This project allows developers to write and execute tests for SQL databases running on Hadoop. Individual test requirements such as data generation, HDFS file copy/storage of generated data and schema creation are expressed declaratively and are automatically fulfilled by the framework. Developers can write tests using Java (using a TestNG like paradigm and AssertJ style assertion) or by providing query files with expected results.
To use Tempto you need a Java 17 runtime.
Other dependencies will vary based on the set of features you are using.
For automatic provisioning HDFS based tables you need:
- Running Hadoop cluster with WebHDFS
- We suggest that cluster support XAttr metadata. Having that feature enabled improves test performance slightly.
- Requirement - the set of resources a test needs in order to run, e.g. data stored HDFS, Hive tables, etc.
- Test case - test of single functionality e.g. query.
- Test group - logical grouping of test cases. For example one could define a join group, a group by group, a window function group etc. in order to test different SQL functionality.
- Test context - object used to store context information specific to a test.
- Java test - test written in Java, annotated with @Test, following the TestNG convention.
- File based test - test written by specifying the query to run and the corresponding result using files.
To use Tempto you need machine to execute test code and machine or machines to run tested application.
Note that the machine running the framework and tests does not have to be the same as the machine or set of machines running your SQL on Hadoop database. For example, typical configuration is:
- the framework and tests running on a Jenkins slave
- tested application cluster is running on separate machines and is accessed over network
Tempto uses SLF4J for logging.
Tempto sets up 'test_id' entry in SLF4J logs context (MDC). It corresponds to name of test currently being run. It can be used in logging patterns. If you are using log4j as a backend you can use it as below:
log4j.appender.CONSOLE=org.apache.log4j.ConsoleAppender
log4j.appender.CONSOLE.Target=System.out
log4j.appender.CONSOLE.layout=org.apache.log4j.PatternLayout
log4j.appender.CONSOLE.layout.conversionPattern=%d{yyyy-MM-dd HH:mm:ss} %-5p %c{1}:%L [%X{test_id}] - %m%n
The test execution environment is configured via a hierarchical YAML file. The YAML file
is by default loaded from the classpath and must be named tempto-configuration.yaml
.
Configuration files locations can be overidden by using following java system properties:
tempto.configurations
- for overriding global configuration file locations
java ... -Dtempto.configurations=my_configuration.yaml,/tmp/my_local_configuration.yaml
Configuration files are read from left to right.
Configuration files can also be overridden by passing command line arguments to
tests runner based on TemptoRunner
Java class. See below for details.
The configuration file can contain variable placeholders in form of ${variable_name}
.
Variables placeholders in templates are expanded during tests execution based on:
- System environment variables
- Other configuration keys in the file
Example configuration file with variables:
common:
master_host: localhost
hdfs:
host: ${common.master_host}
This section is used to configure how the framework accesses HDFS. During the fulfillment process,
the framework accesses HDFS through the WebHDFS REST API. In your Java tests you may also
access HDFS through the HdfsClient
interface. Below is an example hdfs configuration section:
hdfs: # HDFS related settings
username: hdfs # username to use for accessing HDFS
webhdfs:
uri: http://master:50070 # service exposing HDFS REST interface
Framework supports the SPNEGO
authentication for HDFS. Below is the sample configuration:
hdfs:
username: [email protected] # kerberos principal to use for accessing HDFS
webhdfs:
uri: http://master:50070 # service exposing HDFS REST interface
authentication: SPNEGO # authentication type now is set to `SPNEGO`
keytab: /path/to/user.keytab # path to the `user` keytab
- databases
Currently we support only JDBC based database connections. Multiple such connections may be defined in this section of the configuration. By default, tests and queries are executed using the connection named "default". You can change "default" to point to whichever JDBC connection you want to query against (see example below). You will need to define a connection for every database that will need to be accessed during the test run. For example, if you'd like the framework to create tables for you in Hive, you'll have to specify connection parameters for Hive.
Remark: Every database connection defined in the configuration will be initialized during framework startup, even if no tests using that type of connection are scheduled to be executed. This will be improved in the future.
databases: # database connections
default: # default connection to query against
alias: trino # points to connection defined below that you'd like to use as the default
hive: # connection named hive
jdbc_driver_class: org.apache.hive.jdbc.HiveDriver # fully qualified JDBC driver classname
jdbc_url: jdbc:hive2://master:10000 # database url
jdbc_user: hdfs # database user
jdbc_password: na # database password
jdbc_pooling: false # (optional) should connection pooling be used (it does not work for Hive due to driver issues)
jdbc_jar: tempto-hive-jdbc/build/libs/hive-jdbc-fat.jar # (optional) Path to jar containing database driver. Required if jar is not present in global classpath.
table_manager_type: hive
hive_kerberos:
jdbc_driver_class: org.apache.hive.jdbc.HiveDriver
jdbc_url: jdbc:hive2://master:10000/default;principal=hive/[email protected];auth=kerberos;kerberosAuthType=fromSubject;
jdbc_user: username
jdbc_password: na
jdbc_pooling: false
kerberos_principal: [email protected]
kerberos_keytab: /path/to/username.keytab
trino: # connection named trino
jdbc_driver_class: io.trino.jdbc.TrinoDriver
jdbc_url: jdbc:trino://localhost:8080/hive/default
jdbc_user: hdfs
jdbc_password: na
psql: # postgresql
jdbc_driver_class: org.postgresql.Driver
jdbc_url: jdbc:postgresql://localhost:5432/postgres
jdbc_user: blah
jdbc_password: blah
jdbc_pooling: true
table_manager_type: jdbc
# (optional) flag to skip schema creation, if a given database does not support
# CREATE SCHEMA IF EXISTS syntax
skip_create_schema: true
If we want framework to provision tables we need to specify table_manager_type for database connection. Currently we support two table manager types:
-
hive: manages tables in HIVE. Is applicable to HDFS backed hive database connection.
-
jdbc: manages tables in standard SQL JDBC based database. Tables are populated using "INSERT INTO " statements.
-
tests
This section is used to configure various properties used during test execution.
tests:
hdfs:
path: /tempto # where to store test data on HDFS
assert:
float_tolerance: 0.0001
property | description |
---|---|
tests.hdfs.path | defines where data for tables will be stored in hdfs |
tests.assert.float_tolerance | defines tolerance for floating point values comparision |
See io.trino.tempto.examples.SimpleQueryTest in tempto-examples module.
Tests may declare requirements that are fulfilled by the framework during suite/test initialization.
You can specify Requirements for your test through the @Requires
annotation. Test methods and whole classes
can be annotated with @Requires
. If a class is annotated with @Requires
, behavior is the same as when
each test method in that class is annotated with @Requires
. The parameter passed to @Requires
must be a class
that extends the RequirementsProvider
interface.
This interface has a single method, getRequirements()
that returns an instance of a Requirement
object.
Remark: It seems that a better way of passing in requirements would be to supply
@Requires
with an instance but Java only allows constant argument annotations.
Here's an example implementation of the RequirementProvider
interface:
private final class SimpleTestRequirements
implements RequirementsProvider
{
@Override
public Requirement getRequirements()
{
// ensure TPCH nation table is available
return new ImmutableHiveTableRequirement(NATION);
}
}
In this case, SimpleTestRequirements
encapsulated the single requirement of an immutable Hive table called nation.
The implementation of RequirementProvider
is then passed as an argument to the @Requires
annotation:
@Test(groups = "query")
@Requires(SimpleTestRequirements.class)
public void selectAllFromNation()
{
assertThat(query("select * from nation")).hasRowsCount(25);
}
If multiple @Requires
annotations are stacked on top of one another on the same method or class, then
the requirements they return are combined.
Alternatively one can make Test class itself implement RequirementProvider
. Then requirements
returned by the implemented getRequirements
method will be applied to all test methods in class.
private final class MyTestClass
implements RequirementsProvider
{
@Override
public Requirement getRequirements()
{
// ensure TPCH nation table is available
return new ImmutableHiveTableRequirement(NATION);
}
@Test
public void someTestMethod() {
assertThat(query("select * from nation")).hasRowsCount(25);
}
}
This section lists the supported Requirement
implementations that you can return
from RequirementProvider#getRequirement()
.
When this requirement is fulfilled, it will create a table in the underlying database. It is called immutable table because the contract with the test developer is that it will not be altered by the test code. For immutable tables test code is not allowed to
- drop it
- re-create it under a different name
- delete/insert data.
The immutable tables can be reused across tests. If 10 tests require an immutable table, that table will only be created once and the framework assumes it will be available for all tests.
Best way to create ImmutableTableRequirement
is to use TableRequirements.immutableTable
factory
method.
ImmutableHiveTableRequirement
is parametrized with TableDefinition
.
Target database in which table is created depends on TableDefinition
instance passed as ImmutableTableRequirement
parameter.
Currently we support:
HiveTableDefinition
- allowing defining tables in Hive. Requires a database configuration entry withhive
table manager defined.JDBCTableDefinition
- allowing defining table in JDBC databases. Requires a database configuration entry withjdbc
table manager defined.
TableDefinition
must be registered in tables repository to be accessible by the tests. This can be done either by:
- annotating static final field holding
TableDefinition
reference with@RepositoryTableDefinition
annotation - explicitly using static call to
TableDefinitionsRepository.registerTableDefinition(TableDefinition)
Remark: If multiple table managers of the same type (e.g. hive) are defined in the configuration, you have to provide
database name explicitly in ImmutableHiveTableRequirement
.
HiveTableDefinition
include name, schema and dataSource.
HiveTableDefinitionBuilder
can be use to create new table definition. You need to provide:
- DDL template containing following template placeholders:
%NAME%
- table name in hive%LOCATION%
- data location on HDFS
- Optional specification of table partitions.
HiveDataSource
responsible for providing table data which is saved to HDFS
Certain commonly used tables, such as those in the TPC-H benchmark, are defined as constants and can
be found in io.trino.tempto.fulfillment.table.hive.tpch.TpchTableDefinitions
.
For example this is how the nation table is built:
@RepositoryTableDefinition
public static final HiveTableDefinition NATION =
HiveTableDefinition.builder()
.setName("nation")
.setCreateTableDDLTemplate("" +
"CREATE EXTERNAL TABLE %NAME%(" +
" n_nationkey INT," +
" n_name STRING," +
" n_regionkey INT," +
" n_comment STRING) " +
"ROW FORMAT DELIMITED FIELDS TERMINATED BY '|' " +
"LOCATION '%LOCATION%'")
.setDataSource(new TpchDataSource(TpchTable.NATION, 1.0))
.build();
JdbcTableDefinition
include name, schema and dataSource. You need to provide:
- DDL template containing following template placeholders:
%NAME%
- actual table name in database
JdbcTableDataSource
responsible for providing list of rows which are inserted into created table.
Example:
static {
JdbcTableDataSource dataSource = () -> ImmutableList.<List<Object>>of(
ImmutableList.of(1, "x"),
ImmutableList.of(2, "y")
).iterator();
TEST_TABLE_DEFINITION = jdbcTableDefinition("test_table", "CREATE TABLE %NAME% (a int, b varchar(100))", dataSource);
}
When this requirement is fulfilled it will create a table in underlying database. But unlike ImmutableTableRequirement framework does not assume table will not be modified. Each test using ImmutableTableRequirement will have a separate instance of table created in database with unique name.
To access name of table in database from test code MutableTablesState
must be used.
See following example.
private static class MutableTableRequirements implements RequirementsProvider
{
@Override
public Requirement getRequirements()
{
mutableTable(NATION, "table", LOADED)
}
}
@Test(groups = "query")
@Requires(MutableTableRequirements.class)
public void testWithMutableTable()
{
MutableTablesState mutableTablesState = testContext().getDependency(MutableTablesState.class);
TableInstance tableInstance = mutableTablesState.get("table");
assertThat(query("select * from " + tableInstance.getNameInDatabase())).hasAnyRows();
}
One can request that mutable table is in one of three states:
PREPARED
- no table is created actually - butMutableTableState
entry is created for table and unique name is generatedCREATED
- table is created but is not populated with dataLOADED
- table is created and populated with data
When this requirement is fulfilled, it will create an LDAP Entry in the configured LDAP Server. Only
OpenLDAP
LDAP server is supported now.
The tempto configuration yaml must have the following configuration for this requirement:
ldap:
url: ldap://ldapserverhost
admin:
dn: cn=admin,dc=tempto,dc=com
password: admin
The LDAP Server used must be configured with an admin user and password who has privileges to create entities.
LdapObjectRequirement
takes a list of LdapObjectDefinition
s. The LDAP objects are created in the order in this list.
The requirement can be defined as:
@Override
public Requirement getRequirements()
{
new LdapObjectRequirement(Arrays.asList(TEST_ORG, TEST_USER))
}
In this example, TEST_ORG
(which could be the LDAP organizationUnit
for TEST_USER
) is created first and then the TEST_USER
.
These definitions have objects analogous to an OpenLDAP
entry definition and should be like:
public static final LdapObjectDefinition TEST_USER =
LdapObjectDefinition.builder("TestUser")
.setDistinguishedName("uid=testuser,ou=Test,dc=tempto,dc=com")
.setAttributes(testUserAttributes())
.setModificationAttributes(ImmutableMap.of("memberOf", ImmutableList.of("cn=TestGroup,ou=Test,dc=tempto,dc=com", "cn=AnotherGroup,ou=Test,dc=tempto,dc=com")))
.setObjectClasses(Arrays.asList("person", "inetOrgPerson"))
.build();
private static Map<String, String> testUserAttributes()
{
Map<String, String> attributes = newHashMap();
attributes.put("cn", "Test User");
attributes.put("sn", "User");
attributes.put("password", "testp@ss");
return attributes;
}
If the TEST_USER
already exists in the LDAP server, then the fulfiller will ignore adding this entry.
There are cases when you want to run the same test with different requirements sets. E.g. same query for multiple tables with same schema but stored in different file formats on HDFS.
For sake of such cases Tempto provides mechanism of generating requirements sets using Requirements.allOf
and Requirements.compose
methods.
See following example:
private static class MultiSetRequirements implements RequirementsProvider
{
@Override
public Requirement getRequirements()
{
allOf(compose(mutableTable(NATION_TEXT, "nation", LOADED),
mutableTable(REGION_TEXT, "region", LOADED)),
compose(mutableTable(NATION_ORC, "nation", LOADED),
mutableTable(REGION_ORC, "region", LOADED)),
compose(mutableTable(NATION_PARQUET, "nation", LOADED),
mutableTable(REGION_PARQUET, "region", LOADED))
)
}
}
@Test(groups = "query")
@Requires(MultiSetRequirements.class)
public void testJoinNationAndRegion()
{
MutableTablesState mutableTablesState = testContext().getDependency(MutableTablesState.class);
TableInstance nation = mutableTablesState.get("nation");
TableInstance region = mutableTablesState.get("region");
assertThat(query("select * from "
+ nation.getNameInDatabase() + ","
+ region.getNameInDatabase "
+ "where nation.region_key = region.key"))
.hasAnyRows();
}
When tests are executed three instances of testJoinNationAndRegion test will be run.
One for each of the requirements passed to allOf
method. Note that there are three requirements
passed to allOf
method but each one is composite one and internally consists of two mutableTable
requirements.
Composition is performed using compose
methods. The following requirements sets will be used:
- both
nation
andregion
tables stored asTEXT
- both
nation
andregion
tables stored asORC
- both
nation
andregion
tables stored asPARQUET
Queries are executed via implementations of the QueryExecutor
interface. Currently the only implementation
is JdbcQueryExecutor
. Each database configured in the YAML file will have
its own query executor with name the same as name of the database.
To retrieve that executor and issue queries against that database you can use the
ThreadLocalTestContextHolder.testContext().getDependency(...)
as shown below.
// execute query against the default database
QueryResult defaultQueryResult = QueryExecutor.query("SELECT * FROM nation");
// Retrieve QueryExecutor for another, non-default, database
QueryExecutor trinoQueryExecutor = ThreadLocalTestContextHolder.testContext().getDependency(QueryExecutor.class, "trino");
QueryResult queryResultTrino = trinoQueryExecutor.query("SELECT * FROM nation");
Alternatively test writer can inject named QueryExecutor to the test. See below.
To use default QueryExecutor one can use helper static method QueryExecutor.query
(see examples).
The QueryAssert
class allows you to perform AssertJ style assetions on QueryResult
objects. For more information
on the available types of assertions, check the methods of QueryAssert
.
Example assertions:
@Requires(TpchRequirements.class)
@Test
public void testContainsExactlyInOrder()
{
assertThat(query("SELECT n.nationkey, n.name, r.name FROM nation n " +
"INNER JOIN region r ON n.regionkey = r.regionkey " +
"WHERE name like 'A%' AND n.created > ? ORDER BY n.name", LocalDate.parse("2015-01-01")))
.hasColumns(INTEGER, VARCHAR, VARCHAR)
.containsOnly(
row(1, "ALGERIA", "AFRICA"),
row(7, "ARGENTINA", "SOUTH AMERICA"));
}
As an alternative to using ThreadLocalTestContextHolder.testContext()
explicitly
dependencies can be injected to test by framework. Field injection and argument injection
through setUp()
method is supported.
See example:
public class InjectionTest
extends ProductTest
{
@Inject
MutableTablesState mutableTablesState;
@BeforeMethodWithContext
@Inject
public void setUp(
ImmutableTablesState immutableTablesState,
@Named("hdfs.username") String hdfsUsername
)
{
immutableTablesState.get(...)
}
...
In above example three objects are injected by the framework:
MutableTablesState
is injected through field injectionImmutableTablesState
through parameter injection insetUp
method- configuration value for key
hdfs.username
through parameter injection insetUp
method
SQL query tests can be written in simpler form without using any Java code.
It is done by providing the framework with a sql query file and a file with the expected result. These tests are called convention based because of the directory structure assumed by the framework, namely the directory convention.
Moreover you can define Hive and JDBC datasets that can be queried in your tests.
These datasets files contain the data along with the corresponding DDL.
For examples take a look at files in the tempto-examples/src/main/resources/sql-tests
directory. The directory tree looks like the following:
~/repos/tempto/tempto-examples/src/main/resources$ tree .
.
├── sql-tests
│ ├── datasets
│ │ ├── sample_table.data
│ │ ├── sample_table.data-revision
│ │ └── sample_table.ddl
│ └── testcases
│ ├── generated
│ │ └── nation.generator
│ ├── nation
│ │ ├── after
│ │ ├── allRows.result
│ │ ├── allRows.sql
│ │ └── before
│ ├── sample_table
│ │ ├── allRows.result
│ │ └── allRows.sql
│ └── sample_table_insert
│ └── insert.sql
├── suites.json
└── tempto-configuration.yaml
Data sets are stored in sql-tests/datasets directory
. To create an example table, you will need to create three files:
TABLE_NAME.ddl
- DDL for data.TABLE_NAME.data
- file containing raw data.TABLE_NAME.data-revision
- file with data marker. If you change your data, you should also increase this revision marker, so the new table data is automatically reloaded.
Contains template for SQL for creating table.
Header specifies type of table manager which should be used for this table definition. Can be jdbc
or hive
.
Example:
-- type: hive
CREATE TABLE %NAME% (
id INT,
name STRING
)
ROW FORMAT DELIMITED FIELDS TERMINATED BY '|'
LOCATION '%LOCATION%'
Template must contain:
%NAME%
pattern which will be replaced with table name.%LOCATION%
pattern which will replaced with HDFS path where data will be uploaded.
Example:
-- type: jdbc
CREATE TABLE %NAME% (
id INT,
name VARCHAR(100)
)
Template must contain %NAME%
pattern which will be replaced with table name.
Contains table data.
For HIVE table manager content is not analyzed. Data file is just uploaded to HDFS.
Example:
-- delimiter: |; trimValues: false; types: INTEGER|VARCHAR
3|A|
2|B|
1|C|
Header parameters are:
- delimiter - data columns delimiter (default: |)
- trimValues - remove leading and trailing whitespace from data values (default: false)
- types - column types (optional). If skipped strict column type checking will not be performed. Supported column types are:
- CHAR, VARCHAR, LONGVARCHAR, LONGNVARCHAR - character string
- BOOLEAN - true/false
- BIT - 0/1
- TINYINT, SMALLINT, INTEGER, BIGINT - integer value
- REAL, FLOAT, DOUBLE - floating point value
- DECIMAL, NUMERIC - decimal point value
- DATE - date; format:
yyyy-[m]m-[d]d
- TIME, TIME_WITH_TIMEZONE - time; format:
hh:mm:ss
- TIMESTAMP, TIMESTAMP_WITH_TIMEZONE - timestamp; format:
yyyy-M-d H:m:s.SSS
Currently only HIVE table manager makes use of that. It should contain any string, which must be updated when table contents is changed. It is used for determining if resending table data to HDFS cluster is required or not.
Test case files are stored in sql-tests/testcases_ directory
. The directory right under the
testcases_directory
is the logical equivalent of a TestNG test class. Each logical test is pair
of files:
- TEST.sql - query to be invoked where the first line of file can be a SQL comment specifying query execution requirements:
-- database: hive; groups: example_smoketest,group2; tables: nation;
SELECT * FROM nation
This test contains queries that should be executed against the Hive database. The test is part of two separate TestNG groups: example_smoketest and group2.
In above example queries will be run against database hive (see database key in a first row). Test require immutable table nation to be created and loaded before query execution (see tables key).
It is possible to have more than one query in *.sql
file.
To do that separate queries using semicolon and put in separate lines.
E.g
-- database: hive; tables: sample_hive_table; mutable_tables: sample_hive_table|created|sample_table_created, sample_hive_table|prepared|sample_table_prepared; groups: insert
INSERT INTO TABLE ${mutableTables.hive.sample_table_created} SELECT * from sample_hive_table;
SELECT * from ${mutableTables.hive.sample_table_created}
If multiple queries are defined in the *.sql
file results
of the last query will be checked against result file.
- TEST.result - file with the expected result of the query. The first line can be a SQL comment with query assertion requirements:
-- delimiter: |; ignoreOrder: false; types: INTEGER|VARCHAR|INTEGER|VARCHAR
0|ALGERIA|0| haggle. carefully final deposits detect slyly agai|
...
Above we set the |
character as the delimiter, we ignore the order of rows during comparison and
that we expect the columns to be of the specified types.
Both SQL and result files honor comments which begin with ---
prefix.
It is possible to define both queries and results in single TEST.sql file. Such file is divided into sections. Each section is separated by --! prefix. First section contains global properties. Next sections contain queries and results separately. Each section can override global properties. Additionally, each section can have a name. An example of such file would be:
-- database: hive; groups: example_smoketest,group2
-- delimiter: |; ignoreOrder: false; types: INTEGER|VARCHAR|INTEGER|VARCHAR
--! name: query_1
SELECT * FROM nation WHERE id=0
--!
0|ALGERIA|0| haggle. carefully final deposits detect slyly agai|
--! name: query_2
-- groups: additional_group
SELECT * FROM nation WHERE id=1
1|USA|1| foo bar|
--!
You are also able to add custom before and after scripts for your test. Those are executed before and after each test case. TODO more info on scripts, what they should be named, what they can contain.
It is possible (which is useful for testing Trino for example) to use a table which is created in one database (e.g. hive, psql) while sending test query to other database (e.g. Trino). Take a look at the example below. Here query is issued via Trino JDBC, while nation table could be created somewhere else. In order to determine where nation should be created (find appropriate requirements) below matching flow is used:
- If database is specified explicitly as prefix for table name (e.g psql.public.nation which means table nation in schema public in database psql) then requirement for table in that database will be generated. Note that database must have a table_manager with type matching table manager of a table or error will be thrown.
- If no database is specified explicitly then if there is only one database with table manager of type equal to table type then this database will be picked up.
- As fallback database to which test query would be send is used. Database type manager type vs table type checking is done.
-- database: trino; tables: nation;
SELECT * FROM nation
Here you have an example with an immutable table requirement from database psql.
-- database: trino; tables: psql.public.nation;
SELECT * FROM psql.public.nation
TODO (not used right now)
Java based tests can be simply run as TestNG tests.
There is no such possibility for convention based tests right now.
Tests can be run using the tempto runner. This is a java library which enables user to create an
executable jar which makes it easy for the user to run the tests. All you need to do is to make an executable jar
is to add tempto-runner to dependencies and create a main class which will call TemptoRunner.runTempto
(see tempto-examples
and its main class TemptoExamples.java
for an example).
To see a verbose description of all the execution options run:
$ java -jar tempto-examples/build/libs/tempto-examples-all.jar --help
To run example tests command would look like this:
$ java -jar tempto-examples/build/libs/tempto-examples-all.jar
Runner parameters
By default all tests found in classpath are executed but user may limit that by using --groups
, --tests
and --exclude-groups
. Note that, it depends of runner implementation which of belowing parateters are exposed and which are fixed.
Switch | Description | Default |
--convention-test-dir | Location of convention test directory. If not found in local file system then classpath is checked. | sql-tests |
--report-dir | Location of test executionn reports directory. | test-reports |
--groups | List of groups to be executed. | All groups are selected. |
--tests | List of tests to be executed. For java based tests test name is just fully qualified method name e.g. io.trino.tempto.examples.SimpleQueryTest.selectCountFromNation. For sql convention based tests name looks like: sql_tests.testcases.sample_table.allRows. Tests which name ends with one of patterns specified in --tests parameter will be executed. | All tests are selected. |
--exclude-groups | List of test groups which should be excluded from execution. | No groups are excluded. |
A special thanks to the entire Hadapt team for inspiring the architecture of this framework.