activate-script-helpers | ||
prebuilt | ||
gdb-7.12.tar.xz | ||
gdbserver-7.12-static-build.sh | ||
LICENSE | ||
LICENSE.md | ||
README.md |
Build Scripts and Toolchain Helpers
"For when you don't quite need crosstool-ng or buildroot- you just need to build a few binaries, and you have a root to work from"
activate-openwrt-toolchain.env
- place file in prebuilt OpenWRT toolchain root, source it for productivity, etc.activate-musl-toolchain.env
- place file in musl-cross-make toolchain root, source it for productivity, etc.gdbserver-7.12-static-build.sh
- shell script to build a static gdb-7.12 gdbserver using a cross-compile toolchain
First - if you just want to grab a statically linked gdbserver for a specific MIPS(EL) or ARM platform ...
Check out https://github.com/mzpqnxow/arm-mips-tools as it contains a substantial collection of gdbserver binaries that have been well tested on many different architectures of varying ABIs, byte-orders and CPU architectures. Why build when you can borrow or steal, right? They aren't backdoored :)
Second - If you just want to build a native gdb-7.12 gdbserver statically on your host machine
You don't need any of this. These scripts just simplify doing it with different toolchains. If you're doing it natively it can be summarized pretty quickly.
Find static libraries you will need to link gdbserver with
You will need to make sure you have libstdc++.a and libgcc_eh.a on your system. If you don't know what you're doing, you can just use find. Try using the following:
$ find /l* /u* -name libgcc_eh.a
$ find /l* /u* -name libstdc++.a
Perform the build
$ wget https://ftp.gnu.org/gnu/gdb/gdb-7.12.tar.xz
$ tar -xvf gdb-7.12.tar.xz
$ cd gdb-7.12/gdb/gdbserver
$ sed -i -e 's/srv_linux_thread_db=yes//' configure.srv
$ ./configure --prefix=/opt/gdbserver-7.12-static CXXFLAGS='fPIC -static'
$ make -j gdbserver GDBSERVER_LIBS="/path/to/libstdc++.a /path/to/libgcc_eh.a"
FIN
You will have a statically compiled GDB 7.12 gdbserver for your native OS. Read on for the cross-compile stuff, which is a little more involved but still pretty simple
Use activate-openwrt-toolchain.env
with a pre-built OpenWrt Toolchain
Browse to https://downloads.openwrt.org/snapshots/trunk/ to find your toolchain
To use this script, assume you have a directory called /toolchains/ and that this is where you will keep the toolchains, one subdirectory per toolchain. You're a maniac- you're hoarding toolchains and probably up to no good.
To get a new toolchain up in such a way to use active-openwrt-toolchain, grab a file like OpenWrt-Toolchain-brcm63xx-generic_gcc-5.3.0_musl-1.1.16.Linux-x86_64.tar.bz2
$ cd ~/ && git clone https://github.com/mzpqnxow/gdb-7.12-crossbuilder
$ cd gdb-7.12-crossbuilder
$ wget https://.../OpenWrt-Toolchain-brcm63xx-generic_gcc-5.3.0_musl-1.1.16.Linux-x86_64.tar.bz2
$ tar -xvjf OpenWrt-Toolchain-brcm63xx-generic_gcc-5.3.0_musl-1.1.16.Linux-x86_64.tar.bz2
$ cd OpenWrt-Toolchain-brcm63xx-generic_gcc-5.3.0_musl-1.1.16.Linux-x86_64/
$ TOOLCHAIN=$(echo toolchain-*)
$ mv "$TOOLCHAIN" /openwrt-toolchains/
$ cp ~/gdb-7.12-crossbuilder/activate-openwrt-toolchain.env /openwrt-toolchains/$TOOLCHAIN/activate
$ source /openwrt-toolchains/$TOOLCHAIN/activate
Use activate-musl-toolchain.env
with an installed toolchain built by musl-cross-make
Using musl-cross-make is a nice experience- I recommend you try it. If you do, all you need to do is edit config.mak, use make -j and make install. That's it. You're done. The activate-musl-toolchain file is for you to place in the root of the installed toolchain to use as a convenience to "activate" the toolchain in your environment.
$ export TOOLCHAIN_DEST=/musl-cross-make-toolchains/toolchain-mips_mips32_musl/
$ cd ~/
git clone https://github.com/richfelker/musl-cross-make
$ cd musl-cross-make
$ vi config.mak
... assume you're installing to $TOOLCHAIN_DEST ...
$ make -j && make install
$ cd ~/
$ git clone https://github.com/mzpqnxow/gdb-7.12-crossbuilder
$ cd gdb-7.12-crossbuilder
$ cp activate-musl-toolchain.env $TOOLCHAIN_DEST/activate
$ source $TOOLCHAIN_DEST/activate
$ wget https://ftp.gnu.org/gnu/gdb/gdb-7.12.tar.xz
$ tar -xvf gdb-7.12.tar.xz
$ cp gdbserver-7.12-static-build.sh gdb-7.12/gdb/gdbserver
$ cd gdb-7.12/gdb/gdbserver
$ ./gdbserver-7.12-static-build.sh
$ file gdbserver
gdbserver: ELF 32-bit LSB executable, ARM, EABI5 version 1 (SYSV), statically linked, not stripped
Capabilities provided
See the end of each .env file. You will see variables exported. Those variables can now be accessed in your shell while building software. Tools like gcc, ar, ld, g++, etc. will also now be in your path and there will be a cross_configure
alias in the shell to simplify using software packages that utilize ./configure build systems
Sample environment variables after activating an OpenWrt toolchain
DL_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/libdl.a
C_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/libc.a
STDCXX_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/libstdc++.a
UTIL_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/libutil.a
PTHREAD_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/libpthread.a
GCCEH_STATIC=/opt/openwrt/armel-gnu-eabi5-sysv/lib/gcc/arm-openwrt-linux-muslgnueabi/5.3.0/libgcc_eh.a
STAGING_DIR=/opt/openwrt/armel-gnu-eabi5-sysv
TOOLCHAIN_ROOT=/opt/openwrt/armel-gnu-eabi5-sysv
TOOLCHAIN_BIN=/opt/openwrt/armel-gnu-eabi5-sysv/bin
TOOLCHAIN_TARGET=arm-openwrt-linux-muslgnueabi
SYSTEM_ROOT=/opt/openwrt/armel-gnu-eabi5-sysv
Sample alias
alias cross_configure='./configure --host=arm-openwrt-linux-muslgnueabi --prefix=/opt/openwrt/armel-gnu-eabi5-sysv'