchRegular,
Mutations: []MutationInfo{
newLabelEditMutation(labelID, labelName, labelColor, deleted),
},
}
}
func newSettingPushNameMutation(pushName string) MutationInfo {
return MutationInfo{
Index: []string{IndexSettingPushName},
Version: 1,
Value: &waProto.SyncActionValue{
PushNameSetting: &waProto.PushNameSetting{
Name: &pushName,
},
},
}
}
// BuildSettingPushName builds an app state patch for setting the push name.
func BuildSettingPushName(pushName string) PatchInfo {
return PatchInfo{
Type: WAPatchCriticalBlock,
Mutations: []MutationInfo{
newSettingPushNameMutation(pushName),
},
}
}
func (proc *Processor) EncodePatch(keyID []byte, state HashState, patchInfo PatchInfo) ([]byte, error) {
keys, err := proc.getAppStateKey(keyID)
if err != nil {
return nil, fmt.Errorf("failed to get app state key details with key ID %x: %w", keyID, err)
}
if patchInfo.Timestamp.IsZero() {
patchInfo.Timestamp = time.Now()
}
mutations := make([]*waProto.SyncdMutation, 0, len(patchInfo.Mutations))
for _, mutationInfo := range patchInfo.Mutations {
mutationInfo.Value.Timestamp = proto.Int64(patchInfo.Timestamp.UnixMilli())
indexBytes, err := json.Marshal(mutationInfo.Index)
if err != nil {
return nil, fmt.Errorf("failed to marshal mutation index: %w", err)
}
pbObj := &waProto.SyncActionData{
Index: indexBytes,
Value: mutationInfo.Value,
Padding: []byte{},
Version: &mutationInfo.Version,
}
content, err := proto.Marshal(pbObj)
if err != nil {
return nil, fmt.Errorf("failed to marshal mutation: %w", err)
}
encryptedContent, err := cbcutil.Encrypt(keys.ValueEncryption, nil, content)
if err != nil {
return nil, fmt.Errorf("failed to encrypt mutation: %w", err)
}
valueMac := generateContentMAC(waProto.SyncdMutation_SET, encryptedContent, keyID, keys.ValueMAC)
indexMac := concatAndHMAC(sha256.New, keys.Index, indexBytes)
mutations = append(mutations, &waProto.SyncdMutation{
Operation: waProto.SyncdMutation_SET.Enum(),
Record: &waProto.SyncdRecord{
Index: &waProto.SyncdIndex{Blob: indexMac},
Value: &waProto.SyncdValue{Blob: append(encryptedContent, valueMac...)},
KeyId: &waProto.KeyId{Id: keyID},
},
})
}
warn, err := state.updateHash(mutations, func(indexMAC []byte, _ int) ([]byte, error) {
return proc.Store.AppState.GetAppStateMutationMAC(string(patchInfo.Type), indexMAC)
})
if len(warn) > 0 {
proc.Log.Warnf("Warnings while updating hash for %s (sending new app state): %+v", patchInfo.Type, warn)
}
if err != nil {
return nil, fmt.Errorf("failed to update state hash: %w", err)
}
state.Version += 1
syncdPatch := &waProto.SyncdPatch{
SnapshotMac: state.generateSnapshotMAC(patchInfo.Type, keys.SnapshotMAC),
KeyId: &waProto.KeyId{Id: keyID},
Mutations: mutations,
}
syncdPatch.PatchMac = generatePatchMAC(syncdPatch, patchInfo.Type, keys.PatchMAC, state.Version)
result, err := proto.Marshal(syncdPatch)
if err != nil {
return nil, fmt.Errorf("failed to marshal compiled patch: %w", err)
}
return result, nil
}