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Introduction

Testdrive is a Materialize invention that feels a lot like sqllogictest, except it supports plugable commands for interacting with external systems, like Kafka. Multiple test suites use testdrive to drive the test, but the bulk of the functional tests live in test/testdrive.

testdrive is an "expected vs. actual output" type of framework, with both the SQL queries and other actions and their expected results specified in a single file with a .td extension. As such, it does not allow for code-like unit tests or assertion-based testing.

Example

Here's a representative snippet of a testdrive file:

$ kafka-ingest format=avro topic=data schema=${schema} timestamp=42
{"before": null, "after": {"a": 1, "b": 1}}

> SELECT * FROM data
a b
---
1 1

The first command, the $ kafka-ingest ... action, ingests some data into a topic named data. The next command, > SELECT * FROM data operates like a sqllogictest file. It runs the specified SQL command against Materialize and verifies the result.

Commands in testdrive are introduced with a $, >, or ! character. These were designed to be reminiscent of how your shell would look if you were running these actions commands. $ actions take the name of a testdrive action (like kafka-ingest or set), followed by any number of key=value pairs. > and ! introduce a SQL command that is expected to succeed or fail, respectively.

When to use

Testdrive is the preferred system test framework when testing:

  • sources, sinks, and interactions with external systems in general,
  • interactions between objects in the catalog,
  • serialization of data types over the PostgreSQL wire protocol.

When not to use

testdrive is currently sub-optimal for the situations listed below and sqllogictest is the better driver in those cases:

  • test cases containing many EXPLAIN statements and a lot of recorded query plans;
  • test cases where substantial changes of the ouput over time are expected, which is often the case if many query plans have been recorded in the test.

Unlike the sqllogictest driver, testdrive will fail the test at the first difference, and there is no ability to automatically produce a new version of the test file that includes all the required updates to make the test pass.

Running

testdrive can be run in the following ways:

As a fully containerized, self-sufficient test via mzcompose

The easiest way to run testdrive tests is via mzcompose.

The mzcompose configuration will automatically set up all of testdrive's dependencies, including Zookeeper, Kafka, the Confluent Schema Registry, and mock versions of AWS S3 and Kinesis.

WARNING: On ARM-based machines (like M1 Macs), running the Confluent Platform in Docker is nearly unusably slow because it runs under QEMU emulation. (Confluent refuses to announce a timeline for when they will provide ARM images.) As a workaround, run tests using Redpanda instead of the Confluent Platform, or run tests locally without mzcompose.

For full reference documentation on the available mzcompose options, consult the help text:

./mzcompose run default --help

Common invocations

Run testdrive against all files in test/testdrive using Confluent Platform and Localstack:

./mzcompose --dev run default

Run using Redpanda instead of the Confluent Platform:

./mzcompose --dev run default --redpanda

Run testdrive against a single file:

./mzcompose --dev run default FILE.td

Run S3 tests against a real AWS region. This expects actual AWS credentials to be available (q.v. our documentation).

./mzcompose --dev run default --aws-region=us-east-2 s3.td

Running tests locally without mzcompose

Most testdrive scripts live in test/testdrive. To run a testdrive script, you'll need two terminal windows open. In the first terminal, run Materialize:

$ ./bin/environmentd --release

In the second terminal, run testdrive:

$ cargo run --bin testdrive --release -- test/testdrive/TESTFILE.td

Many testdrive tests require Zookeeper, Kafka, and the Confluent Schema Registry. See the unit tests docs for starting them.

For testdrive tests that interacts with Amazon AWS, you will need to be running LocalStack. To install and run LocalStack:

$ pip install localstack
$ START_WEB=false SERVICES=iam,sts,kinesis,s3 localstack start

If you've previously installed LocalStack, be sure it is v0.11 or later.

If you are running services (Kafka, LocalStack, etc.) on nonstandard ports, you can configure the correct URLs with command-line options. Ask testdrive to tell you about these options with the --help flag:

cargo run --bin testdrive -- --help

Running against AWS S3

To run a test against the actual S3/SQS service at AWS:

export AWS_ACCESS_KEY_ID=XXX
export AWS_SECRET_ACCESS_KEY=YYY
target/release/testdrive --aws-region=eu-central-1 --default-timeout=600s test/testdrive/disabled/s3-sqs-notifications.td

Creating tests

Test format

A testdrive .td test starts with a copyright header and must not contain trailing spaces and trailing newlines. Those properties are checked by the bin/lint linter and also enforced by the CI.

Test naming

Tests related to Kafka are named kafka-*.td. This allows various CI jobs that deal with Kafka to pick them up, e.g. to run them against different Kafka versions, against Redpanda, etc.

Tests related to S3/SQS are named s3*.td. This allows those tests to be skipped in certain specialized CI jobs and environments where AWS or localstack is not available.

Test location

If the test uses local files or kafka sources and sinks, it belongs in test/testdrive. Tests that relate to direct Postgres replication belong in test/pg-cdc. Tests that use Debezium belong in test/debezium.

A test placed in a particular directory will be automatically picked for execution, there is no need to declare the existence of the test in another file.

Command-line options

The testdrive binary accepts the following command-line options. They are usually set appropriately by the mzcompose workflow that calls testdrive.

Default timeout

--default-timeout <default-timeout>

Default timeout as a Duration string [default: "10s"]. A timeout at least that long will be applied to all operations.

--initial-backoff <initial-backoff>

Specifies the initial backoff interval that will be applied as testdrive retries queries. Default is "50ms".

--backoff-factor <backoff-factor>

Specifies the backoff factor that will be applied to increase the backoff interval between retries. Default is 1.5.

Interfacing with services

--materialize-url <materialize-url>

materialized connection string [default: postgres://materialize@localhost:6875]

--aws-endpoint <aws-endpoint>

Custom AWS endpoint. Default: "http://localhost:4566"

--aws-region <aws-region>

Named AWS region to target for AWS API requests [default: localstack]

If an actual AWS region is specified, such as eu-central-1, all S3/SQS requests will be sent to it.

--cert <PATH>

Path to TLS certificate keystore. The keystore must be in the PKCS#12 format.

--cert-password <PASSWORD>

Password for the TLS certificate keystore

--kafka-addr <[ENCRYPTION://]HOST:PORT>

Kafka bootstrap address [default: localhost:9092]

--kafka-option <KEY=VAL>...

Kafka configuration option use when connecting or performing operations. For example:

--kafka-option=security.protocol=SASL_PLAINTEXT --kafka-option acks=all

--schema-registry-url <URL>

Schema registry URL [default: http://localhost:8081]

Resource sharing and reuse across tests

By default, testdrive will clean up the environment and Mz prior to running each test. In certain situations, two or more testdrive invocations need to run consequtively while being able to operate on the same database objects. The options below help to ensure successful cooperation.

--no-reset

By default, testdrive will clean up its environment as much as it can before the start of the test, which includes Mz databases, S3 buckets, etc. If two consequtive invocations of testdrive need to be able to operate on the same objects, e.g. database tables, the second invocation needs to run with --no-reset

--seed <seed>

Unless specified, each testdrive invocation will use random names for certain objects, such as kafka topics. Using --seed allows for multiple testdrive instances to see and operate on the same objects. Note that each testdrive invocation will still receive its own temporary directory unless the --temp-dir option is specified.

--temp-dir <temp-dir>

Force the use of the specfied temporary directory rather than creating one with a random name. This allows multiple testdrive instances to be able to find the same files at the same location.

Controlling test suite execution

Those options are useful in narrow testing scenarios where a full, deterministic, end-to-end testdrive run is not desirable.

--max-errors <max-errors>

Maximum number of errors before aborting [default: 10]. Note that currently this allows more than one test to fail, but it does not allow tolerating multiple failures within a test. Individual tests will still fail and exit at the first error or actual/expected difference.

--max-tests <max-tests>

Max number of tests to run before terminating. This is useful in conjunction with --seed and --shuffle-tests to produce random shorter workloads against the Mz server.

--shuffle-tests

Shuffle the list of tests before running them (using the value from --seed, if any). This is useful when attempting to use testdrive in randomized scenarios or when applying background workload to the database.

Other options

--validate-postgres-stash=postgres://root@materialized:26257?options=--search_path=adapter

After executing a DDL statement, validate that representation of the catalog in the stash is identical to the in-memory one.

Executing statements

Executing a SQL query

> SELECT* from t1;
row1_val1 row1_val2
row2_val1 row2_val2

This will execute the query after the > sign and will check that rows return match the expected rows provided after the statement. If the rows do not match, the statement will be retried until a timeout occurs.

Rows are pre-sorted before comparing, so the order in which the expected rows are listed in the .td file does not matter.

Within each row, individual columns are separated by spaces.

Escaping and quoting

If a particular expected column value includes a space itself, quote it with double quotes:

> SELECT 'this row';
"this row"

If the expected value needs to include double quotes, quote them:

> SELECT '"this"';
\"this\"

Specifying expected column names

The "expected results" block after the > statement can include column names as well, if they are separated from the data rows by ---:

> SELECT 1 AS ts;
ts
---
1

Multi-line statements

To execute a multi-line statement, indent all lines after the first by two spaces:

> SELECT f1
  FROM t1;

Executing a DDL statement

The syntax is identical, however the statement will not be retried on error:

> DROP TABLE IF EXISTS t1

Executing a statement that is expected to return an error

Specify a statement that is expected to return an error with the ! sigil. For example:

! SELECT * FROM no_such_table
contains:unknown catalog item

The expected error is specified after the statement. testdrive will retry the statement until the expected error is returned or a timeout occurs.

In the example above, the full error returned by Materialize is:

ERROR:  unknown catalog item 'no_such_table'

The contains: prefix in the expected error means that the presence of the substring unknown catalog item in the error message is considered a pass.

There are four types of error expectations:

  • contains:STRING expects any error message containing STRING.
  • exact:STRING expects an error message that is exactly STRING.
  • regex:REGEX expects an error message that matches the regex REGEX.
  • timeout expects the query to time out.

You can include include variables in contains, exact, and regex expectations:

$ set table_name=no_table

$ SELECT * FROM ${table_name}
exact:ERROR:  unknown catalog item '${table_name}'

With regex matches, the values of any interpolated variables are matched literally, i.e., their values are not treated as regular expression patterns. For example, a variable with value my.+name will match the string my.+name, not my friend's name.

Additionally, you can add one or both of the following, after the error expectation field:

detail:expected detail
hint:expected hint

These assert that the DETAIL or HINT fields contains the expected message. These fields in the postgres error response are otherwise ignored. If both are specified, detail must come before hint.

Executing statements in multiple sessions

By default, testdrive will run all > and ! statements in a single connection. A limited form of multiple connections is provided by the $ postgres-connect action. See the "Connecting to databases over the pgwire protocol" section below.

Executing an EXPLAIN statement

Since the output of EXPLAIN is a multi-line string, a separate ? EXPLAIN action is provided:

$ set-regex match=u\d+ replacement=UID

? EXPLAIN SELECT * FROM t1 AS a1, t1 AS a2 WHERE a1.f1 IS NOT NULL;
%0 =
| Get materialize.public.t1 (UID)
| Filter !(isnull(#0))
| ArrangeBy ()
...

As the EXPLAIN output contains parts that change between invocations, a $ set-regex is required to produce a stable test.

Using Variables

⚠️ all testdrive variables are initialized to their ultimate value at the start of the test

The place where the variable is declared within the script does not matter.

⚠️ testdrive variables are read-only

Defining variables

$ set name=value

Sets the variable to a value

$ set schema={
        "type" : "record",
        "name" : "test",
        "fields" : [
            {"name":"f1", "type":"string"}
        ]
    }

$ set-from-sql var=NAME

Sets the variable to the result of a SQL query that returns one row containing one string column:

$ set-from-sql var=environment-id
SELECT mz_environment_id()

Referencing variables

${variable_name}

A variable can be referenced in both the arguments and the body of a command.

$ kafka-ingest format=avro topic=kafka-ingest-repeat schema=${schema} repeat=2
{"f1": "${schema}"}

For example, this test will pass:

> SELECT ${testdrive.seed};
"${testdrive.seed}"

$ set name

Sets the variable to the possibly multi-line value that follows.

$ set schema
syntax = "proto3";

message SimpleId {
  string id = 1;
}

Variable reference

The following variables are defined for every test. Many correspond to the command-line options passed to testdrive:

testdrive.kafka-addr

testdrive.kafka-addr-resolved

testdrive.schema-registry-url

testdrive.seed

The random seed currently in effect. If no --seed option was specified, it will be a random seed generated by testdrive.

testdrive.temp-dir

The temporary directory to use. If no --temp-dir option is specified, it will be a random directory inside the OS temp directory.

testdrive.aws-region

testdrive.aws-account

testdrive.aws-access-key-id

testdrive.aws-secret-access-key

testdrive.aws-token

"stdrive.aws-endpoint

testdrive.materialize-internal-http-addr

testdrive.materialize-http-addr

testdrive.materialize-sql-addr

testdrive.materialize-internal-sql-addr

testdrive.materialize-user

Accessing the environment variables

The environment variables are available uppercase, with an the env. prefix:

> SELECT ${env.HOME}
"{$env.HOME}"

Dealing with variable output

Certain tests produce variable output and testdrive provides a way to mask that via regular expression substitution.

$ set-regex match=regular_expression replacement=replacement_str

All matches of the regular expression in the rest of the test will be converted to replacement_str.

For example, this will convert all UNIX-like timestamps to the fixed string <TIMESTAMP>and this test will pass:

$ set-regex match=\d{10} replacement=<TIMESTAMP>
> SELECT round(extract(epoch FROM now()));
<TIMESTAMP>

Note that only one regex can be active at a time: additional calls to set-regex will unset the previous regex. If you want to unset the regex without setting a new one, unset-regex will do that for you.

Useful regular expressions

$ set-regex match=(\s\(u\d+\)|\n|materialize\.public\.) replacement=

This does the following three things that are useful for tests containing EXPLAIN or SHOW commands:

  • removes all u#### identifiers from the output
  • removes all mentions of materialize.public, to make the output more concise
  • removes all newlines, to flatten the EXPLAIN output on a single line

Script Actions

Connecting to databases over the pgwire protocol

In addition to the default connection that is used for the > and ! statements, one can establish additional connections to pgwire-compatible servers, that is, to Postgres and to Materialize itself. This allows for some simple concurrency testing where a transaction can be left open across multiple statements.

$ postgres-execute connection=...

Executes a list of statements over the specified connection. The connection can be specified as either an URL or as a named connection created by $ postgres-connect:

$ postgres-execute connection=postgres://materialize:materialize@${testdrive.materialize-sql-addr}
CREATE TABLE postgres_execute (f1 INTEGER);

If any of the statements fail, the entire test will fail. Any result sets returned from the server are ignored and not checked for correctness.

$ postgres-connect name=.... url=...

Creates a named psql connection that can be used by multiple $ postgres-execute statements

$ postgres-connect name=conn1 url=postgres://materialize:materialize@${testdrive.materialize-sql-addr}

$ postgres-execute connection=conn1
BEGIN;
INSERT INTO postgres_connect VALUES (1);

...

$ postgres-execute connection=conn1
INSERT INTO postgres_connect VALUES (2);
COMMIT;

Note that when using multiple connections, commands are already executed in a single-threaded context, so will be serialized in the order they appear in the .td file.

$ postgres-verify-slot connection=... slot=... active=(true|false)

Pauses the test until the desired Postgres replication slot (identified by LIKE pattern) has become active or inactive on the Postgres side of the direct Postgres replication. This is used to prevent flakiness in Postgres-related tests.

Connecting to MySQL

$ mysql-connect name=... url=... password=...

Creates a named connection to MySQL. For example:

$ mysql-connect name=mysql_connection url=mysql://mysql_user@mysql_host password=1234

$ mysql-execute name=...

Executes SQL queries over the specified named connection to MySQL. The ouput of the queries is not validated, but an error will cause the test to fail.

Connecting to Microsoft SQL Server

$ sql-server-connect name=...

Creates a named connection to SQL Server. The parameters of the connection are specified in ADO syntax. As the ADO string can contain spaces, it needs to be provided in the body of the action:

$ sql-server-connect name=sql-server
server=tcp:sql-server,1433;IntegratedSecurity=true;TrustServerCertificate=true;User ID=sa;Password=${arg.sa-password}

$ sql-server-execute name=...

Executes SQL queries over the specified named connection to SQL server. If transactions are used, each transaction must be fully self-contained within a single line:

$ sql-server-execute name=sql-server
USE test;
BEGIN TRANSACTION INSERT INTO t1 VALUES (1); INSERT INTO t2 VALUES (2); COMMIT;

The output of the queries is not validated in any way. An error during execution will cause the test to fail.

Sleeping in the test

$ sleep-is-probably-flaky-i-have-justified-my-need-with-a-comment duration=N

Sleeps for N seconds

$ random-sleep duration=N

Sleeps a random interval between 0 and N seconds

> select mz_internal.mz_sleep(N)

Instructs Mz to sleep for the specified number of seconds. mz_sleep() returns <null>, so the test needs to be coded accordingly:

> SELECT mz_internal.mz_sleep(1)
<null>

Controlling timeouts and retries

$ set-sql-timeout duration=N(ms|s|m) [force=true]

Adjusts the SQL timeout for tests that contain queries that may take a long time to run. Alternatively, the --default-timeout setting can be passed to testdrive.

The command will be ignored if it sets a timeout that is smaller than the default timeout, unless you specify force=true. Use this override with caution! It may cause the test to fail in test environments that introduce overhead and need a larger --default-timeout to succeed.

$ set-max-tries max-tries=N

Adjust the number of tries testdrive will perform while waiting for a SQL statement to arrive to the desired result.

Set max-tries to 1 in order to ensure that statements are executed only once. If the desired result is not achieved on the first try, the test will fail. This is useful when testing operations that should return the right result immediately rather than eventually.

TEST SCRIPT sources

TEST SCRIPT sources can be a useful to have a source that emits data in specific pattern, without setting up data in a local source. They are created as follows:

> CREATE SOURCE unit
  FROM TEST SCRIPT
  '[
    {"command": "emit", "key": "fish", "value": "value", "offset": 0},
    {"command": "emit", "key": "fish2", "value": "hmm", "offset": 1},
    {"command": "emit" ,"key": "fish", "value": "value2", "offset": 2}
  ]'
  KEY FORMAT BYTES
  VALUE FORMAT BYTES
  ENVELOPE UPSERT

Each "command" can be:

  • "emit": emit data at a specific offset. The "key" is optional, but required for some envelopes, like UPSERT
  • "terminate": terminate the source, ignoring all later commands. This closes the source's upper
    • The default behavior if there is no "terminate" command is for the source to pend forever, after it processes all other commands.

Note that this soure has some limitations:

  • It does not work with formats like avro
  • It requires the key and value format to specified individually, as it does not support CSR formats.

These limitations may be lifted in the future; additionally, more features may be added to this source.

Actions on local files

$ file-append path=file.name [compression=gzip] [repeat=N]

Writes the data provided to a file on disk. The file will be created inside the temporary directory of the test.

If the repeat parameter is provided, the data provided will be appended to the file the specified number of times, rather than just once.

$ file-delete path=file.name

Deletes the specified file from within the temporary directory.

Actions on Kafka topics

$ kafka-add-partitions topic=... total-partitions=N

Add partitions to an existing topic

$ kafka-create-topic

Create a Kafka topic

$ kafka-ingest topic=... schema=... ...

Sends the data provided to a kafka topic. This action has many arguments:

topic

The topic to publish the data to.

format=(avro|bytes)

The format in which the data is provided

key-format=(avro|bytes)

For data that also includes a key, the format of the key

schema

The schema to use

key-schema

For data that contains a key, the schema of the key

key-terminator=str

For data provided as format=bytes key-format=bytes, the separator between the key and the data in the test

repeat=N

Send the same data N times to Kafka. This is used to create longer Kafka topics without bloating the test.

The variable ${kafka-ingest.iteration} will hold the current iteration and can be used in the body of $ kafka-ingest.

start-iteration=N

Set the starting value of the ${kafka-ingest.iteration} variable.

partition=N

Send the data to the specified partition.

set-schema-id-var=VAR

Sets the variable named VAR to the ID of the schema with which data was written. The variable is only set if the format of the key was Confluent Avro or Protobuf.

set-key-schema-id-var=VAR

Sets the variable named VAR to the ID of the key schema with which data was written. The variable is only set if the format of the key was Confluent Avro or Protobuf.

kafka-verify-data format=avro [sink=... | topic=...] [sort-messages=true] [partial-search=usize]

Obtains the data from the specified sink or topic and compares it to the expected data recorded in the test.

The comparison algorithm is sensitive to the order in which data arrives, so sort-messages=true can be used along with manually pre-sorting the expected data in the test. The rows in the expected data section need to be ordered according to the following rules:

  • earlier timestamps sort first
  • deletes sort before inserts
  • as all items are sorted as strings, "10" sorts before "2"

It is possible to call $ kafka-verify multiple times on the same topic in case the test needs to check that the data arrives in some partial order. For example, to make sure that all of timestamp 1 arrived before all of timestamp 2:

$ kafka-verify ... sort-messages=true
1 {"a":"1"}
1 {"b":"1"}

$ kafka-verify ... sort-messages=true
2 {"c":"1"}
2 {"d":"1"}

If partial-search=usize is specified, up to partial-search records will be read from the given topic and compared to the provided records. The records do not have to match starting at the beginning of the sink but once one record matches, the following must all match. There are permitted to be records remaining in the topic after the matching is complete. Note that if the topic is not required to have partial-search elements in it but there will be an attempt to read up to this number with a blocking read.

`kafka-verify-commit consumer-group-id=... topic=... partition=...

Verifies that the provided offset (the input data) matches the committed offset for the specified consumer group, topic, and partition.

headers=<list or object>

headers is a parameter that takes a json map (or list of maps) with string key-value pairs sent as headers for every message for the given action.

Actions on Kinesis

$ kinesis-create-stream

$ kinesis-update-shards

$ kinesis-ingest

$ kinesis-verify

Actions on S3/SQS

$ s3-create-bucket bucket=...

Creates the specified S3 bucket

$ s3-put-object bucket=... key=...

Uploads the data provided under the key specified in the bucket specified.

$ s3-delete-objects

Delete the S3 keys provided below the action from the bucket.

$ s3-delete-objects bucket=foo
1.csv
2.csv
3.csv

$ s3-add-notifications bucket=... queue=... sqs-validation-timeout=Nm

Add an SQS notification to the specified bucket and then validates that SQS works by uploading a key and listening for the SQS notification.

⚠️ $ s3-add-notifications uploads a single key in your bucket that remains there , so it will show up in your S3 sources unless you use a DISCOVER OBJECTS MATCHING clause to filter it out.

Actions on Confluent Schema Registry

$ schema-registry-publish subject=... schema-type=<avro|json|protobuf> [references=subject[,subject...]]

Publish a schema to the schema registry.

The command's input is used as the body of the schema.

The required subject argument specifies the name under which to register the schema. If registering a schema for a Kafka topic using the topic name strategy (the usual case), use the subject $TOPIC-key or $TOPIC-value, depending on whether the schema is for the key type or the value type.

The required schema-type argument indicates the type of the schema.

The optional references argument specifies a comma-separated list of existing schema subjects upon which the schema depends. The action always declares the reference on the latest version of the referenced subject. If this is limiting, feel free to adjust the action to permit specifying the desired version, instead of assuming the latest version.

$ schema-registry-verify subject=... schema-type=avro

Verify the contents of the latest version of a schema in the schema registry.

The command's input is used as the expected schema.

The required subject argument specifies the name of the schema in the registry to validate. The latest version of the subject is always used. If this is limiting, feel free to adjust the action to specify the desired version. If verifying a schema for a Kafka topic using the topic name strategy (the usual case), use the subject $TOPIC-key or $TOPIC-value, depending on whether you wish to verify the key or the value schema.

The required schema-type argument indicates the type of the schema. At present, only Avro schemas are supported. Feel free to adjust the action to support additional schema types.

$ schema-registry-wait subject=...

Block the test until schema with the specified subject has been defined at the schema registry.

This action is useful to fortify tests that expect an external party, e.g. Debezium, to upload a particular schema.

Actions on REST services

$ http-request method=(GET|POST|PUT) url=... content-type=...

Issue a HTTP request against a third-party server. The body of the command is used as a body of the request. This is generally used when communicating with REST services such as Debezium and Toxiproxy. See test/debezium-avro/debezium-postgres.td.initialize and test/pg-cdc-resumption/configure-toxiproxy.td

$ http-request method=POST url=http://example/com content-type=application/json
{
  "f1": "f2"
}

The test will fail unless the HTTP status code of the response is in the 200 range.

Actions with psql

$ psql-execute command=...

Executes a command against Materialize via psql. This is intended for testing psql-specific commands like \dn.

Conditionally skipping the rest of a .td file

$ skip-if
SELECT true

skip-if followed by a SQL statement will skip the rest of the .td file if the statement returns one row containing one column with the value true. If the statement returns false, then execution of the script proceeds normally. If the query returns anything but a single row with a single column containing a boolean value, testdrive will mark the script as failed and proceed with execution of the next script.

This action can be useful to conditionally test if a script is running against a version of Materialize that is able to execute the SQL constructs contained therein.

$ skip-if
SELECT mz_version_num() < 2601;