/ *
* MinIO Cloud Storage , ( C ) 2019 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 storageclass
import (
"encoding/json"
"fmt"
"strconv"
"strings"
"github.com/minio/minio/cmd/config"
"github.com/minio/minio/pkg/env"
)
// Standard constants for all storage class
const (
// Reduced redundancy storage class
RRS = "REDUCED_REDUNDANCY"
// Standard storage class
STANDARD = "STANDARD"
)
// Standard constats for config info storage class
const (
ClassStandard = "standard"
ClassRRS = "rrs"
// Reduced redundancy storage class environment variable
RRSEnv = "MINIO_STORAGE_CLASS_RRS"
// Standard storage class environment variable
StandardEnv = "MINIO_STORAGE_CLASS_STANDARD"
// Supported storage class scheme is EC
schemePrefix = "EC"
// Min parity disks
minParityDisks = 2
// Default RRS parity is always minimum parity.
defaultRRSParity = minParityDisks
)
// DefaultKVS - default storage class config
var (
DefaultKVS = config . KVS {
config . KV {
Key : ClassStandard ,
Value : "" ,
} ,
config . KV {
Key : ClassRRS ,
Value : "EC:2" ,
} ,
}
)
// StorageClass - holds storage class information
type StorageClass struct {
Parity int
}
// Config storage class configuration
type Config struct {
Standard StorageClass ` json:"standard" `
RRS StorageClass ` json:"rrs" `
}
// UnmarshalJSON - Validate SS and RRS parity when unmarshalling JSON.
func ( sCfg * Config ) UnmarshalJSON ( data [ ] byte ) error {
type Alias Config
aux := & struct {
* Alias
} {
Alias : ( * Alias ) ( sCfg ) ,
}
return json . Unmarshal ( data , & aux )
}
// IsValid - returns true if input string is a valid
// storage class kind supported.
func IsValid ( sc string ) bool {
return sc == RRS || sc == STANDARD
}
// UnmarshalText unmarshals storage class from its textual form into
// storageClass structure.
func ( sc * StorageClass ) UnmarshalText ( b [ ] byte ) error {
scStr := string ( b )
if scStr == "" {
return nil
}
s , err := parseStorageClass ( scStr )
if err != nil {
return err
}
sc . Parity = s . Parity
return nil
}
// MarshalText - marshals storage class string.
func ( sc * StorageClass ) MarshalText ( ) ( [ ] byte , error ) {
if sc . Parity != 0 {
return [ ] byte ( fmt . Sprintf ( "%s:%d" , schemePrefix , sc . Parity ) ) , nil
}
return [ ] byte ( "" ) , nil
}
func ( sc * StorageClass ) String ( ) string {
if sc . Parity != 0 {
return fmt . Sprintf ( "%s:%d" , schemePrefix , sc . Parity )
}
return ""
}
// Parses given storageClassEnv and returns a storageClass structure.
// Supported Storage Class format is "Scheme:Number of parity disks".
// Currently only supported scheme is "EC".
func parseStorageClass ( storageClassEnv string ) ( sc StorageClass , err error ) {
s := strings . Split ( storageClassEnv , ":" )
// only two elements allowed in the string - "scheme" and "number of parity disks"
if len ( s ) > 2 {
return StorageClass { } , config . ErrStorageClassValue ( nil ) . Msg ( "Too many sections in " + storageClassEnv )
} else if len ( s ) < 2 {
return StorageClass { } , config . ErrStorageClassValue ( nil ) . Msg ( "Too few sections in " + storageClassEnv )
}
// only allowed scheme is "EC"
if s [ 0 ] != schemePrefix {
return StorageClass { } , config . ErrStorageClassValue ( nil ) . Msg ( "Unsupported scheme " + s [ 0 ] + ". Supported scheme is EC" )
}
// Number of parity disks should be integer
parityDisks , err := strconv . Atoi ( s [ 1 ] )
if err != nil {
return StorageClass { } , config . ErrStorageClassValue ( err )
}
return StorageClass {
Parity : parityDisks ,
} , nil
}
// Validates the parity disks.
func validateParity ( ssParity , rrsParity , setDriveCount int ) ( err error ) {
if ssParity == 0 && rrsParity == 0 {
return nil
}
// SS parity disks should be greater than or equal to minParityDisks.
// Parity below minParityDisks is not supported.
if ssParity < minParityDisks {
return fmt . Errorf ( "Standard storage class parity %d should be greater than or equal to %d" ,
ssParity , minParityDisks )
}
// RRS parity disks should be greater than or equal to minParityDisks.
// Parity below minParityDisks is not supported.
if rrsParity < minParityDisks {
return fmt . Errorf ( "Reduced redundancy storage class parity %d should be greater than or equal to %d" , rrsParity , minParityDisks )
}
if ssParity > setDriveCount / 2 {
return fmt . Errorf ( "Standard storage class parity %d should be less than or equal to %d" , ssParity , setDriveCount / 2 )
}
if rrsParity > setDriveCount / 2 {
return fmt . Errorf ( "Reduced redundancy storage class parity %d should be less than or equal to %d" , rrsParity , setDriveCount / 2 )
}
if ssParity > 0 && rrsParity > 0 {
if ssParity < rrsParity {
return fmt . Errorf ( "Standard storage class parity disks %d should be greater than or equal to Reduced redundancy storage class parity disks %d" , ssParity , rrsParity )
}
}
return nil
}
// GetParityForSC - Returns the data and parity drive count based on storage class
// If storage class is set using the env vars MINIO_STORAGE_CLASS_RRS and MINIO_STORAGE_CLASS_STANDARD
// or config.json fields
// -- corresponding values are returned
// If storage class is not set during startup, default values are returned
// -- Default for Reduced Redundancy Storage class is, parity = 2 and data = N-Parity
// -- Default for Standard Storage class is, parity = N/2, data = N/2
// If storage class is empty
// -- standard storage class is assumed and corresponding data and parity is returned
func ( sCfg Config ) GetParityForSC ( sc string ) ( parity int ) {
switch strings . TrimSpace ( sc ) {
case RRS :
// set the rrs parity if available
if sCfg . RRS . Parity == 0 {
return defaultRRSParity
}
return sCfg . RRS . Parity
default :
return sCfg . Standard . Parity
}
}
// Enabled returns if etcd is enabled.
func Enabled ( kvs config . KVS ) bool {
ssc := kvs . Get ( ClassStandard )
rrsc := kvs . Get ( ClassRRS )
return ssc != "" || rrsc != ""
}
// LookupConfig - lookup storage class config and override with valid environment settings if any.
func LookupConfig ( kvs config . KVS , setDriveCount int ) ( cfg Config , err error ) {
cfg = Config { }
cfg . Standard . Parity = setDriveCount / 2
cfg . RRS . Parity = defaultRRSParity
if err = config . CheckValidKeys ( config . StorageClassSubSys , kvs , DefaultKVS ) ; err != nil {
return Config { } , err
}
ssc := env . Get ( StandardEnv , kvs . Get ( ClassStandard ) )
rrsc := env . Get ( RRSEnv , kvs . Get ( ClassRRS ) )
// Check for environment variables and parse into storageClass struct
if ssc != "" {
cfg . Standard , err = parseStorageClass ( ssc )
if err != nil {
return Config { } , err
}
}
if cfg . Standard . Parity == 0 {
cfg . Standard . Parity = setDriveCount / 2
}
if rrsc != "" {
cfg . RRS , err = parseStorageClass ( rrsc )
if err != nil {
return Config { } , err
}
}
if cfg . RRS . Parity == 0 {
cfg . RRS . Parity = defaultRRSParity
}
// Validation is done after parsing both the storage classes. This is needed because we need one
// storage class value to deduce the correct value of the other storage class.
if err = validateParity ( cfg . Standard . Parity , cfg . RRS . Parity , setDriveCount ) ; err != nil {
return Config { } , err
}
return cfg , nil
}