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api_debug.go
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api_debug.go
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package weshnet
import (
"context"
"fmt"
"strings"
"time"
"github.com/libp2p/go-libp2p/core/crypto"
"github.com/libp2p/go-libp2p/core/network"
peer "github.com/libp2p/go-libp2p/core/peer"
"go.uber.org/multierr"
"go.uber.org/zap"
"google.golang.org/protobuf/proto"
"berty.tech/go-orbit-db/stores/operation"
"berty.tech/weshnet/v2/internal/sysutil"
"berty.tech/weshnet/v2/pkg/errcode"
"berty.tech/weshnet/v2/pkg/protocoltypes"
)
func (s *service) DebugListGroups(_ *protocoltypes.DebugListGroups_Request, srv protocoltypes.ProtocolService_DebugListGroupsServer) error {
accountGroup := s.getAccountGroup()
if accountGroup == nil {
return errcode.ErrCode_ErrGroupMissing
}
if err := srv.SendMsg(&protocoltypes.DebugListGroups_Reply{
GroupPk: accountGroup.group.PublicKey,
GroupType: accountGroup.group.GroupType,
}); err != nil {
return err
}
for _, c := range accountGroup.MetadataStore().ListContactsByStatus(protocoltypes.ContactState_ContactStateAdded) {
pk, err := crypto.UnmarshalEd25519PublicKey(c.Pk)
if err != nil {
return errcode.ErrCode_ErrDeserialization.Wrap(err)
}
group, err := s.secretStore.GetGroupForContact(pk)
if err != nil {
return errcode.ErrCode_ErrCryptoKeyGeneration.Wrap(err)
}
if err := srv.SendMsg(&protocoltypes.DebugListGroups_Reply{
GroupPk: group.PublicKey,
GroupType: group.GroupType,
ContactPk: c.Pk,
}); err != nil {
return err
}
}
for _, g := range accountGroup.MetadataStore().ListMultiMemberGroups() {
if err := srv.SendMsg(&protocoltypes.DebugListGroups_Reply{
GroupPk: g.PublicKey,
GroupType: g.GroupType,
}); err != nil {
return err
}
}
return nil
}
func (s *service) DebugInspectGroupStore(req *protocoltypes.DebugInspectGroupStore_Request, srv protocoltypes.ProtocolService_DebugInspectGroupStoreServer) error {
if req.LogType == protocoltypes.DebugInspectGroupLogType_DebugInspectGroupLogTypeUndefined {
return errcode.ErrCode_ErrInvalidInput.Wrap(fmt.Errorf("invalid log type specified"))
}
cg, err := s.GetContextGroupForID(req.GroupPk)
if err != nil {
return errcode.ErrCode_ErrInvalidInput.Wrap(err)
}
switch req.LogType {
case protocoltypes.DebugInspectGroupLogType_DebugInspectGroupLogTypeMessage:
for _, e := range cg.messageStore.OpLog().GetEntries().Slice() {
var (
payload = []byte(nil)
devicePK = []byte(nil)
nexts = make([][]byte, len(e.GetNext()))
)
if evt, err := cg.messageStore.openMessage(srv.Context(), e); err != nil {
s.logger.Error("unable to open message", zap.Error(err))
} else {
devicePK = evt.Headers.DevicePk
payload = evt.Message
}
for i, n := range e.GetNext() {
nexts[i] = n.Bytes()
}
if err := srv.SendMsg(&protocoltypes.DebugInspectGroupStore_Reply{
Cid: e.GetHash().Bytes(),
ParentCids: nexts,
DevicePk: devicePK,
Payload: payload,
}); err != nil {
return err
}
}
case protocoltypes.DebugInspectGroupLogType_DebugInspectGroupLogTypeMetadata:
log := cg.metadataStore.OpLog()
for _, e := range log.GetEntries().Slice() {
var (
eventType protocoltypes.EventType
payload = []byte(nil)
devicePK = []byte(nil)
nexts = make([][]byte, len(e.GetNext()))
)
if op, err := operation.ParseOperation(e); err != nil {
s.logger.Error("unable to parse operation", zap.Error(err))
} else if meta, event, err := openGroupEnvelope(cg.group, op.GetValue()); err != nil {
s.logger.Error("unable to open group envelope", zap.Error(err))
} else if metaEvent, err := newGroupMetadataEventFromEntry(log, e, meta, event, cg.group); err != nil {
s.logger.Error("unable to get group metadata event from entry", zap.Error(err))
} else {
payload = metaEvent.Event
eventType = metaEvent.Metadata.EventType
if typeData, ok := eventTypesMapper[metaEvent.Metadata.EventType]; ok {
p := proto.Clone(typeData.Message)
if err := proto.Unmarshal(metaEvent.Event, p); err == nil {
if msg, ok := p.(eventDeviceSigned); ok {
devicePK = msg.GetDevicePk()
}
}
} else {
s.logger.Error("unable to get message struct for event type", zap.String("event_type", metaEvent.Metadata.EventType.String()))
}
}
for i, n := range e.GetNext() {
nexts[i] = n.Bytes()
}
if err := srv.SendMsg(&protocoltypes.DebugInspectGroupStore_Reply{
Cid: e.GetHash().Bytes(),
ParentCids: nexts,
Payload: payload,
MetadataEventType: eventType,
DevicePk: devicePK,
}); err != nil {
return err
}
}
}
return nil
}
func (s *service) DebugGroup(ctx context.Context, request *protocoltypes.DebugGroup_Request) (*protocoltypes.DebugGroup_Reply, error) {
rep := &protocoltypes.DebugGroup_Reply{}
peers, err := s.ipfsCoreAPI.Swarm().Peers(ctx)
if err != nil {
return nil, err
}
topic := fmt.Sprintf("grp_%s", string(request.GroupPk))
for _, p := range peers {
tagInfo := s.ipfsCoreAPI.ConnMgr().GetTagInfo(p.ID())
if _, ok := tagInfo.Tags[topic]; ok {
rep.PeerIds = append(rep.PeerIds, p.ID().String())
}
}
return rep, nil
}
func (s *service) SystemInfo(ctx context.Context, _ *protocoltypes.SystemInfo_Request) (*protocoltypes.SystemInfo_Reply, error) {
reply := protocoltypes.SystemInfo_Reply{}
// process
process, errs := sysutil.SystemInfoProcess()
reply.Process = process
reply.Process.StartedAt = s.startedAt.Unix()
reply.Process.UptimeMs = time.Since(s.startedAt).Milliseconds()
// gRPC
// TODO
// p2p
{
reply.P2P = &protocoltypes.SystemInfo_P2P{}
// swarm metrics
if api := s.IpfsCoreAPI(); api != nil {
peers, err := api.Swarm().Peers(ctx)
reply.P2P.ConnectedPeers = int64(len(peers))
errs = multierr.Append(errs, err)
} else {
errs = multierr.Append(errs, fmt.Errorf("no such IPFS core API"))
}
// pubsub metrics
// TODO
// BLE metrics
}
// OrbitDB
accountGroup := s.getAccountGroup()
if accountGroup == nil {
return nil, errcode.ErrCode_ErrGroupMissing
}
status := accountGroup.metadataStore.ReplicationStatus()
reply.Orbitdb = &protocoltypes.SystemInfo_OrbitDB{
AccountMetadata: &protocoltypes.SystemInfo_OrbitDB_ReplicationStatus{
Progress: int64(status.GetProgress()),
Maximum: int64(status.GetMax()),
},
}
// FIXME: compute more stores
// warns
if errs != nil {
reply.Warns = []string{}
for _, err := range multierr.Errors(errs) {
reply.Warns = append(reply.Warns, err.Error())
}
}
return &reply, nil
}
func (s *service) PeerList(ctx context.Context, _ *protocoltypes.PeerList_Request) (*protocoltypes.PeerList_Reply, error) {
reply := protocoltypes.PeerList_Reply{}
api := s.IpfsCoreAPI()
if api == nil {
return nil, errcode.ErrCode_TODO.Wrap(fmt.Errorf("IPFS Core API is not available"))
}
swarmPeers, err := api.Swarm().Peers(ctx) // https://pkg.go.dev/github.com/ipfs/interface-go-ipfs-core#ConnectionInfo
if err != nil {
return nil, errcode.ErrCode_TODO.Wrap(err)
}
peers := map[peer.ID]*protocoltypes.PeerList_Peer{}
// each peer in the swarm should be visible
for _, swarmPeer := range swarmPeers {
peers[swarmPeer.ID()] = &protocoltypes.PeerList_Peer{
Id: swarmPeer.ID().String(),
Errors: []string{},
Routes: []*protocoltypes.PeerList_Route{},
}
}
// FIXME: do not restrict on swarm peers, also print some other important ones (old, etc)
// append peer addrs from peerstore
for peerID, peer := range peers {
info := s.host.Peerstore().PeerInfo(peerID)
for _, addr := range info.Addrs {
peer.Routes = append(peer.Routes, &protocoltypes.PeerList_Route{
Address: addr.String(),
})
}
}
// append more info for active connections
for _, swarmPeer := range swarmPeers {
peer, ok := peers[swarmPeer.ID()]
if !ok {
peer = &protocoltypes.PeerList_Peer{
Id: swarmPeer.ID().String(),
Errors: []string{},
Routes: []*protocoltypes.PeerList_Route{},
}
peer.Errors = append(peer.Errors, "peer in swarm peers, but not in peerstore")
peers[swarmPeer.ID()] = peer
}
address := swarmPeer.Address().String()
found := false
var selectedRoute *protocoltypes.PeerList_Route
for _, route := range peer.Routes {
if route.Address == address {
found = true
selectedRoute = route
}
}
if !found {
newRoute := protocoltypes.PeerList_Route{Address: address}
peer.Routes = append(peer.Routes, &newRoute)
selectedRoute = &newRoute
}
selectedRoute.IsActive = true
// latency
{
latency, err := swarmPeer.Latency()
if err != nil {
peer.Errors = append(peer.Errors, err.Error())
} else {
selectedRoute.Latency = latency.Milliseconds()
}
}
// direction
{
switch swarmPeer.Direction() {
case network.DirInbound:
selectedRoute.Direction = protocoltypes.Direction_InboundDir
case network.DirOutbound:
selectedRoute.Direction = protocoltypes.Direction_OutboundDir
}
}
// streams
{
peerStreams, err := swarmPeer.Streams()
if err != nil {
peer.Errors = append(peer.Errors, err.Error())
} else {
selectedRoute.Streams = []*protocoltypes.PeerList_Stream{}
for _, peerStream := range peerStreams {
if peerStream == "" {
continue
}
selectedRoute.Streams = append(selectedRoute.Streams, &protocoltypes.PeerList_Stream{
Id: string(peerStream),
})
}
}
}
}
// compute features
for _, peer := range peers {
features := map[protocoltypes.PeerList_Feature]bool{}
for _, route := range peer.Routes {
// FIXME: use the multiaddr library instead of string comparisons
if strings.Contains(route.Address, "/quic") {
features[protocoltypes.PeerList_QuicFeature] = true
}
if strings.Contains(route.Address, "/mc/") {
features[protocoltypes.PeerList_BLEFeature] = true
features[protocoltypes.PeerList_WeshFeature] = true
}
if strings.Contains(route.Address, "/tor/") {
features[protocoltypes.PeerList_TorFeature] = true
}
for _, stream := range route.Streams {
if stream.Id == "/wesh/contact_req/1.0.0" {
features[protocoltypes.PeerList_WeshFeature] = true
}
if stream.Id == "/rendezvous/1.0.0" {
features[protocoltypes.PeerList_WeshFeature] = true
}
}
}
for feature := range features {
peer.Features = append(peer.Features, feature)
}
}
// compute peer-level aggregates
for _, peer := range peers {
// aggregate direction
for _, route := range peer.Routes {
if route.Direction == protocoltypes.Direction_UnknownDir {
continue
}
switch {
case peer.Direction == protocoltypes.Direction_UnknownDir: // first route with a direction
peer.Direction = route.Direction
case peer.Direction == protocoltypes.Direction_BiDir: // peer aggregate is already maximal
// noop
case route.Direction == peer.Direction: // another route with the same direction
// noop
case route.Direction == protocoltypes.Direction_InboundDir && peer.Direction == protocoltypes.Direction_OutboundDir:
peer.Direction = protocoltypes.Direction_BiDir
case route.Direction == protocoltypes.Direction_OutboundDir && peer.Direction == protocoltypes.Direction_InboundDir:
peer.Direction = protocoltypes.Direction_BiDir
default:
peer.Errors = append(peer.Errors, "failed to compute direction aggregate")
}
}
// aggregate latency
for _, route := range peer.Routes {
if route.Latency == 0 {
continue
}
switch {
case peer.MinLatency == 0: // first route with a latency
peer.MinLatency = route.Latency
case peer.MinLatency > route.Latency: // smaller value
peer.MinLatency = route.Latency
}
}
// aggregate isActive
for _, route := range peer.Routes {
if route.IsActive {
peer.IsActive = true
break
}
}
}
// FIXME: compute pubsub peers too?
// FIXME: add metrics about "amount of times seen", "first time seen", "bandwidth"
// use protobuf format
for _, peer := range peers {
reply.Peers = append(reply.Peers, peer)
}
return &reply, nil
}