Region Based Sharding
env.sh
.Introduction #
Having gone through the Resharding tutorial, you should be familiar with
VSchema and Vindexes.
In this tutorial, we will perform resharding on an existing keyspace using a location-based vindex. We will create 4 shards: -40
, 40-80
, 80-c0
, c0-
. The location will be denoted by a country
column in the customer table.
Create and Start the Cluster #
Start by copying the region_sharding
examples
included with Vitess to your preferred location and running the 101_initial_cluster.sh
script:
cp -r <vitess source path>/examples ~/my-vitess-example/examples
cp -r <vitess source path>/web ~/my-vitess-example
cd ~/my-vitess-example/examples/region_sharding
./101_initial_cluster.sh
Initial Schema #
This 101 script created the customer
table in the unsharded main
keyspace. This is the table that we will be
sharding by country.
We can connect to our new cluster — using the mysql
alias setup by env.sh
within the script — to confirm our current schema:
$ mysql --binary-as-hex=false
...
mysql> show databases;
+--------------------+
| Database |
+--------------------+
| main |
| information_schema |
| mysql |
| sys |
| performance_schema |
+--------------------+
5 rows in set (0.00 sec)
mysql> use customer;
Database changed
mysql> show tables;
+----------------+
| Tables_in_main |
+----------------+
| customer |
+----------------+
1 row in set (0.00 sec)
mysql> show create table customer\G
*************************** 1. row ***************************
Table: customer
Create Table: CREATE TABLE `customer` (
`id` int NOT NULL,
`fullname` varbinary(256) DEFAULT NULL,
`nationalid` varbinary(256) DEFAULT NULL,
`country` varbinary(256) DEFAULT NULL,
PRIMARY KEY (`id`)
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
1 row in set (0.00 sec)
Creating Test Data #
Let's now create some test data:
$ mysql < ./insert_customers.sql
$ mysql --table < ./show_initial_data.sql
+----+------------------+-------------+---------------+
| id | fullname | nationalid | country |
+----+------------------+-------------+---------------+
| 1 | Philip Roth | 123-456-789 | United States |
| 2 | Gary Shteyngart | 234-567-891 | United States |
| 3 | Margaret Atwood | 345-678-912 | Canada |
| 4 | Alice Munro | 456-789-123 | Canada |
| 5 | Albert Camus | 912-345-678 | France |
| 6 | Colette | 102-345-678 | France |
| 7 | Hermann Hesse | 304-567-891 | Germany |
| 8 | Cornelia Funke | 203-456-789 | Germany |
| 9 | Cixin Liu | 789-123-456 | China |
| 10 | Jian Ma | 891-234-567 | China |
| 11 | Haruki Murakami | 405-678-912 | Japan |
| 12 | Banana Yoshimoto | 506-789-123 | Japan |
| 13 | Arundhati Roy | 567-891-234 | India |
| 14 | Shashi Tharoor | 678-912-345 | India |
| 15 | Andrea Hirata | 607-891-234 | Indonesia |
| 16 | Ayu Utami | 708-912-345 | Indonesia |
+----+------------------+-------------+---------------+
Prepare For Resharding #
Now that we have some data in our unsharded main
keyspace, let's go ahead and perform the setup needed
for resharding. The initial vschema is unsharded and simply lists the customer table:
$ vtctldclient --server localhost:15999 GetVSchema main
{
"sharded": false,
"vindexes": {},
"tables": {
"customer": {
"type": "",
"column_vindexes": [],
"auto_increment": null,
"columns": [],
"pinned": "",
"column_list_authoritative": false,
"source": ""
}
},
"require_explicit_routing": false
}
We are next going to prepare for having a sharded vschema in the cluster by editing the
main_vschema_sharded.json
file and updating the the region_map
key's value to point to the
filesystem path where that file resides on your machine. For example (relative paths are OK):
"region_map": "./countries.json",
We then run the 201 script:
./201_main_sharded.sh
That script creates our sharded vschema as defined in the main_vschema_sharded.json
file and it
creates a lookup vindex using the
LookupVindex create
command.
Now if we look at the main
keyspace's vschema again we can see that it now includes the region_vdx
vindex and
a lookup vindex called customer_region_lookup
:
$ vtctldclient --server=localhost:15999 GetVSchema main --compact
{
"sharded": true,
"vindexes": {
"customer_region_lookup": {
"type": "consistent_lookup_unique",
"params": {
"from": "id",
"ignore_nulls": "false",
"table": "main.customer_region_lookup",
"to": "keyspace_id"
},
"owner": "customer"
},
"region_vdx": {
"type": "region_json",
"params": {
"region_bytes": "1",
"region_map": "./countries.json"
}
},
"hash": {
"type": "hash"
}
},
"tables": {
"customer": {
"column_vindexes": [
{
"name": "region_vdx",
"columns": [
"id",
"country"
]
},
{
"name": "customer_region_lookup",
"columns": [
"id"
]
}
]
},
"customer_region_lookup": {
"column_vindexes": [
{
"column": "id",
"name": "hash"
}
]
}
}
}
Notice that the vschema shows a hash
vindex type for
the lookup table. This is automatically created by the LookupVindex
workflow, along with the
backing table needed to hold the vindex and populating it with the correct rows (for additional details on this
command see the associated user-guide). We can see that by checking our main
database/keyspace again:
mysql> show tables;
+-------------------+
| Tables_in_vt_main |
+-------------------+
| customer |
| customer_lookup |
+-------------------+
2 rows in set (0.00 sec)
mysql> describe customer_lookup;
+-------------+----------------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+----------------+------+-----+---------+-------+
| id | int(11) | NO | PRI | NULL | |
| keyspace_id | varbinary(128) | YES | | NULL | |
+-------------+----------------+------+-----+---------+-------+
2 rows in set (0.01 sec)
mysql> select id, hex(keyspace_id) from customer_lookup;
+----+--------------------+
| id | hex(keyspace_id) |
+----+--------------------+
| 1 | 01166B40B44ABA4BD6 |
| 2 | 0106E7EA22CE92708F |
| 3 | 024EB190C9A2FA169C |
| 4 | 02D2FD8867D50D2DFE |
| 5 | 4070BB023C810CA87A |
| 6 | 40F098480AC4C4BE71 |
| 7 | 41FB8BAAAD918119B8 |
| 8 | 41CC083F1E6D9E85F6 |
| 9 | 80692BB9BF752B0F58 |
| 10 | 80594764E1A2B2D98E |
| 11 | 81AEFC44491CFE474C |
| 12 | 81D3748269B7058A0E |
| 13 | C062DCE203C602F358 |
| 14 | C0ACBFDA0D70613FC4 |
| 15 | C16A8B56ED414942B8 |
| 16 | C15B711BC4CEEBF2EE |
+----+--------------------+
16 rows in set (0.01 sec)
Now that the sharded vschema and lookup vindex and its backing table are ready, we can start tablets that will be
used for our new sharded main
keyspace:
./202_new_tablets.sh
Now we have tablets for our original unsharded main
keyspace — shard 0
— and one tablet for each of the 4 shards
we'll be using when we reshard the main
keyspace:
$ vtctldclient --server localhost:15999 GetTablets --keyspace=main
zone1-0000000100 main 0 primary localhost:15100 localhost:17100 [] 2023-01-24T04:31:08Z
zone1-0000000200 main -40 primary localhost:15200 localhost:17200 [] 2023-01-24T04:45:38Z
zone1-0000000300 main 40-80 primary localhost:15300 localhost:17300 [] 2023-01-24T04:45:38Z
zone1-0000000400 main 80-c0 primary localhost:15400 localhost:17400 [] 2023-01-24T04:45:38Z
zone1-0000000500 main c0- primary localhost:15500 localhost:17500 [] 2023-01-24T04:45:38Z
Perform Resharding #
Now that our new tablets are up, we can go ahead with the resharding:
./203_reshard.sh
This script executes one command:
vtctldclient --server localhost:15999 Reshard --target-keyspace main --workflow main2regions create --source-shards '0' --target-shards '-40,40-80,80-c0,c0-' --tablet-types=PRIMARY
This step copies all the data from our source main/0
shard to our new main
target shards and sets up
a VReplication workflow to keep the tables on the target in sync with the source.
You can learn more about what the VReplication Reshard
command
does and how it works in the reference page and the
Resharding user-guide.
We can check the correctness of the copy using the VDiff
command
and the <keyspace>.<workflow>
name we used for Reshard
command above:
$ vtctldclient --server localhost:15999 VDiff --target-keyspace main --workflow main2regions create
VDiff 044e8da0-9ba4-11ed-8bc7-920702940ee0 scheduled on target shards, use show to view progress
$ vtctldclient --server localhost:15999 VDiff --format=json --target-keyspace main --workflow main2regions show last
{
"Workflow": "main2regions",
"Keyspace": "main",
"State": "completed",
"UUID": "044e8da0-9ba4-11ed-8bc7-920702940ee0",
"RowsCompared": 32,
"HasMismatch": false,
"Shards": "-40,40-80,80-c0,c0-",
"StartedAt": "2023-01-24 05:00:26",
"CompletedAt": "2023-01-24 05:00:27"
}
We can take a look at the VReplication workflow's status using the
show
action:
vtctldclient --server localhost:15999 Reshard --target-keyspace main --workflow main2regions show
We now have a running stream from the source tablet (100
) to each of of our new main
target shards that will
keep the tables up-to-date with the source shard (0
).
Cutover #
Once the VReplication workflow's copy phase is complete, we can start cutting-over traffic. This is done via the SwitchTraffic actions included in the following scripts:
./204_switch_reads.sh
./205_switch_writes.sh
Now we can look at how our data is sharded, e.g. by looking at what's stored on the main/-40
shard:
mysql> show vitess_tablets;
+-------+----------+-------+------------+---------+------------------+-----------+----------------------+
| Cell | Keyspace | Shard | TabletType | State | Alias | Hostname | PrimaryTermStartTime |
+-------+----------+-------+------------+---------+------------------+-----------+----------------------+
| zone1 | main | -40 | PRIMARY | SERVING | zone1-0000000200 | localhost | 2023-01-24T04:45:38Z |
| zone1 | main | 0 | PRIMARY | SERVING | zone1-0000000100 | localhost | 2023-01-24T04:31:08Z |
| zone1 | main | 40-80 | PRIMARY | SERVING | zone1-0000000300 | localhost | 2023-01-24T04:45:38Z |
| zone1 | main | 80-c0 | PRIMARY | SERVING | zone1-0000000400 | localhost | 2023-01-24T04:45:38Z |
| zone1 | main | c0- | PRIMARY | SERVING | zone1-0000000500 | localhost | 2023-01-24T04:45:38Z |
+-------+----------+-------+------------+---------+------------------+-----------+----------------------+
5 rows in set (0.00 sec)
mysql> use main/-40;
Database changed
mysql> select * from customer;
+----+-----------------+-------------+---------------+
| id | fullname | nationalid | country |
+----+-----------------+-------------+---------------+
| 1 | Philip Roth | 123-456-789 | United States |
| 2 | Gary Shteyngart | 234-567-891 | United States |
| 3 | Margaret Atwood | 345-678-912 | Canada |
| 4 | Alice Munro | 456-789-123 | Canada |
+----+-----------------+-------------+---------------+
4 rows in set (0.01 sec)
mysql> select id,hex(keyspace_id) from customer_lookup;
+----+--------------------+
| id | hex(keyspace_id) |
+----+--------------------+
| 1 | 01166B40B44ABA4BD6 |
| 2 | 0106E7EA22CE92708F |
+----+--------------------+
2 rows in set (0.00 sec)
You can see that only data from US and Canada exists in the customer
table in this shard. If you look at the
other shards — 40-80
, 80-c0
, and c0-
— you will see that each shard contains 4 rows in customer
table.
The lookup table, however, has a different number of rows per shard. This is because we are using a
hash
vindex type to shard the lookup table
which means that it is distributed differently from the customer
table. We can see an example of this if we
look at the next shard, 40-80
:
mysql> use main/40-80;
Database changed
mysql> select * from customer;
+----+----------------+-------------+---------+
| id | fullname | nationalid | country |
+----+----------------+-------------+---------+
| 5 | Albert Camus | 912-345-678 | France |
| 6 | Colette | 102-345-678 | France |
| 7 | Hermann Hesse | 304-567-891 | Germany |
| 8 | Cornelia Funke | 203-456-789 | Germany |
+----+----------------+-------------+---------+
4 rows in set (0.00 sec)
mysql> select id, hex(keyspace_id) from customer_lookup;
+----+--------------------+
| id | hex(keyspace_id) |
+----+--------------------+
| 3 | 024EB190C9A2FA169C |
| 5 | 4070BB023C810CA87A |
| 9 | 80692BB9BF752B0F58 |
| 10 | 80594764E1A2B2D98E |
| 13 | C062DCE203C602F358 |
| 15 | C16A8B56ED414942B8 |
| 16 | C15B711BC4CEEBF2EE |
+----+--------------------+
7 rows in set (0.00 sec)
Cleanup #
Now that our resharding work is complete, we can teardown and delete the old main/0
source shard:
./206_down_shard_0.sh
./207_delete_shard_0.sh
All we have now is the sharded main
keyspace and the original unsharded main
keyspace (shard 0
) no
longer exists:
$ vtctldclient --server localhost:15999 GetTablets
zone1-0000000200 main -40 primary localhost:15200 localhost:17200 [] 2023-01-24T04:45:38Z
zone1-0000000300 main 40-80 primary localhost:15300 localhost:17300 [] 2023-01-24T04:45:38Z
zone1-0000000400 main 80-c0 primary localhost:15400 localhost:17400 [] 2023-01-24T04:45:38Z
zone1-0000000500 main c0- primary localhost:15500 localhost:17500 [] 2023-01-24T04:45:38Z
Teardown #
Once you are done playing with the example, you can tear the cluster down and remove all of its resources completely:
./301_teardown.sh