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Ethan Xue 6d68c4f6c0 IMPALA-8549: Add support for scanning DEFLATE text files

This patch adds support to Impala for scanning .DEFLATE files of
tables stored as text. To avoid confusion, it should be noted that
although these files have a compression type of DEFLATE in Impala,
they should be treated as if their compression type is DEFAULT.

Hadoop tools such as Hive and MapReduce support reading and writing
text files compressed using the deflate algorithm, which is the default
compression type. Hadoop uses the zlib library (an implementation of
the DEFLATE algorithm) to compress text files into .DEFLATE files,
which are not in the raw deflate format but rather the zlib format
(the zlib library supports three flavors of deflate, and Hadoop uses
the flavor that compresses data into deflate with zlib wrappings rather
than just raw deflate)

Testing:
There is a pre-existing unit test that validates compressing and
decompressing data with compression type DEFLATE. Also, modified
existing end-to-end testing that simulates querying files of various
formats and compression types. All core and exhaustive tests pass.

Change-Id: I45e41ab5a12637d396fef0812a09d71fa839b27a
Reviewed-on: http://gerrit.cloudera.org:8080/13857
Tested-by: Impala Public Jenkins <impala-public-jenkins@cloudera.com>
Reviewed-by: Tim Armstrong <tarmstrong@cloudera.com>

2019-08-08 01:05:02 +00:00

functional

IMPALA-8549: Add support for scanning DEFLATE text files

2019-08-08 01:05:02 +00:00

tpcds

Remove hive-benchmark test workload

2019-04-25 23:39:53 +00:00

tpch

Remove hive-benchmark test workload

2019-04-25 23:39:53 +00:00

README

IMPALA-8435. Prohibit operations on transactional table.

2019-05-22 18:09:42 +00:00

README

This directory contains Impala test data sets. The directory layout is structured as follows:

datasets/
   <data set>/<data set>_schema_template.sql
   <data set>/<data files SF1>/data files
   <data set>/<data files SF2>/data files

Where SF is the scale factor controlling data size. This allows for scaling the same schema to
different sizes based on the target test environment.

The schema template SQL files have the following format:

  The goal is to provide a single place to define a table + data files
  and have the schema and data load statements generated for each combination of file
  format, compression, etc. The way this works is by specifying how to create a
  'base table'. The base table can be used to generate tables in other file formats
  by performing the defined INSERT / SELECT INTO statement. Each new table using the
  file format/compression combination needs to have a unique name, so all the
  statements are pameterized on table name.
  The template file is read in by the 'generate_schema_statements.py' script to
  to generate all the schema for the Imapla benchmark tests.

  Each table is defined as a new section in the file with the following format:

  ====
  ---- SECTION NAME
  section contents
  ...
  ---- ANOTHER SECTION
  ... section contents
  ---- ... more sections...

  Note that tables are delimited by '====' and that even the first table in the
  file must include this header line.

  The supported section names are:

  DATASET
      Data set name - Used to group sets of tables together
  BASE_TABLE_NAME
      The name of the table within the database
  CREATE
      Explicit CREATE statement used to create the table (executed by Impala)
  CREATE_HIVE
      Same as the above, but will be executed by Hive instead. If specified,
      'CREATE' must not be specified.
  CREATE_KUDU
      Customized CREATE TABLE statement used to create the table for Kudu-specific
      syntax.

  COLUMNS
  PARTITION_COLUMNS
  ROW_FORMAT
  HBASE_COLUMN_FAMILIES
  TABLE_PROPERTIES
  HBASE_REGION_SPLITS
      If no explicit CREATE statement is provided, a CREATE statement is generated
      from these sections (see 'build_table_template' function in
      'generate-schema-statements.py' for details)

  ALTER
      A set of ALTER statements to be executed after the table is created
      (typically to add partitions, but may also be used for other settings that
      cannot be specified directly in the CREATE TABLE statement).

      These statements are ignored for HBase and Kudu tables.

  LOAD
      The statement used to load the base (text) form of the table. This is
      typically a LOAD DATA statement.

  DEPENDENT_LOAD
  DEPENDENT_LOAD_KUDU
  DEPENDENT_LOAD_HIVE
      Statements to be executed during the "dependent load" phase. These statements
      are run after the initial (base table) load is complete.

  HIVE_MAJOR_VERSION
       The required major version of Hive for this table. If the major version
       of Hive at runtime does not exactly match the version specified in this section,
       the table will be skipped.

       NOTE: this is not a _minimum_ version -- if HIVE_MAJOR_VERSION specifies '2',
                   the table will _not_ be loaded/created on Hive 3.