// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package mobile import ( "fmt" "storj.io/storj/internal/memory" libuplink "storj.io/storj/lib/uplink" "storj.io/storj/pkg/storj" ) // Config represents configuration options for an Uplink type Config struct { // MaxInlineSize determines whether the uplink will attempt to // store a new object in the satellite's metainfo. Objects at // or below this size will be marked for inline storage, and // objects above this size will not. (The satellite may reject // the inline storage and require remote storage, still.) MaxInlineSize int64 // MaxMemory is the default maximum amount of memory to be // allocated for read buffers while performing decodes of // objects. (This option is overrideable per Bucket if the user // so desires.) If set to zero, the library default (4 MiB) will // be used. If set to a negative value, the system will use the // smallest amount of memory it can. MaxMemory int64 } // Uplink represents the main entrypoint to Storj V3. An Uplink connects to // a specific Satellite and caches connections and resources, allowing one to // create sessions delineated by specific access controls. type Uplink struct { scope lib *libuplink.Uplink } // NewUplink creates a new Uplink. This is the first step to create an uplink // session with a user specified config or with default config, if nil config. // Uplink needs also writable temporary directory. func NewUplink(config *Config, tempDir string) (*Uplink, error) { scope := rootScope(tempDir) cfg := &libuplink.Config{} if config != nil { cfg.Volatile.TLS.SkipPeerCAWhitelist = true cfg.Volatile.MaxInlineSize = memory.Size(config.MaxInlineSize) cfg.Volatile.MaxMemory = memory.Size(config.MaxMemory) } lib, err := libuplink.NewUplink(scope.ctx, cfg) if err != nil { return nil, safeError(err) } return &Uplink{scope, lib}, nil } // Close closes the Uplink. This may not do anything at present, but should // still be called to allow forward compatibility. No Project or Bucket // objects using this Uplink should be used after calling Close. func (uplink *Uplink) Close() error { uplink.cancel() return safeError(uplink.lib.Close()) } // Project represents a specific project access session. type Project struct { scope lib *libuplink.Project } // OpenProject returns a Project handle with the given APIKey func (uplink *Uplink) OpenProject(satellite string, apikey string) (*Project, error) { scope := uplink.scope.child() key, err := libuplink.ParseAPIKey(apikey) if err != nil { return nil, safeError(err) } project, err := uplink.lib.OpenProject(scope.ctx, satellite, key) if err != nil { return nil, safeError(err) } return &Project{scope, project}, nil } // Close closes the Project func (project *Project) Close() error { defer project.cancel() return safeError(project.lib.Close()) } // CreateBucket creates buckets in project func (project *Project) CreateBucket(bucketName string, opts *BucketConfig) (*BucketInfo, error) { scope := project.scope.child() cfg := libuplink.BucketConfig{} if opts != nil { cfg.PathCipher = storj.CipherSuite(opts.PathCipher) cfg.EncryptionParameters = newStorjEncryptionParameters(opts.EncryptionParameters) cfg.Volatile.RedundancyScheme = newStorjRedundancyScheme(opts.RedundancyScheme) cfg.Volatile.SegmentsSize = memory.Size(opts.SegmentsSize) } bucket, err := project.lib.CreateBucket(scope.ctx, bucketName, &cfg) if err != nil { return nil, safeError(err) } return newBucketInfo(bucket), nil } // OpenBucket returns a Bucket handle with the given EncryptionAccess // information. func (project *Project) OpenBucket(bucketName string, options *BucketAccess) (*Bucket, error) { scope := project.scope.child() opts := libuplink.EncryptionAccess{} if options != nil { copy(opts.Key[:], options.PathEncryptionKey) // TODO: error check opts.EncryptedPathPrefix = options.EncryptedPathPrefix } bucket, err := project.lib.OpenBucket(scope.ctx, bucketName, &opts) if err != nil { return nil, safeError(err) } return &Bucket{bucket.Name, scope, bucket}, nil } // GetBucketInfo returns info about the requested bucket if authorized. func (project *Project) GetBucketInfo(bucketName string) (*BucketInfo, error) { scope := project.scope.child() bucket, _, err := project.lib.GetBucketInfo(scope.ctx, bucketName) if err != nil { return nil, safeError(err) } return newBucketInfo(bucket), nil } // ListBuckets will list authorized buckets. func (project *Project) ListBuckets(cursor string, direction, limit int) (*BucketList, error) { scope := project.scope.child() opts := libuplink.BucketListOptions{ Cursor: cursor, Direction: storj.ListDirection(direction), Limit: limit, } list, err := project.lib.ListBuckets(scope.ctx, &opts) if err != nil { return nil, safeError(err) } return &BucketList{list}, nil } // DeleteBucket deletes a bucket if authorized. If the bucket contains any // Objects at the time of deletion, they may be lost permanently. func (project *Project) DeleteBucket(bucketName string) error { scope := project.scope.child() err := project.lib.DeleteBucket(scope.ctx, bucketName) return safeError(err) } func safeError(err error) error { // workaround to avoid gomobile panic because of "hash of unhashable type errs.combinedError" if err == nil { return nil } return fmt.Errorf("%v", err.Error()) }