Repairs

Repairing Search Indexes

Riak search indexes are repaired whenever objects are corrected by read repair.

Active anti-entropy (AAE) is provided for Riak search.

Riak KV’s configuration for AAE will be used for Riak search’s AAE hashtrees by default.

Riak search can be provided its own AAE settings in the search config settings.

Repairing Secondary Indexes

The riak-admin repair-2i command can be used to repair any stale or missing secondary indexes. This command scans and repairs any mismatches between the secondary index data used for querying and the secondary index data stored in the Riak objects. It can be run on all partitions of a node or on a subset of them. We recommend scheduling these repairs outside of peak load time.

Running a Repair

The secondary indexes of a single partition can be repaired by executing:

riak-admin repair-2i »Partition ID«

The secondary indexes of every partition can be repaired by executing the same command, without a partition ID:

riak-admin repair-2i

Monitoring a Repair

Repairs can be monitored using the below command:

riak-admin repair-2i status

Killing a Repair

In the event the secondary index repair operation needs to be halted, all repairs can be killed with:

riak-admin repair-2i kill

Repairing LevelDB

In the event of major hardware or filesystem problems, LevelDB can become corrupted. These failures are uncommon, but they could happen, as heavy loads can push I/O limits.

Checking for Compaction Errors

Any time there is a compaction error, it will be noted in the LevelDB logs. Those logs are located in a LOG file in each instance of LevelDB in a Riak node, specifically in #(platform_data_dir)/leveldb/<vnode>/LOG. The platform_data_dir can be specified in the riak.conf configuration file. The default is ./data.

Compaction error messages take the following form:

<timestamp> Compaction Error: Corruption: corrupted compressed block contents

To check whether your node has experienced such errors, you will need to run a script that searches for Compaction Error in each LOG file. Here is an example script:

find . -name "LOG" -exec grep -l 'Compaction error' {} \;

If there are compaction errors in any of your vnodes, those will be listed in the console. If any vnode has experienced such errors, you would see output like this:

./442446784738847563128068650529343492278651453440/LOG 

While corruption on one vnode is not uncommon, corruption in several vnodes very likely means that there is a deeper problem that needs to be address, perhaps on the OS or hardware level.

Healing Corrupted LevelDBs

When you have discovered corruption in your LevelDB backend, the steps you take to resolve it will depend on whether you are using tiered storage or not.

Choose your setup below:

  1. Just LevelDB
  2. LevelDB with tiered storage

LevelDB

Follow the steps below to heal your corrupted LevelDB.

1. Stop the node:

riak stop

2. To repair the corrupted LevelDB through the Erlang shell, you will run the the riak ertspath command to output the path to Riak’s internal Erlang runtime, and the erl command to start the Erlang shell. You can run them in a single command:

`riak ertspath`/erl
Erlang version

Note, you must start up the Erlang shell using the same version of Erlang packaged with Riak. The above command will make sure you do so. If you choose not to use the above command please pay close attention to the version and location you use with the erl command.

3. Once in the shell, run the following command:

application:set_env(eleveldb, data_root, "").

4. Then set Options equal to an empty list:

Options = [].

5. Set some supportive variables for the repair process. These will be custom to your environment and specific repair needs. VNodeList should be a list of each corrupted LevelDB that you found using the find command above.

DataRoot = "»path to your data root«".
VNodeList = ["»vnode id you want to repair«", ...].

6. Run the following commands, which will parse the information you provided and run eleveldb:repair over all of the VNode IDs that you listed in VNodeList.

RepairPath = fun(DataRoot, VNodeNumber) -> Path = lists:flatten(DataRoot ++ "/" ++ VNodeNumber), io:format("Repairing ~s.~n",[Path]), Path end.
[eleveldb:repair(RepairPath(DataRoot, VNodeList), Options) || VNodeNumber <- VNodeList].

7. This process may take several minutes. When it has completed successfully, you can restart the node and continue as usual.

riak start

LevelDB with Tiered Storage

Follow the steps below to heal your corrupted LevelDB.

1. Stop the node:

riak stop

2. Check your riak.conf file and make note of the following values:

  • leveldb.tiered (integer)
  • leveldb.tiered.path.fast
  • leveldb.tiered.path.slow

3. To repair the corrupted LevelDB through the Erlang shell, you will run the the riak ertspath command to output the path to Riak’s internal Erlang runtime, and the erl command to start the Erlang shell. You can run them in a single command:

`riak ertspath`/erl
Erlang version

Note, you must start up the Erlang shell using the same version of Erlang packaged with Riak. The above command will make sure you do so. If you choose not to use the above command please pay close attention to the version and location you use with the erl command.

4. Once in the shell, run the following command:

application:set_env(eleveldb, data_root, "").

5. Then supply the information you noted in Step 2:

Options = [
  {tiered_slow_level, »leveldb.tiered value«},    
  {tiered_fast_prefix, "»leveldb.tiered.path.fast value«"},
  {tiered_slow_prefix, "»leveldb.tiered.path.slow value«"}
].

6. Set some supportive variables for the repair process. These will be custom to your environment and specific repair needs. VNodeList should be a list of each corrupted LevelDB partitions that you found using the find command above provided in double quotes.

DataRoot = "»path to your data root«".
VNodeList = ["»vnode id you want to repair«", ...].

7. Run the following commands, which will parse the information you provided and run eleveldb:repair over all of the VNode IDs that you listed in VNodeList.

RepairPath = fun(DataRoot, VNodeNumber) -> Path = lists:flatten(DataRoot ++ "/" ++ VNodeNumber), io:format("Repairing ~s.~n",[Path]), Path end.
[eleveldb:repair(RepairPath(DataRoot, VNodeList), Options) || VNodeNumber <- VNodeList].

8. This process may take several minutes. When it has completed successfully, you can restart the node and continue as usual.

riak start

Repairing Partitions

If you have experienced a loss of object replicas in your cluster, you may need to perform a repair operation on one or more of your data partitions. Repairs of Riak KV data are typically run in situations where partitions or whole nodes are lost due to corruption or hardware failure. In these cases, nodes or partitions are brought back online without any data, which means that the need to repair data will depend mainly on your use case and on whether active anti-entropy is enabled.

You will need to run a repair if the following are both true:

  • Active anti-entropy is disabled
  • You have both non-expiring data and keys that are not accessed frequently (which means that they are not likely to be subject to read repair)

You will most likely not need to run a repair operation if any of the following is true:

  • Active anti-entropy is enabled
  • Your entire key set is accessed frequently, allowing passive read repair to repair the partitions
  • Your data expires frequently

In most cases, we recommend either using active anti-entropy or, if necessary and only when necessary, running a repair operation using the instructions below.

Running a Repair

The Riak KV repair operation will repair objects from a node’s adjacent partitions on the ring, consequently fixing the index. This is done as efficiently as possible by generating a hash range for all the buckets and thus avoiding a preflist calculation for each key. Only a hash of each key is done, its range determined from a bucket->range map, and then the hash is checked against the range.

Repairs are not allowed to occur during ownership changes. Since ownership entails the moving of partition data it is safest to make them mutually exclusive events. If you join or remove a node all repairs across the entire cluster will be killed.

Repairing a Single Partition

In the case of data loss in a single partition, only that partition can be repaired.

  1. From any node in the cluster, attach to Riak’s Erlang shell:

    riak attach
    

    You may have to hit Enter again to get a console prompt.

  2. Execute the repair for a single partition using the below command:

    riak_kv_vnode:repair(»Partition ID«).
    

    where »Partition_ID« is replaced by the ID of the partition to repair. For example:

    riak_kv_vnode:repair(251195593916248939066258330623111144003363405824).
    
  3. Once the command has been executed, detach from Riak using Control-C.

Repairing All Partitions on a Node

If a node is lost, all partitions currently owned by that node can be repaired.

  1. From any node in the cluster, attach to Riak’s Erlang shell:

    riak attach
    
  2. Get a copy of the current Ring:

    {ok, Ring} = riak_core_ring_manager:get_my_ring().
    

    You will get a lot of output with ring record information. You can safely ignore it.

  3. Get a list of partitions owned by the node that needs to be repaired. Replace dev1@127.0.0.1 with the name of the node to be repaired. The name can be found in each node’s vm.args file, specified as the -name parameter, if you are using the older configuration system; if you are using the newer, riak-conf-based system, the name is given by the nodename parameter.

    Partitions = [P || {P, 'dev1@127.0.0.1'} <- riak_core_ring:all_owners(Ring)].
    

    Note: The above is an Erlang list comprehension that loops over each {Partition, Node} tuple in the ring and extracts only the partitions that match the given node name, as a list.

  4. Execute the repair on all the partitions. Executing the repairs all at once will cause a lot of {shutdown, max_concurrency} messages in the logs. These can be safely ingored, as it is just the transfers mechanism enforcing an upper limit on the number of concurrent transfers.

    [riak_kv_vnode:repair(P) || P <- Partitions].
    
  5. Once the command has been executed, detach from Riak using Control-C.

Monitoring Repairs

The above repair commands can be monitored via the riak-admin transfers command.

Killing a Repair

Currently there is no easy way to kill an individual repair. The only option is to kill all repairs targeting a given node. This is done by running riak_core_vnode_manager:kill_repairs(Reason) on the node undergoing repair. This command can be executed from a riak attach session like below:

riak_core_vnode_manager:kill_repairs(killed_by_user).

Log entries will reflect that repairs were killed manually, and will look similar to:

2012-08-10 10:14:50.529 [warning] <0.154.0>@riak_core_vnode_manager:handle_cast:395 Killing all repairs: killed_by_user

Repairs on a node can also be killed remotely from another node in the cluster. From a riak attach session the below command can be used:

rpc:call('dev1@127.0.0.1', riak_core_vnode_manager, kill_repairs, [killed_by_user]).