HDFS Encryption Issues
The following are possible workarounds for issues that may arise when encrypting HDFS directories and files. HDFS encryption is sometimes referred to in the documentation as HDFS Transparent Encryption or as HDFS Data at Rest Encryption.
KMS server jute buffer exception
DescriptionYou see the following error when the KMS (for example, as a ZooKeeper client) jute buffer size is insufficient to hold all the tokens:
2017-01-31 21:23:56,416 WARN org.apache.zookeeper.ClientCnxn: Session 0x259f5fb3c1000fb for server example.cloudera.com/10.172.0.1:2181, unexpected error, closing socket connection and attempting reconnect java.io.IOException: Packet len4196356 is out of range!
Retrieval of encryption keys fails
DescriptionYou see the following error when trying to list encryption keys
user1@example-sles-4:~> hadoop key list Cannot list keys for KeyProvider: KMSClientProvider[https: //example-sles-2.example.com:16000/kms/v1/]: Retrieval of all keys failed.
DistCp between unencrypted and encrypted locations fails
DescriptionBy default, DistCp compares checksums provided by the filesystem to verify that data was successfully copied to the destination. However, when copying between unencrypted and encrypted locations, the filesystem checksums will not match since the underlying block data is different.
NameNode - KMS communication fails after long periods of inactivity
Encrypted files and encryption zones cannot be created if a long period of time (by default, 20 hours) has passed since the last time the KMS and NameNode communicated.
Upgrading your cluster to CDH 6 will fix this problem. For instructions, see Upgrading CDH.
HDFS Trash Behaviour with Transparent Encryption Enabled
The Hadoop trash feature helps prevent accidental deletion of files and directories. When you delete a file in HDFS, the file is not immediately expelled from HDFS. Deleted files are first moved to the /user/<username>/.Trash/Current directory, with their original filesystem path being preserved. After a user-configurable period of time (fs.trash.interval), a process known as trash checkpointing renames the Current directory to the current timestamp, that is, /user/<username>/.Trash/<timestamp>. The checkpointing process also checks the rest of the .Trash directory for any existing timestamp directories and removes them from HDFS permanently. You can restore files and directories in the trash simply by moving them to a location outside the .Trash directory.
Trash Behaviour with HDFS Transparent Encryption Enabled
Starting with CDH 5.7, you can delete files or directories that are part of an HDFS encryption zone. As is evident from the procedure described above, moving and renaming files or directories is an important part of trash handling in HDFS. However, currently HDFS transparent encryption only supports renames within an encryption zone. To accommodate this, HDFS creates a local .Trash directory every time a new encryption zone is created. For example, when you create an encryption zone, enc_zone, HDFS will also create the /enc_zone/.Trash/ subdirectory. Files deleted from enc_zone are moved to /enc_zone/.Trash/<username>/Current/. After the checkpoint, the Current directory is renamed to the current timestamp, /enc_zone/.Trash/<username>/<timestamp>.
If you delete the entire encryption zone, it will be moved to the .Trash directory under the user's home directory, /users/<username>/.Trash/Current/enc_zone. Trash checkpointing will occur only after the entire zone has been moved to /users/<username>/.Trash. However, if the user's home directory is already part of an encryption zone, then attempting to delete an encryption zone will fail because you cannot move or rename directories across encryption zones.