This guide was developed in collaboration with Navneet Potti (@navsan) and Nabarun Nag (@nabarunnag). Many thanks to Dave Cramer (@davecramer) and Daniel Gustafsson (@danielgustafsson) for various suggestions to improve the original version of this document. Alexey Grishchenko (@0x0FFF) has also participated in improvement of the document and scripts.
Anyone who wants to develop code for GPDB. This guide targets the freelance developer who typically has a laptop and wants to develop GPDB code on it. In other words, such a typical developer does not necessarily have 24x7 access to a cluster, and needs a miminal stand-alone development environment.
The instructions here were verified on the configurations below.
OS | Date Tested | Comments |
---|---|---|
OSX v.10.10.5 | 2016-03-17 | Vagrant v. 1.8.1; VirtualBox v. 5.0.16 |
OSX v.10.11.2 | 2015-12-29 | Vagrant v. 1.8.1; VirtualBox v. 5.0.12 |
You need to setup both VirtualBox and Vagrant. If you don't have these installed already, then head over to https://www.virtualbox.org/wiki/Downloads and http://www.vagrantup.com/downloads to download and then install them.
##2: Clone GPDB code from github Go to the directory in your machine where you want to check out the GPDB code, and clone the GPDB code by typing the following into a terminal window.
git clone https://github.com/greenplum-db/gpdb.git
##3: Setup and start the virtual machine
Next go to the gpdb/src/tools/vagrant
directory. This directory has virtual machine
configurations for different operating systems (for now there is only one).
Pick the distro of your choice, and cd
to that directory. For this document,
we will assume that you pick centos
. So, issue the following command:
cd gpdb/src/tools/vagrant/centos
Next let us start a virtual machine using the Vagrant file in that directory. From the terminal window, issue the following command:
vagrant up gpdb
The last command will take a while as Vagrant works with VirtualBox to fetch
a box image for CentOS. This image is fetched only once and will be stored by Vagrant in a
directory (likely ~/.vagrant.d/boxes/
), so you won't repeatedly incur this network IO
if you repeat the steps above. A side-effect is that Vagrant has now used a
few hundred MiBs of space on your machine. You can see the list of boxes that
Vagrant has downloaded using vagrant box list
. If you need to drop some
box images, follow the instructions posted here.
If you are curious about what Vagrant is doing, then open the file
Vagrantfile
. The config.vm.box
parameter there specifies the
Vagrant box image that is being fetched. Essentially you are creating an
image of CentOS on your machine that will be used below to setup and run GPDB.
While you are viewing the Vagrantfile, a few more things to notice here are:
- The parameter
vb.memory
sets the memory to 8GB for the virtual machine. You could dial that number up or down depending on the actual memory in your machine. - The parameter
vb.cpus
sets the number of cores that the virtual machine will use to 4. Again, feel free to change this number based on the machine that you have. - Additional synced folders can be configured by adding a
vagrant-local.yml
configuration file on the following format:
synced_folder:
- local: /local/folder
shared: /folder/in/vagrant
- local: /another/local/folder
shared: /another/folder/in/vagrant
Once the command above (vagrant up gpdb
) returns, we are ready to login to the
virtual machine. Type in the following command into the terminal window
(make sure that you are in the directory gpdb/vagrant/centos
):
vagrant ssh gpdb
Now you are in the virtual machine shell in a guest OS that is running in your actual machine (the host). Everything that you do in the guest machine will be isolated from the host.
That's it - GPDB is built, up and running. Before you can open a psql connection, run the following:
# setup the environment
source /usr/local/gpdb/greenplum_path.sh
source ~/gpdb/gpAux/gpdemo/gpdemo-env.sh
# create a database to interact with (you only need to do this once)
createdb
# connect!
psql
To run the tests:
cd ~/gpdb
make installcheck-world
If you are curious how this happened, take a look at the following scripts:
vagrant/centos/vagrant-setup.sh
- this script installs all the packages required for GPDB as dependenciesvagrant/centos/vagrant-build.sh
- this script builds GPDB. In case you need to change build options you can change this file and re-create VM by runningvagrant destroy gpdb
followed byvagrant up gpdb
vagrant/centos/vagrant-configure-os.sh
- this script configures OS parameters required for running GPDB
You can easily go to vagrant/centos/Vagrantfile
and comment out the calls for
any of these scripts at any time to prevent GPDB installation or OS-level
configurations
If you want to try out a few SQL commands, go back to the guest shell in which
you have the psql
prompt, and issue the following SQL commands:
-- Create and populate a Users table
CREATE TABLE Users (uid INTEGER PRIMARY KEY,
name VARCHAR);
INSERT INTO Users
SELECT generate_series, md5(random())
FROM generate_series(1, 100000);
-- Create and populate a Messages table
CREATE TABLE Messages (mid INTEGER PRIMARY KEY,
uid INTEGER REFERENCES Users(uid),
ptime DATE,
message VARCHAR);
INSERT INTO Messages
SELECT generate_series,
round(random()*100000),
date(now() - '1 hour'::INTERVAL * round(random()*24*30)),
md5(random())::text
FROM generate_series(1, 1000000);
-- Report the number of tuples in each table
SELECT COUNT(*) FROM Messages;
SELECT COUNT(*) FROM Users;
-- Report how many messages were posted on each day
SELECT M.ptime, COUNT(*)
FROM Users U NATURAL JOIN Messages M
GROUP BY M.ptime
ORDER BY M.ptime;
You just created a simple warehouse database that simulates users posting
messages on a social media network. The "fact" table (i.e. the Messages
table) has a million rows. The final query reports the number of messages
that were posted on each day. Pretty cool!
(Note if you want to exit the psql
shell above, type in \q
.)
##4: Using GDBP If you are doing serious development, you will likely need to use a debugger. Here is how you do that.
First, list the Postgres processes by typing in (a guest terminal) the following
command: ps ax | grep postgres
. You should see a list that looks something
like:
(You may have to click on the image to see it at a higher resolution.)
Here the key processes are the ones that were started as
/usr/local/gpdb/bin/postgres
. The coordinator is the process (pid 25486
in the picture above) that has the word "coordinator" in the -D
parameter setting,
whereas the segment hosts have the word "gpseg" in the -D
parameter setting.
Next, start gdb
from a guest terminal. Once you get a prompt in gdb, type
in the following (the pid you specify in the attach
command will be
different for you):
set follow-fork-mode child
b ExecutorMain
attach 25486
Of course, you can change which function you want to break into, and change whether you want to debug the coordinator or the segment processes. Happy hacking!
##4: GPDB without GPORCA
If you want to run GPDB without the GPORCA query optimizer, run vagrant up gpdb-without-gporca
.