| Commit message (Collapse) | Author | Age |
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Removed old iterations of the project and moved the files from 02-usart
to the root directory since that's the sole place where the action is
and that subproject has outgrown its initial title.
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Now instead of init() and main() being responsible for all
initialization, individual modules can link in their own
initialization routines.
There are 7 levels for these initializiation routines.
So far these are how the levels are defined
level 0 - Here the world is dark. Nothing is initialized.
This level is responsible for initializing the
system clock.
level 1 - The system clock has been configured, but nothing else. Not
even global variables. This level is responsible for loading
the data sections from flash and clearing the .bss section.
level 2 - USART2 is enabled and set to be the main kernel logging
vehicle. From this point on klogf(...) can be used.
level 3 - The NVIC is reset to point to the flash. From this point
on interrupts can be received. I expect this is where
most core initialization routines will take place
levels 4 to 7 - User initializiation levels.
main - main() is called after all 8 initialization levels have executed,
so in a sense main() is like a 9th initialization level, except
that there is can be only one main() routine whereas there can be
multiple initalization routines per level.
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This gpio subsystem keeps track of the GPIO pins which
have been reserved and takes care of the housekeeping
with keeping them running.
This gpio subsystem also knows which alternate functions
belong to which pins, so it can automatically configure
the pins for the alternate functions.
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Before this fix, hfree would neglect to set the prev pointer in the next
used block and such was leaving the prev pointers invalid after
coalescing frees.
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What was in core/ is now moved to arch/stm34l4xxx/peripherals. This new
directory is *supposed to* to contain raw header files defining just the
pertinent register structures for the various peripherals. Peripheral
management belongs somewhere in the new `kern/..` directories. This is
not completely the case at the moment, so more refactoring needs to be
done.
What was sitting in the root has now been moved into the kern/
directory. The kern/ directory is to contain everything else
other than raw device register definitions. The root of the kern/
tree is reserved for standard library-esque headers.
The kern/<peripheral> directory contains management systems for that
peripheral. (At the moment DMA is the only peripheral with a decent
management system.) Preferably these peripheral systems should only
include their correlating header in arch/stm34l4xxx/peripherals, and
use other management systems for handling other peripherals rather
than manipulating their raw registers directly. (Though this ideal
will require much more critical mass of management systems.)
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