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On Demand Compose Service

Project description

On Demand Compose Service - ODCS

logo of ODCS

What is ODCS

The main goal of ODCS is to allow generation of temporary composes using the REST API calls. By a compose, we mainly mean RPM repository with packages taken from different sources, but in the future, generation of other output types could be possible too.

ODCS can take RPMs for a compose from multiple sources like Koji tag, module built in Koji or external repository provided by Pulp tool.

Using ODCS - client library

There is client library written in Python which allows easy access to REST API provided by ODCS server.

Installing the ODCS client

On Fedora:

$ sudo dnf install odcs-client

If you want to install using pip, you can run following:

$ sudo pip install odcs[client]

In case you want your python project to depend on ODCS client library and add it to your requirements.txt, you can just use following to depend on ODCS client:

odcs[client]

ODCS authentication system

ODCS server can be configured to authenticate using OpenIDC, Kerberos or SSL. Eventually it can be set in NoAuth mode to support anonymous access. Depending on the ODCS server configuration, you have to set your authentication method when creating ODCS class instance.

Using OpenIDC for authentication

To use OpenIDC, you have to provide the OpenIDC token to ODCS client class constructor. To obtain that OpenIDC token, you can either use python-openidc-client, or ask the OpenIDC provider for service token which does not have to be refreshed. Once you have the token, you can create the ODCS instance like this:

from odcs.client.odcs import ODCS, AuthMech

odcs = ODCS("https://odcs.fedoraproject.org",
            auth_mech=AuthMech.OpenIDC,
            openidc_token="your_openidc_token")

Getting the openidc_token using python-openidc-client library can be done like this:

import openidc_client
staging = False

if staging:
    id_provider = 'https://id.stg.fedoraproject.org/openidc/'
else:
    id_provider = 'https://id.fedoraproject.org/openidc/'

# Get the auth token using the OpenID client.
oidc = openidc_client.OpenIDCClient(
    'odcs',
    id_provider,
    {'Token': 'Token', 'Authorization': 'Authorization'},
    'odcs-authorizer',
    'notsecret',
)

scopes = [
    'openid',
    'https://id.fedoraproject.org/scope/groups',
    'https://pagure.io/odcs/new-compose',
    'https://pagure.io/odcs/renew-compose',
    'https://pagure.io/odcs/delete-compose',
]
try:
    token = oidc.get_token(scopes, new_token=True)
    token = oidc.report_token_issue()
except requests.exceptions.HTTPError as e:
    print(e.response.text)
    raise

Using Kerberos for authentication

To use Kerberos, you have to have valid Kerberos ticket or you need to have the Kerberos keytab file. If you want to use ODCS client library with Kerberos keytab, you have to set the KRB5_CLIENT_KTNAME environment variable to full path to the keytab file you want to use. You can for example do it like this:

from odcs.client.odcs import ODCS, AuthMech
from os import environ
environ["KRB5_CLIENT_KTNAME"] = "/full/path/to/ketab"

odcs = ODCS("https://odcs.fedoraproject.org",
            auth_mech=AuthMech.Kerberos)

Using SSL for authentication

To use SSL, you have to have SSL client certificate and key files. You then have to choose SSL AuthMech and pass the paths to SSL client certificate and key like this:

from odcs.client.odcs import ODCS, AuthMech

odcs = ODCS("https://odcs.fedoraproject.org",
            auth_mech=AuthMech.SSL,
            ssl_cert="/path/to/ssl-crt.pem",
            ssl_key="/path/to/ssl-key.pem")

Requesting new compose

The general way how to request new ODCS compose is following:

compose = odcs.new_compose(sources, source_type)

Both sources and source_type are strings. Depending on source_type value, the sources have following meaning:

source_type source
tag Name of Koji tag to take RPMs from.
module White-space separated NAME:STREAM or NAME:STREAM:VERSION of modules to include in compose.
pulp White-space separated list of content-sets or repository ids. Repositories will be included in a compose.
raw_config String in name#commit hash format. The name must match one of the raw config locations defined in ODCS server config as raw_config_urls. The commit is commit hash defining the version of raw config to use. This config is then used as input config for Pungi.
build Source should be omitted in the request. The list of Koji builds included in a compose is defined by builds attribute.
pungi_compose URL to variant repository of external compose generated by the Pungi. For example https://kojipkgs.fedoraproject.org/compose/rawhide/latest-Fedora-Rawhide/compose/Server/. The generated compose will contain the same set of RPMs as the given external compose variant. The packages will be taken from the configured Koji instance.

There are also additional optional attributes you can pass to new_compose(...) method:

  • seconds_to_live - Number of seconds after which the generated compose should expire and will be removed.
  • packages - List of packages which should be included in a compose. This is used only when source_type is set to tag or build to further limit the compose repository. If the packages is not set, all packages in Koji tag or all packages in a builds list will be included in a final compose.
  • flags - List of flags to further modify the compose output:
    • no_deps - For tag source_type, do not resolve dependencies between packages and include only packages listed in the packages in the compose. For module source_type, do not resolve dependencies between modules and include only the requested module in the compose.
    • include_unpublished_pulp_repos - For pulp source_type, include also unpublished repositories for input content-sets.
    • check_deps - When set, abort the compose when some package has broken dependencies.
    • no_reuse - When set, do not try to reuse old compose.
    • ignore_absent_pulp_repos - For pulp source_type, ignore any content set that does not exist in Pulp
    • use_only_compatible_arch - For pulp source_type only. When this flag is set, architecture hardcoded in URL returned from Pulp will be replaced with $basearch variable. The repository definition will also define skip_if_unavailable = 1. This could be useful when multiple content sets are included in the repofile to completly ignore packages from repositories for incompatible architectures.
  • sigkeys - List of signature keys IDs. Only packages signed by one of these keys will be included in a compose. If there is no signed version of a package, compose will fail. It is also possible to pass an empty-string in a list meaning unsigned packages are allowed. For example if you want to prefer packages signed by key with ID 123 and also allow unsigned packages to appear in a compose, you can do it by setting sigkeys to ["123", ""].
  • results - List of additional results which will be generated as part of a compose. Valid keys are:
    • iso - Generates non-installable ISO files with RPMs from a compose.
    • boot.iso - Generates images/boot.iso file which is needed to build base container images from resulting compose.
  • arches - List of additional Koji arches to build this compose for. By default, the compose is built only for "x86_64" arch.
  • multilib_arches - Subset of arches for which the multilib should be enabled. For each architecture in the multilib_arches list, ODCS will include also packages from other compatible architectures in a compose. For example when "x86_64" is included multilib_arches, ODCS will include also "i686" packages in a compose. The set of packages included in a composes is influenced by multilib_method list.
  • multilib_method - List defining the method used to determine whether consider package as multilib. Defaults to empty list. The list can have following values:
    • iso - Generates non-installable ISO files with RPMs from a compose.
    • runtime - Packages whose name ends with "-devel" or "-static" suffix will be considered as multilib.
    • devel - Packages that install some shared object file ".so." will be considered as multilib.
    • all - All pakages will be considered as multilib.
  • builds - List of NVRs defining the Koji builds to include in a compose. Only valid for tag and build source types. For tag source type, the NVRs will be considered for inclusion in a compose on top of Koji tag defined by source. For build source type, only the Koji builds defined by the NVRs will be considered for inclusion. The packages still need to be set to include particular packages from the Koji builds in a compose.
  • lookaside_repos - List of URLs pointing to RPM repositories with packages which will be used by internal dependency resolver to resolve dependencies. Packages from these repositories will not appear in the resulting ODCS compose, but they are considered while checking whether the RPM dependencies are satisfied in the resulting compose when check_deps ODCS flag.
  • module_defaults_url - List with URL to git repository with Module defaults data and the branch name or commit hash. For example ["https://pagure.io/releng/fedora-module-defaults.git", "master"]. This is used only when creating modular compose including non-modular RPMs.
  • modular_koji_tags - List of Koji tags in which the modular Koji Content Generator builds are tagged. Such builds will be included in a compose.

The new_compose method returns dict object describing the compose, for example:

{
    "arches": "x86_64 ppc64",
    "flags": [
        "no_deps"
    ],
    "id": 1,
    "owner": "jkaluza",
    "packages": "gofer-package",
    "removed_by": null,
    "result_repo": "https://odcs.fedoraproject.org/composes/latest-odcs-1-1/compose/Temporary",
    "result_repofile": "https://odcs.fedoraproject.org/composes/latest-odcs-1-1/compose/Temporary/odcs-1.repo",
    "results": [
        "repository"
    ],
    "sigkeys": "",
    "source": "f26",
    "source_type": 1,
    "state": 3,
    "state_name": "wait",
    "time_done": "2017-10-13T17:03:13Z",
    "time_removed": "2017-10-14T17:00:00Z",
    "time_submitted": "2017-10-13T16:59:51Z",
    "time_to_expire": "2017-10-14T16:59:51Z"
}

The most useful data there is result_repofile, which points to the .repo file with URLs for generated compose. Another very important data there is the state and state_name field. There are following states of a compose:

state state_name Description
0 wait Compose is waiting in a queue to be generated
1 generating Compose is being generated
2 done Compose is generated - done
3 removed Compose has expired and is removed
4 failed Compose generation has failed

As you can see in our example, compose is in wait state and therefore we have to wait until the ODCS generates the compose.

Waiting until the compose is generated

There are two ways how to wait for the compose generation. The preferred one is listening on Fedora messaging bus for odcs.state.change message with done or failed state and another one is using HTTP polling implemented in wait_for_compose(...) method.

If your application does not allow listening on the bus for some reason, you can use wait_for_compose(...) method like this:

compose = odcs.new_compose(sources, source_type)

# Blocks until the compose is ready, but maximally for 600 seconds.
compose = odcs.wait_for_compose(compose["id"], timeout=600)

if compose["state_name"] == "done":
    print "Compose done, URL with repo file", compose["result_repofile"]
else:
    print "Failed to generate compose"

Checking the state of existing ODCS compose

Once you have the compose ready, you might want to check its state later. This can be done using the get_compose(...) method like this:

compose = odcs.get_compose(compose["id"])

Renewing the compose

If the time_to_expire for your compose is getting closer and you know you want to continue using the compose, you can increase the time_to_expire using the renew_compose(...) method. You can also use this method to regenerate an expired compose in the removed state. Such compose will have the same versions of packages as the original compose.

compose = odcs.renew_compose(compose["id"])

Development

Code Convention

The code must be well formatted via black and pass flake8 checking.

Run tox -e black,flake8 to do the check.

Unit-testing

Install packages required by pip to compile some python packages:

$ sudo dnf install -y gcc swig redhat-rpm-config python-devel openssl-devel openldap-devel \
    zlib-devel bzip2 bzip2-devel readline-devel sqlite sqlite-devel tk-devel \
    git python3-cairo-devel cairo-gobject-devel gobject-introspection-devel

A lot of these dependencies come from the module pygobject.

Run the tests:

$ make check

Testing local composes from plain RPM repositories

You can test ODCS by generating compose from the ./server/tests/repo repository using following commands:

$ ./create_sqlite_db
$ ./start_odcs_from_here

Before executing the command start_odcs_from_here, a messaging broker supporting AMQP protocol is required to run locally as well in order to run asynchronous tasks to generate composes. Here is an example to run a RabbitMQ broker:

sudo dnf install -y rabbitmq-server
sudo systemctl start rabbitmq-server

Add the repo source type to the server configuration in ./server/odcs/server/config.py. (This will cause some tests to fail, so it needs to be reverted back after you are done with your changes!)

And in another terminal, submit a request to frontend:

$ ./submit_test_compose repo `pwd`/server/tests/repo ed
{
  "id": 1,
  "owner": "Unknown",
  "result_repo": null,
  "source": "/home/hanzz/code/fedora-modularization/odcs/tests/repo",
  "source_type": 3,
  "state": 0,
  "state_name": "wait",
  "time_done": null,
  "time_removed": null,
  "time_submitted": "2017-06-12T14:18:19Z"
}

You should then see the backend process generating the compose and once it's done, the resulting compose in ./test_composes/latest-Unknown-1/compose/Temporary directory.

Using docker-compose for creating a local setup

You can create test setup for ODCS with the docker-compose file. This yaml file creates docker container for the backend and frontend setup of ODCS and run multiple services together. These services are;

  • rabbitmq (Handles the communication between backend and frontend)
  • postgres (Creates the database where the localy generated composes are stored)
  • backend (Backend service of ODCS)
  • frontend (Frontend service of ODCS that handles the REST API)
  • static (Apache service for making storage available)
  • beat (Cronjob for backend to check the service status)

In addition to these, there are also three docker volumes (odcs_odcs-composes, odcs_odcs-postgres and odcs_rabbitmq) are created. These are providing persistent storage for the services.

This yaml file requires also an .env file that specified some enviroment variables for the configuration of frontend and backend. Such an .env file should be in the same path with the docker-compose.yml file and here are the necessary variables that need to be specified in this file;

# Pyhton path
PYTHONPATH=/src/common:/src/server:/src/client

# POSTGRES
POSTGRES_USER=odcs
POSTGRES_PASSWORD=password

# PULP CONFIGURATION
PULP_SERVER_URL=<URL of the pulp server>
PULP_USERNAME=<Username for the pulp server>
PULP_PASSWORD=<Credentials for the pulp server>
RAW_CONFIG_URLS=<Raw config settings in JSON format>

# ODCS CONFIGURATION
ODCS_CONFIG_SECTION=DevConfiguration
ODCS_CONFIG_FILE=/src/server/conf/config.py
ODCS_CELERY_BROKER_URL=amqp://guest:guest@rabbitmq:5672/
ODCS_DB_URL=postgresql+psycopg2://odcs:password@postgres/odcs
# Directory where the generated composes are stored. This hast to match
# location where odcs-composes volume is mounted in frontend and backend
# containers.
ODCS_TARGET_DIR=/mnt/odcs
TARGET_DIR_URL=http://localhost:8080

# FLASK SETTINGS
# Force flask to reload application on change of source files.
FLASK_ENV=development

The services can be start with sudo docker-compose up command. If you have face an error or something that does not work correctly please use the following steps;

  1. Check whether there is already created docker volume.

     $ sudo docker volume ls
     Emulate Docker CLI using podman. Create /etc/containers/nodocker to quiet msg.
     DRIVER      VOLUME NAME
    

    If the output is like above, it means there isn't any volume yet and it is sufficient to run sudo docker-compose up and then sudo docker-compose down command. This creates the volumes and if you run the above command again the output becomes as follows;

     $ sudo docker volume ls
     Emulate Docker CLI using podman. Create /etc/containers/nodocker to quiet msg.
     DRIVER      VOLUME NAME
     local       odcs_odcs-composes
     local       odcs_odcs-postgres
     local       odcs_odcs-rabbitmq
    
  2. After this point we need to set the correct permission to ocds_odcs-composes volume. In order to find where is the actual location of the volume type the following

     $ sudo docker volume inspect odcs_odcs-composes
     Emulate Docker CLI using podman. Create /etc/containers/nodocker to quiet msg.
     [
         {
             "Name": "odcs_odcs-composes",
             "Driver": "local",
             "Mountpoint": "/var/lib/containers/storage/volumes/odcs_odcs-composes/_data",
             "CreatedAt": "2021-10-04T13:19:36.478636851+02:00",
             "Labels": {
                 "io.podman.compose.project": "odcs"
             },
             "Scope": "local",
             "Options": {}
         }
     ]
    

    "Mountpoint": "/var/lib/containers/storage/volumes/odcs_odcs-composes/_data" shows the exact location of the corresponding volume.

    Add group write permission to the Mountpoint by

     $ sudo chmod 775 /var/lib/containers/storage/volumes/odcs_odcs-composes/_data
    
  3. In this step it is sufficient to run sudo docker-compose up command to start the services properly.

Here are some REST calls for checking the ODCS.

  • $ curl -s http://localhost:5000/api/1/composes/ | jq . This call shows all the composes in db.
  • $ odcs --server http://localhost:5000/ create-pulp <Pulp content set> This call starts a pulp compose that match the given pulp content set
  • $ odcs --server http://localhost:5000/ create-raw-config --compose-type test my_raw_config master This call starts a compose with the configuration defined as my_raw_config

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