/* * Minio Object Storage, (C) 2015 Minio, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package inmemory import ( "bufio" "bytes" "crypto/sha256" "fmt" "io" "sort" "strings" "sync" "time" mstorage "github.com/minio-io/minio/pkg/storage" ) // Storage - local variables type Storage struct { bucketdata map[string]storedBucket objectdata map[string]storedObject lock *sync.RWMutex } type storedBucket struct { metadata mstorage.BucketMetadata // owner string // TODO // id string // TODO } type storedObject struct { metadata mstorage.ObjectMetadata data []byte } // Start inmemory object server func Start() (chan<- string, <-chan error, *Storage) { ctrlChannel := make(chan string) errorChannel := make(chan error) go start(ctrlChannel, errorChannel) return ctrlChannel, errorChannel, &Storage{ bucketdata: make(map[string]storedBucket), objectdata: make(map[string]storedObject), lock: new(sync.RWMutex), } } func start(ctrlChannel <-chan string, errorChannel chan<- error) { close(errorChannel) } // CopyObjectToWriter - GET object from memory buffer func (storage *Storage) CopyObjectToWriter(w io.Writer, bucket string, object string) (int64, error) { // get object key := object if val, ok := storage.objectdata[key]; ok { objectBuffer := bytes.NewBuffer(val.data) written, err := io.Copy(w, objectBuffer) return written, err } return 0, mstorage.ObjectNotFound{Bucket: bucket, Object: object} } // CopyObjectToWriterRange - GET object from memory buffer range func (storage *Storage) CopyObjectToWriterRange(w io.Writer, bucket, object string, start, end int64) (int64, error) { return 0, mstorage.APINotImplemented{API: "GetObjectRange"} } // StoreBucketPolicy - Not implemented func (storage *Storage) StoreBucketPolicy(bucket string, policy mstorage.BucketPolicy) error { return mstorage.APINotImplemented{API: "PutBucketPolicy"} } // GetBucketPolicy - Not implemented func (storage *Storage) GetBucketPolicy(bucket string) (mstorage.BucketPolicy, error) { return mstorage.BucketPolicy{}, mstorage.APINotImplemented{API: "GetBucketPolicy"} } // StoreObject - PUT object to memory buffer func (storage *Storage) StoreObject(bucket, key, contentType string, data io.Reader) error { storage.lock.Lock() defer storage.lock.Unlock() if _, ok := storage.bucketdata[bucket]; ok == false { return mstorage.BucketNotFound{Bucket: bucket} } if _, ok := storage.objectdata[key]; ok == true { return mstorage.ObjectExists{Bucket: bucket, Object: key} } if contentType == "" { contentType = "application/octet-stream" } contentType = strings.TrimSpace(contentType) var bytesBuffer bytes.Buffer var newObject = storedObject{} if _, ok := io.Copy(&bytesBuffer, data); ok == nil { size := bytesBuffer.Len() etag := fmt.Sprintf("%x", sha256.Sum256(bytesBuffer.Bytes())) newObject.metadata = mstorage.ObjectMetadata{ Bucket: bucket, Key: key, ContentType: contentType, Created: time.Now(), ETag: etag, Size: int64(size), } newObject.data = bytesBuffer.Bytes() } storage.objectdata[key] = newObject return nil } // StoreBucket - create bucket in memory func (storage *Storage) StoreBucket(bucketName string) error { storage.lock.Lock() defer storage.lock.Unlock() if !mstorage.IsValidBucket(bucketName) { return mstorage.BucketNameInvalid{Bucket: bucketName} } if _, ok := storage.bucketdata[bucketName]; ok == true { return mstorage.BucketExists{Bucket: bucketName} } var newBucket = storedBucket{} newBucket.metadata = mstorage.BucketMetadata{} newBucket.metadata.Name = bucketName newBucket.metadata.Created = time.Now() storage.bucketdata[bucketName] = newBucket return nil } func delimiter(object, delimiter string) string { readBuffer := bytes.NewBufferString(object) reader := bufio.NewReader(readBuffer) stringReader := strings.NewReader(delimiter) delimited, _ := stringReader.ReadByte() delimitedStr, _ := reader.ReadString(delimited) return delimitedStr } func appendUniq(slice []string, i string) []string { for _, ele := range slice { if ele == i { return slice } } return append(slice, i) } // ListObjects - list objects from memory func (storage *Storage) ListObjects(bucket string, resources mstorage.BucketResourcesMetadata) ([]mstorage.ObjectMetadata, mstorage.BucketResourcesMetadata, error) { if _, ok := storage.bucketdata[bucket]; ok == false { return []mstorage.ObjectMetadata{}, mstorage.BucketResourcesMetadata{IsTruncated: false}, mstorage.BucketNotFound{Bucket: bucket} } var results []mstorage.ObjectMetadata var keys []string for key := range storage.objectdata { switch true { // Prefix absent, delimit object key based on delimiter case resources.Delimiter != "" && resources.Prefix == "": delimitedName := delimiter(key, resources.Delimiter) switch true { case delimitedName == "" || delimitedName == key: keys = appendUniq(keys, key) case delimitedName != "": resources.CommonPrefixes = appendUniq(resources.CommonPrefixes, delimitedName) } // Prefix present, delimit object key with prefix key based on delimiter case resources.Delimiter != "" && resources.Prefix != "" && strings.HasPrefix(key, resources.Prefix): trimmedName := strings.TrimPrefix(key, resources.Prefix) delimitedName := delimiter(trimmedName, resources.Delimiter) fmt.Println(trimmedName, delimitedName, key, resources.Prefix) switch true { case key == resources.Prefix: keys = appendUniq(keys, key) // DelimitedName - requires resources.Prefix as it was trimmed off earlier in the flow case key == resources.Prefix+delimitedName: keys = appendUniq(keys, key) case delimitedName != "": if delimitedName == resources.Delimiter { resources.CommonPrefixes = appendUniq(resources.CommonPrefixes, resources.Prefix+delimitedName) } else { resources.CommonPrefixes = appendUniq(resources.CommonPrefixes, delimitedName) } } // Prefix present, nothing to delimit case resources.Delimiter == "" && resources.Prefix != "" && strings.HasPrefix(key, resources.Prefix): keys = appendUniq(keys, key) // Prefix and delimiter absent case resources.Prefix == "" && resources.Delimiter == "": keys = appendUniq(keys, key) } } sort.Strings(keys) for _, key := range keys { if len(results) == resources.Maxkeys { return results, mstorage.BucketResourcesMetadata{IsTruncated: true}, nil } object := storage.objectdata[key] if bucket == object.metadata.Bucket { results = append(results, object.metadata) } } return results, resources, nil } type byBucketName []mstorage.BucketMetadata // Len of bucket name func (b byBucketName) Len() int { return len(b) } // Swap bucket i, j func (b byBucketName) Swap(i, j int) { b[i], b[j] = b[j], b[i] } // Less func (b byBucketName) Less(i, j int) bool { return b[i].Name < b[j].Name } // ListBuckets - List buckets from memory func (storage *Storage) ListBuckets() ([]mstorage.BucketMetadata, error) { var results []mstorage.BucketMetadata for _, bucket := range storage.bucketdata { results = append(results, bucket.metadata) } sort.Sort(byBucketName(results)) return results, nil } // GetObjectMetadata - get object metadata from memory func (storage *Storage) GetObjectMetadata(bucket, key, prefix string) (mstorage.ObjectMetadata, error) { if object, ok := storage.objectdata[key]; ok == true { return object.metadata, nil } return mstorage.ObjectMetadata{}, mstorage.ObjectNotFound{Bucket: bucket, Object: key} }