c9940d8c3f
- Introduces changes such as certain types of errors that can be ignored or which need to go into safe mode. - Update help text as per the review |
||
---|---|---|
.. | ||
README.md |
MinIO Storage Class Quickstart Guide
MinIO server supports storage class in erasure coding mode. This allows configurable data and parity disks per object.
Overview
MinIO supports two storage classes, Reduced Redundancy class and Standard class. These classes can be defined using environment variables
set before starting MinIO server. After the data and parity disks for each storage class are defined using environment variables,
you can set the storage class of an object via request metadata field x-amz-storage-class
. MinIO server then honors the storage class by
saving the object in specific number of data and parity disks.
Storage usage
The selection of varying data and parity drives has a direct impact on the drive space usage. With storage class, you can optimize for high redundancy or better drive space utilization.
To get an idea of how various combinations of data and parity drives affect the storage usage, let’s take an example of a 100 MiB file stored on 16 drive MinIO deployment. If you use eight data and eight parity drives, the file space usage will be approximately twice, i.e. 100 MiB file will take 200 MiB space. But, if you use ten data and six parity drives, same 100 MiB file takes around 160 MiB. If you use 14 data and two parity drives, 100 MiB file takes only approximately 114 MiB.
Below is a list of data/parity drives and corresponding approximate storage space usage on a 16 drive MinIO deployment. The field storage usage ratio is simply the drive space used by the file after erasure-encoding, divided by actual file size.
Total Drives (N) | Data Drives (D) | Parity Drives (P) | Storage Usage Ratio |
---|---|---|---|
16 | 8 | 8 | 2.00 |
16 | 9 | 7 | 1.79 |
16 | 10 | 6 | 1.60 |
16 | 11 | 5 | 1.45 |
16 | 12 | 4 | 1.34 |
16 | 13 | 3 | 1.23 |
16 | 14 | 2 | 1.14 |
You can calculate approximate storage usage ratio using the formula - total drives (N) / data drives (D).
Allowed values for STANDARD storage class
STANDARD
storage class implies more parity than REDUCED_REDUNDANCY
class. So, STANDARD
parity disks should be
- Greater than or equal to 2, if
REDUCED_REDUNDANCY
parity is not set. - Greater than
REDUCED_REDUNDANCY
parity, if it is set.
Parity blocks can not be higher than data blocks, so STANDARD
storage class parity can not be higher than N/2. (N being total number of disks)
Default value for STANDARD
storage class is N/2
(N is the total number of drives).
Allowed values for REDUCED_REDUNDANCY storage class
REDUCED_REDUNDANCY
implies lesser parity than STANDARD
class. So,REDUCED_REDUNDANCY
parity disks should be
- Less than N/2, if
STANDARD
parity is not set. - Less than
STANDARD
Parity, if it is set.
As parity below 2 is not recommended, REDUCED_REDUNDANCY
storage class is not supported for 4 disks erasure coding setup.
Default value for REDUCED_REDUNDANCY
storage class is 2
.
Get started with Storage Class
Set storage class
The format to set storage class environment variables is as follows
MINIO_STORAGE_CLASS_STANDARD=EC:parity
MINIO_STORAGE_CLASS_RRS=EC:parity
For example, set MINIO_STORAGE_CLASS_RRS
parity 2 and MINIO_STORAGE_CLASS_STANDARD
parity 3
export MINIO_STORAGE_CLASS_STANDARD=EC:3
export MINIO_STORAGE_CLASS_RRS=EC:2
Storage class can also be set via mc admin config
get/set commands to update the configuration. Refer storage class for
more details.
Note
-
If
STANDARD
storage class is set via environment variables ormc admin config
get/set commands, andx-amz-storage-class
is not present in request metadata, MinIO server will applySTANDARD
storage class to the object. This means the data and parity disks will be used as set inSTANDARD
storage class. -
If storage class is not defined before starting MinIO server, and subsequent PutObject metadata field has
x-amz-storage-class
present with valuesREDUCED_REDUNDANCY
orSTANDARD
, MinIO server uses default parity values.
Set metadata
In below example minio-go
is used to set the storage class to REDUCED_REDUNDANCY
. This means this object will be split across 6 data disks and 2 parity disks (as per the storage class set in previous step).
s3Client, err := minio.New("localhost:9000", "YOUR-ACCESSKEYID", "YOUR-SECRETACCESSKEY", true)
if err != nil {
log.Fatalln(err)
}
object, err := os.Open("my-testfile")
if err != nil {
log.Fatalln(err)
}
defer object.Close()
objectStat, err := object.Stat()
if err != nil {
log.Fatalln(err)
}
n, err := s3Client.PutObject("my-bucketname", "my-objectname", object, objectStat.Size(), minio.PutObjectOptions{ContentType: "application/octet-stream", StorageClass: "REDUCED_REDUNDANCY"})
if err != nil {
log.Fatalln(err)
}
log.Println("Uploaded", "my-objectname", " of size: ", n, "Successfully.")