view gsm-fw/L1/stand/README @ 857:2768b4339275

a flash chip init/reset function added to Application_Initialize(), see the comments in gsm-fw/bsp/flashchipinit.S
author Space Falcon <falcon@ivan.Harhan.ORG>
date Fri, 01 May 2015 16:27:59 +0000
parents 4d40f9a99445
children
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In their internal development environment, TI had a way to build L1 standalone,
i.e., omitting the G23 protocol stack and other large and complex pieces of the
full firmware.  Such an ability is essential for sane development, and the
abundant references to OP_L1_STANDALONE throughout the codebase confirm that TI
had it indeed.

However, we (FreeCalypso) don't have a way to build an OP_L1_STANDALONE image
exactly the way TI did it - we don't have all of the necessary source - the
glue pieces specific to this configuration are missing.  Nor do we necessarily
need to imitate what TI did in this department: it appears that TI's standalone
L1 build omitted GPF (with the exception of OS and OSX) and everything that
lives in Riviera land, but for us the situation is different: we already have
a successful build with Riviera and GPF, but no L1, thus we simply need to add
L1 to what we have.  Our idea of standalone L1 simply means building without
the G23 stack, which we have yet to begin integrating.

In the standard firmware build, there is a component called L1 PEI.  It is part
of the G23 stack, and has header and library dependencies of the latter - thus
it is *not* part of the L1 code proper.  However, it performs some essential
initialization steps, and runs the L1A task.  We don't know how TI handled
these functions in their standalone L1 build - we don't have that part of their
source, not even in the otherwise complete LoCosto version, not even if we were
targeting LoCosto hardware.

Our solution: we are going to lift l1_pei out of LoCosto's g23m-gsm, and hack
up a special version of it that won't have the standard complement of G23
header and library dependencies.  It is virtually certain that TI did something
different, but our hack-solution should work for our needs.

Because our standalone L1 build is a specially stripped-down version of the
regular fw build, and not at all like TI's standalone L1, we do NOT define
OP_L1_STANDALONE.  Instead we have a different preprocessor symbol:
CONFIG_L1_STANDALONE.

The standard version of l1_pei calls vsi_c_open() to get queue handles of
several G23 stack entities; it connects by name to "PL", "MMI", and if GPRS is
enabled, also to "GRR", "LLC" and "SND".  If we leave these connect-by-name
calls unchanged in our L1 standalone version, our pei_init() will always return
PEI_ERROR and never successfully initialize, which would not be very useful.
If we removed these vsi_c_open() calls and the associated OSX queue setup, the
first osx_send_prim() addressed to the queue in question will crash, so that
approach wouldn't be useful either.

What we would like to do is redirect all outbound messages emitted by our
standalone L1 to the debug serial interface, using GPF's TST entity, just as if
an L1 REDIRECT or DUPLICATE command was given to a complete GSM fw image.
However, simply connecting our queues to TST won't work, as TST is not designed
to receive "internal" protocol stack primitives directly.  When the routing
facility is used to DUPLICATE or REDIRECT a prim to an external entity, the
code in gpf/frame/route.c sends a special "wrapper" prim to TST, and we need to
replicate this wrapping in order to achieve the same effect.

Our solution: we are going to construct a special forwarder entity called L1IF,
and the connect-by-name calls in l1_pei which normally point to PL, MMI etc
will point to L1IF instead.  L1IF will run in the passive body variant, and its
pei_primitive() function will replicate the routing facility's logic for
forwarding PS primitives to TST.  Whew!