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809b7fbda5
ipfs-cluster/rpc_api.go
Hector Sanjuan 809b7fbda5 Pintracker: add IPFS ID to Pin Information 
Fixes #1554
Fixes: peer names unset for remote peers

This adds an IPFS field to pin status information (PinInfoShort).

It has not been easy to add this, given that the IPFS ID is something that
comes from outside of cluster (unlike the peer name). After several tries I
have settled in the following things:

- Use the ping metric to send out peer names and IPFS IDs to the peers in the
  cluster.
- Cache the latest known IPFS ID (if IPFS dies we should still be setting
  the ID).
- Provide an RPC method for the Pintracker to obtain IPFS ID from the cache.
- Given we now know information for peernames and IPFS IDs from other peers,
  we can use that information even if the requests to them error or we are not
  contacting (i.e. peers allocated as remote are not queried for status). We can
  use the information from the last received ping metric.
- This means we should keep metrics around even if peers go away, at least for
  a while rather than deleting them as soon as we detect that they have expired.

Puting it all together we now have a system to gossip peer information around on top
of the ping metrics.
2022-01-31 17:53:09 +01:00

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package ipfscluster
import (
"context"
"github.com/ipfs/ipfs-cluster/api"
"github.com/ipfs/ipfs-cluster/state"
"github.com/ipfs/ipfs-cluster/version"
cid "github.com/ipfs/go-cid"
peer "github.com/libp2p/go-libp2p-core/peer"
rpc "github.com/libp2p/go-libp2p-gorpc"
ocgorpc "github.com/lanzafame/go-libp2p-ocgorpc"
"go.opencensus.io/trace"
)
// RPC endpoint types w.r.t. trust level
const (
// RPCClosed endpoints can only be called by the local cluster peer
// on itself.
RPCClosed RPCEndpointType = iota
// RPCTrusted endpoints can be called by "trusted" peers.
// It depends which peers are considered trusted. For example,
// in "raft" mode, Cluster will all peers as "trusted". In "crdt" mode,
// trusted peers are those specified in the configuration.
RPCTrusted
// RPCOpen endpoints can be called by any peer in the Cluster swarm.
RPCOpen
)
// RPCEndpointType controls how access is granted to an RPC endpoint
type RPCEndpointType int
// A trick to find where something is used (i.e. Cluster.Pin):
// grep -R -B 3 '"Pin"' | grep -C 1 '"Cluster"'.
// This does not cover globalPinInfo*(...) broadcasts nor redirects to leader
// in Raft.
// newRPCServer returns a new RPC Server for Cluster.
func newRPCServer(c *Cluster) (*rpc.Server, error) {
var s *rpc.Server
authF := func(pid peer.ID, svc, method string) bool {
endpointType, ok := c.config.RPCPolicy[svc+"."+method]
if !ok {
return false
}
switch endpointType {
case RPCTrusted:
return c.consensus.IsTrustedPeer(c.ctx, pid)
case RPCOpen:
return true
default:
return false
}
}
if c.config.Tracing {
s = rpc.NewServer(
c.host,
version.RPCProtocol,
rpc.WithServerStatsHandler(&ocgorpc.ServerHandler{}),
rpc.WithAuthorizeFunc(authF),
)
} else {
s = rpc.NewServer(c.host, version.RPCProtocol, rpc.WithAuthorizeFunc(authF))
}
cl := &ClusterRPCAPI{c}
err := s.RegisterName(RPCServiceID(cl), cl)
if err != nil {
return nil, err
}
pt := &PinTrackerRPCAPI{c.tracker}
err = s.RegisterName(RPCServiceID(pt), pt)
if err != nil {
return nil, err
}
ic := &IPFSConnectorRPCAPI{c.ipfs}
err = s.RegisterName(RPCServiceID(ic), ic)
if err != nil {
return nil, err
}
cons := &ConsensusRPCAPI{c.consensus}
err = s.RegisterName(RPCServiceID(cons), cons)
if err != nil {
return nil, err
}
pm := &PeerMonitorRPCAPI{mon: c.monitor, pid: c.id}
err = s.RegisterName(RPCServiceID(pm), pm)
if err != nil {
return nil, err
}
return s, nil
}
// RPCServiceID returns the Service ID for the given RPCAPI object.
func RPCServiceID(rpcSvc interface{}) string {
switch rpcSvc.(type) {
case *ClusterRPCAPI:
return "Cluster"
case *PinTrackerRPCAPI:
return "PinTracker"
case *IPFSConnectorRPCAPI:
return "IPFSConnector"
case *ConsensusRPCAPI:
return "Consensus"
case *PeerMonitorRPCAPI:
return "PeerMonitor"
default:
return ""
}
}
// ClusterRPCAPI is a go-libp2p-gorpc service which provides the internal peer
// API for the main cluster component.
type ClusterRPCAPI struct {
c *Cluster
}
// PinTrackerRPCAPI is a go-libp2p-gorpc service which provides the internal
// peer API for the PinTracker component.
type PinTrackerRPCAPI struct {
tracker PinTracker
}
// IPFSConnectorRPCAPI is a go-libp2p-gorpc service which provides the
// internal peer API for the IPFSConnector component.
type IPFSConnectorRPCAPI struct {
ipfs IPFSConnector
}
// ConsensusRPCAPI is a go-libp2p-gorpc service which provides the
// internal peer API for the Consensus component.
type ConsensusRPCAPI struct {
cons Consensus
}
// PeerMonitorRPCAPI is a go-libp2p-gorpc service which provides the
// internal peer API for the PeerMonitor component.
type PeerMonitorRPCAPI struct {
mon PeerMonitor
pid peer.ID
}
/*
Cluster component methods
*/
// ID runs Cluster.ID()
func (rpcapi *ClusterRPCAPI) ID(ctx context.Context, in struct{}, out *api.ID) error {
id := rpcapi.c.ID(ctx)
*out = *id
return nil
}
// Pin runs Cluster.pin().
func (rpcapi *ClusterRPCAPI) Pin(ctx context.Context, in *api.Pin, out *api.Pin) error {
// we do not call the Pin method directly since that method does not
// allow to pin other than regular DataType pins. The adder will
// however send Meta, Shard and ClusterDAG pins.
pin, _, err := rpcapi.c.pin(ctx, in, []peer.ID{})
if err != nil {
return err
}
*out = *pin
return nil
}
// Unpin runs Cluster.Unpin().
func (rpcapi *ClusterRPCAPI) Unpin(ctx context.Context, in *api.Pin, out *api.Pin) error {
pin, err := rpcapi.c.Unpin(ctx, in.Cid)
if err != nil {
return err
}
*out = *pin
return nil
}
// PinPath resolves path into a cid and runs Cluster.Pin().
func (rpcapi *ClusterRPCAPI) PinPath(ctx context.Context, in *api.PinPath, out *api.Pin) error {
pin, err := rpcapi.c.PinPath(ctx, in.Path, in.PinOptions)
if err != nil {
return err
}
*out = *pin
return nil
}
// UnpinPath resolves path into a cid and runs Cluster.Unpin().
func (rpcapi *ClusterRPCAPI) UnpinPath(ctx context.Context, in *api.PinPath, out *api.Pin) error {
pin, err := rpcapi.c.UnpinPath(ctx, in.Path)
if err != nil {
return err
}
*out = *pin
return nil
}
// Pins runs Cluster.Pins().
func (rpcapi *ClusterRPCAPI) Pins(ctx context.Context, in struct{}, out *[]*api.Pin) error {
cidList, err := rpcapi.c.Pins(ctx)
if err != nil {
return err
}
*out = cidList
return nil
}
// PinGet runs Cluster.PinGet().
func (rpcapi *ClusterRPCAPI) PinGet(ctx context.Context, in cid.Cid, out *api.Pin) error {
pin, err := rpcapi.c.PinGet(ctx, in)
if err != nil {
return err
}
*out = *pin
return nil
}
// Version runs Cluster.Version().
func (rpcapi *ClusterRPCAPI) Version(ctx context.Context, in struct{}, out *api.Version) error {
*out = api.Version{
Version: rpcapi.c.Version(),
}
return nil
}
// Peers runs Cluster.Peers().
func (rpcapi *ClusterRPCAPI) Peers(ctx context.Context, in struct{}, out *[]*api.ID) error {
*out = rpcapi.c.Peers(ctx)
return nil
}
// PeerAdd runs Cluster.PeerAdd().
func (rpcapi *ClusterRPCAPI) PeerAdd(ctx context.Context, in peer.ID, out *api.ID) error {
id, err := rpcapi.c.PeerAdd(ctx, in)
if err != nil {
return err
}
*out = *id
return nil
}
// ConnectGraph runs Cluster.GetConnectGraph().
func (rpcapi *ClusterRPCAPI) ConnectGraph(ctx context.Context, in struct{}, out *api.ConnectGraph) error {
graph, err := rpcapi.c.ConnectGraph()
if err != nil {
return err
}
*out = graph
return nil
}
// PeerRemove runs Cluster.PeerRm().
func (rpcapi *ClusterRPCAPI) PeerRemove(ctx context.Context, in peer.ID, out *struct{}) error {
return rpcapi.c.PeerRemove(ctx, in)
}
// Join runs Cluster.Join().
func (rpcapi *ClusterRPCAPI) Join(ctx context.Context, in api.Multiaddr, out *struct{}) error {
return rpcapi.c.Join(ctx, in.Value())
}
// StatusAll runs Cluster.StatusAll().
func (rpcapi *ClusterRPCAPI) StatusAll(ctx context.Context, in api.TrackerStatus, out *[]*api.GlobalPinInfo) error {
pinfos, err := rpcapi.c.StatusAll(ctx, in)
if err != nil {
return err
}
*out = pinfos
return nil
}
// StatusAllLocal runs Cluster.StatusAllLocal().
func (rpcapi *ClusterRPCAPI) StatusAllLocal(ctx context.Context, in api.TrackerStatus, out *[]*api.PinInfo) error {
pinfos := rpcapi.c.StatusAllLocal(ctx, in)
*out = pinfos
return nil
}
// Status runs Cluster.Status().
func (rpcapi *ClusterRPCAPI) Status(ctx context.Context, in cid.Cid, out *api.GlobalPinInfo) error {
pinfo, err := rpcapi.c.Status(ctx, in)
if err != nil {
return err
}
*out = *pinfo
return nil
}
// StatusLocal runs Cluster.StatusLocal().
func (rpcapi *ClusterRPCAPI) StatusLocal(ctx context.Context, in cid.Cid, out *api.PinInfo) error {
pinfo := rpcapi.c.StatusLocal(ctx, in)
*out = *pinfo
return nil
}
// RecoverAll runs Cluster.RecoverAll().
func (rpcapi *ClusterRPCAPI) RecoverAll(ctx context.Context, in struct{}, out *[]*api.GlobalPinInfo) error {
pinfos, err := rpcapi.c.RecoverAll(ctx)
if err != nil {
return err
}
*out = pinfos
return nil
}
// RecoverAllLocal runs Cluster.RecoverAllLocal().
func (rpcapi *ClusterRPCAPI) RecoverAllLocal(ctx context.Context, in struct{}, out *[]*api.PinInfo) error {
pinfos, err := rpcapi.c.RecoverAllLocal(ctx)
if err != nil {
return err
}
*out = pinfos
return nil
}
// Recover runs Cluster.Recover().
func (rpcapi *ClusterRPCAPI) Recover(ctx context.Context, in cid.Cid, out *api.GlobalPinInfo) error {
pinfo, err := rpcapi.c.Recover(ctx, in)
if err != nil {
return err
}
*out = *pinfo
return nil
}
// RecoverLocal runs Cluster.RecoverLocal().
func (rpcapi *ClusterRPCAPI) RecoverLocal(ctx context.Context, in cid.Cid, out *api.PinInfo) error {
pinfo, err := rpcapi.c.RecoverLocal(ctx, in)
if err != nil {
return err
}
*out = *pinfo
return nil
}
// BlockAllocate returns allocations for blocks. This is used in the adders.
// It's different from pin allocations when ReplicationFactor < 0.
func (rpcapi *ClusterRPCAPI) BlockAllocate(ctx context.Context, in *api.Pin, out *[]peer.ID) error {
if rpcapi.c.config.FollowerMode {
return errFollowerMode
}
existing, err := rpcapi.c.PinGet(ctx, in.Cid)
if err != nil && err != state.ErrNotFound {
return err
}
err = rpcapi.c.setupPin(ctx, in, existing)
if err != nil {
return err
}
// Return the current peer list.
if in.ReplicationFactorMin < 0 {
// Returned metrics are Valid and belong to current
// Cluster peers.
metrics := rpcapi.c.monitor.LatestMetrics(ctx, pingMetricName)
peers := make([]peer.ID, len(metrics))
for i, m := range metrics {
peers[i] = m.Peer
}
*out = peers
return nil
}
allocs, err := rpcapi.c.allocate(
ctx,
in.Cid,
existing,
in.ReplicationFactorMin,
in.ReplicationFactorMax,
[]peer.ID{}, // blacklist
in.UserAllocations, // prio list
)
if err != nil {
return err
}
*out = allocs
return nil
}
// RepoGC performs garbage collection sweep on all peers' repos.
func (rpcapi *ClusterRPCAPI) RepoGC(ctx context.Context, in struct{}, out *api.GlobalRepoGC) error {
res, err := rpcapi.c.RepoGC(ctx)
if err != nil {
return err
}
*out = *res
return nil
}
// RepoGCLocal performs garbage collection sweep only on the local peer's IPFS daemon.
func (rpcapi *ClusterRPCAPI) RepoGCLocal(ctx context.Context, in struct{}, out *api.RepoGC) error {
res, err := rpcapi.c.RepoGCLocal(ctx)
if err != nil {
return err
}
*out = *res
return nil
}
// SendInformerMetric runs Cluster.sendInformerMetric().
func (rpcapi *ClusterRPCAPI) SendInformerMetrics(ctx context.Context, in struct{}, out *struct{}) error {
_, err := rpcapi.c.sendInformerMetrics(ctx, rpcapi.c.informers[0])
if err != nil {
return err
}
return nil
}
// SendInformersMetrics runs Cluster.sendInformerMetric() on all informers.
func (rpcapi *ClusterRPCAPI) SendInformersMetrics(ctx context.Context, in struct{}, out *struct{}) error {
return rpcapi.c.sendInformersMetrics(ctx)
}
// Alerts runs Cluster.Alerts().
func (rpcapi *ClusterRPCAPI) Alerts(ctx context.Context, in struct{}, out *[]api.Alert) error {
alerts := rpcapi.c.Alerts()
*out = alerts
return nil
}
// IPFSID returns the current cached IPFS ID.
func (rpcapi *ClusterRPCAPI) IPFSID(ctx context.Context, in struct{}, out *peer.ID) error {
*out = rpcapi.c.curPingVal.IPFSID
return nil
}
/*
Tracker component methods
*/
// Track runs PinTracker.Track().
func (rpcapi *PinTrackerRPCAPI) Track(ctx context.Context, in *api.Pin, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/Track")
defer span.End()
return rpcapi.tracker.Track(ctx, in)
}
// Untrack runs PinTracker.Untrack().
func (rpcapi *PinTrackerRPCAPI) Untrack(ctx context.Context, in *api.Pin, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/Untrack")
defer span.End()
return rpcapi.tracker.Untrack(ctx, in.Cid)
}
// StatusAll runs PinTracker.StatusAll().
func (rpcapi *PinTrackerRPCAPI) StatusAll(ctx context.Context, in api.TrackerStatus, out *[]*api.PinInfo) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/StatusAll")
defer span.End()
*out = rpcapi.tracker.StatusAll(ctx, in)
return nil
}
// Status runs PinTracker.Status().
func (rpcapi *PinTrackerRPCAPI) Status(ctx context.Context, in cid.Cid, out *api.PinInfo) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/Status")
defer span.End()
pinfo := rpcapi.tracker.Status(ctx, in)
*out = *pinfo
return nil
}
// RecoverAll runs PinTracker.RecoverAll().f
func (rpcapi *PinTrackerRPCAPI) RecoverAll(ctx context.Context, in struct{}, out *[]*api.PinInfo) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/RecoverAll")
defer span.End()
pinfos, err := rpcapi.tracker.RecoverAll(ctx)
if err != nil {
return err
}
*out = pinfos
return nil
}
// Recover runs PinTracker.Recover().
func (rpcapi *PinTrackerRPCAPI) Recover(ctx context.Context, in cid.Cid, out *api.PinInfo) error {
ctx, span := trace.StartSpan(ctx, "rpc/tracker/Recover")
defer span.End()
pinfo, err := rpcapi.tracker.Recover(ctx, in)
*out = *pinfo
return err
}
/*
IPFS Connector component methods
*/
// Pin runs IPFSConnector.Pin().
func (rpcapi *IPFSConnectorRPCAPI) Pin(ctx context.Context, in *api.Pin, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/ipfsconn/IPFSPin")
defer span.End()
return rpcapi.ipfs.Pin(ctx, in)
}
// Unpin runs IPFSConnector.Unpin().
func (rpcapi *IPFSConnectorRPCAPI) Unpin(ctx context.Context, in *api.Pin, out *struct{}) error {
return rpcapi.ipfs.Unpin(ctx, in.Cid)
}
// PinLsCid runs IPFSConnector.PinLsCid().
func (rpcapi *IPFSConnectorRPCAPI) PinLsCid(ctx context.Context, in *api.Pin, out *api.IPFSPinStatus) error {
b, err := rpcapi.ipfs.PinLsCid(ctx, in)
if err != nil {
return err
}
*out = b
return nil
}
// PinLs runs IPFSConnector.PinLs().
func (rpcapi *IPFSConnectorRPCAPI) PinLs(ctx context.Context, in string, out *map[string]api.IPFSPinStatus) error {
m, err := rpcapi.ipfs.PinLs(ctx, in)
if err != nil {
return err
}
*out = m
return nil
}
// ConfigKey runs IPFSConnector.ConfigKey().
func (rpcapi *IPFSConnectorRPCAPI) ConfigKey(ctx context.Context, in string, out *interface{}) error {
res, err := rpcapi.ipfs.ConfigKey(in)
if err != nil {
return err
}
*out = res
return nil
}
// RepoStat runs IPFSConnector.RepoStat().
func (rpcapi *IPFSConnectorRPCAPI) RepoStat(ctx context.Context, in struct{}, out *api.IPFSRepoStat) error {
res, err := rpcapi.ipfs.RepoStat(ctx)
if err != nil {
return err
}
*out = *res
return err
}
// SwarmPeers runs IPFSConnector.SwarmPeers().
func (rpcapi *IPFSConnectorRPCAPI) SwarmPeers(ctx context.Context, in struct{}, out *[]peer.ID) error {
res, err := rpcapi.ipfs.SwarmPeers(ctx)
if err != nil {
return err
}
*out = res
return nil
}
// BlockPut runs IPFSConnector.BlockPut().
func (rpcapi *IPFSConnectorRPCAPI) BlockPut(ctx context.Context, in *api.NodeWithMeta, out *struct{}) error {
return rpcapi.ipfs.BlockPut(ctx, in)
}
// BlockGet runs IPFSConnector.BlockGet().
func (rpcapi *IPFSConnectorRPCAPI) BlockGet(ctx context.Context, in cid.Cid, out *[]byte) error {
res, err := rpcapi.ipfs.BlockGet(ctx, in)
if err != nil {
return err
}
*out = res
return nil
}
// Resolve runs IPFSConnector.Resolve().
func (rpcapi *IPFSConnectorRPCAPI) Resolve(ctx context.Context, in string, out *cid.Cid) error {
c, err := rpcapi.ipfs.Resolve(ctx, in)
if err != nil {
return err
}
*out = c
return nil
}
/*
Consensus component methods
*/
// LogPin runs Consensus.LogPin().
func (rpcapi *ConsensusRPCAPI) LogPin(ctx context.Context, in *api.Pin, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/consensus/LogPin")
defer span.End()
return rpcapi.cons.LogPin(ctx, in)
}
// LogUnpin runs Consensus.LogUnpin().
func (rpcapi *ConsensusRPCAPI) LogUnpin(ctx context.Context, in *api.Pin, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/consensus/LogUnpin")
defer span.End()
return rpcapi.cons.LogUnpin(ctx, in)
}
// AddPeer runs Consensus.AddPeer().
func (rpcapi *ConsensusRPCAPI) AddPeer(ctx context.Context, in peer.ID, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/consensus/AddPeer")
defer span.End()
return rpcapi.cons.AddPeer(ctx, in)
}
// RmPeer runs Consensus.RmPeer().
func (rpcapi *ConsensusRPCAPI) RmPeer(ctx context.Context, in peer.ID, out *struct{}) error {
ctx, span := trace.StartSpan(ctx, "rpc/consensus/RmPeer")
defer span.End()
return rpcapi.cons.RmPeer(ctx, in)
}
// Peers runs Consensus.Peers().
func (rpcapi *ConsensusRPCAPI) Peers(ctx context.Context, in struct{}, out *[]peer.ID) error {
peers, err := rpcapi.cons.Peers(ctx)
if err != nil {
return err
}
*out = peers
return nil
}
/*
PeerMonitor
*/
// LatestMetrics runs PeerMonitor.LatestMetrics().
func (rpcapi *PeerMonitorRPCAPI) LatestMetrics(ctx context.Context, in string, out *[]*api.Metric) error {
*out = rpcapi.mon.LatestMetrics(ctx, in)
return nil
}
// MetricNames runs PeerMonitor.MetricNames().
func (rpcapi *PeerMonitorRPCAPI) MetricNames(ctx context.Context, in struct{}, out *[]string) error {
*out = rpcapi.mon.MetricNames(ctx)
return nil
}
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