OSMTM enables collaborative work on specific areas in OpenStreetMap by defining clear workflows to be achieved and by breaking tasks down into pieces.
The application is written in Python using the Pyramid framework.
This is the 2.0 version of the Tasking Manager.
See a list of Tasking Manager installations here.
First clone the git repository:
git clone --recursive git://github.com/hotosm/osm-tasking-manager2.git
Installing OSMTM in a Virtual Python environment is recommended.
To create a virtual Python environment:
cd osm-tasking-manager2
sudo easy_install virtualenv
virtualenv --no-site-packages env
./env/bin/pip install -r requirements.txt
Tip: if you encounter problems installing psycopg2
especially on Mac, it is recommended to follow advice proposed here.
OSMTM requires a PostgreSQL/PostGIS database. Version 2.x of PostGIS is required.
First create a database user/role named www-data
:
sudo -u postgres createuser -SDRP www-data
Then create a database named osmtm
:
sudo -u postgres createdb -O www-data osmtm
sudo -u postgres psql -d osmtm -c "CREATE EXTENSION postgis;"
### Local settings
You certainly will need some local specific settings, like the db user or
password. For this, you can create a local.ini
file in the project root,
where you can then override every needed setting.
For example:
[app:main]
sqlalchemy.url = postgresql://www-data:www-data@localhost/osmtm
Note: you can also put your local settings file anywhere else on your
file system, and then create a LOCAL_SETTINGS_PATH
environment variable
to make the project aware of this.
You're now ready to do the initial population of the database. An
initialize_osmtm_db
script is available in the virtual env for that:
./env/bin/initialize_osmtm_db
./env/bin/pserve --reload development.ini
You will see messages, hopefully including a line like serving on http://0.0.0.0:6543
.
Visit that address in your web browser - you should see your local Tasking Manager!
You need to make the following changes to the osmtm/views/osmauth.py file.
# Add the below lines in the starting
import httplib2
httplib2.debuglevel = 4
PROXY = httplib2.ProxyInfo(httplib2.socks.PROXY_TYPE_HTTP_NO_TUNNEL, 'PROXY-SERVER', PROXY-PORT)
NOTE: Replace the PROXY-SERVER with your proxy server address and PROXY-PORT with the port number on which your proxy is established.
# then add "proxy_info=PROXY" for every line in oauth.Client.
client = oauth.Client(consumer, proxy_info=PROXY)
client = oauth.Client(consumer, token, proxy_info=PROXY)
Replace the host address in the development.ini file with your IP address of the system.
host='SYSTEM-IP-ADDRESS'
The CSS stylesheet are compiled using less. Launch the following command as soon as you change the css:
lessc -ru osmtm/static/css/main.less > osmtm/static/css/main.css
env/bin/pserve --reload development.ini
The tests use a separate database. Create that database first:
sudo -u postgres createdb -O www-data osmtm_tests
sudo -u postgres psql -d osmtm_tests -c "CREATE EXTENSION postgis;"
Create a local.test.ini
file in the project root, where you will add the
settings for the database connection.
For example:
[app:main]
sqlalchemy.url = postgresql://www-data:www-data@localhost/osmtm_tests
To run the tests, use the following command:
./env/bin/nosetests
- pull latest updates from the repository:
git pull origin
- update the submodules:
git submodule update
- update/install python modules:
python setup.py develop
- create database dump:
pg_dump -Fc -f osmtm2_latest.dmp database_name
- run database migrations:
alembic upgrade head
- compile messages:
python setup.py compile_catalog
- restart application server
an example Apache configuration file
WSGIDaemonProcess OSMTM_process user=ubuntu group=ubuntu processes=1 \
threads=4 \
python-path=/home/ubuntu/osm-tasking-manager2:/home/ubuntu/osm-tasking-manager2/env/lib/python2.7/site-packages
WSGIRestrictStdin Off
<VirtualHost *:80>
ServerName example.org
# Use only 1 Python sub-interpreter. Multiple sub-interpreters
# play badly with C extensions.
WSGIPassAuthorization On
WSGIScriptAlias /osmtm /home/ubuntu/osm-tasking-manager2/env/OSMTM.wsgi
<Location />
WSGIProcessGroup OSMTM_process
WSGIApplicationGroup %{GLOBAL}
</Location>
<Directory /home/ubuntu/osm-tasking-manager2/env>
<Files OSMTM.wsgi>
Require all granted
</Files>
Order allow,deny
Allow from all
</Directory>
LogLevel warn
CustomLog /var/log/apache2/osmtm-access.log combined
ErrorLog /var/log/apache2/osmtm-error.log
</VirtualHost>
In case you install your own instance you may want to customize its look and
feel. You can do so by modifying the following files:
osmtm/templates/custom.mako
, osmtm/static/css/custom.less
&
osmtm/static/img/favicon.ico
OSMTM is localized on https://www.transifex.com/projects/p/osm-tasking-manager2/ service.
It's possible to create translations for two resources: current and master. Current resource represents currently deployed instance of the OSMTM http://tasks.hotosm.org. Master resource represents actively developed code that will become current once it gets deployed.
In general managing translation files involves:
- generate pot file:
python setup.py extract_messages
- initialize a message catalogue file (english):
python setup.py init_catalog -l en
- if the catalogue is already created use:
python setup.py update_catalog
- if the catalogue is already created use:
- eventually compile messages:
python setup.py compile_catalog
- append new language to the
available_languages
configuration variable in production.ini file, for exampleavailable_languages = en fr
- in the project top level directory, initialize transifex service (after installing
transifex-client
):tx init
- the init process will ask for service URL and username/password, which will be saved to
~/.transifexrc
file
- the init process will ask for service URL and username/password, which will be saved to
- if the project has already been initialized, but you are missing
~/.transifexrc
, create the file and modify it's access privilegeschmod 600 ~/.transifexrc
Example .transifexrc
file:
[https://www.transifex.com]
hostname = https://www.transifex.com
password = my_super_password
token =
username = my_transifex_username
- after creating the project on the Transifex service:
osm-tasking-manager2
, generate the pot file, and add it as amaster
resource on the project, full resource name, in this case, isosm-tasking-manager2.master
- add initial source file, in this case English:
tx set --source -r osm-tasking-manager2.master -l en osmtm/locale/en/LC_MESSAGES/osmtm.po
- add existing source files, in this case French:
tx set -r osm-tasking-manager2.master -l fr osmtm/locale/fr/LC_MESSAGES/osmtm.po
- push resources on the transifex service (this will overwrite any existing resources on the service)
tx push -s -t
-s
- pushes source files (English)-t
- pushes translation files (French)
- to pull latest changes from Transifex service execute:
tx pull
- this will pull every available language from the Transifex service, even the languages that are not yet mapped
- if the language is not mapped, translated language file will be saved to the local
.tx
directory, which is not what we want so we need to define the mapping - for example, if we want to correctly map Croaian language you need to execute:
tx set -r osm-tasking-manager2.master -l hr osmtm/locale/hr/LC_MESSAGES/osmtm.po
- there is no need to create the actual po file or the directory structure, Transifex client will manage that for us
- there is also a possibility to pull specific languages:
tx pull -l hr
- or pull only languages that have a certain completeness percentage:
tx pull --minimum-perc=90
-
update pot and source po file
python setup.py extract_messages
python setup.py init_catalog -l en
-
push the source file to Transifex service
tx push -s
- when adding a new language:
- we need to configure local mapping:
tx set -r osm-tasking-manager2.master -l hr osmtm/locale/hr/LC_MESSAGES/osmtm.po
- append the new language to the
available_languages
configuration variable in production.ini file:available_languages = en fr hr
- we need to configure local mapping:
- after there are some translation updates, pull latest changes for mapped resources
tx pull -l fr,hr
- compile language files
python setup.py compile_catalog