mirror of
https://github.com/crosstool-ng/crosstool-ng.git
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2eeab4a4c6
Signed-off-by: Max Filippov <jcmvbkbc@gmail.com>
404 lines
15 KiB
Plaintext
404 lines
15 KiB
Plaintext
File.........: C - Misc. tutorials.txt
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Copyright....: (C) 2010 Yann E. MORIN <yann.morin.1998@free.fr>
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License......: Creative Commons Attribution Share Alike (CC-by-sa), v2.5
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Misc. tutorials /
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________________/
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Using crosstool-NG on FreeBSD (and other *BSD) |
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-----------------------------------------------+
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Contributed by: Titus von Boxberg
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Prerequisites and instructions for using ct-ng for building a cross toolchain on FreeBSD as host.
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0) Tested on FreeBSD 8.0
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1) Install (at least) the following ports
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archivers/lzma
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textproc/gsed
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devel/gmake
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devel/patch
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shells/bash
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devel/bison
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lang/gawk
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devel/automake110
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ftp/wget
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Of course, you should have /usr/local/bin in your PATH.
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2) run ct-ng's configure with the following tool configuration:
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./configure --with-sed=/usr/local/bin/gsed --with-make=/usr/local/bin/gmake \
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--with-patch=/usr/local/bin/gpatch
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[...other configure parameters as you like...]
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3) proceed as described in general documentation
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but use gmake instead of make
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Using crosstool-NG on MacOS-X |
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------------------------------+
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Contributed by: Titus von Boxberg
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Prerequisites and instructions for using crosstool-NG for building a cross
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toolchain on MacOS as host.
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0) Mac OS Snow Leopard, with Developer Tools 3.2 installed, or
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Mac OS Leopard, with Developer Tools & newer gcc (>= 4.3) installed
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via macports
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1) You have to use a case sensitive file system for ct-ng's build and target
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directories. Use a disk or disk image with a case sensitive fs that you
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mount somewhere.
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2) Install macports (or similar easy means of installing 3rd party software),
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make sure that macport's bin dir is in the front (!) of your PATH.
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Furtheron assuming it is /opt/local/bin.
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3) Install (at least) the following macports
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lzmautils
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libtool
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binutils
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gsed
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gawk
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gcc43 (only necessary for Leopard OSX 10.5)
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gcc_select (only necessary for OSX 10.5, or Xcode > 4)
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4) Prerequisites
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On Leopard, make sure that the macport's gcc is called with the default
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commands (gcc, g++,...), via macport's gcc_select
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On OSX 10.7 Lion / when using Xcode >= 4 make sure that the default commands
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(gcc, g++, etc.) point to gcc-4.2, NOT llvm-gcc-4.2
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by using macport's gcc_select feature. With MacPorts >= 1.9.2
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the command is: "sudo port select --set gcc gcc42"
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This also requires (like written above) that macport's bin dir
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comes before standard directories in your PATH environment variable
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because the gcc symlink is installed in /opt/local/bin and the default /usr/bin/gcc
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is not removed by the gcc select command!
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Explanation: llvm-gcc-4.2 (with Xcode 4.1 it is on my machine
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"gcc version 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2335.15.00)")
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cannot boostrap gcc. See http://llvm.org/bugs/show_bug.cgi?id=9571
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5) run ct-ng's configure with the following tool configuration
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(assuming you have installed the tools via macports in /opt/local):
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./configure --with-sed=/opt/local/bin/gsed \
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--with-libtool=/opt/local/bin/glibtool \
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--with-libtoolize=/opt/local/bin/glibtoolize \
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--with-objcopy=/opt/local/bin/gobjcopy \
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--with-objdump=/opt/local/bin/gobjdump \
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--with-readelf=/opt/local/bin/greadelf \
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--with-grep=/opt/local/bin/ggrep \
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[...other configure parameters as you like...]
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6) proceed as described in standard documentation
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-----
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HINTS:
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- Apparently, GNU make's builtin variable .LIBPATTERNS is misconfigured
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under MacOS: It does not include lib%.dylib.
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This affects build of (at least) gdb-7.1
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Put 'lib%.a lib%.so lib%.dylib' as .LIBPATTERNS into your environment
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before executing ct-ng build.
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See http://www.gnu.org/software/make/manual/html_node/Libraries_002fSearch.html
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as an explanation.
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- ct-ng menuconfig will not work on Snow Leopard 10.6.3 since libncurses
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is broken with this release. MacOS <= 10.6.2 and >= 10.6.4 are ok.
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Using Mercurial to hack crosstool-NG |
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-------------------------------------+
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NOTE: this section was applicable as long as when we were using Mercurial (Hg)
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as the DVCS. Now we've switched to git, this section is no longer current. We
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keep it as a reference, since it still contains a few useful hints.
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Please help rewrite this section. ;-)
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Contributed by: Titus von Boxberg
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PREREQUISITES:
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Configuring Mercurial:
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You need mercurial with the following extensions:
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- mq : http://mercurial.selenic.com/wiki/MqExtension
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- patchbomb : http://mercurial.selenic.com/wiki/PatchbombExtension
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Usually, these two extensions are already part of the installation package.
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The mq extension maintains a separate queue of your local changes
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that you can change at any later time.
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With the patchbomb extension you can email those patches directly
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from your local repo.
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Your configuration file for mercurial, e.g. ~/.hgrc should contain
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at least the following sections (but have a look at `man hgrc`):
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# ---
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[email]
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# configure sending patches directly via Mercurial
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from = "Your Name" <your@email.address>
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# How to send email:
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method = smtp
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[smtp]
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# SMTP configuration (only for method=smtp)
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host = localhost
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tls = true
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username =
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password =
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[extensions]
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# The following lines enable the two extensions:
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hgext.mq =
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hgext.patchbomb =
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# ----
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Create your local repository as a clone:
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hg clone http://crosstool-ng.org/hg/crosstool-ng crosstool-ng
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Setting up the mq extension in your local copy:
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cd crosstool-ng
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hg qinit
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CREATING PATCHES:
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Recording your changes in the patch queue maintained by mq:
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# First, create a new patch entry in the patch queue:
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hg qnew -D -U -e short_patch_name1
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<edit patch description as commit message (see below for an example)>
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<now edit the ct-ng sources and check them>
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# if you execute `hg status` here, your modifications of the working
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# copy should show up.
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# Now the following command takes your modifications from the working copy
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# into the patch entry
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hg qrefresh -D [-e]
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<reedit patch description [-e] if desired>
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# Now your changes are recorded, and `hg status` should show a clean
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# working copy
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Repeat the above steps for all your modifications.
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The command `hg qseries` informs you about the content of your patch queue.
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CONTRIBUTING YOUR PATCHES:
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Once you are satisfied with your patch series, you can (you should!)
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contribute them back to upstream.
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This is easily done using the `hg email` command.
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`hg email` sends your new changesets to a specified list of recipients,
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each patch in its own email, all ordered in the way you entered them (oldest
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first). The command line flag --outgoing selects all changesets that are in
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your local but not yet in the upstream repository. Here, these are exactly
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the ones you entered into your local patch queue in the section above, so
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--outgoing is what you want.
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Each email gets the subject set to: "[PATCH x of n] <series summary>"
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where 'x' is the serial number in the email series, and 'n' is the total number
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of patches in the series. The body of the email is the complete patch, plus
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a handful of metadata, that helps properly apply the patch, keeping the log
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message, attribution and date, tracking file changes (move, delete, modes...)
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`hg email` also threads all outgoing patch emails below an introductory
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message. You should use the introductory message (command line flag --intro)
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to describe the scope and motivation for the whole patch series. The subject
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for the introductory message gets set to: "[PATCH 0 of n] <series summary>"
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and you get the chance to set the <series summary>.
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Here is a sample `hg email` complete command line:
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Note: replace " (at) " with "@"
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hg email --outgoing --intro \
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--to '"Yann E. MORIN" <yann.morin.1998 (at) free.fr>' \
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--cc 'crossgcc (at) sourceware.org'
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# It then opens an editor and lets you enter the subject
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# and the body for the introductory message.
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Use `hg email` with the additional command line switch -n to
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first have a look at the email(s) without actually sending them.
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MAINTAINING YOUR PATCHES:
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When the patches are refined by discussing them on the mailing list,
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you may want to finalize and resend them.
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The mq extension has the idiosyncrasy of imposing a stack onto the queue:
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You can always reedit/refresh only the patch on top of stack.
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The queue consists of applied and unapplied patches
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(if you reached here via the above steps, all of your patches are applied),
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where the 'stack' consists of the applied patches, and 'top of stack'
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is the latest applied patch.
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The following output of `hg qseries` is now used as an example:
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0 A short_patch_name1
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1 A short_patch_name2
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2 A short_patch_name3
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3 A short_patch_name4
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You are now able to edit patch 'short_patch_name4' (which is top of stack):
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<Edit the sources>
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# and execute again
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hg qrefresh -D [-e]
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<and optionally [-e] reedit the commit message>
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If you want to edit e.g. patch short_patch_name2, you have to modify
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mq's stack so this patch gets top of stack.
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For this purpose see `hg help qgoto`, `hg help qpop`, and `hg help qpush`.
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hg qgoto short_patch_name2
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# The patch queue should now look like
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hg qseries
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0 A short_patch_name1
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1 A short_patch_name2
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2 U short_patch_name3
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3 U short_patch_name4
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# so patch # 1 (short_patch_name2) is top of stack.
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<now reedit the sources for short_patch_name2>
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# and execute again
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hg qrefresh -D [-e]
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<and optionally [-e] reedit the commit message>
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# the following command reapplies the now unapplied two patches:
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hg qpush -a
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# you can also use `hg qgoto short_patch_name4` to get there again.
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RESENDING YOUR REEDITED PATCHES:
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By mailing list policy, please resend your complete patch series.
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--> Go back to section "CONTRIBUTING YOUR PATCHES" and resubmit the full set.
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SYNCING WITH UPSTREAM AGAIN:
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You can sync your repo with upstream at any time by executing
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# first unapply all your patches:
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hg qpop -a
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# next fetch new changesets from upstream
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hg pull
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# then update your working copy
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hg up
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# optionally remove already upstream integrated patches (see below)
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hg qdelete <short_name_of_already_applied_patch>
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# and reapply your patches if any non upstream-integrated left (but see below)
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hg qpush -a
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Eventually, your patches get included into the upstream repository
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which you initially cloned.
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In this case, before executing the hg qpush -a from above
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you should manually "hg qdelete" the patches that are already integrated upstream.
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HOW TO FORMAT COMMIT MESSAGES (aka patch descriptions):
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Commit messages should look like (without leading pipes):
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|component: short, one-line description
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|optional longer description
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|on multiple lines if needed
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|Signed-off-by: as documented in section 7 of ct-ng's documentation
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Here is an example commit message (see revision 8bb5151c5b01):
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kernel/linux: fix type in version strings
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I missed refreshing the patch before pushing. :-(
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Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr>
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Using crosstool-NG on Windows |
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------------------------------+
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Contributed by: Ray Donnelly
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Prerequisites and instructions for using crosstool-NG for building a cross
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toolchain on Windows (Cygwin) as build and, optionally Windows (hereafter)
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MinGW-w64 as host.
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0. Use Cygwin64 if you can. DLL base-address problems are lessened that
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way and if you bought a 64-bit CPU, you may as well use it.
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1. You must enable Case Sensitivity in the Windows Kernel (this is only really
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necessary for Linux targets, but at present, crosstool-ng refuses to operate
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on case insensitive filesystems). The registry key for this is:
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HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\kernel\obcaseinsensitive
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Read more at:
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https://cygwin.com/cygwin-ug-net/using-specialnames.html
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2. Using setup{,-x86_64}.exe, install the default packages and also the
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following ones: (tested versions in brackets, please test newer versions
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and report successes via pull requests changing this list and failures to:
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https://github.com/crosstool-ng/crosstool-ng/issues
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autoconf (13-1), make (4.1-1), gcc-g++ (4.9.3-1), gperf (3.0.4-2),
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bison (3.0.4-1), flex (2.5.39-1), texinfo (6.0-1), wget (1.16.3-1),
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patch (2.7.4-1), libtool (2.4.6-2), automake (9-1), diffutils (3.3-3),
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libncurses-devel (6.0-1.20151017), help2man (1.44.1-1)
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mingw64-i686-gcc-g++* (4.9.2-2), mingw64-x86_64-gcc-g++* (4.9.2-2)
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Leave "Select required packages (RECOMMENDED)" ticked.
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Notes:
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2.1 The packages marked with * are only needed if your host is MinGW-w64.
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2.2 Unfortunately, wget pulls in an awful lot of dependencies, including
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Python 2.7, Ruby, glib and Tcl.
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3. Although nativestrict symlinks seem like the best idea, extracting glibc fails
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when they are enabled, so just don't set anything here. If your host is MinGW-w64
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then these 'Cygwin-special' symlinks won't work, but you can dereference them by
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using tar options --dereference and --hard-dereference when making a final tarball.
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I plan to investigate and fix or at least work around the extraction problem.
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Read more at:
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https://cygwin.com/cygwin-ug-net/using-cygwinenv.html
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4. collect2.exe will attempt to run ld which is a shell script that runs either
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ld.exe or gold.exe so you need to make sure that a working shell is in your path.
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Eventually I will replace this with a native program for MinGW-w64 host.
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Using crosstool-NG to build Xtensa toolchains |
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----------------------------------------------+
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Contributed by: Max Filippov
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Xtensa cores are highly configurable: endianness, instruction set, register set
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of a core is chosen at processor configuration time. New registers and
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instructions may be added by designers, making each core configuration unique.
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Toolchain components cannot know about features of each individual core and
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need to be configured in order to be compatible with particular architecture
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variant. This configuration includes:
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- definitions of instruction formats, names and properties for assembler,
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disassembler and debugger;
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- definitions of register names and properties for assembler, disassembler and
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debugger;
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- selection of predefined features, such as endianness, presence of certain
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processor options or instructions for compiler, debugger C library and OS
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kernels;
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- macros with instruction sequences for saving and restoring special, user or
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coprocessor registers for OS kernels.
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This configuration is provided in form of source files, that must replace
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corresponding files in binutils, gcc, gdb or newlib source trees or be added
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to OS kernel source tree. This set of files is usually distributed as archive
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known as Xtensa configuration overlay.
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Tensilica provides such an overlay as part of the processor download, however,
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it needs to be reformatted to match the specific format required by the
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crosstool-NG. For a script to convert the overlay file, and additional
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information, please see
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http://wiki.linux-xtensa.org/index.php/Toolchain_Overlay_File
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The current version of crosstool-NG requires that the overlay file name has the
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format xtensa_<CORE_NAME>.tar, where CORE_NAME can be any user selected name.
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To make crosstool-NG use overlay file located at <PATH>/xtensa_<CORE_NAME>.tar
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select XTENSA_CUSTOM, set config parameter CT_ARCH_XTENSA_CUSTOM_NAME to
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CORE_NAME and CT_ARCH_XTENSA_CUSTOM_OVERLAY_LOCATION to PATH.
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The fsf target architecture variant is the configuration provided by toolchain
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components by default. It is present only for build-testing toolchain
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components and is in no way special or universal.
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