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OC-KittenOS/repository/docs/an-intro

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Welcome to the documentation for your
KittenOS NEO system.
These documents are written to a 37-
column standard, in order to match
the Neolithic text editor.
If editing them, please set a right
margin of 37, or an equivalent,
in order to ensure that the
documents do not require horizontal
scroll in order to read.
This documentation is aimed at those
who wish to develop things for the
KittenOS NEO system.
Due to the size of the system, it is
divided into several sections,
each section being a file.
This section will cover an overview
of the KittenOS NEO system.
It is an abstract overview, but one
that will give you a framework in
which the components make sense,
should you simply skip to them.
The KittenOS NEO system is divided
into three things - the kernel,
libraries, and the processes.
The kernel is always loaded at all
times, and is the root of all system
activity.
The libraries are essentially Lua
values that are kept in memory by a
weak-valued table.
This allows them to be reused,
and memory saved, if possible,
while also allowing unloading.
This is a critical memory management
technique in KittenOS NEO, as it
allows certain libraries to be
loaded only when in active use.
(This also means libraries can have
security side-effects, but they
always can in any system, arguably,
and it's worth it for the memory.
Notably, library values get
wrapMeta'd automatically since R2,
in order to reduce NEO-specific
code.)
The processes are applications and
services, that communicate with the
kernel via the NEO Kernel API, and
that communicate with others via
Lua values and tables shared between
the processes, that also constitute
a form of API.
These APIs are shared and retrieved
via Accesses - anything that causes
a permissions check is an Access.
Accesses are easy to replace in the
system, should you wish to heavily
customize the system in some way.
The ability to receive given events,
is also an Access, though all "k."
events are always accessible for
simplicity reasons.
"All components are replacable, as
long as you implement it correctly."
Regarding the KittenOS NEO system
that you are now possibly running,
it likely has 3 critical services.
I refer to these as the Trinity, just
because it seemed to fit.
The following list notes which APIs
they provide and require, but only
from those in the "x." space.
Anything else is an implementation
detail, subject to change - indeed,
these are only listed for the sake
of those who need to find code for
a given API.
-------------------------------------
Glacier: sys-glacier
* formerly sys-donkonit
Shell-independent parts of NEO, such
as screen management and settings,
and the "saving throw" recovery
mechanism.
Provides x.neo.sys.manage
x.neo.sys.screens
x.neo.pub.globals
Everest: sys-everest
This is the default shell.
Provides x.neo.sys.session
x.neo.pub.window
Requires x.neo.sys.screens
Prefers x.neo.sys.manage
Icecap: sys-icecap
Shell-dependent component that
gains k.root and uses Everest
to implement the security policy.
Provides x.neo.pub.base
Requires x.neo.sys.manage
Prefers x.neo.pub.window
-------------------------------------
The bootup process, meanwhile, is
rather simple.
The kernel first designates the
primaryDisk based on the boot disk,
via the "deprecated" computer API
that has no replacement and is thus
nowhere near safe to remove.
The primaryDisk is *the*
KittenOS NEO system disk - it holds
the system, in full.
Inelegance here falls to the greater
power of practicality, as a VFS is
an unnecessary component here.
After moving its many globals into
place, it then immediately loads and
runs sys-init.
sys-init's job is to firstly display
the KittenOS NEO boot screen -
this is where it got its original
name from, s-bristol (see: Plymouth)
It chooses the screen / GPU based on
the best combination it can find.
The screen that it displays on is
then noted as the primary screen.
During this boot screen, it firstly
starts Glacier, which is always a
necessary component for sys-init to
operate correctly.
It then starts all services that have
"run." entries set to "yes".
By default this means sys-icecap.
Note that sys- entries occur first.
This allows a security policy to be
installed, typically by sys-icecap,
that allows non-sys- parts to
perform useful operations.
Finally, screen control is passed to
Glacier, and sys-init resets the
screens to their login-screen-state.
If the settings daemon is not around
by this point, sys-init fails-safe
and allows login & safe-mode.
(If you happen to be able to cause a
sys-glacier error, during early boot
in a way that does not require any
permissions with other ways of
creating havoc, then, this may be a
flaw in the system security model.
The risk is considered worth the
ability to theoretically use the
system.)
If the setting "sys-init.nologin" is
set to "yes", then the login screen
is skipped.
If the password is not empty, then
a password prompt is used.
If Lua 5.2 is in use, the usual set
of instructions are replaced with a
warning to use Lua 5.3.
After the login screen finishes,
sys-init disclaims the primary
screen, and runs the shell, dictated
by the setting "sys-init.shell" -
if settings are not available, then
sys-everest is used as a guess.
Up to 5 seconds later, sys-init
confirms that "x.neo.sys.session" is
an existing API, and thus a shell is
currently running.
If this does not occur in time,
then sys-init provides the:
"That wasn't a shell. Try Safe Mode."
message, and causes a reboot.
If it does, then sys-init finally
exits, with the "Trinity" in place,
and all screens automatically
disclaimed by sys-init's quit.
(NOTE: If your particularly beady
service happens to get ahold of a
screen during startup, then that
screen is of course unaffected,
unless your service dies. This is of
course intentional in case you want
a service to control a screen.)
This should summarize the system.
Good luck. - 20kdc
-- This is released into
the public domain.
-- No warranty is provided,
implied or otherwise.