49a8164fb7
Before this patch, the experimental TTL (expiration time) feature in Alternator scans tables for expiration in a tight loop - starting the next scan one second after the previous one completed. In this patch we introduce a new configuration option, alternator_ttl_period_in_seconds, which determines how frequently to start the scan. The default is 24 hours - meaning that the next scan is started 24 hours after the previous one started. The tests (test/alternator/run) change this configuration back to one second, so that expiration tests finish as quickly as possible. Please note that the scan is *not* slowed down to fill this 24 hours - if it finishes in one hour, it will then sleep for 23 hours. Additional work would be needed to slow down the scan to not finish too quickly. One idea not yet implemented is to move the expiration service from the "maintenance" scheduling group which it uses today to a new scheduling group, and modifying the number of shares that this group gets. Another thing worth noting about the configurable period (which defaults to 24 hours) is that when TTL is enabled on an Alternator table, it can take that amount of time until its scan starts and items start expiring from it. Signed-off-by: Nadav Har'El <nyh@scylladb.com>
Tests for Alternator that should also pass, identically, against DynamoDB.
Tests use the boto3 library for AWS API, and the pytest frameworks (both are available from Linux distributions, or with "pip install").
To run all tests against the local installation of Alternator on
http://localhost:8000, just run pytest.
Some additional pytest options:
- To run all tests in a single file, do
pytest test_table.py. - To run a single specific test, do
pytest test_table.py::test_create_table_unsupported_names. - Additional useful pytest options, especially useful for debugging tests:
- -v: show the names of each individual test running instead of just dots.
- -s: show the full output of running tests (by default, pytest captures the test's output and only displays it if a test fails)
Add the --aws option to test against AWS instead of the local installation.
For example - pytest --aws test_item.py or pytest --aws.
If you plan to run tests against AWS and not just a local Scylla installation, the files ~/.aws/credentials should be configured with your AWS key:
[default]
aws_access_key_id = XXXXXXXXXXXXXXXXXXXX
aws_secret_access_key = xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
and ~/.aws/config with the default region to use in the test:
[default]
region = us-east-1
HTTPS support
In order to run tests with HTTPS, run pytest with --https parameter. Note that the Scylla cluster needs to be provided
with alternator_https_port configuration option in order to initialize a HTTPS server.
Moreover, running an instance of a HTTPS server requires a certificate. Here's how to easily generate
a key and a self-signed certificate, which is sufficient to run --https tests:
openssl genrsa 2048 > scylla.key
openssl req -new -x509 -nodes -sha256 -days 365 -key scylla.key -out scylla.crt
If this pair is put into conf/ directory, it will be enough
to allow the alternator HTTPS server to think it's been authorized and properly certified.
Still, boto3 library issues warnings that the certificate used for communication is self-signed,
and thus should not be trusted. For the sake of running local tests this warning is explicitly ignored.
Authorization
By default, boto3 prepares a properly signed Authorization header with every request. In order to confirm the authorization, the server recomputes the signature by using user credentials (user-provided username + a secret key known by the server), and then checks if it matches the signature from the header. Early alternator code did not verify signatures at all, which is also allowed by the protocol. A partial implementation of the authorization verification can be allowed by providing a Scylla configuration parameter:
alternator_enforce_authorization: true
The implementation is currently coupled with Scylla's system_auth.roles table,
which means that an additional step needs to be performed when setting up Scylla
as the test environment. Tests will use the following credentials:
Username: alternator
Secret key: secret_pass
With CQLSH, it can be achieved by executing this snipped:
cqlsh -x "INSERT INTO system_auth.roles (role, salted_hash) VALUES ('alternator', 'secret_pass')"
Most tests expect the authorization to succeed, so they will pass even with alternator_enforce_authorization
turned off. However, test cases from test_authorization.py may require this option to be turned on,
so it's advised.