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Since anciens.enib.fr has been dead for two months now, without any hope of recovery, update my e-mail to point to @free.fr instead. Reported-by: "Bryan Hundven" <bryanhundven@gmail.com> Signed-off-by: "Yann E. MORIN" <yann.morin.1998@free.fr>
134 lines
5.2 KiB
Plaintext
134 lines
5.2 KiB
Plaintext
File.........: 3 - Configuring a toolchain.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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Configuring crosstool-NG /
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_________________________/
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crosstool-NG is configured with a configurator presenting a menu-structured set
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of options. These options let you specify the way you want your toolchain
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built, where you want it installed, what architecture and specific processor it
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will support, the version of the components you want to use, etc... The
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value for those options are then stored in a configuration file.
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The configurator works the same way you configure your Linux kernel. It is
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assumed you now how to handle this.
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To enter the menu, type:
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ct-ng menuconfig
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Almost every config item has a help entry. Read them carefully.
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String and number options can refer to environment variables. In such a case,
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you must use the shell syntax: ${VAR}. You shall neither single- nor double-
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quote the string/number options.
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There are three environment variables that are computed by crosstool-NG, and
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that you can use:
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CT_TARGET:
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It represents the target tuple you are building for. You can use it for
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example in the installation/prefix directory, such as:
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/opt/x-tools/${CT_TARGET}
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CT_TOP_DIR:
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The top directory where crosstool-NG is running. You shouldn't need it in
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most cases. There is one case where you may need it: if you have local
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patches and you store them in your running directory, you can refer to them
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by using CT_TOP_DIR, such as:
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${CT_TOP_DIR}/patches.myproject
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CT_VERSION:
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The version of crosstool-NG you are using. Not much use for you, but it's
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there if you need it.
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Interesting config options |
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---------------------------+
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CT_LOCAL_TARBALLS_DIR:
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If you already have some tarballs in a directory, enter it here. That will
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speed up the retrieving phase, where crosstool-NG would otherwise download
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those tarballs.
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CT_PREFIX_DIR:
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This is where the toolchain will be installed in (and for now, where it
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will run from). Common use is to add the target tuple in the directory
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path, such as (see above):
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/opt/x-tools/${CT_TARGET}
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CT_TARGET_VENDOR:
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An identifier for your toolchain, will take place in the vendor part of the
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target tuple. It shall *not* contain spaces or dashes. Usually, keep it
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to a one-word string, or use underscores to separate words if you need.
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Avoid dots, commas, and special characters.
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CT_TARGET_ALIAS:
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An alias for the toolchain. It will be used as a prefix to the toolchain
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tools. For example, you will have ${CT_TARGET_ALIAS}-gcc
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Also, if you think you don't see enough versions, you can try to enable one of
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those:
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CT_OBSOLETE:
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Show obsolete versions or tools. Most of the time, you don't want to base
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your toolchain on too old a version (of gcc, for example). But at times, it
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can come handy to use such an old version for regression tests. Those old
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versions are hidden behind CT_OBSOLETE. Those versions (or features) are so
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marked because maintaining support for those in crosstool-NG would be too
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costly, time-wise, and time is dear.
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CT_EXPERIMENTAL:
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Show experimental versions or tools. Again, you might not want to base your
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toolchain on too recent tools (eg. gcc) for production. But if you need a
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feature present only in a recent version, or a new tool, you can find them
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hidden behind CT_EXPERIMENTAL. Those versions (or features) did not (yet)
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receive thorough testing in crosstool-NG, and/or are not mature enough to
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be blindly trusted.
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Re-building an existing toolchain |
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----------------------------------+
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If you have an existing toolchain, you can re-use the options used to build it
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to create a new toolchain. That needs a very little bit of effort on your side
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but is quite easy. The options to build a toolchain are saved with the
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toolchain, and you can retrieve this configuration by running:
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${CT_TARGET}-ct-ng.config
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An alternate method is to extract the configuration from a build.log file.
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This will be necessary if your toolchain was build with crosstool-NG prior
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to 1.4.0, but can be used with build.log files from any version:
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ct-ng extractconfig <build.log >.config
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Or, if your build.log file is compressed (most probably!):
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bzcat build.log.bz2 |ct-ng extractconfig >.config
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The above commands will dump the configuration to stdout, so to rebuild a
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toolchain with this configuration, just redirect the output to the
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.config file:
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${CT_TARGET}-ct-ng.config >.config
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ct-ng oldconfig
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Then, you can review and change the configuration by running:
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ct-ng menuconfig
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Using as a backend for a build-system |
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--------------------------------------+
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Crosstool-NG can be used as a backend for an automated build-system. In this
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case, some components that are expected to run on the target (eg. the native
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gdb, ltrace, DUMA...) are not available in the menuconfig, and they are not
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build either, as it is considered the responsibility of the build-system to
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build its own versions of those tools.
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If you want to use crosstool-NG as a backend to generate your toolchains for
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your build-system, you have to set and export this environment variable:
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CT_IS_A_BACKEND=y
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(case is not sensitive, you can say Y).
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