depot/packages/networking/ipfs-cluster/cluster_test.go

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2022-10-19 23:23:11 +03:00
package ipfscluster
import (
"context"
"errors"
"mime/multipart"
"os"
"path/filepath"
"sync"
"testing"
"time"
"github.com/ipfs-cluster/ipfs-cluster/adder/sharding"
"github.com/ipfs-cluster/ipfs-cluster/allocator/balanced"
"github.com/ipfs-cluster/ipfs-cluster/api"
"github.com/ipfs-cluster/ipfs-cluster/config"
"github.com/ipfs-cluster/ipfs-cluster/informer/numpin"
"github.com/ipfs-cluster/ipfs-cluster/monitor/pubsubmon"
"github.com/ipfs-cluster/ipfs-cluster/pintracker/stateless"
"github.com/ipfs-cluster/ipfs-cluster/state"
"github.com/ipfs-cluster/ipfs-cluster/test"
"github.com/ipfs-cluster/ipfs-cluster/version"
gopath "github.com/ipfs/go-path"
peer "github.com/libp2p/go-libp2p/core/peer"
2022-10-19 23:23:11 +03:00
rpc "github.com/libp2p/go-libp2p-gorpc"
)
type mockComponent struct {
rpcClient *rpc.Client
}
func (c *mockComponent) Shutdown(ctx context.Context) error {
return nil
}
func (c *mockComponent) SetClient(client *rpc.Client) {
c.rpcClient = client
}
type mockAPI struct {
mockComponent
}
type mockProxy struct {
mockComponent
}
type mockConnector struct {
mockComponent
pins sync.Map
blocks sync.Map
}
func (ipfs *mockConnector) ID(ctx context.Context) (api.IPFSID, error) {
return api.IPFSID{
ID: test.PeerID1,
}, nil
}
func (ipfs *mockConnector) Pin(ctx context.Context, pin api.Pin) error {
if pin.Cid == test.ErrorCid {
return errors.New("trying to pin ErrorCid")
}
ipfs.pins.Store(pin.Cid, pin.MaxDepth)
return nil
}
func (ipfs *mockConnector) Unpin(ctx context.Context, c api.Cid) error {
ipfs.pins.Delete(c)
return nil
}
func (ipfs *mockConnector) PinLsCid(ctx context.Context, pin api.Pin) (api.IPFSPinStatus, error) {
dI, ok := ipfs.pins.Load(pin.Cid)
if !ok {
return api.IPFSPinStatusUnpinned, nil
}
depth := dI.(api.PinDepth)
if depth == 0 {
return api.IPFSPinStatusDirect, nil
}
return api.IPFSPinStatusRecursive, nil
}
func (ipfs *mockConnector) PinLs(ctx context.Context, in []string, out chan<- api.IPFSPinInfo) error {
defer close(out)
var st api.IPFSPinStatus
ipfs.pins.Range(func(k, v interface{}) bool {
switch v.(api.PinDepth) {
case 0:
st = api.IPFSPinStatusDirect
default:
st = api.IPFSPinStatusRecursive
}
c := k.(api.Cid)
out <- api.IPFSPinInfo{Cid: api.Cid(c), Type: st}
return true
})
return nil
}
func (ipfs *mockConnector) SwarmPeers(ctx context.Context) ([]peer.ID, error) {
return []peer.ID{test.PeerID4, test.PeerID5}, nil
}
func (ipfs *mockConnector) RepoStat(ctx context.Context) (api.IPFSRepoStat, error) {
return api.IPFSRepoStat{RepoSize: 100, StorageMax: 1000}, nil
}
func (ipfs *mockConnector) RepoGC(ctx context.Context) (api.RepoGC, error) {
return api.RepoGC{
Keys: []api.IPFSRepoGC{
{
Key: test.Cid1,
},
},
}, nil
}
func (ipfs *mockConnector) Resolve(ctx context.Context, path string) (api.Cid, error) {
_, err := gopath.ParsePath(path)
if err != nil {
return api.CidUndef, err
}
return test.CidResolved, nil
}
func (ipfs *mockConnector) ConnectSwarms(ctx context.Context) error { return nil }
func (ipfs *mockConnector) ConfigKey(keypath string) (interface{}, error) { return nil, nil }
func (ipfs *mockConnector) BlockStream(ctx context.Context, in <-chan api.NodeWithMeta) error {
for n := range in {
ipfs.blocks.Store(n.Cid.String(), n.Data)
}
return nil
}
func (ipfs *mockConnector) BlockGet(ctx context.Context, c api.Cid) ([]byte, error) {
d, ok := ipfs.blocks.Load(c.String())
if !ok {
return nil, errors.New("block not found")
}
return d.([]byte), nil
}
type mockTracer struct {
mockComponent
}
func testingCluster(t *testing.T) (*Cluster, *mockAPI, *mockConnector, PinTracker) {
ident, clusterCfg, _, _, _, badgerCfg, levelDBCfg, raftCfg, crdtCfg, statelesstrackerCfg, psmonCfg, _, _, _ := testingConfigs()
ctx := context.Background()
host, pubsub, dht := createHost(t, ident.PrivateKey, clusterCfg.Secret, clusterCfg.ListenAddr)
folder := filepath.Join(testsFolder, host.ID().Pretty())
cleanState()
clusterCfg.SetBaseDir(folder)
raftCfg.DataFolder = folder
badgerCfg.Folder = filepath.Join(folder, "badger")
levelDBCfg.Folder = filepath.Join(folder, "leveldb")
api := &mockAPI{}
proxy := &mockProxy{}
ipfs := &mockConnector{}
tracer := &mockTracer{}
store := makeStore(t, badgerCfg, levelDBCfg)
cons := makeConsensus(t, store, host, pubsub, dht, raftCfg, false, crdtCfg)
tracker := stateless.New(statelesstrackerCfg, ident.ID, clusterCfg.Peername, cons.State)
var peersF func(context.Context) ([]peer.ID, error)
if consensus == "raft" {
peersF = cons.Peers
}
psmonCfg.CheckInterval = 2 * time.Second
mon, err := pubsubmon.New(ctx, psmonCfg, pubsub, peersF)
if err != nil {
t.Fatal(err)
}
alloc, err := balanced.New(&balanced.Config{
AllocateBy: []string{"numpin"},
})
if err != nil {
t.Fatal(err)
}
numpinCfg := &numpin.Config{}
numpinCfg.Default()
inf, _ := numpin.NewInformer(numpinCfg)
ReadyTimeout = raftCfg.WaitForLeaderTimeout + 1*time.Second
cl, err := NewCluster(
ctx,
host,
dht,
clusterCfg,
store,
cons,
[]API{api, proxy},
ipfs,
tracker,
mon,
alloc,
[]Informer{inf},
tracer,
)
if err != nil {
t.Fatal("cannot create cluster:", err)
}
<-cl.Ready()
return cl, api, ipfs, tracker
}
func cleanState() {
os.RemoveAll(testsFolder)
}
func TestClusterShutdown(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
err := cl.Shutdown(ctx)
if err != nil {
t.Error("cluster shutdown failed:", err)
}
cl.Shutdown(ctx)
cl, _, _, _ = testingCluster(t)
err = cl.Shutdown(ctx)
if err != nil {
t.Error("cluster shutdown failed:", err)
}
}
func TestClusterStateSync(t *testing.T) {
ctx := context.Background()
cleanState()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
_, err := cl.Pin(ctx, c, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
err = cl.StateSync(ctx)
if err != nil {
t.Fatal("sync after pinning should have worked:", err)
}
// Modify state on the side so the sync does not
// happen on an empty slide
st, err := cl.consensus.State(ctx)
if err != nil {
t.Fatal(err)
}
st.(state.State).Rm(ctx, c)
err = cl.StateSync(ctx)
if err != nil {
t.Fatal("sync with recover should have worked:", err)
}
}
func TestClusterID(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
id := cl.ID(ctx)
if len(id.Addresses) == 0 {
t.Error("expected more addresses")
}
if id.ID == "" {
t.Error("expected a cluster ID")
}
if id.Version != version.Version.String() {
t.Error("version should match current version")
}
//if id.PublicKey == nil {
// t.Error("publicKey should not be empty")
//}
}
func TestClusterPin(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
res, err := cl.Pin(ctx, c, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
if res.Type != api.DataType {
t.Error("unexpected pin type")
}
switch consensus {
case "crdt":
return
case "raft":
// test an error case
cl.consensus.Shutdown(ctx)
opts := api.PinOptions{
ReplicationFactorMax: 1,
ReplicationFactorMin: 1,
}
_, err = cl.Pin(ctx, c, opts)
if err == nil {
t.Error("expected an error but things worked")
}
}
}
func TestPinExpired(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
_, err := cl.Pin(ctx, c, api.PinOptions{
ExpireAt: time.Now(),
})
if err == nil {
t.Fatal("pin should have errored")
}
}
func TestClusterPinPath(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
pin, err := cl.PinPath(ctx, test.PathIPFS2, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
if !pin.Cid.Equals(test.CidResolved) {
t.Error("expected a different cid, found", pin.Cid.String())
}
// test an error case
_, err = cl.PinPath(ctx, test.InvalidPath1, api.PinOptions{})
if err == nil {
t.Error("expected an error but things worked")
}
}
func TestAddFile(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
sth := test.NewShardingTestHelper()
defer sth.Clean(t)
t.Run("local", func(t *testing.T) {
params := api.DefaultAddParams()
params.Shard = false
params.Name = "testlocal"
mfr, closer := sth.GetTreeMultiReader(t)
defer closer.Close()
r := multipart.NewReader(mfr, mfr.Boundary())
c, err := cl.AddFile(context.Background(), r, params)
if err != nil {
t.Fatal(err)
}
if c.String() != test.ShardingDirBalancedRootCID {
t.Fatal("unexpected root CID for local add")
}
pinDelay()
pin := cl.StatusLocal(ctx, c)
if pin.Error != "" {
t.Fatal(pin.Error)
}
if pin.Status != api.TrackerStatusPinned {
t.Error("cid should be pinned")
}
cl.Unpin(ctx, c) // unpin so we can pin the shard in next test
pinDelay()
})
t.Run("shard", func(t *testing.T) {
params := api.DefaultAddParams()
params.Shard = true
params.Name = "testshard"
mfr, closer := sth.GetTreeMultiReader(t)
defer closer.Close()
r := multipart.NewReader(mfr, mfr.Boundary())
c, err := cl.AddFile(context.Background(), r, params)
if err != nil {
t.Fatal(err)
}
if c.String() != test.ShardingDirBalancedRootCID {
t.Fatal("unexpected root CID for local add")
}
pinDelay()
// We know that this produces 14 shards.
sharding.VerifyShards(t, c, cl, cl.ipfs, 14)
})
}
func TestUnpinShard(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
sth := test.NewShardingTestHelper()
defer sth.Clean(t)
params := api.DefaultAddParams()
params.Shard = true
params.Name = "testshard"
mfr, closer := sth.GetTreeMultiReader(t)
defer closer.Close()
r := multipart.NewReader(mfr, mfr.Boundary())
root, err := cl.AddFile(context.Background(), r, params)
if err != nil {
t.Fatal(err)
}
pinDelay()
// We know that this produces 14 shards.
sharding.VerifyShards(t, root, cl, cl.ipfs, 14)
// skipping errors, VerifyShards has checked
pinnedCids := []api.Cid{}
pinnedCids = append(pinnedCids, root)
metaPin, _ := cl.PinGet(ctx, root)
cDag, _ := cl.PinGet(ctx, *metaPin.Reference)
pinnedCids = append(pinnedCids, cDag.Cid)
cDagBlock, _ := cl.ipfs.BlockGet(ctx, cDag.Cid)
cDagNode, _ := sharding.CborDataToNode(cDagBlock, "cbor")
for _, l := range cDagNode.Links() {
pinnedCids = append(pinnedCids, api.NewCid(l.Cid))
}
t.Run("unpin clusterdag should fail", func(t *testing.T) {
_, err := cl.Unpin(ctx, cDag.Cid)
if err == nil {
t.Fatal("should not allow unpinning the cluster DAG directly")
}
t.Log(err)
})
t.Run("unpin shard should fail", func(t *testing.T) {
_, err := cl.Unpin(ctx, api.NewCid(cDagNode.Links()[0].Cid))
if err == nil {
t.Fatal("should not allow unpinning shards directly")
}
t.Log(err)
})
t.Run("normal unpin", func(t *testing.T) {
res, err := cl.Unpin(ctx, root)
if err != nil {
t.Fatal(err)
}
if res.Type != api.MetaType {
t.Fatal("unexpected root pin type")
}
pinDelay()
for _, c := range pinnedCids {
st := cl.StatusLocal(ctx, c)
if st.Status != api.TrackerStatusUnpinned {
t.Errorf("%s should have been unpinned but is %s", c, st.Status)
}
st2, err := cl.ipfs.PinLsCid(context.Background(), api.PinCid(c))
if err != nil {
t.Fatal(err)
}
if st2 != api.IPFSPinStatusUnpinned {
t.Errorf("%s should have been unpinned in ipfs but is %d", c, st2)
}
}
})
}
// func singleShardedPin(t *testing.T, cl *Cluster) {
// cShard, _ := cid.Decode(test.ShardCid)
// cCdag, _ := cid.Decode(test.CdagCid)
// cMeta, _ := cid.Decode(test.MetaRootCid)
// pinMeta(t, cl, []api.NewCid(cShard), cCdag, cMeta)
// }
// func pinMeta(t *testing.T, cl *Cluster, shardCids []api.Cid, cCdag, cMeta api.Cid) {
// for _, cShard := range shardCids {
// shardPin := api.Pin{
// Cid: cShard,
// Type: api.ShardType,
// MaxDepth: 1,
// PinOptions: api.PinOptions{
// ReplicationFactorMin: -1,
// ReplicationFactorMax: -1,
// },
// }
// err := cl.Pin(shardPin)
// if err != nil {
// t.Fatal("shard pin should have worked:", err)
// }
// }
// parents := cid.NewSet()
// parents.Add(cMeta)
// cdagPin := api.Pin{
// Cid: cCdag,
// Type: api.ClusterDAGType,
// MaxDepth: 0,
// PinOptions: api.PinOptions{
// ReplicationFactorMin: -1,
// ReplicationFactorMax: -1,
// },
// }
// err := cl.Pin(cdagPin)
// if err != nil {
// t.Fatal("pin should have worked:", err)
// }
// metaPin := api.Pin{
// Cid: cMeta,
// Type: api.MetaType,
// Clusterdag: cCdag,
// }
// err = cl.Pin(metaPin)
// if err != nil {
// t.Fatal("pin should have worked:", err)
// }
// }
// func TestClusterPinMeta(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// singleShardedPin(t, cl)
// }
// func TestClusterUnpinShardFail(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// singleShardedPin(t, cl)
// // verify pins
// if len(cl.Pins()) != 3 {
// t.Fatal("should have 3 pins")
// }
// // Unpinning metadata should fail
// cShard, _ := cid.Decode(test.ShardCid)
// cCdag, _ := cid.Decode(test.CdagCid)
// err := cl.Unpin(cShard)
// if err == nil {
// t.Error("should error when unpinning shard")
// }
// err = cl.Unpin(cCdag)
// if err == nil {
// t.Error("should error when unpinning cluster dag")
// }
// }
// func TestClusterUnpinMeta(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// singleShardedPin(t, cl)
// // verify pins
// if len(cl.Pins()) != 3 {
// t.Fatal("should have 3 pins")
// }
// // Unpinning from root should work
// cMeta, _ := cid.Decode(test.MetaRootCid)
// err := cl.Unpin(cMeta)
// if err != nil {
// t.Error(err)
// }
// }
// func pinTwoParentsOneShard(t *testing.T, cl *Cluster) {
// singleShardedPin(t, cl)
// cShard, _ := cid.Decode(test.ShardCid)
// cShard2, _ := cid.Decode(test.ShardCid2)
// cCdag2, _ := cid.Decode(test.CdagCid2)
// cMeta2, _ := cid.Decode(test.MetaRootCid2)
// pinMeta(t, cl, []api.Cid{cShard, cShard2}, cCdag2, cMeta2)
// shardPin, err := cl.PinGet(cShard)
// if err != nil {
// t.Fatal("pin should be in state")
// }
// if shardPin.Parents.Len() != 2 {
// t.Fatal("unexpected parent set in shared shard")
// }
// shardPin2, err := cl.PinGet(cShard2)
// if shardPin2.Parents.Len() != 1 {
// t.Fatal("unexpected parent set in unshared shard")
// }
// if err != nil {
// t.Fatal("pin should be in state")
// }
// }
// func TestClusterPinShardTwoParents(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// pinTwoParentsOneShard(t, cl)
// cShard, _ := cid.Decode(test.ShardCid)
// shardPin, err := cl.PinGet(cShard)
// if err != nil {
// t.Fatal("double pinned shard should be pinned")
// }
// if shardPin.Parents == nil || shardPin.Parents.Len() != 2 {
// t.Fatal("double pinned shard should have two parents")
// }
// }
// func TestClusterUnpinShardSecondParent(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// pinTwoParentsOneShard(t, cl)
// if len(cl.Pins()) != 6 {
// t.Fatal("should have 6 pins")
// }
// cMeta2, _ := cid.Decode(test.MetaRootCid2)
// err := cl.Unpin(cMeta2)
// if err != nil {
// t.Error(err)
// }
// pinDelay()
// if len(cl.Pins()) != 3 {
// t.Fatal("should have 3 pins")
// }
// cShard, _ := cid.Decode(test.ShardCid)
// cCdag, _ := cid.Decode(test.CdagCid)
// shardPin, err := cl.PinGet(cShard)
// if err != nil {
// t.Fatal("double pinned shard node should still be pinned")
// }
// if shardPin.Parents == nil || shardPin.Parents.Len() != 1 ||
// !shardPin.Parents.Has(cCdag) {
// t.Fatalf("shard node should have single original parent %v", shardPin.Parents.Keys())
// }
// }
// func TestClusterUnpinShardFirstParent(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// pinTwoParentsOneShard(t, cl)
// if len(cl.Pins()) != 6 {
// t.Fatal("should have 6 pins")
// }
// cMeta, _ := cid.Decode(test.MetaRootCid)
// err := cl.Unpin(cMeta)
// if err != nil {
// t.Error(err)
// }
// if len(cl.Pins()) != 4 {
// t.Fatal("should have 4 pins")
// }
// cShard, _ := cid.Decode(test.ShardCid)
// cShard2, _ := cid.Decode(test.ShardCid2)
// cCdag2, _ := cid.Decode(test.CdagCid2)
// shardPin, err := cl.PinGet(cShard)
// if err != nil {
// t.Fatal("double pinned shard node should still be pinned")
// }
// if shardPin.Parents == nil || shardPin.Parents.Len() != 1 ||
// !shardPin.Parents.Has(cCdag2) {
// t.Fatal("shard node should have single original parent")
// }
// _, err = cl.PinGet(cShard2)
// if err != nil {
// t.Fatal("other shard shoud still be pinned too")
// }
// }
// func TestClusterPinTwoMethodsFail(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// // First pin normally then sharding pin fails
// c, _ := cid.Decode(test.MetaRootCid)
// err := cl.Pin(api.PinCid(c))
// if err != nil {
// t.Fatal("pin should have worked:", err)
// }
// cCdag, _ := cid.Decode(test.CdagCid)
// cMeta, _ := cid.Decode(test.MetaRootCid)
// metaPin := api.Pin{
// Cid: cMeta,
// Type: api.MetaType,
// Clusterdag: cCdag,
// }
// err = cl.Pin(metaPin)
// if err == nil {
// t.Fatal("pin should have failed:", err)
// }
// err = cl.Unpin(c)
// if err != nil {
// t.Fatal("unpin should have worked:", err)
// }
// singleShardedPin(t, cl)
// err = cl.Pin(api.PinCid(c))
// if err == nil {
// t.Fatal("pin should have failed:", err)
// }
// }
// func TestClusterRePinShard(t *testing.T) {
// cl, _, _, _ := testingCluster(t)
// defer cleanState()
// defer cl.Shutdown()
// cCdag, _ := cid.Decode(test.CdagCid)
// cShard, _ := cid.Decode(test.ShardCid)
// shardPin := api.Pin{
// Cid: cShard,
// Type: api.ShardType,
// ReplicationFactorMin: -1,
// ReplicationFactorMax: -1,
// Recursive: true,
// }
// err := cl.Pin(shardPin)
// if err != nil {
// t.Fatal("shard pin should have worked:", err)
// }
// parents := cid.NewSet()
// parents.Add(cCdag)
// shardPin.Parents = parents
// err = cl.Pin(shardPin)
// if err != nil {
// t.Fatal("repinning shard pin with different parents should have worked:", err)
// }
// shardPin.ReplicationFactorMin = 3
// shardPin.ReplicationFactorMax = 5
// err = cl.Pin(shardPin)
// if err == nil {
// t.Fatal("repinning shard pin with different repl factors should have failed:", err)
// }
// }
func TestClusterPins(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
_, err := cl.Pin(ctx, c, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
pinDelay()
pins, err := cl.pinsSlice(ctx)
if err != nil {
t.Fatal(err)
}
if len(pins) != 1 {
t.Fatal("pin should be part of the state")
}
if !pins[0].Cid.Equals(c) || pins[0].ReplicationFactorMin != -1 || pins[0].ReplicationFactorMax != -1 {
t.Error("the Pin does not look as expected")
}
}
func TestClusterPinGet(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
_, err := cl.Pin(ctx, c, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
pin, err := cl.PinGet(ctx, c)
if err != nil {
t.Fatal(err)
}
if !pin.Cid.Equals(c) || pin.ReplicationFactorMin != -1 || pin.ReplicationFactorMax != -1 {
t.Error("the Pin does not look as expected")
}
_, err = cl.PinGet(ctx, test.Cid2)
if err == nil {
t.Fatal("expected an error")
}
}
func TestClusterUnpin(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
c := test.Cid1
// Unpin should error without pin being committed to state
_, err := cl.Unpin(ctx, c)
if err == nil {
t.Error("unpin should have failed")
}
// Unpin after pin should succeed
_, err = cl.Pin(ctx, c, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
res, err := cl.Unpin(ctx, c)
if err != nil {
t.Error("unpin should have worked:", err)
}
if res.Type != api.DataType {
t.Error("unexpected pin type returned")
}
// test another error case
cl.consensus.Shutdown(ctx)
_, err = cl.Unpin(ctx, c)
if err == nil {
t.Error("expected an error but things worked")
}
}
func TestClusterUnpinPath(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
// Unpin should error without pin being committed to state
_, err := cl.UnpinPath(ctx, test.PathIPFS2)
if err == nil {
t.Error("unpin with path should have failed")
}
// Unpin after pin should succeed
pin, err := cl.PinPath(ctx, test.PathIPFS2, api.PinOptions{})
if err != nil {
t.Fatal("pin with path should have worked:", err)
}
if !pin.Cid.Equals(test.CidResolved) {
t.Error("expected a different cid, found", pin.Cid.String())
}
pin, err = cl.UnpinPath(ctx, test.PathIPFS2)
if err != nil {
t.Error("unpin with path should have worked:", err)
}
if !pin.Cid.Equals(test.CidResolved) {
t.Error("expected a different cid, found", pin.Cid.String())
}
}
func TestClusterPeers(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
out := make(chan api.ID, 10)
cl.Peers(ctx, out)
if len(out) != 1 {
t.Fatal("expected 1 peer")
}
ident := &config.Identity{}
err := ident.LoadJSON(testingIdentity)
if err != nil {
t.Fatal(err)
}
p := <-out
if p.ID != ident.ID {
t.Error("bad member")
}
}
func TestVersion(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
if cl.Version() != version.Version.String() {
t.Error("bad Version()")
}
}
func TestClusterRecoverAllLocal(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
_, err := cl.Pin(ctx, test.ErrorCid, api.PinOptions{})
if err != nil {
t.Fatal("pin should have worked:", err)
}
pinDelay()
out := make(chan api.PinInfo, 10)
go func() {
err := cl.RecoverAllLocal(ctx, out)
if err != nil {
t.Error("did not expect an error")
}
}()
recov := collectPinInfos(t, out)
if len(recov) != 1 {
t.Fatalf("there should be one pin recovered, got = %d", len(recov))
}
// Recovery will fail, but the pin appearing in the response is good enough to know it was requeued.
}
func TestClusterRepoGC(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
gRepoGC, err := cl.RepoGC(ctx)
if err != nil {
t.Fatal("gc should have worked:", err)
}
if gRepoGC.PeerMap == nil {
t.Fatal("expected a non-nil peer map")
}
if len(gRepoGC.PeerMap) != 1 {
t.Error("expected repo gc information for one peer")
}
for _, repoGC := range gRepoGC.PeerMap {
testRepoGC(t, repoGC)
}
}
func TestClusterRepoGCLocal(t *testing.T) {
ctx := context.Background()
cl, _, _, _ := testingCluster(t)
defer cleanState()
defer cl.Shutdown(ctx)
repoGC, err := cl.RepoGCLocal(ctx)
if err != nil {
t.Fatal("gc should have worked:", err)
}
testRepoGC(t, repoGC)
}
func testRepoGC(t *testing.T, repoGC api.RepoGC) {
if repoGC.Peer == "" {
t.Error("expected a cluster ID")
}
if repoGC.Error != "" {
t.Error("did not expect any error")
}
if repoGC.Keys == nil {
t.Fatal("expected a non-nil array of IPFSRepoGC")
}
if len(repoGC.Keys) == 0 {
t.Fatal("expected at least one key, but found none")
}
if !repoGC.Keys[0].Key.Equals(test.Cid1) {
t.Errorf("expected a different cid, expected: %s, found: %s", test.Cid1, repoGC.Keys[0].Key)
}
}