Impala with HDFS
Although Impala typically works well with many large files in an HDFS storage system, there are times when you might perform some file cleanup to reclaim space, or advise developers on techniques to minimize space consumption and file duplication.
- Use compact binary file formats where practical. Numeric and
time-based data in particular can be stored in more compact form in
binary data files. Depending on the file format, various compression and
encoding features can reduce file size even further. You can specify the
STORED AS
clause as part of theCREATE TABLE
statement, orALTER TABLE
with theSET FILEFORMAT
clause for an existing table or partition within a partitioned table. -
You manage underlying data files differently depending on whether the corresponding Impala table is defined as an internal or external table:
- Use the
DESCRIBE FORMATTED
statement to check if a particular table is internal (managed by Impala) or external, and to see the physical location of the data files in HDFS. - For Impala-managed (
internal
) tables, useDROP TABLE
statements to remove data files. - For tables not managed by Impala (
external
) tables, use appropriate HDFS-related commands such ashadoop fs
,hdfs dfs
, ordistcp
, to create, move, copy, or delete files within HDFS directories that are accessible by theimpala
user. Issue aREFRESH table_name
statement after adding or removing any files from the data directory of an external table. - Use external tables to reference HDFS data files in their original location. With this technique, you avoid copying the files, and you can map more than one Impala table to the same set of data files. When you drop the Impala table, the data files are left undisturbed.
- Use the
LOAD DATA
statement to move HDFS files into the data directory for an Impala table from inside Impala, without the need to specify the HDFS path of the destination directory. This technique works for both internal and external tables.
- Use the
- Make sure that the HDFS trashcan is configured correctly. When you remove files from HDFS, the space might not be reclaimed for use by other files until sometime later, when the trashcan is emptied.
- Drop all tables in a database before dropping the database itself.
- If an
INSERT
statement encounters an error, and you see a directory named .impala_insert_staging or _impala_insert_staging left behind in the data directory for the table, it might contain temporary data files taking up space in HDFS. You might be able to salvage these data files.For example, delete those files through commands such as
hadoop fs
orhdfs dfs
to reclaim space before re-trying theINSERT
. IssueDESCRIBE FORMATTED table_name
to see the HDFS path where you can check for temporary files.
Configuring Scratch Space for Spilling to Disk
Impala uses intermediate files during large sorts, joins, aggregations, or analytic function operations The files are removed when the operation finishes. By default, intermediate files are stored in the directory /tmp/impala-scratch.
- By starting the impalad daemon with the
‑‑scratch_dirs="path_to_directory"
configuration option. - By specifying a different location in the Cloudera Manager in the Impala Daemon Scratch Directories field.
- You can specify a single directory or a comma-separated list of directories.
- You can specify an optional a capacity quota per scratch
directory using the colon (:) as the delimiter.
The capacity quota of
-1
or0
is the same as no quota for the directory. - The scratch directories must be on the local filesystem, not in HDFS.
- You might specify different directory paths for different hosts, depending on the capacity and speed of the available storage devices.
If there is less than 1 GB free on the filesystem where that directory resides, Impala still runs, but writes a warning message to its log.
Impala successfully starts (with a warning written to the log) if it cannot create or read and write files in one of the scratch directories.
Config option | Description |
---|---|
--scratch_dirs=/dir1,/dir2
|
Use /dir1 and /dir2 as scratch directories with no capacity quota. |
--scratch_dirs=/dir1,/dir2:25G
|
Use /dir1 and /dir2 as scratch directories with no capacity quota on /dir1 and the 25GB quota on /dir2. |
--scratch_dirs=/dir1:5MB,/dir2
|
Use /dir1 and /dir2 as scratch directories with the capacity quota of 5MB on /dir1 and no quota on /dir2. |
--scratch_dirs=/dir1:-1,/dir2:0
|
Use /dir1 and /dir2 as scratch directories with no capacity quota. |
Allocation from a scratch directory will fail if the specified limit for the directory is exceeded.
If Impala encounters an error reading or writing files in a scratch directory during a query, Impala logs the error, and the query fails.
Priority Based Scratch Directory Selection
The location of the intermediate files are configured by starting the impalad daemon with the flag ‑‑scratch_dirs="path_to_directory". Currently this startup flag uses the configured scratch directories in a round robin fashion. Automatic selection of scratch directories in a round robin fashion may not always be ideal in every situation since these directories could come from different classes of storage system volumes having different performance characteristics (SSD vs HDD, local storage vs network attached storage, etc.). To optimize your workload, you have an option to configure the priority of the scratch directories based on your storage system configuration.
The scratch directories will be selected for spilling based on how you configure the priorities of the directories and if you provide the same priority for multiple directories then the directories will be selected in a round robin fashion.
<dir-path>:<limit>:<priority>
<dir-path>::<priority>
Example:
/dir1:200GB:0
/dir1::0
/dir1
/dir1:200GB
/dir1:200GB:
In the example below, dir1 will be used as a spill target until it is full and then dir2, dir3, and dir4 will be used in a round robin fashion.
‑‑scratch_dirs="/dir1:200GB:0, /dir2:1024GB:1, /dir3:1024GB:1, /dir4:1024GB:1"
Increasing Scratch Capacity
You can compress the data spilled to disk to increase the effective scratch capacity. You
typically more than double capacity using compression and reduce spilling to disk. Use the
--disk_spill_compression_codec and –-disk_spill_punch_holes startup options. The
--disk_spill_compression_codec takes any value supported by the COMPRESSION_CODEC query
option. The value is not case-sensitive. A value of ZSTD
or
LZ4
is recommended (default is NONE).
For example:
--disk_spill_compression_codec=LZ4
--disk_spill_punch_holes=true
If you set --disk_spill_compression_codec
to a value other than NONE
, you must set --disk_spill_punch_holes
to true.
The hole punching feature supported by many file systems is used to reclaim space in scratch files during execution of a query that spills to disk. This results in lower scratch space requirements in many cases, especially when combined with disk spill compression. When this option is not enabled, scratch space is still recycled by a query, but less effectively in many cases.
You can specify a compression level for ZSTD
only. For example:
--disk_spill_compression_codec=ZSTD:10
--disk_spill_punch_holes=true
Compression levels from 1 up to 22 (default 3) are supported for ZSTD
. The
lower the compression level, the faster the speed at the cost of compression ratio.