I have following this tutorial: https://learn.hashicorp.com/vault/operations/ops-vault-ha-consul
and make it same but using different IP addresses. but when I tried to unseald the active node, the standby mode still sealed.
I just wondering that from documentation said, if we are active HA we are just need to unseal it from 1 node and the rest will be activated automaticaly. CMIIW
this is from active node that was did sealed:
ubuntu#ip-172-31-2-227:~$ vault status
Key Value
--- -----
Seal Type shamir
Initialized true
Sealed false
Total Shares 5
Threshold 3
Version 1.0.0
Cluster Name vault-cluster-762abd6d
Cluster ID ad4a8558-de0d-2b4b-6212-28ab1827fa88
HA Enabled true
HA Cluster https://172.31.2.227:8201
HA Mode active
ubuntu#ip-172-31-2-227:~$
and this is from standby node:
ubuntu#ip-172-31-15-175:~$ vault status
Key Value
--- -----
Seal Type shamir
Initialized true
Sealed true
Total Shares 5
Threshold 3
Unseal Progress 0/3
Unseal Nonce n/a
Version 1.0.0
HA Enabled true
ubuntu#ip-172-31-15-175:~$
Am I missed a thing when reading the documentation ?
Thank you
From that guide
Now youâll need to move on to initializing and unsealing each Vault instance.
Emphasis on the each.
You'll need to unseal each node separately. This is by design, so that no rogue node can join the cluster if its not authorised to do so (and you authorise a node by giving it the unseal keys).
Related
I'm using WAS ND and want to have dmgr profile with federated managed profile app.
I am creating cluster using:
AdminTask.createCluster('[-clusterConfig [-clusterName %s -preferLocal true]]' % nameOfModulesCluster)
Next, I'm configuring my WAS instance, queues, datasources, jdbc, JMS Activation Specs, factories etc.
By the time I want to create cluster member, I'm displaying:
print("QUEUES: \n" + AdminTask.listSIBJMSQueues(AdminConfig.getid('/ServerCluster:ModulesCluster/')))
print("JMS AS: \n" + AdminTask.listSIBJMSActivationSpecs(AdminConfig.getid('/ServerCluster:ModulesCluster/')))
And it returns all queues I've created earlier. But when I'm calling
AdminTask.createClusterMember('[-clusterName %(cluster)s -memberConfig [-memberNode %(node)s -memberName %(server)s -memberWeight 2 -genUniquePorts true -replicatorEntry false] -firstMember [-templateName default -nodeGroup DefaultNodeGroup -coreGroup DefaultCoreGroup -resourcesScope cluster]]' % {'cluster': nameOfCluster, 'node': nameOfNode, 'server': nameOfServer})
AdminConfig.save()
configuration displayed earlier is... gone. Some configuration (like datasources) is still displayed in ibm/console, but queues and jms as are not. The same print is displaying nothing, but member is added to cluster.
I can't find any information using google. I've tried AdminNodeManagement.syncActiveNodes(), but it won't work since I'm using
/opt/IBM/WebSphere/AppServer/bin/wsadmin.sh -lang jython -conntype NONE -f global.py
and AdminControl is not available.
What should I do in order to keep my configuration created before clustering? Do I have to sync it somehow?
This is the default behavior and is due to the -resourcesScope attribute in the createClusterMember command. This attribute determines how the server resources are promoted in the cluster, while adding the first cluster member.
Valid options for resourcesScope are :
Cluster: moves the resources of the first cluster member to the cluster level. The resources of the first cluster member replace the resources of the cluster. (is the default option)
Server: maintains the server resources at the new cluster member level. The cluster resources remain unchanged.
Both: copies the resources of the cluster member (server) to the cluster level. The resources of the first cluster member replace the resources of the cluster. The same resources exist at both the cluster and cluster member scopes.
Since you have set "-resourcesScope cluster" in your createClusterMember command, all configuration created at cluster scope are being deleted/replaced by the empty configurations of the new cluster member.
So, for your configurations to work, set "-resourcesScope server", such that the cluster configurations are not replaced by the cluster member configurations.
AdminTask.createClusterMember('[-clusterName %(cluster)s -memberConfig [-memberNode %(node)s -memberName %(server)s -memberWeight 2 -genUniquePorts true -replicatorEntry false] -firstMember [-templateName default -nodeGroup DefaultNodeGroup -coreGroup DefaultCoreGroup -resourcesScope server]]' % {'cluster': nameOfCluster, 'node': nameOfNode, 'server': nameOfServer})
AdminConfig.save()
Refer "Select how the server resources are promoted in the cluster" section in https://www.ibm.com/support/knowledgecenter/en/SSAW57_8.5.5/com.ibm.websphere.nd.doc/ae/urun_rwlm_cluster_create2_v61.html for more details.
i have installed cassandra on two individual nodes both on Amazon.when i am trying to configure nodes to form a cluster the nodes. I am receiving the following error.
ERROR [main] 2016-05-12 11:01:26,402 CassandraDaemon.java:381 - Fatal configuration error
org.apache.cassandra.exceptions.ConfigurationException: Cannot change the number of tokens from 1 to 256.
I using these setting in cassandra.yaml file
listen_address and rpc_address to : private Ip address
seeds : Public Ip [Elastic Ip address]
num_tokens: 256
This message usually appears when num_tokens is changed after the node has been bootstrapped.
The solution is:
Stop Cassandra on all nodes
Delete the data directory (inc. datafiles, commitlog and saved_caches)
Double check that num_tokens is set to 256, initial_token is commented out and auto_bootstrap is set to true in cassandra.yaml
Start Cassandra on all nodes
This will wipe your existing cluster and cause the nodes to bootstrap from scratch again.
Cassandra doesn't support changing between vnodes and static tokens after a datacenter is bootstrapped. If you need to change from vnodes to static tokens or vice versa in an already running cluster, you'll need to create a second datacenter using the new configuration, stream your data across, and then decomission the original nodes.
Linking back to this question:
Why not enable virtual node in an Hadoop node?
I'm running a mixed 3 node cluster with 2 cassandra and 1 analytics nodes and disabled the virtual nodes by generating 3 tokens with the utility given by DataStax enterprise.
But when I run 'nodetool status' command, I still see 256 tokens with each node and when a mapreduce job is created, it creates 257 mappers and takes a very long time to execute a query with small data.
So my specific questions are:
Is virtual node setting still not disabled? How can I verify if its disabled?
If its disabled then why 257 mappers are still created for each job? Is there a different configuration for that?
Thanks much for any help!!
1) It's not disabled. You can tell because it still says 256 tokens in nodetool status.
To disable vnodes you need to make sure that you change the num_tokens variable in the cassandra.yamnl
# If you already have a cluster with 1 token per node, and wish to migrate to
# multiple tokens per node, see http://wiki.apache.org/cassandra/Operations
# num_tokens: 256 << Make sure this line is commented out
# initial_token allows you to specify tokens manually. While you can use it with
# vnodes (num_tokens > 1, above) -- in which case you should provide a
# comma-separated list -- it's primarily used when adding nodes to legacy clusters
# that do not have vnodes enabled.
initial_token: << Your generated token goes here
We are trying to run a cassandra cluster on AWS/EC2 within a standard VPC footprint (cassandra nodes on private subnets). Because this is AWS there is always a chance that an EC2 instance will terminate or reboot with no warning. I have been simulating this case on a test cluster and I am seeing things with the cluster that I thought a cluster was suppose to prevent. Specifically if a node reboots some data will go temporarily missing until the node completes its reboot. If a node terminates it appears that some data is lost forever.
For my test I just did a bunch of writes (using QUORUM consistency) to some keyspaces then interrogate the contents of those keyspaces as I bring down nodes (either through reboot or terminate). I'm just using cqlsh SELECT to do the keyspace/column family interrogation of the cluster using ONE consistency level.
Note, even though I am performing no writes to the cluster while I am doing the SELECTs rows temporarily disappear when rebooting and can permanently go missing during termination.
I thought Netflix Priam might be able to help, but sadly it doesn't work in a VPC the last time I checked.
Also, because we are using ephemeral storage instances there is no equivalent of 'shutdown' so I cannot run any scripts during reboot/terminate of an instance to perform a nodetool decommission or nodetool removenode before an instance goes away. Terminate is the equivalent of kicking the plug out of the wall.
Since I am using a replication factor of 3 and quorum/write that should mean that all data is written to at least 2 nodes. So, unless I am totally misunderstanding things (which is possible), losing one node should not mean that I lose any data for any period of time when I am using consistency level ONE for the read.
Questions
Why wouldn't a 6 node cluster with a replication factor of 3 work?
Do I need to run something like a 12 node cluster with a replication factor of 7? Don't bother telling me that will fix the problem, because it doesn't.
Do I need to use consistency level of ALL on the writes then use ONE or QUORUM on the reads?
Is there something not quite right with virtual nodes? unlikely
Are there nodetool commands besides removenode that I need to run when a node terminates to recover missing data? As mentioned earlier, when a reboot occurs, eventually the missing data reappears.
Is there some cassandra savant who can look at my cassandra.yaml file below and send me on the path to salvation?
More Info added 7/19
I don't think this is a QUORUM vs ONE vs ALL is the issue. The test I set up performs no writes to the keyspaces after the initial population of the column families. So the data has had plenty of time (hours) to make it to all the nodes as required by the replication factor. Plus the test dataset is REALLY small (2 column families with about 300-1000 values each). So in other words, the data is completely static.
The behavior I am seeing seems to be tied to the fact that the ec2 instance is no longer on the network. The reason I say this is because if I log on to a node and just do a cassandra stop I see no loss of data. But if I do the reboot or terminate I start getting the following in a stack trace.
CassandraHostRetryService - Downed Host Retry service started with queue size -1 and retry delay 10s
CassandraHostRetryService - Downed Host retry shutdown complete
CassandraHostRetryService - Downed Host retry shutdown hook called
Caused by: TimedOutException()
Caused by: TimedOutException()
So it seems to be more of a networking communication issue in that the cluster is expecting, for example 10.0.12.74, to be on the network after it has joined the cluster. If that ip is suddenly unreachable either due to reboot or termination the timeouts start happening.
When I do a nodetool status under all three scenarios (cassandra stop, reboot or terminate) the status of the node shows up as DN. Which is what you would expect. Eventually nodetool status will return to UN with cassandra start or reboot, but obviously termination always stays DN.
Details of my Configuration
Here are some details of my configuration (cassandra.yaml is at the bottom of this posting):
Nodes are running in private subnets of a VPC.
Cassandra 1.2.5 with num_tokens: 256 (virtual nodes). initial_token: (blank). I am really hoping this works because all of our nodes run in autoscaling groups so the thought that redistribution could be handle dynamically is appealing.
EC2 m1.large one seed and one non-seed node in each availability zone. (so 6 total nodes in the cluster).
Ephemeral storage, not EBS.
Ec2Snitch with NetworkTopologyStrategy and all keyspaces have replication factor of 3.
Non-seed nodes are auto_bootstraped, seed nodes are not.
sample cassandra.yaml file
cluster_name: 'TestCluster'
num_tokens: 256
initial_token:
hinted_handoff_enabled: true
max_hint_window_in_ms: 10800000
hinted_handoff_throttle_in_kb: 1024
max_hints_delivery_threads: 2
authenticator: org.apache.cassandra.auth.AllowAllAuthenticator
authorizer: org.apache.cassandra.auth.AllowAllAuthorizer
partitioner: org.apache.cassandra.dht.Murmur3Partitioner
disk_failure_policy: stop
key_cache_size_in_mb:
key_cache_save_period: 14400
row_cache_size_in_mb: 0
row_cache_save_period: 0
row_cache_provider: SerializingCacheProvider
saved_caches_directory: /opt/company/dbserver/caches
commitlog_sync: periodic
commitlog_sync_period_in_ms: 10000
commitlog_segment_size_in_mb: 32
seed_provider:
- class_name: org.apache.cassandra.locator.SimpleSeedProvider
parameters:
- seeds: "SEED_IP_LIST"
flush_largest_memtables_at: 0.75
reduce_cache_sizes_at: 0.85
reduce_cache_capacity_to: 0.6
concurrent_reads: 32
concurrent_writes: 8
memtable_flush_queue_size: 4
trickle_fsync: false
trickle_fsync_interval_in_kb: 10240
storage_port: 7000
ssl_storage_port: 7001
listen_address: LISTEN_ADDRESS
start_native_transport: false
native_transport_port: 9042
start_rpc: true
rpc_address: 0.0.0.0
rpc_port: 9160
rpc_keepalive: true
rpc_server_type: sync
thrift_framed_transport_size_in_mb: 15
thrift_max_message_length_in_mb: 16
incremental_backups: true
snapshot_before_compaction: false
auto_bootstrap: AUTO_BOOTSTRAP
column_index_size_in_kb: 64
in_memory_compaction_limit_in_mb: 64
multithreaded_compaction: false
compaction_throughput_mb_per_sec: 16
compaction_preheat_key_cache: true
read_request_timeout_in_ms: 10000
range_request_timeout_in_ms: 10000
write_request_timeout_in_ms: 10000
truncate_request_timeout_in_ms: 60000
request_timeout_in_ms: 10000
cross_node_timeout: false
endpoint_snitch: Ec2Snitch
dynamic_snitch_update_interval_in_ms: 100
dynamic_snitch_reset_interval_in_ms: 600000
dynamic_snitch_badness_threshold: 0.1
request_scheduler: org.apache.cassandra.scheduler.NoScheduler
index_interval: 128
server_encryption_options:
internode_encryption: none
keystore: conf/.keystore
keystore_password: cassandra
truststore: conf/.truststore
truststore_password: cassandra
client_encryption_options:
enabled: false
keystore: conf/.keystore
keystore_password: cassandra
internode_compression: all
I think http://www.datastax.com/documentation/cassandra/1.2/cassandra/dml/dml_config_consistency_c.html will clear up a lot of this. In particular, QUORUM/ONE is not guaranteed to return the most recent data. QUORUM/QUORUM is. So is ALL/ONE, but that will be intolerant to failure on write.
Edit to go with the new information:
CassandraHostRetryService is part of Hector. I assumed you were testing with cqlsh like a sane person would. Lessons:
Use cqlsh for testing
Use the DataStax Java Driver for building your application, which is faster, easier to use, and has more insight into the cluster state than Hector thanks to the native protocol it's built on.
I have the cassandra cluster of 12 nodes on EC2.
Because of some failure we lost one of the node completely.I mean that machine do not exist anymore.
So i have created the new EC2 instance with different ip and same token as that of the dead node and i also had the backup of data on that node so it works fine
But the problem is the dead nodes ip still appears as a unreachable node in describe cluster.
As that node (EC2 instance) does not exist anymore I can not use the nodetool decommission or nodetool disablegossip
How can i get rid of this unreachable node
I had the same problem and I resolved it with removenode, which does not require you to find and change the node token.
First, get the node UUID:
nodetool status
DN 192.168.56.201 ? 256 13.1% 4fa4d101-d8d2-4de6-9ad7-a487e165c4ac r1
DN 192.168.56.202 ? 256 12.6% e11d219a-0b65-461e-babc-6485343568f8 r1
UN 192.168.2.91 156.04 KB 256 12.4% e1a33ed4-d613-47a6-8b3b-325650a2bbd4 RAC1
UN 192.168.2.92 156.22 KB 256 13.6% 3a4a086c-36a6-4d69-8b61-864ff37d03c9 RAC1
UN 192.168.2.93 149.6 KB 256 11.3% 20decc72-8d0a-4c3b-8804-cc8bc98fa9e8 RAC1
As you can see the .201 and .202 are dead and on a different network. These have been changed to .91 and .92 without proper decommissioning and recommissioning. I was working on installing the network and made a few mistakes...
Second, remove the .201 with the following command:
nodetool removenode 4fa4d101-d8d2-4de6-9ad7-a487e165c4ac
(in older versions it was nodetool remove ...)
But just like for the nodetool removetoken ..., it blocks... (see comment by samarth in psandord answer) However, it has a side effect, it puts that UUID in a list of nodes to be removed. So next we can force the removal with:
nodetool removenode force
(in older versions it was nodetool remove ...)
Now the node accepts the command it tells me that it is removing the invalid entry:
RemovalStatus: Removing token (-9136982325337481102). Waiting for replication confirmation from [/192.168.2.91,/192.168.2.92].
We also see that it communicates with the two other nodes that are up and thus it takes a little time, but it is still quite fast.
Next a nodetool status does not show the .201 node. I repeat with .202 and now the status is clean.
After that you may also want to run a cleanup as mentioned in psanford answer:
nodetool cleanup
The cleanup should be run on all nodes, one by one, to make sure the change is fully taken in account.
Normally when replacing a node you want to set the new node's token to (failure node's token) - 1 and let it bootstrap. As of 1.0 there is now a flag you can specify on startup to replace a dead node: "cassandra.replace_token=".
Since you have already added the new node with the same token there's an extra step:
Move the new node's token to (failure node's token) - 1 using nodetool move
Run nodetool removetoken <failed node's token> from one of the up nodes
Run nodetool cleanup on each node
These are basically the pre 1.0 instructions for replacing a dead node with the additional token move.