Developer Onboarding Manual ########################### Taler installation ================== This section describes the GNU Taler deployment on ``gv.taler.net``. User Acccounts -------------- On ``gv.taler.net``, there are four users that are set up to serve Taler on the internet: - ``taler-test``: serves ``*.test.taler.net`` and gets automatically built by Buildbot. - ``taler-internal``: serves ``*.int.taler.net``, and does *NOT* get automatically built. The following two users are *never* automatically built, and they both serve ``*.demo.taler.net``. At any given time, only one is active and serves the HTTP requests from the outside; the other one can so be compiled without any downtime. If the compilation succeeds, the inactive user can be switched to become active (see next section), and vice versa. - ``demo-blue`` - ``demo-green`` Compile and switch color. ------------------------- If the setup is already bootstrapped, then it should only be needed to login as ’demo-X’ (with X being the inactive color); and then: :: $ source activate $ taler-deployment-build and then switch the color by logging in as the *demo* user, and switch the color with the following command: :: $ taler-deployment-switch-demo-X Full bootstrap. --------------- In order to bootstrap a Taler installation under a empty home directory, do: :: $ cd $HOME $ git clone git://git.taler.net/deployment Then run the prepare script that will (1) download all the repositories (2) build the codebases, (3) configure the system, and (4) generate the needed data. :: $ ./deployment/bin/taler-deployment-prepare .. **Note** If the DB schema of merchant/exchange/auditor changed, at this point it MIGHT be necessary to reset all the tables. To this regard, consider running one of the following commands: :: # To reset the merchant DB. $ taler-merchant-dbinit -r # To reset the exchange DB. $ taler-exchange-dbinit -r # To reset the exchange DB. $ taler-auditor-dbinit -r If all the steps succeeded, then it should be possible to launch all the services. Give: :: $ taler-deployment-start # or restart, if you want to kill old processes and # start new ones. $ taler-deployment-restart Verify that all services are up and running: :: $ taler-deployment-arm -I $ tail logs/-.log How to upgrade the code. ------------------------ Some repositories, especially the ones from the released components, have a *stable* branch, that keeps older and more stable code. Therefore, upon each release we must rebase those stable branches on the master. The following commands do that: :: $ cd $REPO $ git pull origin master stable $ git checkout stable # option a: resolve conflicts resulting from hotfixes $ git rebase master $ ... # option b: force stable to master $ git update-ref refs/heads/stable master $ git push # possibly with --force # continue development $ git checkout master .. _Testing-components: Building the documentation ========================== All the Taler documentation is built by the user `docbuilder` that runs a Buildbot worker. The following commands set the `docbuilder` up, starting with a empty home directory. :: # Log-in as the 'docbuilder' user. $ cd $HOME $ git clone git://git.taler.net/deployment $ ./deployment/bootstrap-docbuilder # If the previous step worked, the setup is # complete and the Buildbot worker can be started. $ buildbot-worker start worker/ Building the Websites. ====================== Taler Websites, `www.taler.net` and `stage.taler.net`, are built by the user `taler-websites` by the means of a Buildbot worker. The following commands set the `taler-websites` up, starting with a empty home directory. :: # Log-in as the 'taler-websites' user. $ cd $HOME $ git clone git://git.taler.net/deployment $ ./deployment/bootstrap-sitesbuilder # If the previous step worked, the setup is # complete and the Buildbot worker can be started. $ buildbot-worker start worker/ Testing components ================== This chapter is a VERY ABSTRACT description of how testing is implemented in Taler, and in NO WAY wants to substitute the reading of the actual source code by the user. In Taler, a test case is a array of ``struct TALER_TESTING_Command``, informally referred to as ``CMD``, that is iteratively executed by the testing interpreter. This latter is transparently initiated by the testing library. However, the developer does not have to defined CMDs manually, but rather call the proper constructor provided by the library. For example, if a CMD is supposed to test feature ``x``, then the library would provide the ``TALER_TESTING_cmd_x ()`` constructor for it. Obviously, each constructor has its own particular arguments that make sense to test ``x``, and all constructor are thoroughly commented within the source code. Internally, each CMD has two methods: ``run ()`` and ``cleanup ()``. The former contains the main logic to test feature ``x``, whereas the latter cleans the memory up after execution. In a test life, each CMD needs some internal state, made by values it keeps in memory. Often, the test has to *share* those values with other CMDs: for example, CMD1 may create some key material and CMD2 needs this key material to encrypt data. The offering of internal values from CMD1 to CMD2 is made by *traits*. A trait is a ``struct TALER_TESTING_Trait``, and each CMD contains a array of traits, that it offers via the public trait interface to other commands. The definition and filling of such array happens transparently to the test developer. For example, the following example shows how CMD2 takes an amount object offered by CMD1 via the trait interface. Note: the main interpreter and the most part of CMDs and traits are hosted inside the exchange codebase, but nothing prevents the developer from implementing new CMDs and traits within other codebases. :: /* Withouth loss of generality, let's consider the * following logic to exist inside the run() method of CMD1 */ .. struct TALER_Amount *a; /** * the second argument (0) points to the first amount object offered, * in case multiple are available. */ if (GNUNET_OK != TALER_TESTING_get_trait_amount_obj (cmd2, 0, &a)) return GNUNET_SYSERR; ... use(a); /* 'a' points straight into the internal state of CMD2 */ In the Taler realm, there is also the possibility to alter the behaviour of supposedly well-behaved components. This is needed when, for example, we want the exchange to return some corrupted signature in order to check if the merchant backend detects it. This alteration is accomplished by another service called *twister*. The twister acts as a proxy between service A and B, and can be programmed to tamper with the data exchanged by A and B. Please refer to the Twister codebase (under the ``test`` directory) in order to see how to configure it. .. _Releases: Releases ======== Release Process and Checklists ------------------------------ This document describes the process for releasing a new version of the various Taler components to the official GNU mirrors. The following components are published on the GNU mirrors - taler-exchange (exchange.git) - taler-merchant (merchant.git) - talerdonations (donations.git) - talerblog (blog.git) - taler-bank (bank.git) - taler-wallet-webex (wallet-webex.git) Tagging ------- Tag releases with an **annotated** commit, like :: git tag -a v0.1.0 -m "Official release v0.1.0" git push origin v0.1.0 Database for tests ------------------ For tests in the exchange and merchant to run, make sure that a database *talercheck* is accessible by *$USER*. Otherwise tests involving the database logic are skipped. Exchange, merchant ------------------ Set the version in ``configure.ac``. The commit being tagged should be the change of the version. For the exchange test cases to pass, ``make install`` must be run first. Without it, test cases will fail because plugins can’t be located. :: ./bootstrap ./configure # add required options for your system make dist tar -xf taler-$COMPONENT-$VERSION.tar.gz cd taler-$COMPONENT-$VERSION make install check Wallet WebExtension ------------------- The version of the wallet is in *manifest.json*. The ``version_name`` should be adjusted, and *version* should be increased independently on every upload to the WebStore. :: ./configure make dist Upload to GNU mirrors --------------------- See *https://www.gnu.org/prep/maintain/maintain.html#Automated-FTP-Uploads* Directive file: :: version: 1.2 directory: taler filename: taler-exchange-0.1.0.tar.gz Upload the files in **binary mode** to the ftp servers. .. _Code: Code ==== Taler code is versioned via Git. For those users without write access, all the codebases are found at the following URL: :: git://git.taler.net/ A complete list of all the existing repositories is currently found at ``https://git.taler.net/``. Note: ```` must NOT have the ``.git`` extension. .. _Bugtracking: Bugtracking =========== Bug tracking is done with Mantis (https://www.mantisbt.org/). All the bugs are then showed and managed at ``https://bugs.gnunet.org/``, under the "Taler" project. A registration on the Web site is needed in order to use the bug tracker. .. _Continuous-integration: Continuous integration ====================== CI is done with Buildbot (https://buildbot.net/), and builds are triggered by the means of Git hooks. The results are published at ``https://buildbot.wild.gv.taler.net/``. In order to avoid downtimes, CI uses a "blue/green" deployment technique. In detail, there are two users building code on the system, the "green" and the "blue" user; and at any given time, one is running Taler services and the other one is either building the code or waiting for that. There is also the possibility to trigger builds manually, but this is only reserved to "admin" users. .. _Code-coverage: Code coverage ============= Code coverage is done with the Gcov / Lcov (http://ltp.sourceforge.net/coverage/lcov.php) combo, and it is run \*nightly\* (once a day) by a Buildbot worker. The coverage results are then published at ``https://lcov.taler.net/``.