minio/pkg/storage/drivers/memory/memory.go

529 lines
17 KiB
Go

/*
* Minimalist 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 memory
import (
"bufio"
"bytes"
"crypto/md5"
"encoding/base64"
"encoding/hex"
"errors"
"io"
"io/ioutil"
"runtime/debug"
"sort"
"strings"
"sync"
"time"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/storage/drivers/memory/lru"
"github.com/minio-io/minio/pkg/utils/log"
"github.com/minio-io/minio/pkg/utils/split"
)
// memoryDriver - local variables
type memoryDriver struct {
storedBuckets map[string]storedBucket
lock *sync.RWMutex
objects *lru.Cache
lastAccessedObjects map[string]time.Time
totalSize uint64
maxSize uint64
expiration time.Duration
shutdown bool
}
type storedBucket struct {
bucketMetadata drivers.BucketMetadata
objectMetadata map[string]drivers.ObjectMetadata
}
const (
totalBuckets = 100
)
// Start memory object server
func Start(maxSize uint64, expiration time.Duration) (chan<- string, <-chan error, drivers.Driver) {
ctrlChannel := make(chan string)
errorChannel := make(chan error)
var memory *memoryDriver
memory = new(memoryDriver)
memory.storedBuckets = make(map[string]storedBucket)
memory.lastAccessedObjects = make(map[string]time.Time)
memory.objects = lru.New(0)
memory.lock = new(sync.RWMutex)
memory.expiration = expiration
memory.shutdown = false
switch {
case maxSize == 0:
memory.maxSize = 9223372036854775807
case maxSize > 0:
memory.maxSize = maxSize
default:
log.Println("Error")
}
memory.objects.OnEvicted = memory.evictObject
// set up memory expiration
if expiration > 0 {
go memory.expireLRUObjects()
}
go start(ctrlChannel, errorChannel)
return ctrlChannel, errorChannel, memory
}
func start(ctrlChannel <-chan string, errorChannel chan<- error) {
close(errorChannel)
}
// GetObject - GET object from memory buffer
func (memory *memoryDriver) GetObject(w io.Writer, bucket string, object string) (int64, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
if !drivers.IsValidBucket(bucket) {
return 0, iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if !drivers.IsValidObject(object) {
return 0, iodine.New(drivers.ObjectNameInvalid{Object: object}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
return 0, iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
storedBucket := memory.storedBuckets[bucket]
// form objectKey
objectKey := bucket + "/" + object
if _, ok := storedBucket.objectMetadata[objectKey]; ok {
if data, ok := memory.objects.Get(objectKey); ok {
dataSlice := data.([]byte)
objectBuffer := bytes.NewBuffer(dataSlice)
written, err := io.Copy(w, objectBuffer)
go memory.updateAccessTime(objectKey)
return written, iodine.New(err, nil)
}
}
return 0, iodine.New(drivers.ObjectNotFound{Bucket: bucket, Object: object}, nil)
}
// GetPartialObject - GET object from memory buffer range
func (memory *memoryDriver) GetPartialObject(w io.Writer, bucket, object string, start, length int64) (int64, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
var sourceBuffer bytes.Buffer
if !drivers.IsValidBucket(bucket) {
return 0, iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if !drivers.IsValidObject(object) {
return 0, iodine.New(drivers.ObjectNameInvalid{Object: object}, nil)
}
if _, err := memory.GetObject(&sourceBuffer, bucket, object); err != nil {
return 0, iodine.New(err, nil)
}
if _, err := io.CopyN(ioutil.Discard, &sourceBuffer, start); err != nil {
return 0, iodine.New(err, nil)
}
return io.CopyN(w, &sourceBuffer, length)
}
// GetBucketMetadata -
func (memory *memoryDriver) GetBucketMetadata(bucket string) (drivers.BucketMetadata, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
if !drivers.IsValidBucket(bucket) {
return drivers.BucketMetadata{}, iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
return drivers.BucketMetadata{}, iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
return memory.storedBuckets[bucket].bucketMetadata, nil
}
// SetBucketMetadata -
func (memory *memoryDriver) SetBucketMetadata(bucket, acl string) error {
memory.lock.RLock()
if !drivers.IsValidBucket(bucket) {
memory.lock.RUnlock()
return iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
memory.lock.RUnlock()
return iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
if strings.TrimSpace(acl) == "" {
acl = "private"
}
memory.lock.RUnlock()
memory.lock.Lock()
defer memory.lock.Unlock()
storedBucket := memory.storedBuckets[bucket]
storedBucket.bucketMetadata.ACL = drivers.BucketACL(acl)
memory.storedBuckets[bucket] = storedBucket
return nil
}
// isMD5SumEqual - returns error if md5sum mismatches, success its `nil`
func isMD5SumEqual(expectedMD5Sum, actualMD5Sum string) error {
if strings.TrimSpace(expectedMD5Sum) != "" && strings.TrimSpace(actualMD5Sum) != "" {
expectedMD5SumBytes, err := hex.DecodeString(expectedMD5Sum)
if err != nil {
return iodine.New(err, nil)
}
actualMD5SumBytes, err := hex.DecodeString(actualMD5Sum)
if err != nil {
return iodine.New(err, nil)
}
if !bytes.Equal(expectedMD5SumBytes, actualMD5SumBytes) {
return iodine.New(errors.New("bad digest, md5sum mismatch"), nil)
}
return nil
}
return iodine.New(errors.New("invalid argument"), nil)
}
func (memory *memoryDriver) CreateObject(bucket, key, contentType, expectedMD5Sum string, data io.Reader) (string, error) {
humanError, err := memory.createObject(bucket, key, contentType, expectedMD5Sum, data)
debug.FreeOSMemory()
return humanError, err
}
// CreateObject - PUT object to memory buffer
func (memory *memoryDriver) createObject(bucket, key, contentType, expectedMD5Sum string, data io.Reader) (string, error) {
memory.lock.RLock()
if !drivers.IsValidBucket(bucket) {
memory.lock.RUnlock()
return "", iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if !drivers.IsValidObject(key) {
memory.lock.RUnlock()
return "", iodine.New(drivers.ObjectNameInvalid{Object: key}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
memory.lock.RUnlock()
return "", iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
storedBucket := memory.storedBuckets[bucket]
// get object key
objectKey := bucket + "/" + key
if _, ok := storedBucket.objectMetadata[objectKey]; ok == true {
memory.lock.RUnlock()
return "", iodine.New(drivers.ObjectExists{Bucket: bucket, Object: key}, nil)
}
memory.lock.RUnlock()
if contentType == "" {
contentType = "application/octet-stream"
}
contentType = strings.TrimSpace(contentType)
if strings.TrimSpace(expectedMD5Sum) != "" {
expectedMD5SumBytes, err := base64.StdEncoding.DecodeString(strings.TrimSpace(expectedMD5Sum))
if err != nil {
// pro-actively close the connection
return "", iodine.New(drivers.InvalidDigest{Md5: expectedMD5Sum}, nil)
}
expectedMD5Sum = hex.EncodeToString(expectedMD5SumBytes)
}
var bytesBuffer bytes.Buffer
chunks := split.Stream(data, 10*1024*1024)
totalLength := 0
summer := md5.New()
for chunk := range chunks {
if chunk.Err == nil {
totalLength = totalLength + len(chunk.Data)
summer.Write(chunk.Data)
_, err := io.Copy(&bytesBuffer, bytes.NewBuffer(chunk.Data))
if err != nil {
err := iodine.New(err, nil)
log.Println(err)
return "", err
}
if uint64(totalLength)+memory.totalSize > memory.maxSize {
memory.objects.RemoveOldest()
}
}
}
md5SumBytes := summer.Sum(nil)
md5Sum := hex.EncodeToString(md5SumBytes)
// Verify if the written object is equal to what is expected, only if it is requested as such
if strings.TrimSpace(expectedMD5Sum) != "" {
if err := isMD5SumEqual(strings.TrimSpace(expectedMD5Sum), md5Sum); err != nil {
memory.lock.Lock()
defer memory.lock.Unlock()
memory.objects.RemoveOldest()
return "", iodine.New(drivers.BadDigest{Md5: expectedMD5Sum, Bucket: bucket, Key: key}, nil)
}
}
newObject := drivers.ObjectMetadata{
Bucket: bucket,
Key: key,
ContentType: contentType,
Created: time.Now().UTC(),
Md5: md5Sum,
Size: int64(totalLength),
}
memory.lock.Lock()
memoryObject := make(map[string]drivers.ObjectMetadata)
if len(memory.storedBuckets[bucket].objectMetadata) == 0 {
storedBucket.objectMetadata = memoryObject
storedBucket.objectMetadata[objectKey] = newObject
} else {
storedBucket.objectMetadata[objectKey] = newObject
}
memory.storedBuckets[bucket] = storedBucket
memory.objects.Add(objectKey, bytesBuffer.Bytes())
memory.totalSize = memory.totalSize + uint64(newObject.Size)
if memory.totalSize > memory.maxSize {
memory.objects.RemoveOldest()
}
memory.lock.Unlock()
return newObject.Md5, nil
}
// CreateBucket - create bucket in memory
func (memory *memoryDriver) CreateBucket(bucketName, acl string) error {
memory.lock.RLock()
if len(memory.storedBuckets) == totalBuckets {
memory.lock.RLock()
return iodine.New(drivers.TooManyBuckets{Bucket: bucketName}, nil)
}
if !drivers.IsValidBucket(bucketName) {
memory.lock.RUnlock()
return iodine.New(drivers.BucketNameInvalid{Bucket: bucketName}, nil)
}
if !drivers.IsValidBucketACL(acl) {
memory.lock.RUnlock()
return iodine.New(drivers.InvalidACL{ACL: acl}, nil)
}
if _, ok := memory.storedBuckets[bucketName]; ok == true {
memory.lock.RUnlock()
return iodine.New(drivers.BucketExists{Bucket: bucketName}, nil)
}
memory.lock.RUnlock()
if strings.TrimSpace(acl) == "" {
// default is private
acl = "private"
}
var newBucket = storedBucket{}
newBucket.objectMetadata = make(map[string]drivers.ObjectMetadata)
newBucket.bucketMetadata = drivers.BucketMetadata{}
newBucket.bucketMetadata.Name = bucketName
newBucket.bucketMetadata.Created = time.Now().UTC()
newBucket.bucketMetadata.ACL = drivers.BucketACL(acl)
memory.lock.Lock()
defer memory.lock.Unlock()
memory.storedBuckets[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)
}
func (memory *memoryDriver) filterDelimiterPrefix(keys []string, key, delimitedName string, resources drivers.BucketResourcesMetadata) (drivers.BucketResourcesMetadata, []string) {
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 != "":
resources.CommonPrefixes = appendUniq(resources.CommonPrefixes, resources.Prefix+delimitedName)
}
return resources, keys
}
func (memory *memoryDriver) listObjectsInternal(keys []string, key string, resources drivers.BucketResourcesMetadata) ([]string, drivers.BucketResourcesMetadata) {
switch true {
// Prefix absent, delimit object key based on delimiter
case resources.IsDelimiterSet():
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.IsDelimiterPrefixSet():
if strings.HasPrefix(key, resources.Prefix) {
trimmedName := strings.TrimPrefix(key, resources.Prefix)
delimitedName := delimiter(trimmedName, resources.Delimiter)
resources, keys = memory.filterDelimiterPrefix(keys, key, delimitedName, resources)
}
// Prefix present, nothing to delimit
case resources.IsPrefixSet():
keys = appendUniq(keys, key)
// Prefix and delimiter absent
case resources.IsDefault():
keys = appendUniq(keys, key)
}
return keys, resources
}
// ListObjects - list objects from memory
func (memory *memoryDriver) ListObjects(bucket string, resources drivers.BucketResourcesMetadata) ([]drivers.ObjectMetadata, drivers.BucketResourcesMetadata, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
if !drivers.IsValidBucket(bucket) {
return nil, drivers.BucketResourcesMetadata{IsTruncated: false}, iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if !drivers.IsValidObject(resources.Prefix) {
return nil, drivers.BucketResourcesMetadata{IsTruncated: false}, iodine.New(drivers.ObjectNameInvalid{Object: resources.Prefix}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
return nil, drivers.BucketResourcesMetadata{IsTruncated: false}, iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
var results []drivers.ObjectMetadata
var keys []string
storedBucket := memory.storedBuckets[bucket]
for key := range storedBucket.objectMetadata {
if strings.HasPrefix(key, bucket+"/") {
key = key[len(bucket)+1:]
keys, resources = memory.listObjectsInternal(keys, key, resources)
}
}
sort.Strings(keys)
for _, key := range keys {
if len(results) == resources.Maxkeys {
resources.IsTruncated = true
return results, resources, nil
}
object := storedBucket.objectMetadata[bucket+"/"+key]
results = append(results, object)
}
return results, resources, nil
}
// ByBucketName is a type for sorting bucket metadata by bucket name
type ByBucketName []drivers.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 (memory *memoryDriver) ListBuckets() ([]drivers.BucketMetadata, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
var results []drivers.BucketMetadata
for _, bucket := range memory.storedBuckets {
results = append(results, bucket.bucketMetadata)
}
sort.Sort(ByBucketName(results))
return results, nil
}
// GetObjectMetadata - get object metadata from memory
func (memory *memoryDriver) GetObjectMetadata(bucket, key, prefix string) (drivers.ObjectMetadata, error) {
memory.lock.RLock()
defer memory.lock.RUnlock()
// check if bucket exists
if !drivers.IsValidBucket(bucket) {
return drivers.ObjectMetadata{}, iodine.New(drivers.BucketNameInvalid{Bucket: bucket}, nil)
}
if !drivers.IsValidObject(key) || !drivers.IsValidObject(prefix) {
return drivers.ObjectMetadata{}, iodine.New(drivers.ObjectNameInvalid{Object: key}, nil)
}
if _, ok := memory.storedBuckets[bucket]; ok == false {
return drivers.ObjectMetadata{}, iodine.New(drivers.BucketNotFound{Bucket: bucket}, nil)
}
storedBucket := memory.storedBuckets[bucket]
objectKey := bucket + "/" + key
if object, ok := storedBucket.objectMetadata[objectKey]; ok == true {
return object, nil
}
return drivers.ObjectMetadata{}, iodine.New(drivers.ObjectNotFound{Bucket: bucket, Object: key}, nil)
}
func (memory *memoryDriver) evictObject(key lru.Key, value interface{}) {
memory.doEvictObject(key, value)
debug.FreeOSMemory()
}
func (memory *memoryDriver) doEvictObject(key lru.Key, value interface{}) {
k := key.(string)
// loop through all buckets
for bucket, storedBucket := range memory.storedBuckets {
memory.totalSize = memory.totalSize - uint64(storedBucket.objectMetadata[k].Size)
log.Printf("Evicting: %s of Size: %d", k, storedBucket.objectMetadata[k].Size)
log.Println("TotalSize:", memory.totalSize)
delete(storedBucket.objectMetadata, k)
// remove bucket if no objects found anymore
if len(storedBucket.objectMetadata) == 0 {
delete(memory.storedBuckets, bucket)
}
}
}
func (memory *memoryDriver) expireLRUObjects() {
for {
if memory.shutdown {
return
}
var sleepDuration time.Duration
memory.lock.Lock()
if memory.objects.Len() > 0 {
if k, _, ok := memory.objects.GetOldest(); ok {
key := k.(string)
if time.Now().Sub(memory.lastAccessedObjects[key]) > memory.expiration {
memory.objects.RemoveOldest()
} else {
sleepDuration = memory.expiration - time.Now().Sub(memory.lastAccessedObjects[key])
}
}
} else {
sleepDuration = memory.expiration
}
memory.lock.Unlock()
time.Sleep(sleepDuration)
}
}
func (memory *memoryDriver) updateAccessTime(key string) {
memory.lock.Lock()
defer memory.lock.Unlock()
memory.lastAccessedObjects[key] = time.Now().UTC()
}