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gsm-fw/L1: fix for the DSP patch corruption bug The L1 code we got from the LoCosto fw contains a feature for DSP CPU load measurement. This feature is a LoCosto-ism, i.e., not applicable to earlier DBB chips (Calypso) with their respective earlier DSP ROMs. Most of the code dealing with that feature is conditionalized as #if (DSP >= 38), but one spot was missed, and the MCU code was writing into an API word dealing with this feature. In TCS211 this DSP API word happens to be used by the DSP code patch, hence that write was corrupting the patched DSP code.
author Mychaela Falconia <falcon@ivan.Harhan.ORG>
date Mon, 19 Oct 2015 17:13:56 +0000
parents ebe258a85813
children
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#!/bin/sh
#
# This script builds and installs binutils, gcc and newlib in the order
# necessary for the whole thing to work.  The present version is based
# on OsmocomBB's gnu-arm-build.2.sh script, which is in turn based on
# yet another source.  The present version has been concocted by
# Spacefalcon the Outlaw for use in the FreeCalypso project.
#
# This script needs to be invoked with two arguments:
#
# $1: the path to the directory containing the upstream binutils, gcc
#     and newlib source tarballs;
#
# $2: the path to the directory where the built toolchain should be
#     installed.
#
# Note that there isn't a single install step at the end, instead this
# script will build and install one component, then proceed to build the
# next component which depends on the previous one, etc.  For this reason
# you should create a dedicated install directory that is writable by your
# regular (non-root) uid, then run this script to populate that directory
# with the toolchain.

if [ $# != 2 ]
then
	echo "usage: $0 path-to-tarballs path-to-install"
	exit 1
fi

set -ex

target_args="--target=arm-elf"

# binutils come first
tar xjf $1/binutils-2.21.1a.tar.bz2
# apply patches
patch binutils-2.21.1/bfd/elf32-arm.c < binutils-patches/elf32-arm.patch
mkdir -p binutils-build
cd binutils-build
../binutils-2.21.1/configure --prefix=$2 ${target_args} --disable-nls
make all
make install
cd ..

# unpack gcc and newlib sources at the same time: the gcc build
# will be pointed to newlib headers
gcc_version=4.5.4
newlib_version=2.0.0
tar xjf $1/gcc-core-${gcc_version}.tar.bz2
tar xzf $1/newlib-${newlib_version}.tar.gz

# patch gcc as needed
cp t-arm-elf gcc-${gcc_version}/gcc/config/arm

# gcc depends on binutils - add our install destination dir to the PATH
# we prepend it to avoid surprises if some other arm-elf- toolchain
# happens to be present already
PATH=$2/bin:$PATH
export PATH

mkdir -p gcc-build
cd gcc-build
../gcc-${gcc_version}/configure --prefix=$2 ${target_args} \
	--enable-interwork --enable-multilib \
	--with-cpu=arm7tdmi --with-float=soft \
	--enable-languages=c --with-newlib \
	--with-headers=`pwd`/newlib-${newlib_version}/newlib/libc/include \
	--with-system-zlib --disable-shared \
	--disable-nls
make all-gcc
make install-gcc
cd ..

# now we can build newlib
mkdir newlib-build
cd newlib-build
../newlib-${newlib_version}/configure --prefix=$2 ${target_args} \
	--enable-interwork --enable-multilib \
	--enable-target-optspace --enable-newlib-reent-small \
	--disable-newlib-supplied-syscalls \
	--disable-nls
make all
make install
cd ..

# and finally, libgcc
cd gcc-build
make all
make install
cd ..