acbd7fda60
This adds a new "crdt" consensus component using go-ds-crdt. This implies several refactors to fully make cluster consensus-component independent: * Delete mapstate and fully adopt dsstate (after people have migrated). * Return errors from state methods rather than ignoring them. * Add a new "datastore" modules so that we can configure datastores in the main configuration like other components. * Let the consensus components fully define the "state.State". Thus, they do not receive the state, they receive the storage where we put the state (a go-datastore). * Allow to customize how the monitor component obtains Peers() (the current peerset), including avoiding using the current peerset. At the moment the crdt consensus uses the monitoring component to define the current peerset. Therefore the monitor component cannot rely on the consensus component to produce a peerset. * Re-factor/re-implementation of "ipfs-cluster-service state" operations. Includes the dissapearance of the "migrate" one. The CRDT consensus component defines creates a crdt-datastore (with ipfs-lite) and uses it to intitialize a dssate. Thus the crdt-store is elegantly wrapped. Any modifications to the state get automatically replicated to other peers. We store all the CRDT DAG blocks in the local datastore. The consensus components only expose a ReadOnly state, as any modifications to the shared state should happen through them. DHT and PubSub facilities must now be created outside of Cluster and passed in so they can be re-used by different components.
452 lines
12 KiB
Go
452 lines
12 KiB
Go
// Package maptracker implements a PinTracker component for IPFS Cluster. It
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// uses a map to keep track of the state of tracked pins.
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package maptracker
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import (
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"context"
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"errors"
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"sync"
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"go.opencensus.io/trace"
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"github.com/ipfs/ipfs-cluster/api"
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"github.com/ipfs/ipfs-cluster/pintracker/optracker"
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"github.com/ipfs/ipfs-cluster/pintracker/util"
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cid "github.com/ipfs/go-cid"
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logging "github.com/ipfs/go-log"
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rpc "github.com/libp2p/go-libp2p-gorpc"
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peer "github.com/libp2p/go-libp2p-peer"
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)
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var logger = logging.Logger("pintracker")
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var (
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errUnpinned = errors.New("the item is unexpectedly not pinned on IPFS")
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)
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// MapPinTracker is a PinTracker implementation which uses a Go map
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// to store the status of the tracked Cids. This component is thread-safe.
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type MapPinTracker struct {
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config *Config
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optracker *optracker.OperationTracker
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ctx context.Context
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cancel func()
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rpcClient *rpc.Client
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rpcReady chan struct{}
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peerID peer.ID
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pinCh chan *optracker.Operation
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unpinCh chan *optracker.Operation
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shutdownLock sync.Mutex
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shutdown bool
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wg sync.WaitGroup
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}
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// NewMapPinTracker returns a new object which has been correcly
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// initialized with the given configuration.
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func NewMapPinTracker(cfg *Config, pid peer.ID, peerName string) *MapPinTracker {
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ctx, cancel := context.WithCancel(context.Background())
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mpt := &MapPinTracker{
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ctx: ctx,
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cancel: cancel,
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config: cfg,
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optracker: optracker.NewOperationTracker(ctx, pid, peerName),
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rpcReady: make(chan struct{}, 1),
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peerID: pid,
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pinCh: make(chan *optracker.Operation, cfg.MaxPinQueueSize),
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unpinCh: make(chan *optracker.Operation, cfg.MaxPinQueueSize),
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}
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for i := 0; i < mpt.config.ConcurrentPins; i++ {
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go mpt.opWorker(ctx, mpt.pin, mpt.pinCh)
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}
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go mpt.opWorker(ctx, mpt.unpin, mpt.unpinCh)
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return mpt
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}
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// receives a pin Function (pin or unpin) and a channel.
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// Used for both pinning and unpinning
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func (mpt *MapPinTracker) opWorker(ctx context.Context, pinF func(*optracker.Operation) error, opChan chan *optracker.Operation) {
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for {
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select {
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case op := <-opChan:
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if op.Cancelled() {
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// operation was cancelled. Move on.
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// This saves some time, but not 100% needed.
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continue
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}
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op.SetPhase(optracker.PhaseInProgress)
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err := pinF(op) // call pin/unpin
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if err != nil {
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if op.Cancelled() {
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// there was an error because
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// we were cancelled. Move on.
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continue
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}
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op.SetError(err)
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op.Cancel()
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continue
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}
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op.SetPhase(optracker.PhaseDone)
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op.Cancel()
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// We keep all pinned things in the tracker,
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// only clean unpinned things.
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if op.Type() == optracker.OperationUnpin {
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mpt.optracker.Clean(ctx, op)
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}
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case <-mpt.ctx.Done():
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return
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}
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}
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}
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// Shutdown finishes the services provided by the MapPinTracker and cancels
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// any active context.
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func (mpt *MapPinTracker) Shutdown(ctx context.Context) error {
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ctx, span := trace.StartSpan(ctx, "tracker/map/Shutdown")
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defer span.End()
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mpt.shutdownLock.Lock()
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defer mpt.shutdownLock.Unlock()
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if mpt.shutdown {
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logger.Debug("already shutdown")
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return nil
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}
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logger.Info("stopping MapPinTracker")
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mpt.cancel()
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close(mpt.rpcReady)
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mpt.wg.Wait()
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mpt.shutdown = true
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return nil
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}
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func (mpt *MapPinTracker) pin(op *optracker.Operation) error {
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ctx, span := trace.StartSpan(op.Context(), "tracker/map/pin")
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defer span.End()
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logger.Debugf("issuing pin call for %s", op.Cid())
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err := mpt.rpcClient.CallContext(
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ctx,
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"",
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"Cluster",
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"IPFSPin",
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op.Pin(),
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&struct{}{},
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)
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if err != nil {
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return err
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}
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return nil
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}
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func (mpt *MapPinTracker) unpin(op *optracker.Operation) error {
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ctx, span := trace.StartSpan(op.Context(), "tracker/map/unpin")
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defer span.End()
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logger.Debugf("issuing unpin call for %s", op.Cid())
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err := mpt.rpcClient.CallContext(
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ctx,
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"",
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"Cluster",
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"IPFSUnpin",
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op.Pin(),
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&struct{}{},
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)
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if err != nil {
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return err
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}
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return nil
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}
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// puts a new operation on the queue, unless ongoing exists
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func (mpt *MapPinTracker) enqueue(ctx context.Context, c *api.Pin, typ optracker.OperationType, ch chan *optracker.Operation) error {
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ctx, span := trace.StartSpan(ctx, "tracker/map/enqueue")
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defer span.End()
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op := mpt.optracker.TrackNewOperation(ctx, c, typ, optracker.PhaseQueued)
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if op == nil {
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return nil // ongoing pin operation.
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}
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select {
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case ch <- op:
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default:
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err := errors.New("queue is full")
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op.SetError(err)
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op.Cancel()
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logger.Error(err.Error())
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return err
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}
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return nil
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}
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// Track tells the MapPinTracker to start managing a Cid,
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// possibly triggering Pin operations on the IPFS daemon.
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func (mpt *MapPinTracker) Track(ctx context.Context, c *api.Pin) error {
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ctx, span := trace.StartSpan(ctx, "tracker/map/Track")
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defer span.End()
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logger.Debugf("tracking %s", c.Cid)
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// Sharded pins are never pinned. A sharded pin cannot turn into
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// something else or viceversa like it happens with Remote pins so
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// we just track them.
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if c.Type == api.MetaType {
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mpt.optracker.TrackNewOperation(ctx, c, optracker.OperationShard, optracker.PhaseDone)
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return nil
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}
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// Trigger unpin whenever something remote is tracked
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// Note, IPFSConn checks with pin/ls before triggering
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// pin/rm, so this actually does not always trigger unpin
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// to ipfs.
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if util.IsRemotePin(c, mpt.peerID) {
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op := mpt.optracker.TrackNewOperation(ctx, c, optracker.OperationRemote, optracker.PhaseInProgress)
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if op == nil {
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return nil // Ongoing operationRemote / PhaseInProgress
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}
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err := mpt.unpin(op) // unpin all the time, even if not pinned
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op.Cancel()
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if err != nil {
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op.SetError(err)
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} else {
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op.SetPhase(optracker.PhaseDone)
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}
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return nil
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}
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return mpt.enqueue(ctx, c, optracker.OperationPin, mpt.pinCh)
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}
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// Untrack tells the MapPinTracker to stop managing a Cid.
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// If the Cid is pinned locally, it will be unpinned.
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func (mpt *MapPinTracker) Untrack(ctx context.Context, c cid.Cid) error {
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ctx, span := trace.StartSpan(ctx, "tracker/map/Untrack")
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defer span.End()
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logger.Infof("untracking %s", c)
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return mpt.enqueue(ctx, api.PinCid(c), optracker.OperationUnpin, mpt.unpinCh)
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}
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// Status returns information for a Cid tracked by this
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// MapPinTracker.
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func (mpt *MapPinTracker) Status(ctx context.Context, c cid.Cid) *api.PinInfo {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/Status")
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defer span.End()
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return mpt.optracker.Get(ctx, c)
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}
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// StatusAll returns information for all Cids tracked by this
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// MapPinTracker.
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func (mpt *MapPinTracker) StatusAll(ctx context.Context) []*api.PinInfo {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/StatusAll")
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defer span.End()
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return mpt.optracker.GetAll(ctx)
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}
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// Sync verifies that the status of a Cid matches that of
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// the IPFS daemon. If not, it will be transitioned
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// to PinError or UnpinError.
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//
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// Sync returns the updated local status for the given Cid.
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// Pins in error states can be recovered with Recover().
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// An error is returned if we are unable to contact
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// the IPFS daemon.
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func (mpt *MapPinTracker) Sync(ctx context.Context, c cid.Cid) (*api.PinInfo, error) {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/Sync")
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defer span.End()
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var ips api.IPFSPinStatus
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err := mpt.rpcClient.Call(
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"",
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"Cluster",
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"IPFSPinLsCid",
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c,
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&ips,
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)
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if err != nil {
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mpt.optracker.SetError(ctx, c, err)
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return mpt.optracker.Get(ctx, c), nil
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}
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return mpt.syncStatus(ctx, c, ips), nil
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}
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// SyncAll verifies that the statuses of all tracked Cids match the
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// one reported by the IPFS daemon. If not, they will be transitioned
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// to PinError or UnpinError.
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//
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// SyncAll returns the list of local status for all tracked Cids which
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// were updated or have errors. Cids in error states can be recovered
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// with Recover().
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// An error is returned if we are unable to contact the IPFS daemon.
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func (mpt *MapPinTracker) SyncAll(ctx context.Context) ([]*api.PinInfo, error) {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/SyncAll")
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defer span.End()
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var ipsMap map[string]api.IPFSPinStatus
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var results []*api.PinInfo
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err := mpt.rpcClient.Call(
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"",
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"Cluster",
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"IPFSPinLs",
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"recursive",
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&ipsMap,
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)
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if err != nil {
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// set pinning or unpinning ops to error, since we can't
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// verify them
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pInfos := mpt.optracker.GetAll(ctx)
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for _, pInfo := range pInfos {
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op, _ := optracker.TrackerStatusToOperationPhase(pInfo.Status)
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if op == optracker.OperationPin || op == optracker.OperationUnpin {
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mpt.optracker.SetError(ctx, pInfo.Cid, err)
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results = append(results, mpt.optracker.Get(ctx, pInfo.Cid))
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} else {
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results = append(results, pInfo)
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}
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}
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return results, nil
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}
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status := mpt.StatusAll(ctx)
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for _, pInfoOrig := range status {
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var pInfoNew *api.PinInfo
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c := pInfoOrig.Cid
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ips, ok := ipsMap[c.String()]
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if !ok {
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pInfoNew = mpt.syncStatus(ctx, c, api.IPFSPinStatusUnpinned)
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} else {
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pInfoNew = mpt.syncStatus(ctx, c, ips)
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}
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if pInfoOrig.Status != pInfoNew.Status ||
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pInfoNew.Status == api.TrackerStatusUnpinError ||
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pInfoNew.Status == api.TrackerStatusPinError {
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results = append(results, pInfoNew)
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}
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}
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return results, nil
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}
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func (mpt *MapPinTracker) syncStatus(ctx context.Context, c cid.Cid, ips api.IPFSPinStatus) *api.PinInfo {
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status, ok := mpt.optracker.Status(ctx, c)
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if !ok {
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status = api.TrackerStatusUnpinned
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}
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// TODO(hector): for sharding, we may need to check that a shard
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// is pinned to the right depth. For now, we assumed that if it's pinned
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// in some way, then it must be right (including direct).
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pinned := func(i api.IPFSPinStatus) bool {
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switch i {
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case api.IPFSPinStatusRecursive:
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return i.IsPinned(-1)
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case api.IPFSPinStatusDirect:
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return i.IsPinned(0)
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default:
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return i.IsPinned(1) // Pinned with depth 1 or more.
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}
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}
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if pinned(ips) {
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switch status {
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case api.TrackerStatusPinError:
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// If an item that we wanted to pin is pinned, we mark it so
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mpt.optracker.TrackNewOperation(
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ctx,
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api.PinCid(c),
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optracker.OperationPin,
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optracker.PhaseDone,
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)
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default:
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// 1. Unpinning phases
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// 2. Pinned in ipfs but we are not tracking
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// -> do nothing
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}
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} else {
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switch status {
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case api.TrackerStatusUnpinError:
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// clean
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op := mpt.optracker.TrackNewOperation(
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ctx,
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api.PinCid(c),
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optracker.OperationUnpin,
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optracker.PhaseDone,
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)
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if op != nil {
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mpt.optracker.Clean(ctx, op)
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}
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case api.TrackerStatusPinned:
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// not pinned in IPFS but we think it should be: mark as error
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mpt.optracker.SetError(ctx, c, errUnpinned)
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default:
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// 1. Pinning phases
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// -> do nothing
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}
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}
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return mpt.optracker.Get(ctx, c)
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}
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// Recover will re-queue a Cid in error state for the failed operation,
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// possibly retriggering an IPFS pinning operation.
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func (mpt *MapPinTracker) Recover(ctx context.Context, c cid.Cid) (*api.PinInfo, error) {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/Recover")
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defer span.End()
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logger.Infof("Attempting to recover %s", c)
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pInfo := mpt.optracker.Get(ctx, c)
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var err error
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switch pInfo.Status {
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case api.TrackerStatusPinError:
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err = mpt.enqueue(ctx, api.PinCid(c), optracker.OperationPin, mpt.pinCh)
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case api.TrackerStatusUnpinError:
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err = mpt.enqueue(ctx, api.PinCid(c), optracker.OperationUnpin, mpt.unpinCh)
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}
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return mpt.optracker.Get(ctx, c), err
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}
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// RecoverAll attempts to recover all items tracked by this peer.
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func (mpt *MapPinTracker) RecoverAll(ctx context.Context) ([]*api.PinInfo, error) {
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ctx, span := trace.StartSpan(mpt.ctx, "tracker/map/RecoverAll")
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defer span.End()
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pInfos := mpt.optracker.GetAll(ctx)
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var results []*api.PinInfo
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for _, pInfo := range pInfos {
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res, err := mpt.Recover(ctx, pInfo.Cid)
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results = append(results, res)
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if err != nil {
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return results, err
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}
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}
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return results, nil
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}
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// SetClient makes the MapPinTracker ready to perform RPC requests to
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// other components.
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func (mpt *MapPinTracker) SetClient(c *rpc.Client) {
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mpt.rpcClient = c
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mpt.rpcReady <- struct{}{}
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}
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// OpContext exports the internal optracker's OpContext method.
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// For testing purposes only.
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func (mpt *MapPinTracker) OpContext(ctx context.Context, c cid.Cid) context.Context {
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return mpt.optracker.OpContext(ctx, c)
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}
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