I'm working with PHP & mySQL. I've finally got my head around source control and am quite happy with the whole development (testing) v production v repository thing for the PHP part.
My new quandary is what to do with the database. Do I create one for the test environment and one for the production environment? I currently have just the one which both environments use, leaving my test data sitting there. I kind of feel that I should have two, but I'm nervous in terms of making sure that my production database looks and feels exactly the same as my test one.
Any thoughts on which way to go? And, if you think the latter, what the best way is to keep the two databases the same (apart from the data, of course...)?
Each environment should have a separate database. Script all of the database objects (tables, views, procedures, etc) and store the scripts in source control. The scripts are applied first to the development database, then promoted to test (QA, UAT, etc), then production. By applying the same scripts to each database, they should all be the same in the end.
If you have data that needs to be loaded (code tables, lookup values, etc), script that data load as part of the database creation process.
By scripting everything and keeping it in source control, a database structure can be recreated at any time for any given build level.
You should definitely have two. As far as keeping them in sync, you should always create DDL for creating your database objects. Treat these scripts as you do you PHP code - keep them in version control. Anytime you have to modify the test database, make a script to do so, and check it in. Then you can propogate those changes to the production system once you are ready.
As a minimum one database for each development workstation and one for production. Besides that you should have one for the test environment unless you are only one developer and have a similar setup as the production environment.
See also
How do you version your database schema?
It's a common question and has been asked and answered many times.
Thomas Owens: Replication is not usable for versioning schemas - it is for duplicating data. You never want to replicate from dev to production or vice versa.
Once I've deployed my database, any changes made to my development database(s), are done in an SQL script (not a tool), and the script is saved, and numbered.
deploy.001.description.sql
deploy.002.description.sql
deploy.003.description.sql
... etc..
Then I run each of those scripts in order when I deploy.
Then I archive them into a directory called something like
\deploy.YYMMDD\
And start all over.
If I make a mistake, I never go back to the previous deploy script, I'll create a new script and put my fix in there.
Good luck
One thing I've been working with is creating a VM with the database installed. you can save the VM as a playfile, including its data. What you can do then is take a snapshot of the playfile, and start up as many different VM's as you want. They can all be identical, or you can modify one or another. Here's the good thing: assuming you have a dev version of the database that you want to go out, you can simply start that VM on your production server instead of the current server.
It's another problem altogether if you have production data that is not on your dev machines. In that case though, one thing you can do is set up a tracking VM. Run replication from your main DB to the tracking VM. When you get to a point where you need to run some alters on the production database, first stop the slave and save a snapshot.
Start an instance of that snapshot, take it out of slave mode entirely, apply your changes, and point your QA box at that database. If it works as intended, you can run the patches against your main production database. If not, bring up the snapshot, and get it replicating off the master again until you are ready to repeat the update test.
I was having the same dilemmas. I got stuck thinking that there was a clear dichotomy between production db versus development db. I.e they were two sides of a coin and never the twain shall meet.
A lot of problems disappeared when I stopped making my application 'think' in terms of "Either production db OR development db". Instead my application uses a local db.
When its running on my virtual (dev) machine, that local db happens to be a dev db. My application doesn't really 'know' that though.
So, for the main part, the problem disappears.
But sometimes I want to run tests using live data, or move data from the code into the live production db and see the results quickly.
This is when I added the concept of a live-read-only db connection. The application treats this differently. Its a bit like how your application might treat a web service like Google Apps. Its 'some external resource that your app uses'.
By default my app uses the local db and in some very special conditions (in the test suite) it also uses the live-readonly db. (Because its a read-only connection I don't fear making a mess of the live data during tests).
So rather than asking the question "dev db OR production db?", my app asks "local db OR live-read-only db".
Obviously my situation could be different to yours, but I found this 'breakthrough in understanding' to be most helpful for me.
Related
Situation:
I've just deployed the first version of my website (in PHP with
MySQL database). I now need to move to version 2 of my website.
I typically build my website on localhost before moving it to the production server
I now want to restructure my database. But I'm not clear how to do this without losing / corrupting existing user data.
I'm worried that WHILE I'm making the above changes, a user may try
to make edits to the database.
Questions for you
Let's say I restructure my database in localhost. How do I duplicate
this restructuring on the live server? Do I need to run every query
on both localhost and production servers? (Seems very inefficient -
is there a better way to do this?)
How do I make sure that while I'm restructuring the database, the
sanctity of the data is not harmed (i.e. how do I make sure the
"version" of the database does not change until I finish my job?)
You create a "migration script" in sql that collects all queries required to migrate a database between two states. You try that how often required in your development environment and once on the production environment.
During that migration of the production environment you enable a "maintenance mode" that prevents any changes to the data being made and clearly states so to the user. Be transparent here. Two variants are in use:
you block all requests and temporarily replace the site by a "maintenance sign", this is typically done if the migration only takes a very short time. If that is not sufficient, then
you have to implement a read-only or maintenance mode into your logic rendering all data as read-only. Again: be transparent to you users in this.
If that is all too much hacking, then you might want to learn from the "big players" who never manipulate running systems at all, but only switch between instances, often a pool of instances. So you prepare a second, new system and only switch to that at a given point in time. Still you have to take care of a read-only period to allow data synchronization, but the switch itself is fast and reversible.
I'm working on a group project where we all have a mysql database working on a local machine. The table mainly has filenames and stats used for image processing. We all will run some processing, which updates the database locally with results.
I want to know what the best way is to update everyone else's database, once someone has changed theirs.
My idea is to perform a mysqldump after each processing run, and let that file be tracked by git (which we use religiously). I've written a bunch of python utils for the database, and it would be simple enough to read this dump into the database when we detect that the db is behind. I don't really want to do this though, less it clog up our git repo with unnecessary 10-50Mb files with every commit.
Does anyone know a better way to do this?
*I'll also note that we are Aerospace students. I have some DB experience, but it only comes out of need. We're busy and I'm not looking to become an IT networking guru. Just want to keep it hands off for them since they are DB noobs and get the glazed over look of fear whenever I tell them to do anything with the database. I made it hands off for them thus far.
You might want to consider following the Rails-style database migration concept, whereby as you are developing you provide roll-forward and roll-back SQL statements that work as patches, allowing you to roll your database to any particular revision state that is required.
Of course, this is typically meant for dealing with schema changes only (i.e. you don't worry about revisioning data that might be dynamically populated into tables.). For configuration tables or similar tables that are basically static in content, you can certainly add migrations as well.
A Google search for "rails migrations for python" turned up a number of results, including the following tool:
http://pypi.python.org/pypi/simple-db-migrate
I would suggest to create a DEV MySQL server on any shared hosting. (No DB experience is required).
Allow remote access to this server. (again, no experience is required, everything could be done through Control Panel)
And you and your group of developers will have access to the database at any time from any place and from any device. (As long as you have internet connection)
Background info:
We are currently 3 web programmers (good, real-life friends, no distrust issues).
Each programmers SSH into the single Linux server, where the code resides, under their own username with sudo powers.
We all use work on the different files at one time. We ask the question "Are you in the file __?" sometimes. We use Vim so we know if the file is opened or not.
Our development code (no production yet) resides in /var/www/
Our remote repo is hosted on bitbucket.
I am *very* new to Git. I used subversion before but I was basically spoon-fed instructions and was told exactly what to type to sync up codes and commit.
I read about half of Scott Chacon's Pro Git and that's the extent to most of my Git knowledge.
In case it matters, we run Ubuntu 11.04, Apache 2.2.17, and Git 1.7.4.1.
So Jan Hudec gave me some advice in the previous question. He told me that a good practice to do the following:
Each developer have their own repo on their local computer.
Let the /var/www/ be the repo on the server. Set the .git folder to permission 770.
That would mean that each developer's computer need to have their own LAMP stack (or at least Apache, PHP, MySQL, and Python installed).
The codes are mostly JavaScript and PHP files so it's not a big deal to clone it over. However how do we locally manage the database?
In this case, we only have two tables and it'll be simple to recreate the entire database locally (at least for testing). But in the future when the database gets too big, then should we just remotely log on the MySQL database on the server or should we just have a "sample" data for developing and testing purposes?
What you're doing is transitioning from "everybody works together in one environment" to "everybody has their own development environment". The major benefit is everybody won't be stepping on each other's feet.
Other benefits include a heterogeneous development environment, that is if everyone is developing on the same machine the software will become dependent on that one setup because developers are lazy. If everyone develops in different environments, even just with slightly different versions of the same stuff, they'll be forced to write more robust code to deal with that.
The main drawback, as you've noticed, is setting up the environment is harder. In particular, making sure the database works.
First, each developer should have their own database. This doesn't mean they all have to have their own database server (though its good for heterogeneous purposes) but they should have their own database instance which they control.
Second, you should have a schema and not just whatever's in the database. It should be in a version controlled file.
Third, setting up a fresh database should be automatic. This lets developers set up a clean database with no hassle.
Fourth, you'll need to get interesting test data into that database. Here's where things get interesting...
You have several routes to do that.
First is to make a dump of an existing database which contains realistic data, sanitized of course. This is easy, and provides realistic data, but it is very brittle. Developers will have to hunt around to find interesting data to do their testing. That data may change in the next dump, breaking their tests. Or it just might not exist at all.
Second is to write "test fixtures". Basically each test populates the database with the test data it needs. This has the benefit of allowing the developer to get precisely the data they want, and know precisely the state the database is in. The drawbacks are that it can be very time consuming, and often the data is too clean. The data will not contain all the gritty real data that can cause real bugs.
Third is to not access the database at all and instead "mock" all the database calls. You trick all the methods which normally query a database into instead returning testing data. This is much like writing test fixtures, and has most of the same drawbacks and benefits, but it's FAR more invasive. It will be difficult to do unless your system has been designed to do it. It also never actually tests if your database calls work.
Finally, you can build up a set of libraries which generate semi-random data for you. I call this "The Sims Technique" after the video game where you create fake families, torture them and then throw them away. For example, lets say you have User object who needs a name, an age, a Payment object and a Session object. To test a User you might want users with different names, ages, ability to pay and login status. To control all that you need to generate test data for names, ages, Payments and Sessions. So you write a function to generate names and one to generate ages. These can be as simple as picking randomly from a list. Then you write one to make you a Payment object and one a Session object. By default, all the attributes will be random, but valid... unless you specify otherwise. For example...
# Generate a random login session, but guarantee that it's logged in.
session = Session.sim( logged_in = true )
Then you can use this to put together an interesting User.
# A user who is logged in but has an invalid Visa card
# Their name and age will be random but valid
user = User.sim(
session = Session.sim( logged_in = true ),
payment = Payment.sim( invalid = true, type = "Visa" ),
);
This has all the advantages of test fixtures, but since some of the data is unpredictable it has some of the advantages of real data. Adding "interesting" data to your default sim and rand functions will have wide ranging repercussions. For example, adding a Unicode name to random_name will likely discover all sorts of interesting bugs! It unfortunately is expensive and time consuming to build up.
There you have it. Unfortunately there's no easy answer to the database problem, but I implore you to not simply copy the production database as it's a losing proposition in the long run. You'll likely do a hybrid of all the choices: copying, fixtures, mocking, semi-random data.
A few options, in order of increasing complexity:
You all connect to the live master DB, read/write permissions. This is risky, but I guess you're already doing it. Make sure you have backups!
Use test fixtures to populate a local test DB and just use it. Not sure what tools there are for this in the PHP world.
Copy (mysqldump) the master database and import it into your local machines' MySQL instances, then set up your dev environments to connect to your local MySQL. Repeat the dump/import as necessary
Set up one-way replication from the master to your local instances.
Optionally, set up a read-only user on the main DB, and configure your app to let you switch to a read-only connection to the real master DB in case you can't wait for that next copy of the master data.
Own repo does not mean own Staging server (this config is hardly maintained and extremely bad scaled to 10-20-100 developers)
It's always better to have as soon as possible (semi-)automated build-system, which convert repository-stored source-data to live system (less handwork - less changes to make non-code errors) and (maybe) some type of Continuos Integration (test often, find bugs fast). For build-system (DB-part) you have only to prepare initial data (tables structures, data-dumps) as (versioned) texts, which are
easy mergeable between merges
handled and processed and converted to final usable object by code, not by hand - no human errors, no operation's interferences
What processes do you put in place when collaborating in a small team on websites with databases?
We have no problems working on site files as they are under revision control, so any number of our developers can work from any location on this aspect of a website.
But, when database changes need to be made (either directly as part of the development or implicitly by making content changes in a CMS), obviously it is difficult for the different developers to then merge these database changes.
Our approaches thus far have been limited to the following:
Putting a content freeze on the production website and having all developers work on the same copy of the production database
Delegating tasks that will involve database changes to one developer and then asking other developers to import a copy of that database once changes have been made; in the meantime other developers work only on site files under revision control
Allowing developers to make changes to their own copy of the database for the sake of their own development, but then manually making these changes on all other copies of the database (e.g. providing other developers with an SQL import script pertaining to the database changes they have made)
I'd be interested to know if you have any better suggestions.
We work mainly with MySQL databases and at present do not keep track of revisions to these databases. The problems discussed above pertain mainly to Drupal and Wordpress sites where a good deal of the 'development' is carried out in conjunction with changes made to the database in the CMS.
You put all your database changes in SQL scripts. Put some kind of sequence number into the filename of each script so you know the order they must be run in. Then check in those scripts into your source control system. Now you have reproducible steps that you can apply to test and production databases.
While you could put all your DDL into the VC, this can get very messy very quickly if you try to manage lots and lots of ALTER statements.
Forcing all developers to use the same source database is not a very efficient approach either.
The solution I used was to maintain a file for each database entity specifying how to create the entity (primarily so the changes could be viewed using a diff utility), then manually creating ALTER statements by comparing the release version with the current version - yes, it is rather labour intensive but the only way I've found to solve the problem.
I had a plan to automate the generation of the ALTER statements - it should be relatively straightforward - indeed a quick google found this article and this one. Never got round to implementing one myself since the effort of doing so was much greater than the frequency of schema changes on the projects I was working on.
Where i work, every developer (actually, every development virtual machine) has its own database (or rather, its own schema on a shared Oracle instance). Our working process is based around complete rebuilds. We don't have any ability to modify an existing database - we only ever have the nuclear option of blowing away the whole schema and building from scratch.
We have a little 'drop everything' script, which uses queries on system tables to identify every object in the schema, constructs a pile of SQL to drop them, and runs it. Then we have a stack of DDL files full of CREATE TABLE statements, then we have a stack of XML files containing the initial data for the system, which are loaded by a loading tool. All of this is checked into source control. When a developer does an update from source control, if they see incoming database changes (DDL or data), they run the master build script, which runs them in order to create a fresh database from scratch.
The good thing is that this makes life simple. We never need to worry about diffs, deltas, ALTER TABLE, reversibility, etc, just straightforward DDL and data. We never have to worry about preserving the state of the database, or keeping it clean - you can get back to a clean state at the push of a button. Another important feature of this is that it makes it trivial to set up a new platform - and that means that when we add more development machines, or need to build an acceptance system or whatever, it's easy. I've seen projects fail because they couldn't build new instances from their muddled databases.
The main bad thing is that it takes some time - in our case, due to the particular depressing details of our system, a painfully long time, but i think a team that was really on top of its tools could do a complete rebuild like this in 10 minutes. Half an hour if you have a lot of data. Short enough to be able to do a few times during a working day without killing yourself.
The problem is what you do about data. There are two sides to this: data generated during development, and live data.
Data generated during development is actually pretty easy. People who don't work our way are presumably in the habit of creating that data directly in the database, and so see a problem in that it will be lost when rebuilding. The solution is simple: you don't create the data in the database, you create it in the loader scripts (XML in our case, but you could use SQL DML, or CSV with your database's import tool, or whatever). Think of the loader scripts as being source code, and the database as object code: the scripts are the definitive form, and are what you edit by hand; the database is what's made from them.
Live data is tougher. My company hasn't developed a single process which works in all cases - i don't know if we just haven't found the magic bullet yet, or if there isn't one. One of our projects is taking the approach that live is different to development, and that there are no complete rebuilds; rather, they have developed a set of practices for identifying the deltas when making a new release and applying them manually. They release every few weeks, so it's only a couple of days' work for a couple of people that often. Not a lot.
The project i'm on hasn't gone live yet, but it is replacing an existing live system, so we have a similar problem. Our approach is based on migration: rather than trying to use the existing database, we are migrating all the data from it into our system. We have written a rather sprawling tool to do this, which runs queries against the existing database (a copy of it, not the live version!), then writes the data out as loader scripts. These then feed into the build process just like any others. The migration is scripted, and runs every night as part of our daily build. In this case, the effort needed to write this tool was necessary anyway, because our database is very different in structure to the old one; the ability to do repeatable migrations at the push of a button came for free.
When we go live, one of our options will be to adapt this process to migrate from old versions of our database to new ones. We'll have to write completely new queries, but they should be very easy, because the source database is our own, and the mapping from it to the loader scripts is, as you would imagine, straightforward, even as the new version of the system drifts away from the live version. This would let us keep working in the complete rebuild paradigm - we still wouldn't have to worry about ALTER TABLE or keeping our databases clean, even when we're doing maintenance. I have no idea what the operations team will think of this idea, though!
You can use the replication module of the database engine, if it has one.
One server will be the master, changes are to be made on it.
Developers copies will be slaves.
Any changes on the master will be duplicated on the slaves.
It's a one way replication.
Can be a bit tricky to put into place as any changes on the slaves will be erased.
Also it means that the developers should have two copy of the database.
One will be the slave and another the "development" database.
There are also tools for cross database replications.
So any copies can be the master.
Both solutions can lead to disasters (replication errors).
The only solution is see fit is to have only one database for all developers and save it several times a day on a rotating history.
Won't save you from conflicts but you will be able to restore the previous version if it happens (and it always do...).
Where I work we are using Dotnetnuke and this poses the same problems. i.e. once released the production site has data going into the database as well as files being added to the file system by some modules and in the DNN file system.
We are versioning the site file system with svn which for the most part works ok. However, the database is a different matter. The best method we have come across so far is to use RedGate tools to synchronise the staging database with the production database. RedGate tools are very good and well worth the money.
Basically we all develop locally with a local copy of the database and site. If the changes are major we branch. Then we commit locally and do a RedGate merge to put our DB changes on the the shared dev server.
We use a shared dev server so others can do the testing. Once complete we then update the site on staging with svn and then merge the database changes from the development server to the staging server.
Then to go live we do the same from staging to prod.
This method works but is prone to error and is very time consuming when small changes need to be made. The prod DB is always backed up so we can roll back easily if a delivery goes wrong.
One major headache we have is that Dotnetnuke uses identity cols in many tables and if you have data going into tables on development and production such as tabs and permissions and module instances you have a nightmare syncing them. Ideally you want to find or build a cms that uses GUI's or something else in the database so you can easily sync tables that are in use concurrently.
We'd love to find a better method! As we have a lot of trouble with branching and merging when projects are concurrent.
Gus
If you have a test server, and a production server. How do you sync the database?
Do you add the data in the test server first, just like you code in the test server?
How is that generally handled?
That depends on how coupled you can allow the two databases to be.
One configuration might be to have the two databases replicated with the production server in master configuration and the test server as slave. I would use caution with this method, unless you absolutely need the synchronization of live data with test infrastructure, don't go down this path.
Instead, if you want to keep the two instances separated, just replicate with mysqldumps.
I version control SQL dumps (as made by mysqldump). I find it's usually a nice portable format.
Some platforms have concepts like Django's Fixtures which dumps models data to a JSON or XML file so you can version control it to/from the server and load it up where you need it. Whether you have something like this available depends on your platform.
You're talking about getting a live version in your production environment. If I were you, I'd settle for near-live. Cron up a dump script on the server and either write a little script to pull it into your production environment or just rely on version control.
Anything more than near-live will likely be two-way and risk live data.
I use Navicat to sync my development and production servers. The Navicat product allows structure syncing (ie new fields) and data syncing (data). The main limitation is that you can't sync any tables that don't have a primary key. And its not always that fast if there are a lot of records to transfer.
WE do all database devvelopment inscripts including scripts to add records to lookup tables. these scripts are in source control and are versionied just like any other code. To send changes from dev to prod, we run the scripts for that version. This would include any changes needed to lookup type tables as well as table structure changes, sps, userdefined functions, views, etc. SInce it cannot be deplyed to prod without a script (we havea configuration managment team that does the deplying not developers), we have no trouble at all with people nort using scripts or source control.
To go back from prod to dev, we refesh last prod backup and then rerun the dev scripts which have not yet been promoted to prod.