This state requires that the DPM be informed of the receipt of a
Not_Supported message. Some DPMs may not need to do this, so the new
dpm.not_supported_received function is optional.
Now when a part of a chunked extended message is received, the
ChunkingNotSupportedTimer is run. When it times out, we transition to
PE_SNK_Send_Not_Supported. Just like the spec says.
In PD 3.0, there's a new control message, Not_Supported, which is sent
unsurprisingly when unsupported messages are received. Basically, every
time we had sent a Reject message in PD 2.0, we're now supposed to send
Not_Supported instead. As of this commit, that's exactly what we do.
Set the Specification Revision field to 2.0 or 3.0
Based on the first message sent from the Source, we now set the
Specification Revision field of our messages to 2.0 or 3.0. We don't do
anything else 3.0 yet though, so it's a bit of lie, but this is a
necessary first step.
This commit breaks old configuration by interpreting stored voltages as
millivolts, rather than 50 mV. This will allow the finer voltage
increments used by programmable power supplies to be specified.
The new tempate variable sets the data role, power role, and
specification revision in one fell swoop. It's used by the PE and DPM
alike for creating messages, and in the future it may have a part in
determining if we're doing PD 2.0 or 3.0.
All the internal functions and definitions have been moved out of
lib/include/. Includes are made with the semantically correct brackets
("" or <>) throughout the firmware and library. That is to say, the
library is essentially done at this point, with only documentation
changes left to be made.
This commit splits the old messages.h file into two, one private
(messages.h) and one public (pdb_msg.h). This new arrangement keeps the
old model of one message pool for all the PD Buddy firmware library, but
moves the macro for the number of objects it contains into a new file,
pdb_conf.h, placed at the project root. The pool itself is kept in the
new pdb_msg.h file, since the DPM may need to access it.
The new configuration file also contains the stack sizes for the PD
Buddy threads (some will be moved back to secrecy in the future once the
needed sizes are known, but the PE's stack size should be kept in
pdb_conf.h since user code needs that stack).
To do this, a couple of the events had to have their definitions moved
to lib/include/pdb_pe.h. This isn't a problem in and of itself, but if
more internal-use events are added to policy_engine.h there could be
trouble. To mitigate this, I added a comment as a reminder to make sure
any new events don't overlap the public ones defined elsewhere.
Not the static globals yet, just the public ones. I suppose this change
isn't technically necessary since the PD Buddy Sink is a single-port
device, but I want its firmware to be a shining example of how to use
the library.
Now the user-visible FUSB302B functions all take a struct
pdb_fusb_config * as a parameter. The static functions don't use it
yet, but at least the public API of this code is in its finished state.
Apparently one of the threads was using too much stack space?? This
will require investigtion later, but for now increasing their stack
space fixed some weird problems I was having with this patch.
The code compiles again, and it seems to work as it did before. There's
still a lot to do (we still have a mess of globals), but the PE
correctly calls the new DPM functions via the list of callbacks in the
configuration object.
For now, the new <pdb.h> file only has a function to start the library,
based on the old start_pd function from main.c. It'll eventually be all
a user needs to include, but there's a lot more refactoring to do.
/!\ BROKEN BUILD /!\
This commit moves the library code to the library directory. This
causes the firmware to not compile. A few changes were made to reduce
the nubmer of errors, but some errors just aren't going to go away until
I go ahead with the planned changes.
There are now a few extra lines in the Makefile that make the PD Buddy
firmware library's makefile get included, and the variables it defines
get used. There's no code to compile or include yet though.