Understanding Sugar code: Difference between revisions

From OLPC
Jump to navigation Jump to search
(add link to sugar architecture doc)
Line 7: Line 7:
# how sugar cleans itself up when exiting
# how sugar cleans itself up when exiting


Other Docs
To get an idea of the module/class structure see [[Sugar Components]]
# To get an idea of the module/class structure see [[Sugar Components]] - a continuation of this doc.

# [[Sugar Architecture]]
See also [http://www.redhatmagazine.com/2007/03/26/building-the-xo-the-anatomy-of-an-activity/ this article] in red hat magazine which describes the structure of an Activity.
# See also [http://www.redhatmagazine.com/2007/03/26/building-the-xo-the-anatomy-of-an-activity/ this article] in red hat magazine which describes the structure of an Activity.


==What launches sugar?==
==What launches sugar?==

Revision as of 19:24, 27 May 2007

Understanding sugar code

This is an attempt to understand how sugar runs, based on a moderate level of unix shell experience. Here, we'll break down:

  1. what packages and software sugar relies on
  2. where sugar sets up scripts, libraries, modules, and configuration files
  3. how sugar manages user identity
  4. what sugar does at runtime (very high level)
  5. how sugar cleans itself up when exiting

Other Docs

  1. To get an idea of the module/class structure see Sugar Components - a continuation of this doc.
  2. Sugar Architecture
  3. See also this article in red hat magazine which describes the structure of an Activity.

What launches sugar?

OK, Sugar runs on an OLPC. The OLPC runs a stripped down Fedora Linux Operating System. Sugar has a developer console utility... In emulation, hit Alt-0 and the console comes up. In the Developer Console, go to the Terminal tab. Click in the Terminal window, and switch to the root account:

To do this, let's use the superuser command, "su".

[olpc@localhost]$ su

What runs as part of sugar? Let's see what processes have the keyword sugar using both the "ps" command to list processes, and the grep command to filter for the processes with the word "sugar" in them.

bash-3.1# ps -eaf | grep sugar
olpc 1290 1285 3 15:46 ? /usr/bin/python /usr/bin/sugar-shell 
olpc 1293 1290 0 15:46 ? matchbox-window-manager -kbdconfig /usr/share/sugar/kbdconfig ... 
olpc 1296    1 0 15:46 ? dbus-launch --exit-with-session sugar-shell
olpc 1298    1 0 15:46 ? /usr/bin/python /usr/bin/sugar-presence-service 
olpc 1302    1 0 15:46 ? /usr/bin/python /usr/bin/sugar-clipboard
olpc 1304    1 0 15:46 ? /usr/bin/python /usr/bin/sugar-nm-applet
olpc 1306    1 4 15:46 ? python /usr/bin/sugar-console
olpc 1339 1285 1 15:46 ? grep sugar

Most things seem to run on python, not a big suprise. But right here, we can see some key architectural divisions:

  1. A shell
  2. A presence service (this service is accessed via the right side of the sugar interface)
  3. A clipboard (The left side of the sugar interface)
  4. A nm applet (Tthe network manager in the upper right)
  5. A console (probably the development console)

Though I'm mentioning aspects of the Sugar User Interface, these services are running as processes in the background. I'd expect the sugar interface to use these services, but the sugar interface is probably presented by the shell process. That shell would then pass messages to the other utilities as needed.

Also, there are two non-python type processes running, dbus-launch, and a matchbox-window-manager. Matchbox is the windows manager (It implements X Windows.. Matchbox home page, also notice it's spawned from the sugar-shell), and the dbus is for Inter-process communications (supporting the presence service, amongst other things)

What starts the sugar shell?


It looks like most of these python scripts are stored in /usr/bin. We can read the python scripts and see what they do.

bash-3.1# less /usr/bin/sugar-shell

This thing starts a sugar environment. It also relies on a lot of other stuff, and it looks like the OLPC developers expect a lot of changes here as they make progress on getting sugar into shape. It references GTK, dbus, nm applet, and lots of stuff.

bash-3.1# less /usr/bin/sugar-nm-applet

Oh, look, this is the network manager utility. OK, and then the activity factory will be triggered whenever a new activity is selected on the bottom....


[initialization]

The sugar-shell process has a parent of 1285...

bash-3.1# ps -eaf | grep 1285
olpc 1285 1269 0 15:46 ? xinit /home/olpc/.xinitrc -- -auth /home/olpc/.serverauth.1269

How about that? In the olpc home directory, there is a hidden .xinitrc file. Let's look!

bash-3.1# less ~olpc/.xinitrc

Well, this thing launches both the tinderbox and the sugar-shell. It looks like the sugar shell is launched within the dbus-launch utility.

So that's where the sugar user interface starts... it's:

exec dbus-launch --exit-with-session sugar-shell

We can read down from the sugar-shell and read almost all the code from that point down. That's pretty nice.


What sugar python library does /usr/bin/sugar-shell load?

bash-3.1# python
>>> import sys
>>> import sugar
>>> dir(sugar)
['ZOOM_ACTIVITY','ZOOM_FRIENDS','ZOOM_HOME','ZOOM_MESH', etc.. ]
>>> sugar
<module 'sugar' from '/usr/lib/python2.4/site-packages/sugar/__init__.py'>

That seems pretty definitive. Looking in the /usr/lib/python2.4/site-packages/sugar directory, there are all sorts of interesting files.

ls/usr/lib/python2.4/site-packages/sugar/*

There are some interesting directories (each directory represents a sub-package):

activity
chat
clipboard
datastore
graphics
p2p
presence

But the python scripts are even more interesting (each is a module):

Traceback.py
emulator.py
env.py
logger.py
profile.py
simulator.py
util.py

In particular, the logger.py & env.py are here. It would be nice to see what the sugar-shell script actually does, and we are ready to try it manually. I'm going to skip stuff that doesn't seem right yet.

bash-3.1# python
>>> import sys
>>> import os
>>> from sugar import logger
>>> from sugar import profile
>>> from sugar import env
>>> dir(env)
[..., 'sugar_activities_dir', 'sugar_activity_info_dir', 'sugar_data_dir', 'sugar_services_dir', ...]
>>> env.sugar_activities_dir
'/usr/share/sugar/activities'
>>> env.sugar_data_dir
'/usr/share/sugar'

Now we know that the three directories that house sugar python scripts are /usr/bin, /usr/lib/python2.4/site-packages/sugar, and /usr/share/sugar. That's a pretty good day's work.

How does sugar initialize?

Next, let's look slowly at what happens as sugar initializes.

/usr/bin/sugar-shell is a python script: #!/usr/bin/python

It imports os & sys, and the pygtk. Then sugar makes sure the pygtk libraries are in the path by calling a function that adds the path if it's not there. This is just a bit of robustness.

Next, import a bunch of sugar functions into the top namespace of the python environment... We can see all the names in the top namespace by using the dir()

bash-3.1# python
>>> import sys, os, pygtk
>>> pygtk.require('2.0')
>>> import gtk, gobject
>>> from sugar import logger, profile, env, TracebackUtils
>>> dir()
['GIntiallyUnowned', 'TracebackUtils', ..., 'env', 'gobject', 'gtk', 'logger', 'os', 'profile', 'pygtk', 'sys']

That's the imports. Now sugar starts setting up the logging utility:

>>> logger.cleanup()
>>> logger.start('shell')


That initialized the logger function for tracing the sugar shell. Next, sugar is going to instantiate it's shell. Before the shell can be started, sugar needs to import more stuff. first, let's set paths to that stuff. Set up our python path to look at /usr/share/sugar/shell first. python will find the shared sugar shell scripts first in our environment.

>>> sys.path.insert(0, os.path.join(env.data_dir(), 'shell')
>>> env.data_dir()
'/usr/share/sugar'
>>> sys.path
['/usr/share/sugar/shell', ... the regular python path ]

What is each service or utility?

Let's discuss this offline in Sugar Components. The following components are pulled in right now:

>>> from view.FirstTimeDialog import FirstTimeDialog
>>> from view.Shell import Shell
>>> from model.ShellModel import ShellModel

What's the user's name (and color)?

Sugar is going to pull the user name from the profile. If there is no name, FirstTimeDialog is called to get the user's nick name. Then, the profile utility will store the name and color.

name = profile.get_nick_name()
if not name or not len(name):
 dialog = FirstTimeDialog()
 dialog.run
 profile.update()

A quick browse through profile.py shows that the nickname is stored in '/home/olpc/.sugar/default/config'. The config file also contains a default color for the user. I bet the color could be changed by adjusting this string.

Also, there are subdirectories here for activities logs, gecko stuff, network management, and a cache. That directory is a nice find.

How is your user color picked? FirstTimeDialog calls iconcolor.py. Iconcolor.py in turn randomly picks a color from the list in color.py and that's your permanent color. This only happens if you don't have a config file, so if you delete that file, you can change your nickname and color. :)

Starting the Shell

Before starting the shell, sugar needs to assign a session number to the shell execution so it's identified for DBUS services. This snippet does that, but it looks like it's due for future change (I wouldn't actually do this unless you don't have a sugar shell running yet):

dbsa_file = os.path.join(env.get_path_profile(),"session_bus_address")
f = open(dsba_file,"w")
f.write(os.environ["DBUS_SESSION_BUS_ADDRESS"])
f.close()

That let's all the processes know who to link to... (I think)

Now let's really start the shell (again, this will break things):

>>> model = ModelShell()
>>> shell = Shell(model)

OK, the model goes out and registers itself with DBUS, and the presence manager, and tries to get proxies, and will try to attach to Avahi (a DNS discovery service of sorts). If there is already a sugar model instantiated, you'll get a collision on the bottom of a medium size error stack.

Without a model, you can not start a shell. So this means the next step is to comment out lines in the .xinitrc, and manually launch the sugar shell (note, this is dangerous and could break your OLPC OS image). First, make a clean copy of the .xinitrc just in case

cd ~
cp .xinitrc .xinitrc~

Next, comment out this line:

#exec dbus....
su
# /sbin/shutdown now

I'll run back through all the productive steps:

Starting the network manager

Once the sugar shell is started, there are a couple of afterthoughts that get worked out. First, the Network manager needs to be brought online.

gtk's gobject is used to start this up:

args = ['sugar-nm-applet']
flags = gobject.SPAWN_SEARCH_PATH
result = gobject.spawn_async(args,flags=flags, standard_output=False)

Considering that I always have to switch to root a run /sbin/dhclient to get network connectivity, I wonder if this chunk of code works.

Starting up the Traceback Helper

I'll have to figure out what this does and report back to you all.

tbh = TracebackUtils.TracebackHelper()

The gtk.main loop?

This looks like the main sugar shell loop in action. [1]

try:
   gtk.main()
except KeyboardInterrupt:
   print 'Ctrl+c pressed, exiting...'

Cleaning up on a regular shutdown

del tbh
os.remove(dsba_file)