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As posted on http://www.eglibc.org/ ==================== EGLIBC is no longer developed and such goals are now being addressed directly in GLIBC. ==================== I'm not interested in maintaining build support for unsupported software. Older branches of crosstool-ng continue to have eglibc support. If you find issues with older branches, I'm always open to pull requests. Removing eglibc also frees up glibc cleanup and build optimization. Signed-off-by: Bryan Hundven <bryanhundven@gmail.com>
294 lines
12 KiB
Plaintext
294 lines
12 KiB
Plaintext
File.........: 8 - Internals.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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Internals /
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__________/
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Internally, crosstool-NG is script-based. To ease usage, the frontend is
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Makefile-based.
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Makefile front-end |
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-------------------+
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The entry point to crosstool-NG is the Makefile script "ct-ng". Calling this
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script with an action will act exactly as if the Makefile was in the current
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working directory and make was called with the action as rule. Thus:
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ct-ng menuconfig
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is equivalent to having the Makefile in CWD, and calling:
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make menuconfig
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Having ct-ng as it is avoids copying the Makefile everywhere, and acts as a
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traditional command.
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ct-ng loads sub- Makefiles from the library directory $(CT_LIB_DIR), as set up
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at configuration time with ./configure.
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ct-ng also searches for config files, sub-tools, samples, scripts and patches in
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that library directory.
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Because of a stupid make behavior/bug I was unable to track down, implicit make
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rules are disabled: installing with --local would trigger those rules, and mconf
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was unbuildable.
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Kconfig parser |
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---------------+
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The kconfig language is a hacked version, vampirised from the Linux kernel
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(http://www.kernel.org/), and (heavily) adapted to my needs.
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The list of the most notable changes (at least the ones I remember) follows:
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- the CONFIG_ prefix has been replaced with CT_
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- a leading | in prompts is skipped, and subsequent leading spaces are not
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trimmed; otherwise leading spaces are silently trimmed
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- removed the warning about undefined environment variable
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The kconfig parsers (conf and mconf) are not installed pre-built, but as
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source files. Thus you can have the directory where crosstool-NG is installed,
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exported (via NFS or whatever) and have clients with different architectures
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use the same crosstool-NG installation, and most notably, the same set of
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patches.
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Architecture-specific |
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----------------------+
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Note: this chapter is not really well written, and might thus be a little bit
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complex to understand. To get a better grasp of what an architecture is, the
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reader is kindly encouraged to look at the "arch/" sub-directory, and to the
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existing architectures to see how things are laid out.
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An architecture is defined by:
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- a human-readable name, in lower case letters, with numbers as appropriate.
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The underscore is allowed; space and special characters are not.
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Eg.: arm, x86_64
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- a file in "config/arch/", named after the architecture's name, and suffixed
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with ".in".
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Eg.: config/arch/arm.in
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- a file in "scripts/build/arch/", named after the architecture's name, and
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suffixed with ".sh".
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Eg.: scripts/build/arch/arm.sh
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The architecture's ".in" file API:
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> the config option "ARCH_%arch%" (where %arch% is to be replaced with the
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actual architecture name).
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That config option must have *neither* a type, *nor* a prompt! Also, it can
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*not* depend on any other config option (EXPERIMENTAL is managed as above).
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Eg.:
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config ARCH_arm
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+ mandatory:
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defines a (terse) help entry for this architecture:
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Eg.:
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config ARCH_arm
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help
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The ARM architecture.
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+ optional:
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selects adequate associated config options.
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Note: 64-bit architectures *shall* select ARCH_64
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Eg.:
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config ARCH_arm
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select ARCH_SUPPORTS_BOTH_ENDIAN
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select ARCH_DEFAULT_LE
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help
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The ARM architecture.
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Eg.:
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config ARCH_x86_64
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select ARCH_64
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help
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The x86_64 architecture.
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> other target-specific options, at your discretion. Note however that to
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avoid name-clashing, such options shall be prefixed with "ARCH_%arch%",
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where %arch% is again replaced by the actual architecture name.
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(Note: due to historical reasons, and lack of time to clean up the code,
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I may have left some config options that do not completely conform to
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this, as the architecture name was written all upper case. However, the
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prefix is unique among architectures, and does not cause harm).
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The architecture's ".sh" file API:
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> the function "CT_DoArchTupleValues"
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+ parameters: none
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+ environment:
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- all variables from the ".config" file,
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- the two variables "target_endian_eb" and "target_endian_el" which are
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the endianness suffixes
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+ return value: 0 upon success, !0 upon failure
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+ provides:
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- mandatory
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- the environment variable CT_TARGET_ARCH
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- contains:
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the architecture part of the target tuple.
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Eg.: "armeb" for big endian ARM
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"i386" for an i386
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+ provides:
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- optional
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- the environment variable CT_TARGET_SYS
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- contains:
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the system part of the target tuple.
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Eg.: "gnu" for glibc on most architectures
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"gnueabi" for glibc on an ARM EABI
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- defaults to:
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- for glibc-based toolchain: "gnu"
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- for uClibc-based toolchain: "uclibc"
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+ provides:
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- optional
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- the environment variables to configure the cross-gcc (defaults)
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- CT_ARCH_WITH_ARCH : the gcc ./configure switch to select architecture level ( "--with-arch=${CT_ARCH_ARCH}" )
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- CT_ARCH_WITH_ABI : the gcc ./configure switch to select ABI level ( "--with-abi=${CT_ARCH_ABI}" )
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- CT_ARCH_WITH_CPU : the gcc ./configure switch to select CPU instruction set ( "--with-cpu=${CT_ARCH_CPU}" )
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- CT_ARCH_WITH_TUNE : the gcc ./configure switch to select scheduling ( "--with-tune=${CT_ARCH_TUNE}" )
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- CT_ARCH_WITH_FPU : the gcc ./configure switch to select FPU type ( "--with-fpu=${CT_ARCH_FPU}" )
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- CT_ARCH_WITH_FLOAT : the gcc ./configure switch to select floating point arithmetics ( "--with-float=soft" or /empty/ )
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+ provides:
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- optional
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- the environment variables to pass to the cross-gcc to build target binaries (defaults)
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- CT_ARCH_ARCH_CFLAG : the gcc switch to select architecture level ( "-march=${CT_ARCH_ARCH}" )
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- CT_ARCH_ABI_CFLAG : the gcc switch to select ABI level ( "-mabi=${CT_ARCH_ABI}" )
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- CT_ARCH_CPU_CFLAG : the gcc switch to select CPU instruction set ( "-mcpu=${CT_ARCH_CPU}" )
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- CT_ARCH_TUNE_CFLAG : the gcc switch to select scheduling ( "-mtune=${CT_ARCH_TUNE}" )
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- CT_ARCH_FPU_CFLAG : the gcc switch to select FPU type ( "-mfpu=${CT_ARCH_FPU}" )
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- CT_ARCH_FLOAT_CFLAG : the gcc switch to choose floating point arithmetics ( "-msoft-float" or /empty/ )
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- CT_ARCH_ENDIAN_CFLAG : the gcc switch to choose big or little endian ( "-mbig-endian" or "-mlittle-endian" )
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- default to:
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see above.
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+ provides:
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- optional
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- the environment variables to configure the core and final compiler, specific to this architecture:
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- CT_ARCH_CC_CORE_EXTRA_CONFIG : additional, architecture specific core gcc ./configure flags
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- CT_ARCH_CC_EXTRA_CONFIG : additional, architecture specific final gcc ./configure flags
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- default to:
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- all empty
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+ provides:
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- optional
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- the architecture-specific CFLAGS and LDFLAGS:
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- CT_ARCH_TARGET_CLFAGS
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- CT_ARCH_TARGET_LDFLAGS
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- default to:
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- all empty
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You can have a look at "config/arch/arm.in" and "scripts/build/arch/arm.sh" for
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a quite complete example of what an actual architecture description looks like.
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Kernel specific |
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----------------+
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A kernel is defined by:
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- a human-readable name, in lower case letters, with numbers as appropriate.
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The underscore is allowed; space and special characters are not (although
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they are internally replaced with underscores.
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Eg.: linux, bare-metal
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- a file in "config/kernel/", named after the kernel name, and suffixed with
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".in".
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Eg.: config/kernel/linux.in, config/kernel/bare-metal.in
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- a file in "scripts/build/kernel/", named after the kernel name, and suffixed
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with ".sh".
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Eg.: scripts/build/kernel/linux.sh, scripts/build/kernel/bare-metal.sh
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The kernel's ".in" file must contain:
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> an optional lines containing exactly "# EXPERIMENTAL", starting on the
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first column, and without any following space or other character.
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If this line is present, then this kernel is considered EXPERIMENTAL,
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and correct dependency on EXPERIMENTAL will be set.
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> the config option "KERNEL_%kernel_name%" (where %kernel_name% is to be
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replaced with the actual kernel name, with all special characters and
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spaces replaced by underscores).
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That config option must have *neither* a type, *nor* a prompt! Also, it can
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*not* depends on EXPERIMENTAL.
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Eg.: KERNEL_linux, KERNEL_bare_metal
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+ mandatory:
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defines a (terse) help entry for this kernel.
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Eg.:
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config KERNEL_bare_metal
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help
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Build a compiler for use without any kernel.
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+ optional:
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selects adequate associated config options.
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Eg.:
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config KERNEL_bare_metal
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select BARE_METAL
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help
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Build a compiler for use without any kernel.
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> other kernel specific options, at your discretion. Note however that, to
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avoid name-clashing, such options should be prefixed with
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"KERNEL_%kernel_name%", where %kernel_name% is again tp be replaced with
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the actual kernel name.
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(Note: due to historical reasons, and lack of time to clean up the code,
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I may have left some config options that do not completely conform to
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this, as the kernel name was written all upper case. However, the prefix
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is unique among kernels, and does not cause harm).
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The kernel's ".sh" file API:
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> is a bash script fragment
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> defines the function CT_DoKernelTupleValues
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+ see the architecture's CT_DoArchTupleValues, except for:
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+ set the environment variable CT_TARGET_KERNEL, the kernel part of the
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target tuple
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+ return value: ignored
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> defines the function "do_kernel_get":
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+ parameters: none
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+ environment:
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- all variables from the ".config" file.
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+ return value: 0 for success, !0 for failure.
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+ behavior: download the kernel's sources, and store the tarball into
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"${CT_TARBALLS_DIR}". To this end, a functions is available, that
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abstracts downloading tarballs:
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- CT_DoGet <tarball_base_name> <URL1 [URL...]>
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Eg.: CT_DoGet linux-2.6.26.5 ftp://ftp.kernel.org/pub/linux/kernel/v2.6
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Note: retrieving sources from svn, cvs, git and the likes is not supported
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by CT_DoGet. For now, you'll have to do this by hand.
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> defines the function "do_kernel_extract":
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+ parameters: none
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+ environment:
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- all variables from the ".config" file,
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+ return value: 0 for success, !0 for failure.
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+ behavior: extract the kernel's tarball into "${CT_SRC_DIR}", and apply
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required patches. To this end, a function is available, that abstracts
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extracting tarballs:
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- CT_ExtractAndPatch <tarball_base_name>
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Eg.: CT_ExtractAndPatch linux-2.6.26.5
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> defines the function "do_kernel_headers":
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+ parameters: none
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+ environment:
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- all variables from the ".config" file,
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+ return value: 0 for success, !0 for failure.
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+ behavior: install the kernel headers (if any) in "${CT_SYSROOT_DIR}/usr/include"
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> defines any kernel-specific helper functions
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These functions, if any, must be prefixed with "do_kernel_%CT_KERNEL%_",
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where '%CT_KERNEL%' is to be replaced with the actual kernel name, to avoid
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any name-clashing.
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You can have a look at "config/kernel/linux.in" and "scripts/build/kernel/linux.sh"
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as an example of what a complex kernel description looks like.
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Adding a new version of a component |
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------------------------------------+
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When a new component, such as the Linux kernel, gcc or any other is released,
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adding the new version to crosstool-NG is quite easy. There is a script that
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will do all that for you:
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scripts/addToolVersion.sh
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Run it with no option to get some help.
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Build scripts |
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--------------+
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To Be Written later...
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