CMIS is an open standard by OASIS that allows different content management systems to inter-operate over the Internet. Specifically, CMIS defines an abstraction layer for controlling diverse document management systems and repositories using web protocols. (source: Wikipedia)
CMIS tries to do for content and document management systems what ODBC did for relational databases which is industry wide standardization of interaction with these Database/Content management systems.
Cmis-browser provides some basic functionality to browse and manipulate CMIS repositories like:
- User login and authentication
- Browse and list files and folders
- Upload and download files and folders
- Show metadata of files and folders
However, it does not (currently) support the many advanced features of the CMIS specification like:
- Relationships
- Renditions
- Policies
- Extensions
- Queries
- TypeDefinitions
- git: http://git-scm.com/
- npm: http://nodejs.org/
Clone the angular-seed repository using git:
git clone https://github.com/mikar/cmis-browser.git
cd cmis-browser
npm install
Start with npm start
and browse to the app at http://localhost:8000/app/index.html
.
The following command will start a Karma test runner that runs the unit tests once
on load and then whenever a file is changed.
npm test
You can also ask Karma to do a single run of the tests and then exit via:
npm run test-single-run
End to end tests are being run with Protractor. And since Protractor is built
on WebDriver we need to install it (once):
npm run update-webdriver
Start the development web server, if it isn't running already:
npm start
Once you have ensured that the development web server hosting our application is up and running and WebDriver is updated, you can run the end-to-end tests using the supplied npm script:
npm run protractor
This script will execute the end-to-end tests against the application being hosted on the development server.
You can update the tool dependencies by running:
npm update
This will find the latest versions that match the version ranges specified in the package.json
file.
You can update the Angular dependencies by running:
bower update
This will find the latest versions that match the version ranges specified in the bower.json
file.
The angular-seed project, which this project is based on, supports loading the framework
and application scripts asynchronously. The special index-async.html
is
designed to support this style of loading. For it to work you must inject a piece
of Angular JavaScript into the HTML page. The project has a predefined script to help do this:
npm run update-index-async
This will copy the contents of the angular-loader.js
library file into the index-async.html
page.
You can run this every time you update the version of Angular that you are using.
This project comes preconfigured with a local development webserver. It is a node.js
tool called http-server. You can start this webserver with npm start
but you may choose to install the tool globally:
sudo npm install -g http-server
Then you can start your own development web server to serve static files from a folder by running:
http-server -a localhost -p 8000
Alternatively, you can choose to configure your own webserver, such as apache or nginx. Just
configure your server to serve the files under the app/
directory.
This really depends on how complex your app is and the overall infrastructure of your system, but
the general rule is that all you need in production are all the files under the app/
directory.
Everything else should be omitted.
Angular apps are really just a bunch of static html, css and js files that just need to be hosted somewhere they can be accessed by browsers.
If your Angular app is talking to the backend server via xhr or other means, you need to figure out what is the best way to host the static files to comply with the same origin policy if applicable. Usually this is done by hosting the files by the backend server or through reverse-proxying the backend server(s) and webserver(s).