A toolchain is a complete collection of compiler and binutils programs and can be run either as a cross-compiler, or native on the target (if performance allows).
MIPS Technologies UK (formerly Algorithmics) maintain their own source tree for the toolchain components. SDE combines all necessary GNU tools, is infrequently resynchronized with mainstream GNU releases (which inevitably have bugs for less widely used architectures such as MIPS) and focuses on providing the most reliable, best-performing compiler for the largest range of MIPS CPUs. The current SDE release is 5.03.06, and is based on GCC 2.96 with many local bug fixes and improvements. But if you are already using a GCC 3.x based MIPS toolchain then you should probably not try to downgrade to this version, due to ABI and library differences.
The Linux/386 cross-compiler is available as a single file, in RPM format:
- Linux/386 cross for little-endian target
- Linux/386 cross for big-endian target
The Linux/MIPS native compiler is organised into separate RPM files, mirroring the RedHat 7.x toolchain organisation:
- Native big-endian
- Native little-endian
To avoid conflicts with an existing native MIPS toolchain only, you can uninstall the old compiler and libstdcc installations using these commands:
# rpm -e `rpm -q -f /usr/bin/gcc` # rpm -e `rpm -q -f /usr/include/g++-3/streambuf.h`
The new sdelinux RPMs can then be installed in the normal way:
# rpm -Uv sdelinux-*-5.03.06-1*.rpm
MTUK would like to hear how well it worked, so contact them on email@example.com.
Maciej W. Rozycki
A stable set of toolchain components provided by Maciej can be downloaded from ftp://ftp3.ds.pg.gda.pl/pub/macro/ or the mirror at ftp://ftp.rfc822.org/pub/mirror/ftp3.ds.pg.gda.pl/people/macro/. This is based on gcc 2.95.3 (patched) and up-to-date binutils.
Dan Kegel has a page at http://kegel.com/crosstool/ with a nice script to automatize the build procedure. Crosstool can only generate toolchains that use the GNU C Library, support for the smaller C Library http://www.uclibc.org uClibc might be added in the future.
H.J.Lu distributes a toolchain as part of his Red Hat 7.1 port. It can be found at ftp://ftp.linux-mips.org/pub/linux/mips/redhat/7.1/ . This toolchain-20020423-1.rpm is based on the RedHat's GCC 2.96, binutils 2.13 and glibc 2.2.5 .
uClibc Toolchain and Buildroot
The Toolchain tool allows to generate a toolchain for a variety of architectures, including MIPS and MIPSel.
The Buildroot tool allows to generate both a toolchain and a root filesystem for a variety of architectures, including MIPS and MIPSel. Using a configuration tool (similar to the one used for the Linux Kernel), you can select compiler version, binutils version, and all softwares that should be included in the root filesystem. Then the Makefiles will automatically download, configure, compile, install and generate the toolchain and the root filesystem image.
The OpenEmbedded meta distribution also includes an automatic build of a full cross-toolchain for it's target architecture. http://www.openembedded.org
DENX Software Engineering provides the ELDK (Embedded Linux Development Kit), which includes both cross development and native tools for big and little endian MIPS processors (also for ARM and PowerPC). It can be downloaded for FREE. See http://www.denx.de/twiki/bin/view/DULG/ELDK
All commercial Linux/MIPS distributions come with appropriate toolchain deliverables.
A Quick and Dirty Cross-Compiling Toolchain
You're adverse to using someone else's toolchains, and are like me and cannot remember the commands to build a toolchain yourself no matter how hard you try, here is a rough procedure as to how to build a minimal toolchain with binutils-2.16.1 and gcc-3.4.4. This is assuming your buildhost is i386-linux.
1. Download the binutils and gcc sources from http://www.gnu.org
2. Create the directory where you want to store your toolchain. I recommend /opt/cross.
3. Extract binutils-2.16.1 and cd to the directory where it was extracted to
4. Run the following command to configure and make binutils:
./configure --target=mips64-unknown-linux-gnu --host=i386-unknown-linux-gnu --prefix=/opt/cross --enable-shared --enable-64-bit-bfd && make
5. Run make install to install binutils to /opt/cross
6. Now extract gcc-3.4.4 and run the following command to configure and make it:
AR=mips64-unknown-linux-gnu-ar RANLIB=mips64-unknown-linux-gnu-ranlib ./configure --prefix=/opt/cross --target=mips64-unknown-linux-gnu --host=i386-unknown-linux-gnu --with-newlib --disable-shared --disable-threads --enable-languages=c && make
7. Run make install to install gcc to /opt/cross
Now, whenever you are going to use your cross compiling toolchain, append /opt/cross/bin to your path.