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* README.template: Update for 2.4. * README: Regenerated. * manual/install.texi (Configuring and compiling): Separate build directory is mandatory. Use glibc-2.4 in example. Update --enable-add-ons description. (Supported Configurations): Remove section. * INSTALL: Regenerated.
514 lines
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514 lines
23 KiB
Plaintext
@c This is for making the `INSTALL' file for the distribution.
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@c Makeinfo ignores it when processing the file from the include.
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@setfilename INSTALL
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@node Installation, Maintenance, Library Summary, Top
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@c %MENU% How to install the GNU C library
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@appendix Installing the GNU C Library
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Before you do anything else, you should read the file @file{FAQ} located
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at the top level of the source tree. This file answers common questions
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and describes problems you may experience with compilation and
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installation. It is updated more frequently than this manual.
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Features can be added to GNU Libc via @dfn{add-on} bundles. These are
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separate tar files, which you unpack into the top level of the source
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tree. Then you give @code{configure} the @samp{--enable-add-ons} option
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to activate them, and they will be compiled into the library.
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You will need recent versions of several GNU tools: definitely GCC and
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GNU Make, and possibly others. @xref{Tools for Compilation}, below.
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@menu
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* Configuring and compiling:: How to compile and test GNU libc.
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* Running make install:: How to install it once you've got it
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compiled.
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* Tools for Compilation:: You'll need these first.
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* Linux:: Specific advice for GNU/Linux systems.
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* Reporting Bugs:: So they'll get fixed.
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@end menu
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@node Configuring and compiling
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@appendixsec Configuring and compiling GNU Libc
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@cindex configuring
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@cindex compiling
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GNU libc cannot be compiled in the source directory. You must build
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it in a separate build directory. For example, if you have unpacked
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the glibc sources in @file{/src/gnu/glibc-2.4}, create a directory
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@file{/src/gnu/glibc-build} to put the object files in. This allows
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removing the whole build directory in case an error occurs, which is
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the safest way to get a fresh start and should always be done.
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From your object directory, run the shell script @file{configure} located
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at the top level of the source tree. In the scenario above, you'd type
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@smallexample
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$ ../glibc-2.4/configure @var{args@dots{}}
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@end smallexample
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Please note that even though you're building in a separate build
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directory, the compilation needs to modify a few files in the source
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directory, especially some files in the manual subdirectory.
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@noindent
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@code{configure} takes many options, but the only one that is usually
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mandatory is @samp{--prefix}. This option tells @code{configure}
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where you want glibc installed. This defaults to @file{/usr/local},
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but the normal setting to install as the standard system library is
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@samp{--prefix=/usr} for GNU/Linux systems and @samp{--prefix=} (an
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empty prefix) for GNU/Hurd systems.
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It may also be useful to set the @var{CC} and @var{CFLAGS} variables in
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the environment when running @code{configure}. @var{CC} selects the C
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compiler that will be used, and @var{CFLAGS} sets optimization options
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for the compiler.
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The following list describes all of the available options for
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@code{configure}:
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@table @samp
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@item --prefix=@var{directory}
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Install machine-independent data files in subdirectories of
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@file{@var{directory}}. The default is to install in @file{/usr/local}.
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@item --exec-prefix=@var{directory}
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Install the library and other machine-dependent files in subdirectories
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of @file{@var{directory}}. The default is to the @samp{--prefix}
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directory if that option is specified, or @file{/usr/local} otherwise.
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@item --with-headers=@var{directory}
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Look for kernel header files in @var{directory}, not
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@file{/usr/include}. Glibc needs information from the kernel's private
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header files. Glibc will normally look in @file{/usr/include} for them,
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but if you specify this option, it will look in @var{DIRECTORY} instead.
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This option is primarily of use on a system where the headers in
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@file{/usr/include} come from an older version of glibc. Conflicts can
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occasionally happen in this case. Note that Linux libc5 qualifies as an
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older version of glibc. You can also use this option if you want to
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compile glibc with a newer set of kernel headers than the ones found in
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@file{/usr/include}.
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@item --enable-add-ons[=@var{list}]
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Specify add-on packages to include in the build. If this option is
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specified with no list, it enables all the add-on packages it finds in
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the main source directory; this is the default behavior. You may
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specify an explicit list of add-ons to use in @var{list}, separated by
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spaces or commas (if you use spaces, remember to quote them from the
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shell). Each add-on in @var{list} can be an absolute directory name
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or can be a directory name relative to the main source directory, or
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relative to the build directory (that is, the current working directory).
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For example, @samp{--enable-add-ons=nptl,../glibc-libidn-2.4}.
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@item --enable-kernel=@var{version}
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This option is currently only useful on GNU/Linux systems. The
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@var{version} parameter should have the form X.Y.Z and describes the
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smallest version of the Linux kernel the generated library is expected
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to support. The higher the @var{version} number is, the less
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compatibility code is added, and the faster the code gets.
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@item --with-binutils=@var{directory}
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Use the binutils (assembler and linker) in @file{@var{directory}}, not
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the ones the C compiler would default to. You can use this option if
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the default binutils on your system cannot deal with all the constructs
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in the GNU C library. In that case, @code{configure} will detect the
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problem and suppress these constructs, so that the library will still be
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usable, but functionality may be lost---for example, you can't build a
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shared libc with old binutils.
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@item --without-fp
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Use this option if your computer lacks hardware floating-point support
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and your operating system does not emulate an FPU.
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@c disable static doesn't work currently
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@c @item --disable-static
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@c Don't build static libraries. Static libraries aren't that useful
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these
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@c days, but we recommend you build them in case you need them.
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@item --disable-shared
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Don't build shared libraries even if it is possible. Not all systems
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support shared libraries; you need ELF support and (currently) the GNU
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linker.
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@item --disable-profile
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Don't build libraries with profiling information. You may want to use
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this option if you don't plan to do profiling.
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@item --enable-omitfp
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Use maximum optimization for the normal (static and shared)
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libraries, and compile separate static libraries with debugging
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information and no optimization. We recommend not doing this. The extra
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optimization doesn't gain you much, it may provoke compiler bugs, and you
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won't be able to trace bugs through the C library.
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@item --disable-versioning
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Don't compile the shared libraries with symbol version information.
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Doing this will make the resulting library incompatible with old
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binaries, so it's not recommended.
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@item --enable-static-nss
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Compile static versions of the NSS (Name Service Switch) libraries.
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This is not recommended because it defeats the purpose of NSS; a program
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linked statically with the NSS libraries cannot be dynamically
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reconfigured to use a different name database.
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@item --without-tls
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By default the C library is built with support for thread-local storage
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if the used tools support it. By using @samp{--without-tls} this can be
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prevented though there generally is no reason since it creates
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compatibility problems.
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@item --build=@var{build-system}
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@itemx --host=@var{host-system}
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These options are for cross-compiling. If you specify both options and
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@var{build-system} is different from @var{host-system}, @code{configure}
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will prepare to cross-compile glibc from @var{build-system} to be used
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on @var{host-system}. You'll probably need the @samp{--with-headers}
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option too, and you may have to override @var{configure}'s selection of
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the compiler and/or binutils.
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If you only specify @samp{--host}, @code{configure} will prepare for a
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native compile but use what you specify instead of guessing what your
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system is. This is most useful to change the CPU submodel. For example,
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if @code{configure} guesses your machine as @code{i586-pc-linux-gnu} but
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you want to compile a library for 386es, give
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@samp{--host=i386-pc-linux-gnu} or just @samp{--host=i386-linux} and add
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the appropriate compiler flags (@samp{-mcpu=i386} will do the trick) to
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@var{CFLAGS}.
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If you specify just @samp{--build}, @code{configure} will get confused.
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@end table
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To build the library and related programs, type @code{make}. This will
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produce a lot of output, some of which may look like errors from
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@code{make} but isn't. Look for error messages from @code{make}
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containing @samp{***}. Those indicate that something is seriously wrong.
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The compilation process can take a long time, depending on the
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configuration and the speed of your machine. Some complex modules may
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take a very long time to compile, as much as several minutes on slower
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machines. Do not panic if the compiler appears to hang.
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If you want to run a parallel make, simply pass the @samp{-j} option
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with an appropriate numeric parameter to @code{make}. You need a recent
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GNU @code{make} version, though.
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To build and run test programs which exercise some of the library
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facilities, type @code{make check}. If it does not complete
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successfully, do not use the built library, and report a bug after
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verifying that the problem is not already known. @xref{Reporting Bugs},
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for instructions on reporting bugs. Note that some of the tests assume
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they are not being run by @code{root}. We recommend you compile and
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test glibc as an unprivileged user.
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Before reporting bugs make sure there is no problem with your system.
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The tests (and later installation) use some pre-existing files of the
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system such as @file{/etc/passwd}, @file{/etc/nsswitch.conf} and others.
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These files must all contain correct and sensible content.
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To format the @cite{GNU C Library Reference Manual} for printing, type
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@w{@code{make dvi}}. You need a working @TeX{} installation to do this.
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The distribution already includes the on-line formatted version of the
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manual, as Info files. You can regenerate those with @w{@code{make
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info}}, but it shouldn't be necessary.
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The library has a number of special-purpose configuration parameters
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which you can find in @file{Makeconfig}. These can be overwritten with
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the file @file{configparms}. To change them, create a
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@file{configparms} in your build directory and add values as appropriate
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for your system. The file is included and parsed by @code{make} and has
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to follow the conventions for makefiles.
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It is easy to configure the GNU C library for cross-compilation by
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setting a few variables in @file{configparms}. Set @code{CC} to the
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cross-compiler for the target you configured the library for; it is
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important to use this same @code{CC} value when running
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@code{configure}, like this: @samp{CC=@var{target}-gcc configure
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@var{target}}. Set @code{BUILD_CC} to the compiler to use for programs
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run on the build system as part of compiling the library. You may need to
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set @code{AR} and @code{RANLIB} to cross-compiling versions of @code{ar}
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and @code{ranlib} if the native tools are not configured to work with
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object files for the target you configured for.
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@node Running make install
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@appendixsec Installing the C Library
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@cindex installing
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To install the library and its header files, and the Info files of the
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manual, type @code{env LANGUAGE=C LC_ALL=C make install}. This will
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build things, if necessary, before installing them; however, you should
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still compile everything first. If you are installing glibc as your
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primary C library, we recommend that you shut the system down to
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single-user mode first, and reboot afterward. This minimizes the risk
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of breaking things when the library changes out from underneath.
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If you're upgrading from Linux libc5 or some other C library, you need to
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replace the @file{/usr/include} with a fresh directory before installing
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it. The new @file{/usr/include} should contain the Linux headers, but
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nothing else.
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You must first build the library (@samp{make}), optionally check it
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(@samp{make check}), switch the include directories and then install
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(@samp{make install}). The steps must be done in this order. Not moving
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the directory before install will result in an unusable mixture of header
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files from both libraries, but configuring, building, and checking the
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library requires the ability to compile and run programs against the old
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library.
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If you are upgrading from a previous installation of glibc 2.0 or 2.1,
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@samp{make install} will do the entire job. You do not need to remove
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the old includes -- if you want to do so anyway you must then follow the
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order given above.
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You may also need to reconfigure GCC to work with the new library. The
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easiest way to do that is to figure out the compiler switches to make it
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work again (@samp{-Wl,--dynamic-linker=/lib/ld-linux.so.2} should work on
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GNU/Linux systems) and use them to recompile gcc. You can also edit the specs
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file (@file{/usr/lib/gcc-lib/@var{TARGET}/@var{VERSION}/specs}), but that
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is a bit of a black art.
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You can install glibc somewhere other than where you configured it to go
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by setting the @code{install_root} variable on the command line for
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@samp{make install}. The value of this variable is prepended to all the
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paths for installation. This is useful when setting up a chroot
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environment or preparing a binary distribution. The directory should be
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specified with an absolute file name.
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Glibc 2.2 includes a daemon called @code{nscd}, which you
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may or may not want to run. @code{nscd} caches name service lookups; it
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can dramatically improve performance with NIS+, and may help with DNS as
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well.
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One auxiliary program, @file{/usr/libexec/pt_chown}, is installed setuid
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@code{root}. This program is invoked by the @code{grantpt} function; it
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sets the permissions on a pseudoterminal so it can be used by the
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calling process. This means programs like @code{xterm} and
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@code{screen} do not have to be setuid to get a pty. (There may be
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other reasons why they need privileges.) If you are using a 2.1 or
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newer Linux kernel with the @code{devptsfs} or @code{devfs} filesystems
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providing pty slaves, you don't need this program; otherwise you do.
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The source for @file{pt_chown} is in @file{login/programs/pt_chown.c}.
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After installation you might want to configure the timezone and locale
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installation of your system. The GNU C library comes with a locale
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database which gets configured with @code{localedef}. For example, to
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set up a German locale with name @code{de_DE}, simply issue the command
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@samp{localedef -i de_DE -f ISO-8859-1 de_DE}. To configure all locales
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that are supported by glibc, you can issue from your build directory the
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command @samp{make localedata/install-locales}.
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To configure the locally used timezone, set the @code{TZ} environment
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variable. The script @code{tzselect} helps you to select the right value.
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As an example, for Germany, @code{tzselect} would tell you to use
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@samp{TZ='Europe/Berlin'}. For a system wide installation (the given
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paths are for an installation with @samp{--prefix=/usr}), link the
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timezone file which is in @file{/usr/share/zoneinfo} to the file
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@file{/etc/localtime}. For Germany, you might execute @samp{ln -s
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/usr/share/zoneinfo/Europe/Berlin /etc/localtime}.
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@node Tools for Compilation
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@appendixsec Recommended Tools for Compilation
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@cindex installation tools
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@cindex tools, for installing library
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We recommend installing the following GNU tools before attempting to
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build the GNU C library:
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@itemize @bullet
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@item
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GNU @code{make} 3.79 or newer
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You need the latest version of GNU @code{make}. Modifying the GNU C
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Library to work with other @code{make} programs would be so difficult that
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we recommend you port GNU @code{make} instead. @strong{Really.} We
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recommend GNU @code{make} version 3.79. All earlier versions have severe
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bugs or lack features.
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@item
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GCC 3.4 or newer, GCC 4.1 recommended
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The GNU C library can only be compiled with the GNU C compiler family.
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For the 2.3 releases, GCC 3.2 or higher is required; GCC 3.4 is the
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compiler we advise to use for 2.3 versions.
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For the 2.4 release, GCC 3.4 or higher is required; as of this
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writing, GCC 4.1 is the compiler we advise to use for current versions.
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On certain machines including @code{powerpc64}, compilers prior to GCC
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4.0 have bugs that prevent them compiling the C library code in the
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2.4 release. On other machines, GCC 4.1 is required to build the C
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library with support for the correct @code{long double} type format;
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these include @code{powerpc} (32 bit), @code{s390} and @code{s390x}.
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You can use whatever compiler you like to compile programs that use GNU
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libc, but be aware that both GCC 2.7 and 2.8 have bugs in their
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floating-point support that may be triggered by the math library.
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Check the FAQ for any special compiler issues on particular platforms.
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@item
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GNU @code{binutils} 2.15 or later
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You must use GNU @code{binutils} (as and ld) to build the GNU C library.
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No other assembler or linker has the necessary functionality at the
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moment.
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@item
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GNU @code{texinfo} 3.12f
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To correctly translate and install the Texinfo documentation you need
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this version of the @code{texinfo} package. Earlier versions do not
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understand all the tags used in the document, and the installation
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mechanism for the info files is not present or works differently.
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@item
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GNU @code{awk} 3.0, or higher
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@code{Awk} is used in several places to generate files.
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@code{gawk} 3.0 is known to work.
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@item
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Perl 5
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Perl is not required, but it is used if present to test the
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installation. We may decide to use it elsewhere in the future.
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@item
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GNU @code{sed} 3.02 or newer
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@code{Sed} is used in several places to generate files. Most scripts work
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with any version of @code{sed}. The known exception is the script
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@code{po2test.sed} in the @code{intl} subdirectory which is used to
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generate @code{msgs.h} for the test suite. This script works correctly
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only with GNU @code{sed} 3.02. If you like to run the test suite, you
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should definitely upgrade @code{sed}.
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@end itemize
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@noindent
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If you change any of the @file{configure.in} files you will also need
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@itemize @bullet
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@item
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GNU @code{autoconf} 2.53 or higher
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@end itemize
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@noindent
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and if you change any of the message translation files you will need
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@itemize @bullet
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@item
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GNU @code{gettext} 0.10.36 or later
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@end itemize
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@noindent
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You may also need these packages if you upgrade your source tree using
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patches, although we try to avoid this.
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@node Linux
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@appendixsec Specific advice for GNU/Linux systems
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@cindex upgrading from libc5
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@cindex kernel header files
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If you are installing GNU libc on a GNU/Linux system, you need to have the
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header files from a 2.2 or newer kernel around for reference. For some
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architectures, like ia64, sh and hppa, you need at least headers from
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kernel 2.3.99 (sh and hppa) or 2.4.0 (ia64). You do not need to use
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that kernel, just have its headers where glibc can access at them. The
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easiest way to do this is to unpack it in a directory such as
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@file{/usr/src/linux-2.2.1}. In that directory, run @samp{make config}
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and accept all the defaults. Then run @samp{make
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include/linux/version.h}. Finally, configure glibc with the option
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@samp{--with-headers=/usr/src/linux-2.2.1/include}. Use the most recent
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kernel you can get your hands on.
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An alternate tactic is to unpack the 2.2 kernel and run @samp{make
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config} as above; then, rename or delete @file{/usr/include}, create a
|
|
new @file{/usr/include}, and make symbolic links of
|
|
@file{/usr/include/linux} and @file{/usr/include/asm} into the kernel
|
|
sources. You can then configure glibc with no special options. This
|
|
tactic is recommended if you are upgrading from libc5, since you need to
|
|
get rid of the old header files anyway.
|
|
|
|
After installing GNU libc, you may need to remove or rename
|
|
@file{/usr/include/linux} and @file{/usr/include/asm}, and replace them
|
|
with copies of @file{include/linux} and
|
|
@file{include/asm-$@var{ARCHITECTURE}} taken from the Linux source
|
|
package which supplied kernel headers for building the library.
|
|
@var{ARCHITECTURE} will be the machine architecture for which the
|
|
library was built, such as @samp{i386} or @samp{alpha}. You do not need
|
|
to do this if you did not specify an alternate kernel header source
|
|
using @samp{--with-headers}. The intent here is that these directories
|
|
should be copies of, @strong{not} symlinks to, the kernel headers used to
|
|
build the library.
|
|
|
|
Note that @file{/usr/include/net} and @file{/usr/include/scsi} should
|
|
@strong{not} be symlinks into the kernel sources. GNU libc provides its
|
|
own versions of these files.
|
|
|
|
GNU/Linux expects some components of the libc installation to be in
|
|
@file{/lib} and some in @file{/usr/lib}. This is handled automatically
|
|
if you configure glibc with @samp{--prefix=/usr}. If you set some other
|
|
prefix or allow it to default to @file{/usr/local}, then all the
|
|
components are installed there.
|
|
|
|
If you are upgrading from libc5, you need to recompile every shared
|
|
library on your system against the new library for the sake of new code,
|
|
but keep the old libraries around for old binaries to use. This is
|
|
complicated and difficult. Consult the Glibc2 HOWTO at
|
|
@url{http://www.imaxx.net/~thrytis/glibc} for details.
|
|
|
|
You cannot use @code{nscd} with 2.0 kernels, due to bugs in the
|
|
kernel-side thread support. @code{nscd} happens to hit these bugs
|
|
particularly hard, but you might have problems with any threaded
|
|
program.
|
|
|
|
@node Reporting Bugs
|
|
@appendixsec Reporting Bugs
|
|
@cindex reporting bugs
|
|
@cindex bugs, reporting
|
|
|
|
There are probably bugs in the GNU C library. There are certainly
|
|
errors and omissions in this manual. If you report them, they will get
|
|
fixed. If you don't, no one will ever know about them and they will
|
|
remain unfixed for all eternity, if not longer.
|
|
|
|
It is a good idea to verify that the problem has not already been
|
|
reported. Bugs are documented in two places: The file @file{BUGS}
|
|
describes a number of well known bugs and the bug tracking system has a
|
|
WWW interface at
|
|
@url{http://sources.redhat.com/bugzilla/}. The WWW
|
|
interface gives you access to open and closed reports. A closed report
|
|
normally includes a patch or a hint on solving the problem.
|
|
|
|
To report a bug, first you must find it. With any luck, this will be the
|
|
hard part. Once you've found a bug, make sure it's really a bug. A
|
|
good way to do this is to see if the GNU C library behaves the same way
|
|
some other C library does. If so, probably you are wrong and the
|
|
libraries are right (but not necessarily). If not, one of the libraries
|
|
is probably wrong. It might not be the GNU library. Many historical
|
|
Unix C libraries permit things that we don't, such as closing a file
|
|
twice.
|
|
|
|
If you think you have found some way in which the GNU C library does not
|
|
conform to the ISO and POSIX standards (@pxref{Standards and
|
|
Portability}), that is definitely a bug. Report it!
|
|
|
|
Once you're sure you've found a bug, try to narrow it down to the
|
|
smallest test case that reproduces the problem. In the case of a C
|
|
library, you really only need to narrow it down to one library
|
|
function call, if possible. This should not be too difficult.
|
|
|
|
The final step when you have a simple test case is to report the bug.
|
|
Do this using the WWW interface to the bug database.
|
|
|
|
If you are not sure how a function should behave, and this manual
|
|
doesn't tell you, that's a bug in the manual. Report that too! If the
|
|
function's behavior disagrees with the manual, then either the library
|
|
or the manual has a bug, so report the disagreement. If you find any
|
|
errors or omissions in this manual, please report them to the
|
|
bug database. If you refer to specific
|
|
sections of the manual, please include the section names for easier
|
|
identification.
|