// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information package testplanet import ( "bytes" "context" "fmt" "io" "io/ioutil" "strconv" "time" "github.com/skyrings/skyring-common/tools/uuid" "github.com/spf13/pflag" "github.com/zeebo/errs" "go.uber.org/zap" "storj.io/common/identity" "storj.io/common/macaroon" "storj.io/common/pb" "storj.io/common/peertls/tlsopts" "storj.io/common/rpc" "storj.io/common/storj" "storj.io/storj/cmd/uplink/cmd" libuplink "storj.io/storj/lib/uplink" "storj.io/storj/pkg/cfgstruct" "storj.io/storj/satellite/console" "storj.io/uplink/metainfo" "storj.io/uplink/piecestore" ) // Uplink is a general purpose type Uplink struct { Log *zap.Logger Info pb.Node Identity *identity.FullIdentity Dialer rpc.Dialer StorageNodeCount int APIKey map[storj.NodeID]*macaroon.APIKey ProjectID map[storj.NodeID]uuid.UUID } // newUplinks creates initializes uplinks, requires peer to have at least one satellite func (planet *Planet) newUplinks(prefix string, count, storageNodeCount int) ([]*Uplink, error) { var xs []*Uplink for i := 0; i < count; i++ { uplink, err := planet.newUplink(prefix+strconv.Itoa(i), storageNodeCount) if err != nil { return nil, err } xs = append(xs, uplink) } return xs, nil } // newUplink creates a new uplink func (planet *Planet) newUplink(name string, storageNodeCount int) (*Uplink, error) { identity, err := planet.NewIdentity() if err != nil { return nil, err } tlsOptions, err := tlsopts.NewOptions(identity, tlsopts.Config{ PeerIDVersions: strconv.Itoa(int(planet.config.IdentityVersion.Number)), }, nil) if err != nil { return nil, err } uplink := &Uplink{ Log: planet.log.Named(name), Identity: identity, StorageNodeCount: storageNodeCount, APIKey: map[storj.NodeID]*macaroon.APIKey{}, ProjectID: map[storj.NodeID]uuid.UUID{}, } uplink.Log.Debug("id=" + identity.ID.String()) uplink.Dialer = rpc.NewDefaultDialer(tlsOptions) uplink.Info = pb.Node{ Id: uplink.Identity.ID, Address: &pb.NodeAddress{ Transport: pb.NodeTransport_TCP_TLS_GRPC, Address: "", }, } for j, satellite := range planet.Satellites { // TODO: find a nicer way to do this // populate satellites console with example // project and API key and pass that to uplinks consoleDB := satellite.DB.Console() projectName := fmt.Sprintf("%s_%d", name, j) key, err := macaroon.NewAPIKey([]byte("testSecret")) if err != nil { return nil, err } project, err := consoleDB.Projects().Insert( context.Background(), &console.Project{ Name: projectName, }, ) if err != nil { return nil, err } _, err = consoleDB.APIKeys().Create( context.Background(), key.Head(), console.APIKeyInfo{ Name: "root", ProjectID: project.ID, Secret: []byte("testSecret"), }, ) if err != nil { return nil, err } uplink.APIKey[satellite.ID()] = key uplink.ProjectID[satellite.ID()] = project.ID } planet.uplinks = append(planet.uplinks, uplink) return uplink, nil } // ID returns uplink id func (client *Uplink) ID() storj.NodeID { return client.Info.Id } // Addr returns uplink address func (client *Uplink) Addr() string { return client.Info.Address.Address } // Local returns uplink info func (client *Uplink) Local() pb.Node { return client.Info } // Shutdown shuts down all uplink dependencies func (client *Uplink) Shutdown() error { return nil } // DialMetainfo dials destination with apikey and returns metainfo Client func (client *Uplink) DialMetainfo(ctx context.Context, destination Peer, apikey *macaroon.APIKey) (*metainfo.Client, error) { return metainfo.Dial(ctx, client.Dialer, destination.Addr(), apikey, "Test/1.0") } // DialPiecestore dials destination storagenode and returns a piecestore client. func (client *Uplink) DialPiecestore(ctx context.Context, destination Peer) (*piecestore.Client, error) { node := destination.Local() return piecestore.Dial(ctx, client.Dialer, &node.Node, client.Log.Named("uplink>piecestore"), piecestore.DefaultConfig) } // Upload data to specific satellite func (client *Uplink) Upload(ctx context.Context, satellite *SatelliteSystem, bucket string, path storj.Path, data []byte) error { return client.UploadWithExpiration(ctx, satellite, bucket, path, data, time.Time{}) } // UploadWithExpiration data to specific satellite and expiration time func (client *Uplink) UploadWithExpiration(ctx context.Context, satellite *SatelliteSystem, bucketName string, path storj.Path, data []byte, expiration time.Time) error { config := client.GetConfig(satellite) project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, config) if err != nil { return err } defer func() { err = errs.Combine(err, bucket.Close(), project.Close()) }() opts := &libuplink.UploadOptions{} opts.Expires = expiration opts.Volatile.RedundancyScheme = config.GetRedundancyScheme() opts.Volatile.EncryptionParameters = config.GetEncryptionParameters() reader := bytes.NewReader(data) if err := bucket.UploadObject(ctx, path, reader, opts); err != nil { return err } return nil } // UploadWithClientConfig uploads data to specific satellite with custom client configuration func (client *Uplink) UploadWithClientConfig(ctx context.Context, satellite *SatelliteSystem, clientConfig cmd.Config, bucketName string, path storj.Path, data []byte) (err error) { project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, clientConfig) if err != nil { return err } defer func() { err = errs.Combine(err, bucket.Close(), project.Close()) }() opts := &libuplink.UploadOptions{} opts.Volatile.RedundancyScheme = clientConfig.GetRedundancyScheme() opts.Volatile.EncryptionParameters = clientConfig.GetEncryptionParameters() reader := bytes.NewReader(data) if err := bucket.UploadObject(ctx, path, reader, opts); err != nil { return err } return nil } // Download data from specific satellite func (client *Uplink) Download(ctx context.Context, satellite *SatelliteSystem, bucketName string, path storj.Path) ([]byte, error) { project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, client.GetConfig(satellite)) if err != nil { return nil, err } defer func() { err = errs.Combine(err, project.Close(), bucket.Close()) }() object, err := bucket.OpenObject(ctx, path) if err != nil { return nil, err } rc, err := object.DownloadRange(ctx, 0, object.Meta.Size) if err != nil { return nil, err } defer func() { err = errs.Combine(err, rc.Close()) }() data, err := ioutil.ReadAll(rc) if err != nil { return []byte{}, err } return data, nil } // DownloadStream returns stream for downloading data func (client *Uplink) DownloadStream(ctx context.Context, satellite *SatelliteSystem, bucketName string, path storj.Path) (_ io.ReadCloser, cleanup func() error, err error) { project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, client.GetConfig(satellite)) if err != nil { return nil, nil, err } cleanup = func() error { err = errs.Combine(err, project.Close(), bucket.Close(), ) return err } downloader, err := bucket.Download(ctx, path) return downloader, cleanup, err } // DownloadStreamRange returns stream for downloading data func (client *Uplink) DownloadStreamRange(ctx context.Context, satellite *SatelliteSystem, bucketName string, path storj.Path, start, limit int64) (_ io.ReadCloser, cleanup func() error, err error) { project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, client.GetConfig(satellite)) if err != nil { return nil, nil, err } cleanup = func() error { err = errs.Combine(err, project.Close(), bucket.Close(), ) return err } downloader, err := bucket.DownloadRange(ctx, path, start, limit) return downloader, cleanup, err } // DeleteObject deletes an object at the path in a bucket func (client *Uplink) DeleteObject(ctx context.Context, satellite *SatelliteSystem, bucketName string, path storj.Path) error { project, bucket, err := client.GetProjectAndBucket(ctx, satellite, bucketName, client.GetConfig(satellite)) if err != nil { return err } defer func() { err = errs.Combine(err, project.Close(), bucket.Close()) }() err = bucket.DeleteObject(ctx, path) if err != nil { return err } return nil } // CreateBucket creates a new bucket func (client *Uplink) CreateBucket(ctx context.Context, satellite *SatelliteSystem, bucketName string) error { project, err := client.GetProject(ctx, satellite) if err != nil { return err } defer func() { err = errs.Combine(err, project.Close()) }() clientCfg := client.GetConfig(satellite) bucketCfg := &libuplink.BucketConfig{} bucketCfg.PathCipher = clientCfg.GetPathCipherSuite() bucketCfg.EncryptionParameters = clientCfg.GetEncryptionParameters() bucketCfg.Volatile.RedundancyScheme = clientCfg.GetRedundancyScheme() bucketCfg.Volatile.SegmentsSize = clientCfg.GetSegmentSize() _, err = project.CreateBucket(ctx, bucketName, bucketCfg) if err != nil { return err } return nil } // DeleteBucket deletes a bucket. func (client *Uplink) DeleteBucket(ctx context.Context, satellite *SatelliteSystem, bucketName string) error { project, err := client.GetProject(ctx, satellite) if err != nil { return err } defer func() { err = errs.Combine(err, project.Close()) }() err = project.DeleteBucket(ctx, bucketName) if err != nil { return err } return nil } // GetConfig returns a default config for a given satellite. func (client *Uplink) GetConfig(satellite *SatelliteSystem) cmd.Config { config := getDefaultConfig() // client.APIKey[satellite.ID()] is a *macaroon.APIKey, but we want a // *libuplink.APIKey, so, serialize and parse for now apiKey, err := libuplink.ParseAPIKey(client.APIKey[satellite.ID()].Serialize()) if err != nil { panic(err) } encAccess := libuplink.NewEncryptionAccess() encAccess.SetDefaultKey(storj.Key{}) encAccess.SetDefaultPathCipher(storj.EncAESGCM) accessData, err := (&libuplink.Scope{ SatelliteAddr: satellite.Addr(), APIKey: apiKey, EncryptionAccess: encAccess, }).Serialize() if err != nil { panic(err) } config.Access = accessData // Support some legacy stuff config.Legacy.Client.APIKey = apiKey.Serialize() config.Legacy.Client.SatelliteAddr = satellite.Addr() config.Client.DialTimeout = 10 * time.Second config.RS.MinThreshold = atLeastOne(client.StorageNodeCount * 1 / 5) // 20% of storage nodes config.RS.RepairThreshold = atLeastOne(client.StorageNodeCount * 2 / 5) // 40% of storage nodes config.RS.SuccessThreshold = atLeastOne(client.StorageNodeCount * 3 / 5) // 60% of storage nodes config.RS.MaxThreshold = atLeastOne(client.StorageNodeCount * 4 / 5) // 80% of storage nodes config.TLS.UsePeerCAWhitelist = false config.TLS.Extensions.Revocation = false config.TLS.Extensions.WhitelistSignedLeaf = false return config } func getDefaultConfig() cmd.Config { config := cmd.Config{} cfgstruct.Bind(&pflag.FlagSet{}, &config, cfgstruct.UseDevDefaults()) return config } // atLeastOne returns 1 if value < 1, or value otherwise. func atLeastOne(value int) int { if value < 1 { return 1 } return value } // NewLibuplink creates a libuplink.Uplink object with the testplanet Uplink config func (client *Uplink) NewLibuplink(ctx context.Context) (*libuplink.Uplink, error) { config := getDefaultConfig() libuplinkCfg := &libuplink.Config{} libuplinkCfg.Volatile.Log = client.Log libuplinkCfg.Volatile.MaxInlineSize = config.Client.MaxInlineSize libuplinkCfg.Volatile.MaxMemory = config.RS.MaxBufferMem libuplinkCfg.Volatile.PeerIDVersion = config.TLS.PeerIDVersions libuplinkCfg.Volatile.TLS.SkipPeerCAWhitelist = !config.TLS.UsePeerCAWhitelist libuplinkCfg.Volatile.TLS.PeerCAWhitelistPath = config.TLS.PeerCAWhitelistPath libuplinkCfg.Volatile.DialTimeout = config.Client.DialTimeout return libuplink.NewUplink(ctx, libuplinkCfg) } // GetProject returns a libuplink.Project which allows interactions with a specific project func (client *Uplink) GetProject(ctx context.Context, satellite *SatelliteSystem) (*libuplink.Project, error) { testLibuplink, err := client.NewLibuplink(ctx) if err != nil { return nil, err } defer func() { err = errs.Combine(err, testLibuplink.Close()) }() access, err := client.GetConfig(satellite).GetAccess() if err != nil { return nil, err } project, err := testLibuplink.OpenProject(ctx, access.SatelliteAddr, access.APIKey) if err != nil { return nil, err } return project, nil } // GetProjectAndBucket returns a libuplink.Project and Bucket which allows interactions with a specific project and its buckets func (client *Uplink) GetProjectAndBucket(ctx context.Context, satellite *SatelliteSystem, bucketName string, clientCfg cmd.Config) (_ *libuplink.Project, _ *libuplink.Bucket, err error) { project, err := client.GetProject(ctx, satellite) if err != nil { return nil, nil, err } defer func() { if err != nil { err = errs.Combine(err, project.Close()) } }() access, err := client.GetConfig(satellite).GetAccess() if err != nil { return nil, nil, err } // Check if the bucket exists, if not then create it _, _, err = project.GetBucketInfo(ctx, bucketName) if err != nil { if storj.ErrBucketNotFound.Has(err) { err := createBucket(ctx, clientCfg, *project, bucketName) if err != nil { return nil, nil, err } } else { return nil, nil, err } } bucket, err := project.OpenBucket(ctx, bucketName, access.EncryptionAccess) if err != nil { return nil, nil, err } return project, bucket, nil } func createBucket(ctx context.Context, config cmd.Config, project libuplink.Project, bucketName string) error { bucketCfg := &libuplink.BucketConfig{} bucketCfg.PathCipher = config.GetPathCipherSuite() bucketCfg.EncryptionParameters = config.GetEncryptionParameters() bucketCfg.Volatile.RedundancyScheme = config.GetRedundancyScheme() bucketCfg.Volatile.SegmentsSize = config.GetSegmentSize() _, err := project.CreateBucket(ctx, bucketName, bucketCfg) if err != nil { return err } return nil }