diff --git a/docs/MacOS-X.txt b/docs/MacOS-X.txt deleted file mode 100644 index ecf9c6ad..00000000 --- a/docs/MacOS-X.txt +++ /dev/null @@ -1,283 +0,0 @@ -Introduction ------------- - -This file introduces you to building a cross-toolchain on MacOS-X. -Apart from the crosstool-NG configuration options for the specific target, -what is important is: - - what pre-requisites to install - - how to install them - - how to work around the case-insensitivity of HFS+ - -This file was submitted by: - Blair Burtan -The original version was found at: - http://homepage.mac.com/macg3/TS7390-OSX-crosstool-instructions.txt - - -Text ----- - -Compiling cross compiler for default TS-7390 debian system on Mac OS X - -Forewarning: It's kind of a pain. Several of OS X's packages aren't good enough -so you need to install some GNU stuff. You might have an easier time using a -package manager for OS X but I prefer to compile everything from source so I'm -going to provide the instructions for that. Also there are a few little catches -with how some of the older gcc/glibc stuff compiles on OS X. - -The version of glibc on the TS-7390 default file system is 2.3.6. So we need to -make a compiler with glibc 2.3.6 or older. I guess you can pick whatever version -of gcc you want to use. I'll pick 4.1.2, which is what is included with the 7390 -debian. But you could theoretically do something newer like 4.3.3 (or older, -like 4.0.4) if you want, I think. All I know is the following works fine for gcc -4.1.2 and glibc 2.3.6. - -First, you have to install some prerequisites. Go in a temporary folder -somewhere and follow these directions. - -Some of the included OS X utilities aren't cool enough. So we need to download -and install some GNU utilities. Luckily they compile with no trouble in -Mac OS X! Nice work GNU people! - -First make sure you've installed the latest version of Xcode so you have gcc -on your Mac. - -Install GNU sed into /usr/local. Note: I believe configure defaults to -/usr/local as a prefix, but better safe than sorry. - - curl -O http://ftp.gnu.org/gnu/sed/sed-4.2.1.tar.bz2 - tar -xf sed-4.2.1.tar.bz2 - cd sed-4.2.1 - ./configure --prefix=/usr/local - make -j 2 (or 4 or whatever...# of jobs that can run in parallel... - on a dual core machine I use 4) - sudo make install - -Install GNU coreutils: - - curl -O http://ftp.gnu.org/gnu/coreutils/coreutils-7.4.tar.gz - tar -xf coreutils-7.4.tar.gz - cd coreutils-7.4 - ./configure --prefix=/usr/local - make -j 2 - sudo make install - -Install GNU libtool: - - curl -O http://ftp.gnu.org/gnu/libtool/libtool-2.2.6a.tar.gz - tar -xf libtool-2.2.6a.tar.gz - cd libtool-2.2.6 - ./configure --prefix=/usr/local - make -j 2 - sudo make install - -Install GNU awk, needed to fix a weird error in glibc compile: - - curl -O http://ftp.gnu.org/gnu/gawk/gawk-3.1.7.tar.bz2 - tar -xf gawk-3.1.7.tar.bz2 - cd gawk-3.1.7 - ./configure --prefix=/usr/local - make -j 2 - sudo make install - -Xcode doesn't come with objcopy/objdump, but you need them. Download GNU -binutils 2.19.1 and install just objcopy and objdump. Not sure how exactly to -do only them so I compile it all and copy them manually....there may be a -better way. - - curl -O http://ftp.gnu.org/gnu/binutils/binutils-2.19.1.tar.bz2 - tar -xf binutils-2.19.1.tar.bz2 - cd binutils-2.19.1 - ./configure --prefix=/usr/local - make -j 2 - sudo cp binutils/obj{dump,copy} /usr/local/bin - - -Done installing prerequisites...now do the fun stuff! - - -1) Create a disk image with Disk Utility (in /Utilities/Disk Utility). - Open it and go to File->New->Blank Disk Image. - Save As: Call it whatever you want. - Volume name: Call it CrosstoolCompile - Volume size: Go to custom and choose 2000 MB. This is a temporary image you - can delete once you're done compiling if you wish. - Volume format: Choose Mac OS Extended (Case-sensitive, journaled). - Mac OS X's default file system does not allow you to name two files - the same with different cases (abcd and ABCD) but you need this for - crosstool. So that's why we're creating a disk image. Leave everything - else the default and save it wherever you want. - -2) Create another disk image where the final toolchain will be installed. - Your crosstool needs to go on a disk image for the same reason--needs a - case sensitive file system and regular Mac OS X HFS+ is not. So we have to - make another one. Follow the steps above but set the volume name to - Crosstool and then make the volume size something like 300MB. Just make - sure you leave plenty of room for any libraries you want to add to your - cross compiler and that kind of stuff. The resulting toolchain will be about - 110 MB in size. Set the Volume Format to - Mac OS Extended (Case-sensitive, journaled). - Save this image somewhere handy. You'll be using it forever after this. - - -3) Make sure they're both mounted. - -4) cd /Volumes/CrosstoolCompile - -5) Grab crosstool-ng: - curl -O http://ymorin.is-a-geek.org/download \ - /crosstool-ng/crosstool-ng-1.4.2.tar.bz2 - (OS X doesn't come with wget by default) - -6) Expand it - tar -xf crosstool-ng-1.4.2.tar.bz2 - cd crosstool-ng-1.4.2 - -7) Build it - export PATH=/usr/local/bin:$PATH - - Make sure you do it like this. - /usr/local/bin has to come in the path BEFORE anything else. - - ./configure --local - make - -8) Configure crosstool - ./ct-ng menuconfig - -At this point you should have a screen up similar to the Linux kernel config. -Now set up options. Leave options as default if I haven't mentioned them. - -Paths and misc options: - Enable Use obsolete features - Enable Try features marked as EXPERIMENTAL - Set prefix directory to: - /Volumes/Crosstool/${CT_TARGET} - (this tells it to install on the disk image you created) - Number of parallel jobs: Multiply the number of cores you have times 2. - That's what I generally do. So my dual core can do 4 jobs. - Makes compiling the toolchain faster. - -Target options: - Target Architecture: ARM - Use EABI: Do NOT check this. The default TS Debian filesystem is OABI. - If you are doing an EABI one, you can set this to true (but may want - to do a different version of gcc/glibc) - Architecture level: armv4t - armv4t is for the EP9302. other processors you would pick the - right architecture here. - Floating point: Hardware - - I believe this is correct even though it's not really using an FPU because - the pre-EABI debian distro was compiled with hardfloat instructions so - whenever you do a floating point instruction the kernel is actually - trapping an illegal instruction error, makes for slow floating point... - EABI is so much better. - - I know hardware is the default, but I just wanted to clarify that you need - to choose hardware here. I'm pretty sure anyway. - -Toolchain Options: - Tuple's vendor string: whatever you want. - It'll be arm-yourtuple-linux-gnu when you're finished. - -Operating System: - Target OS: linux - Linux kernel version: 2.6.21.7 (best match for TS kernel!) - -binutils: - version: 2.19.1 -C compiler: - gcc - version: 4.1.2 - choose C++ below, so you can compile C++! -C-library: - glibc (NOT eglibc for this) - glibc version: 2.3.6 - Threading implementation to use: linuxthreads - -(note: nptl is better than linuxthreads, but it looks like nptl didn't support - ARM back in glibc 2.3.6? - -Exit and save config. - -Now we need to add a patch. Looks like the configure script for glibc does not -like some of apple's binutils, so we need to patch it to skip the version tests -for as and ld. Stick this patch in crosstool-ng-1.4.2/patches/glibc/2.3.6 to -skip the version test for as and ld: - -http://homepage.mac.com/macg3/300-glibc-2.3.6-configure-patch-OSX.patch - -(or see below, at the end of this file) - ---------- - -Okay, done setting up crosstool...now... - -./ct-ng build - -Sit back, relax, wait a while. Crosstool-ng will do the rest, automatically -downloading tarballs, patching them, installing them. Could take quite a long -time. The actual compiling took about 30 minutes on my older MacBook Pro. When -you're done you have a cross compiler on your disk image that you named -"Crosstool". Look in there and you're all set! - -So whenever you want to use the cross compiler, you need to mount this disk -image. You could also create an actual partition on your computer that is -Mac OS X extended case-sensitive if you wish. Then you don't need the disk -image. - -You can delete the CrosstoolCompile disk image. It was just used temporarily -while compiling everything. - -Note that I'm pretty sure gcc 4.1.2 has a bug in assembly generation that will -cause Qt 4.5 to segfault. I'm fairly sure I saw this problem before with 4.1.2. -I know for a fact that gcc 4.3.3 has the bug. This bug report: -http://gcc.gnu.org/bugzilla/show_bug.cgi?id=39429 has the details. I adapted the -patch at the bottom to work with gcc 4.3.3. you might be able to apply it to -other gcc versions. Not sure. I think 4.0.4 does not have this bug so you might -even try compiling 4.0.4 instead of 4.1.2. Lots of options. Hope this helps, -I've struggled with this stuff a lot but it's so convenient to have a native -OS X toolchain! - - -Patch ------ - -Here is the afore-mentioned patch: - ----8<--- -Mac OS X fails configuring because its included binutils kind of suck. -This patch makes the glibc 2.3.6 configure script ignore the -installed version of as and ld. It just makes the configure -script believe that it's as version 2.13 and ld 2.13. - -Made on 2009-08-08 by Doug Brown - ---- glibc-2.3.6/configure.orig 2009-08-08 10:40:10.000000000 -0700 -+++ glibc-2.3.6/configure 2009-08-08 10:42:49.000000000 -0700 -@@ -3916,10 +3916,7 @@ else - echo $ECHO_N "checking version of $AS... $ECHO_C" >&6 - ac_prog_version=`$AS -v &1 | sed -n 's/^.*GNU assembler.* \([0-9]*\.[0-9.]*\).*$/\1/p'` - case $ac_prog_version in -- '') ac_prog_version="v. ?.??, bad"; ac_verc_fail=yes;; -- 2.1[3-9]*) -- ac_prog_version="$ac_prog_version, ok"; ac_verc_fail=no;; -- *) ac_prog_version="$ac_prog_version, bad"; ac_verc_fail=yes;; -+ *) ac_prog_version="2.13, ok"; ac_verc_fail=no;; - - esac - echo "$as_me:$LINENO: result: $ac_prog_version" >&5 -@@ -3977,10 +3974,7 @@ else - echo $ECHO_N "checking version of $LD... $ECHO_C" >&6 - ac_prog_version=`$LD --version 2>&1 | sed -n 's/^.*GNU ld.* \([0-9][0-9]*\.[0-9.]*\).*$/\1/p'` - case $ac_prog_version in -- '') ac_prog_version="v. ?.??, bad"; ac_verc_fail=yes;; -- 2.1[3-9]*) -- ac_prog_version="$ac_prog_version, ok"; ac_verc_fail=no;; -- *) ac_prog_version="$ac_prog_version, bad"; ac_verc_fail=yes;; -+ *) ac_prog_version="2.13, ok"; ac_verc_fail=no;; - - esac - echo "$as_me:$LINENO: result: $ac_prog_version" >&5 ----8<--- diff --git a/docs/README.macos.txt b/docs/README.macos.txt new file mode 100644 index 00000000..06f81971 --- /dev/null +++ b/docs/README.macos.txt @@ -0,0 +1,39 @@ +22 May 2010 - Titus + +Prerequisites and instructions for using crosstool-NG for building a cross +toolchain on MacOS as host. + +0) Mac OS Snow Leopard, with Developer Tools 3.2 installed, or + Mac OS Leopard, with Developer Tools & newer gcc (>= 4.3) installed + via macports + +1) You have to use a case sensitive file system for ct-ng's build and target + directories. Use a disk or disk image with a case sensitive fs that you + mount somewhere. + +2) Install macports (or similar easy means of installing 3rd party software), + make sure that macport's bin dir is in your PATH. + Furtheron assuming it is /opt/local/bin. + +3) Install (at least) the following macports + ncurses + lzmautils + libtool + binutils + gsed + gawk + gcc43 (only necessary for Leopard OSX 10.5) + + On Leopard, make sure that the macport's gcc is called with the default + commands (gcc, g++,...), e.g. via macport gcc_select + +4) run ct-ng's configure with the following tool configuration + (assuming you have installed the tools via macports in /opt/local): + ./configure --with-sed=/opt/local/bin/gsed \ + --with-libtool=/opt/local/bin/glibtool \ + --with-objcopy=/opt/local/bin/gobjcopy \ + --with-objdump=/opt/local/bin/gobjdump \ + --with-readelf=/opt/local/bin/greadelf \ + [...other configure parameters as you like...] + +5) proceed as described in standard documentation