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The @refill command has been obsolete for a while and now texinfo has started warning about it. Reviewed-by: Florian Weimer <fweimer@redhat.com> Signed-off-by: Siddhesh Poyarekar <siddhesh@sourceware.org>
656 lines
27 KiB
Plaintext
656 lines
27 KiB
Plaintext
@node Maintenance, Platform, Installation, Top
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@c %MENU% How to enhance and port the GNU C Library
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@appendix Library Maintenance
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@menu
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* Source Layout:: How to add new functions or header files
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to the GNU C Library.
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* Symbol handling:: How to handle symbols in the GNU C Library.
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* Porting:: How to port the GNU C Library to
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a new machine or operating system.
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@end menu
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@node Source Layout
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@appendixsec Adding New Functions
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The process of building the library is driven by the makefiles, which
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make heavy use of special features of GNU @code{make}. The makefiles
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are very complex, and you probably don't want to try to understand them.
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But what they do is fairly straightforward, and only requires that you
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define a few variables in the right places.
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The library sources are divided into subdirectories, grouped by topic.
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The @file{string} subdirectory has all the string-manipulation
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functions, @file{math} has all the mathematical functions, etc.
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Each subdirectory contains a simple makefile, called @file{Makefile},
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which defines a few @code{make} variables and then includes the global
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makefile @file{Rules} with a line like:
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@smallexample
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include ../Rules
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@end smallexample
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@noindent
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The basic variables that a subdirectory makefile defines are:
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@table @code
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@item subdir
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The name of the subdirectory, for example @file{stdio}.
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This variable @strong{must} be defined.
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@item headers
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The names of the header files in this section of the library,
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such as @file{stdio.h}.
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@item routines
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@itemx aux
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The names of the modules (source files) in this section of the library.
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These should be simple names, such as @samp{strlen} (rather than
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complete file names, such as @file{strlen.c}). Use @code{routines} for
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modules that define functions in the library, and @code{aux} for
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auxiliary modules containing things like data definitions. But the
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values of @code{routines} and @code{aux} are just concatenated, so there
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really is no practical difference.
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@item tests
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The names of test programs for this section of the library. These
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should be simple names, such as @samp{tester} (rather than complete file
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names, such as @file{tester.c}). @w{@samp{make tests}} will build and
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run all the test programs. If a test program needs input, put the test
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data in a file called @file{@var{test-program}.input}; it will be given to
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the test program on its standard input. If a test program wants to be
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run with arguments, put the arguments (all on a single line) in a file
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called @file{@var{test-program}.args}. Test programs should exit with
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zero status when the test passes, and nonzero status when the test
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indicates a bug in the library or error in building.
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@item others
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The names of ``other'' programs associated with this section of the
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library. These are programs which are not tests per se, but are other
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small programs included with the library. They are built by
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@w{@samp{make others}}.
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@item install-lib
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@itemx install-data
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@itemx install
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Files to be installed by @w{@samp{make install}}. Files listed in
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@samp{install-lib} are installed in the directory specified by
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@samp{libdir} in @file{configparms} or @file{Makeconfig}
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(@pxref{Installation}). Files listed in @code{install-data} are
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installed in the directory specified by @samp{datadir} in
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@file{configparms} or @file{Makeconfig}. Files listed in @code{install}
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are installed in the directory specified by @samp{bindir} in
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@file{configparms} or @file{Makeconfig}.
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@item distribute
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Other files from this subdirectory which should be put into a
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distribution tar file. You need not list here the makefile itself or
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the source and header files listed in the other standard variables.
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Only define @code{distribute} if there are files used in an unusual way
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that should go into the distribution.
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@item generated
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Files which are generated by @file{Makefile} in this subdirectory.
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These files will be removed by @w{@samp{make clean}}, and they will
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never go into a distribution.
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@item extra-objs
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Extra object files which are built by @file{Makefile} in this
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subdirectory. This should be a list of file names like @file{foo.o};
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the files will actually be found in whatever directory object files are
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being built in. These files will be removed by @w{@samp{make clean}}.
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This variable is used for secondary object files needed to build
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@code{others} or @code{tests}.
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@end table
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@menu
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* Platform: Adding Platform-specific. Adding platform-specific
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features.
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@end menu
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@node Adding Platform-specific
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@appendixsubsec Platform-specific types, macros and functions
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It's sometimes necessary to provide nonstandard, platform-specific
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features to developers. The C library is traditionally the
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lowest library layer, so it makes sense for it to provide these
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low-level features. However, including these features in the C
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library may be a disadvantage if another package provides them
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as well as there will be two conflicting versions of them. Also,
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the features won't be available to projects that do not use
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@theglibc{} but use other GNU tools, like GCC.
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The current guidelines are:
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@itemize @bullet
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@item
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If the header file provides features that only make sense on a particular
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machine architecture and have nothing to do with an operating system, then
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the features should ultimately be provided as GCC built-in functions. Until
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then, @theglibc{} may provide them in the header file. When the GCC built-in
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functions become available, those provided in the header file should be made
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conditionally available prior to the GCC version in which the built-in
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function was made available.
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@item
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If the header file provides features that are specific to an operating system,
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both GCC and @theglibc{} could provide it, but @theglibc{} is preferred
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as it already has a lot of information about the operating system.
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@item
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If the header file provides features that are specific to an operating system
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but used by @theglibc{}, then @theglibc{} should provide them.
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@end itemize
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The general solution for providing low-level features is to export them as
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follows:
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@itemize @bullet
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@item
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A nonstandard, low-level header file that defines macros and inline
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functions should be called @file{sys/platform/@var{name}.h}.
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@item
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Each header file's name should include the platform name, to avoid
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users thinking there is anything in common between the different
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header files for different platforms. For example, a
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@file{sys/platform/@var{arch}.h} name such as
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@file{sys/platform/ppc.h} is better than @file{sys/platform.h}.
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@item
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A platform-specific header file provided by @theglibc{} should coordinate
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with GCC such that compiler built-in versions of the functions and macros are
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preferred if available. This means that user programs will only ever need to
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include @file{sys/platform/@var{arch}.h}, keeping the same names of types,
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macros, and functions for convenience and portability.
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@item
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Each included symbol must have the prefix @code{__@var{arch}_}, such as
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@code{__ppc_get_timebase}.
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@end itemize
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The easiest way to provide a header file is to add it to the
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@code{sysdep_headers} variable. For example, the combination of
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Linux-specific header files on PowerPC could be provided like this:
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@smallexample
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sysdep_headers += sys/platform/ppc.h
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@end smallexample
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Then ensure that you have added a @file{sys/platform/ppc.h}
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header file in the machine-specific directory, e.g.,
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@file{sysdeps/powerpc/sys/platform/ppc.h}.
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@node Symbol handling
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@appendixsec Symbol handling in the GNU C Library
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@menu
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* 64-bit time symbol handling :: How to handle 64-bit time related
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symbols in the GNU C Library.
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@end menu
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@node 64-bit time symbol handling
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@appendixsubsec 64-bit time symbol handling in the GNU C Library
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With respect to time handling, @glibcadj{} configurations fall in two
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classes depending on the value of @code{__TIMESIZE}:
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@table @code
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@item @code{__TIMESIZE == 32}
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These @dfn{dual-time} configurations have both 32-bit and 64-bit time
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support. 32-bit time support provides type @code{time_t} and cannot
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handle dates beyond @dfn{Y2038}. 64-bit time support provides type
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@code{__time64_t} and can handle dates beyond @dfn{Y2038}.
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In these configurations, time-related types have two declarations,
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a 64-bit one, and a 32-bit one; and time-related functions generally
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have two definitions: a 64-bit one, and a 32-bit one which is a wrapper
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around the former. Therefore, for every @code{time_t}-related symbol,
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there is a corresponding @code{__time64_t}-related symbol, the name of
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which is usually the 32-bit symbol's name with @code{__} (a double
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underscore) prepended and @code{64} appended. For instance, the
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64-bit-time counterpart of @code{clock_gettime} is
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@code{__clock_gettime64}.
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@item @code{__TIMESIZE == 64}
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These @dfn{single-time} configurations only have a 64-bit @code{time_t}
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and related functions, which can handle dates beyond 2038-01-19
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03:14:07 (aka @dfn{Y2038}).
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In these configurations, time-related types only have a 64-bit
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declaration; and time-related functions only have one 64-bit definition.
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However, for every @code{time_t}-related symbol, there is a
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corresponding @code{__time64_t}-related macro, the name of which is
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derived as in the dual-time configuration case, and which expands to
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the symbol's name. For instance, the macro @code{__clock_gettime64}
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expands to @code{clock_gettime}.
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These macros are purely internal to @theglibc{} and exist only so that
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a single definition of the 64-bit time functions can be used on both
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single-time and dual-time configurations, and so that glibc code can
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freely call the 64-bit functions internally in all configurations.
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@end table
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@c The following paragraph should be removed once external interfaces
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@c get support for both time sizes.
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Note: at this point, 64-bit time support in dual-time configurations is
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work-in-progress, so for these configurations, the public API only makes
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the 32-bit time support available. In a later change, the public API
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will allow user code to choose the time size for a given compilation
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unit.
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64-bit variants of time-related types or functions are defined for all
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configurations and use 64-bit-time symbol names (for dual-time
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configurations) or macros (for single-time configurations).
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32-bit variants of time-related types or functions are defined only for
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dual-time configurations.
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Here is an example with @code{localtime}:
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Function @code{localtime} is declared in @file{time/time.h} as
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@smallexample
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extern struct tm *localtime (const time_t *__timer) __THROW;
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libc_hidden_proto (localtime)
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@end smallexample
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For single-time configurations, @code{__localtime64} is a macro which
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evaluates to @code{localtime}; for dual-time configurations,
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@code{__localtime64} is a function similar to @code{localtime} except
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it uses Y2038-proof types:
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@smallexample
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#if __TIMESIZE == 64
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# define __localtime64 localtime
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#else
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extern struct tm *__localtime64 (const __time64_t *__timer) __THROW;
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libc_hidden_proto (__localtime64)
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#endif
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@end smallexample
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(note: type @code{time_t} is replaced with @code{__time64_t} because
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@code{time_t} is not Y2038-proof, but @code{struct tm} is not
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replaced because it is already Y2038-proof.)
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The 64-bit-time implementation of @code{localtime} is written as follows
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and is compiled for both dual-time and single-time configuration classes.
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@smallexample
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struct tm *
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__localtime64 (const __time64_t *t)
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@{
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return __tz_convert (*t, 1, &_tmbuf);
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@}
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libc_hidden_def (__localtime64)
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@end smallexample
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The 32-bit-time implementation is a wrapper and is only compiled for
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dual-time configurations:
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@smallexample
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#if __TIMESIZE != 64
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struct tm *
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localtime (const time_t *t)
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@{
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__time64_t t64 = *t;
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return __localtime64 (&t64);
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@}
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libc_hidden_def (localtime)
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#endif
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@end smallexample
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@node Porting
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@appendixsec Porting @theglibc{}
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@Theglibc{} is written to be easily portable to a variety of
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machines and operating systems. Machine- and operating system-dependent
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functions are well separated to make it easy to add implementations for
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new machines or operating systems. This section describes the layout of
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the library source tree and explains the mechanisms used to select
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machine-dependent code to use.
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All the machine-dependent and operating system-dependent files in the
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library are in the subdirectory @file{sysdeps} under the top-level
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library source directory. This directory contains a hierarchy of
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subdirectories (@pxref{Hierarchy Conventions}).
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Each subdirectory of @file{sysdeps} contains source files for a
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particular machine or operating system, or for a class of machine or
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operating system (for example, systems by a particular vendor, or all
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machines that use IEEE 754 floating-point format). A configuration
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specifies an ordered list of these subdirectories. Each subdirectory
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implicitly appends its parent directory to the list. For example,
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specifying the list @file{unix/bsd/vax} is equivalent to specifying the
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list @file{unix/bsd/vax unix/bsd unix}. A subdirectory can also specify
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that it implies other subdirectories which are not directly above it in
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the directory hierarchy. If the file @file{Implies} exists in a
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subdirectory, it lists other subdirectories of @file{sysdeps} which are
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appended to the list, appearing after the subdirectory containing the
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@file{Implies} file. Lines in an @file{Implies} file that begin with a
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@samp{#} character are ignored as comments. For example,
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@file{unix/bsd/Implies} contains:
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@smallexample
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# BSD has Internet-related things.
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unix/inet
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@end smallexample
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@noindent
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and @file{unix/Implies} contains:
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@need 300
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@smallexample
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posix
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@end smallexample
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@noindent
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So the final list is @file{unix/bsd/vax unix/bsd unix/inet unix posix}.
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@file{sysdeps} has a ``special'' subdirectory called @file{generic}. It
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is always implicitly appended to the list of subdirectories, so you
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needn't put it in an @file{Implies} file, and you should not create any
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subdirectories under it intended to be new specific categories.
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@file{generic} serves two purposes. First, the makefiles do not bother
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to look for a system-dependent version of a file that's not in
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@file{generic}. This means that any system-dependent source file must
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have an analogue in @file{generic}, even if the routines defined by that
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file are not implemented on other platforms. Second, the @file{generic}
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version of a system-dependent file is used if the makefiles do not find
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a version specific to the system you're compiling for.
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If it is possible to implement the routines in a @file{generic} file in
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machine-independent C, using only other machine-independent functions in
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the C library, then you should do so. Otherwise, make them stubs. A
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@dfn{stub} function is a function which cannot be implemented on a
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particular machine or operating system. Stub functions always return an
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error, and set @code{errno} to @code{ENOSYS} (Function not implemented).
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@xref{Error Reporting}. If you define a stub function, you must place
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the statement @code{stub_warning(@var{function})}, where @var{function}
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is the name of your function, after its definition. This causes the
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function to be listed in the installed @code{<gnu/stubs.h>}, and
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makes GNU ld warn when the function is used.
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Some rare functions are only useful on specific systems and aren't
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defined at all on others; these do not appear anywhere in the
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system-independent source code or makefiles (including the
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@file{generic} directory), only in the system-dependent @file{Makefile}
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in the specific system's subdirectory.
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If you come across a file that is in one of the main source directories
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(@file{string}, @file{stdio}, etc.), and you want to write a machine- or
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operating system-dependent version of it, move the file into
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@file{sysdeps/generic} and write your new implementation in the
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appropriate system-specific subdirectory. Note that if a file is to be
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system-dependent, it @strong{must not} appear in one of the main source
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directories.
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There are a few special files that may exist in each subdirectory of
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@file{sysdeps}:
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@comment Blank lines after items make the table look better.
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@table @file
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@item Makefile
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A makefile for this machine or operating system, or class of machine or
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operating system. This file is included by the library makefile
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@file{Makerules}, which is used by the top-level makefile and the
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subdirectory makefiles. It can change the variables set in the
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including makefile or add new rules. It can use GNU @code{make}
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conditional directives based on the variable @samp{subdir} (see above) to
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select different sets of variables and rules for different sections of
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the library. It can also set the @code{make} variable
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@samp{sysdep-routines}, to specify extra modules to be included in the
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library. You should use @samp{sysdep-routines} rather than adding
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modules to @samp{routines} because the latter is used in determining
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what to distribute for each subdirectory of the main source tree.
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Each makefile in a subdirectory in the ordered list of subdirectories to
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be searched is included in order. Since several system-dependent
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makefiles may be included, each should append to @samp{sysdep-routines}
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rather than simply setting it:
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@smallexample
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sysdep-routines := $(sysdep-routines) foo bar
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@end smallexample
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@need 1000
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@item Subdirs
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This file contains the names of new whole subdirectories under the
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top-level library source tree that should be included for this system.
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These subdirectories are treated just like the system-independent
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subdirectories in the library source tree, such as @file{stdio} and
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@file{math}.
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Use this when there are completely new sets of functions and header
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files that should go into the library for the system this subdirectory
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of @file{sysdeps} implements. For example,
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@file{sysdeps/unix/inet/Subdirs} contains @file{inet}; the @file{inet}
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directory contains various network-oriented operations which only make
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sense to put in the library on systems that support the Internet.
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@item configure
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This file is a shell script fragment to be run at configuration time.
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The top-level @file{configure} script uses the shell @code{.} command to
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read the @file{configure} file in each system-dependent directory
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chosen, in order. The @file{configure} files are often generated from
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@file{configure.ac} files using Autoconf.
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A system-dependent @file{configure} script will usually add things to
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the shell variables @samp{DEFS} and @samp{config_vars}; see the
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top-level @file{configure} script for details. The script can check for
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@w{@samp{--with-@var{package}}} options that were passed to the
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top-level @file{configure}. For an option
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@w{@samp{--with-@var{package}=@var{value}}} @file{configure} sets the
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shell variable @w{@samp{with_@var{package}}} (with any dashes in
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@var{package} converted to underscores) to @var{value}; if the option is
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|
just @w{@samp{--with-@var{package}}} (no argument), then it sets
|
|
@w{@samp{with_@var{package}}} to @samp{yes}.
|
|
|
|
@item configure.ac
|
|
|
|
This file is an Autoconf input fragment to be processed into the file
|
|
@file{configure} in this subdirectory. @xref{Introduction,,,
|
|
autoconf.info, Autoconf: Generating Automatic Configuration Scripts},
|
|
for a description of Autoconf. You should write either @file{configure}
|
|
or @file{configure.ac}, but not both. The first line of
|
|
@file{configure.ac} should invoke the @code{m4} macro
|
|
@samp{GLIBC_PROVIDES}. This macro does several @code{AC_PROVIDE} calls
|
|
for Autoconf macros which are used by the top-level @file{configure}
|
|
script; without this, those macros might be invoked again unnecessarily
|
|
by Autoconf.
|
|
@end table
|
|
|
|
That is the general system for how system-dependencies are isolated.
|
|
@iftex
|
|
The next section explains how to decide what directories in
|
|
@file{sysdeps} to use. @ref{Porting to Unix}, has some tips on porting
|
|
the library to Unix variants.
|
|
@end iftex
|
|
|
|
@menu
|
|
* Hierarchy Conventions:: The layout of the @file{sysdeps} hierarchy.
|
|
* Porting to Unix:: Porting the library to an average
|
|
Unix-like system.
|
|
@end menu
|
|
|
|
@node Hierarchy Conventions
|
|
@appendixsubsec Layout of the @file{sysdeps} Directory Hierarchy
|
|
|
|
A GNU configuration name has three parts: the CPU type, the
|
|
manufacturer's name, and the operating system. @file{configure} uses
|
|
these to pick the list of system-dependent directories to look for. If
|
|
the @samp{--nfp} option is @emph{not} passed to @file{configure}, the
|
|
directory @file{@var{machine}/fpu} is also used. The operating system
|
|
often has a @dfn{base operating system}; for example, if the operating
|
|
system is @samp{Linux}, the base operating system is @samp{unix/sysv}.
|
|
The algorithm used to pick the list of directories is simple:
|
|
@file{configure} makes a list of the base operating system,
|
|
manufacturer, CPU type, and operating system, in that order. It then
|
|
concatenates all these together with slashes in between, to produce a
|
|
directory name; for example, the configuration @w{@samp{i686-linux-gnu}}
|
|
results in @file{unix/sysv/linux/i386/i686}. @file{configure} then
|
|
tries removing each element of the list in turn, so
|
|
@file{unix/sysv/linux} and @file{unix/sysv} are also tried, among others.
|
|
Since the precise version number of the operating system is often not
|
|
important, and it would be very inconvenient, for example, to have
|
|
identical @file{irix6.2} and @file{irix6.3} directories,
|
|
@file{configure} tries successively less specific operating system names
|
|
by removing trailing suffixes starting with a period.
|
|
|
|
As an example, here is the complete list of directories that would be
|
|
tried for the configuration @w{@samp{i686-linux-gnu}}:
|
|
|
|
@smallexample
|
|
sysdeps/i386/elf
|
|
sysdeps/unix/sysv/linux/i386
|
|
sysdeps/unix/sysv/linux
|
|
sysdeps/gnu
|
|
sysdeps/unix/common
|
|
sysdeps/unix/mman
|
|
sysdeps/unix/inet
|
|
sysdeps/unix/sysv/i386/i686
|
|
sysdeps/unix/sysv/i386
|
|
sysdeps/unix/sysv
|
|
sysdeps/unix/i386
|
|
sysdeps/unix
|
|
sysdeps/posix
|
|
sysdeps/i386/i686
|
|
sysdeps/i386/i486
|
|
sysdeps/libm-i387/i686
|
|
sysdeps/i386/fpu
|
|
sysdeps/libm-i387
|
|
sysdeps/i386
|
|
sysdeps/wordsize-32
|
|
sysdeps/ieee754
|
|
sysdeps/libm-ieee754
|
|
sysdeps/generic
|
|
@end smallexample
|
|
|
|
Different machine architectures are conventionally subdirectories at the
|
|
top level of the @file{sysdeps} directory tree. For example,
|
|
@w{@file{sysdeps/sparc}} and @w{@file{sysdeps/m68k}}. These contain
|
|
files specific to those machine architectures, but not specific to any
|
|
particular operating system. There might be subdirectories for
|
|
specializations of those architectures, such as
|
|
@w{@file{sysdeps/m68k/68020}}. Code which is specific to the
|
|
floating-point coprocessor used with a particular machine should go in
|
|
@w{@file{sysdeps/@var{machine}/fpu}}.
|
|
|
|
There are a few directories at the top level of the @file{sysdeps}
|
|
hierarchy that are not for particular machine architectures.
|
|
|
|
@table @file
|
|
@item generic
|
|
As described above (@pxref{Porting}), this is the subdirectory
|
|
that every configuration implicitly uses after all others.
|
|
|
|
@item ieee754
|
|
This directory is for code using the IEEE 754 floating-point format,
|
|
where the C type @code{float} is IEEE 754 single-precision format, and
|
|
@code{double} is IEEE 754 double-precision format. Usually this
|
|
directory is referred to in the @file{Implies} file in a machine
|
|
architecture-specific directory, such as @file{m68k/Implies}.
|
|
|
|
@item libm-ieee754
|
|
This directory contains an implementation of a mathematical library
|
|
usable on platforms which use @w{IEEE 754} conformant floating-point
|
|
arithmetic.
|
|
|
|
@item libm-i387
|
|
This is a special case. Ideally the code should be in
|
|
@file{sysdeps/i386/fpu} but for various reasons it is kept aside.
|
|
|
|
@item posix
|
|
This directory contains implementations of things in the library in
|
|
terms of @sc{POSIX.1} functions. This includes some of the @sc{POSIX.1}
|
|
functions themselves. Of course, @sc{POSIX.1} cannot be completely
|
|
implemented in terms of itself, so a configuration using just
|
|
@file{posix} cannot be complete.
|
|
|
|
@item unix
|
|
This is the directory for Unix-like things. @xref{Porting to Unix}.
|
|
@file{unix} implies @file{posix}. There are some special-purpose
|
|
subdirectories of @file{unix}:
|
|
|
|
@table @file
|
|
@item unix/common
|
|
This directory is for things common to both BSD and System V release 4.
|
|
Both @file{unix/bsd} and @file{unix/sysv/sysv4} imply @file{unix/common}.
|
|
|
|
@item unix/inet
|
|
This directory is for @code{socket} and related functions on Unix systems.
|
|
@file{unix/inet/Subdirs} enables the @file{inet} top-level subdirectory.
|
|
@file{unix/common} implies @file{unix/inet}.
|
|
@end table
|
|
|
|
@item mach
|
|
This is the directory for things based on the Mach microkernel from CMU
|
|
(including @gnuhurdsystems{}). Other basic operating systems
|
|
(VMS, for example) would have their own directories at the top level of
|
|
the @file{sysdeps} hierarchy, parallel to @file{unix} and @file{mach}.
|
|
@end table
|
|
|
|
@node Porting to Unix
|
|
@appendixsubsec Porting @theglibc{} to Unix Systems
|
|
|
|
Most Unix systems are fundamentally very similar. There are variations
|
|
between different machines, and variations in what facilities are
|
|
provided by the kernel. But the interface to the operating system
|
|
facilities is, for the most part, pretty uniform and simple.
|
|
|
|
The code for Unix systems is in the directory @file{unix}, at the top
|
|
level of the @file{sysdeps} hierarchy. This directory contains
|
|
subdirectories (and subdirectory trees) for various Unix variants.
|
|
|
|
The functions which are system calls in most Unix systems are
|
|
implemented in assembly code, which is generated automatically from
|
|
specifications in files named @file{syscalls.list}. There are several
|
|
such files, one in @file{sysdeps/unix} and others in its subdirectories.
|
|
Some special system calls are implemented in files that are named with a
|
|
suffix of @samp{.S}; for example, @file{_exit.S}. Files ending in
|
|
@samp{.S} are run through the C preprocessor before being fed to the
|
|
assembler.
|
|
|
|
These files all use a set of macros that should be defined in
|
|
@file{sysdep.h}. The @file{sysdep.h} file in @file{sysdeps/unix}
|
|
partially defines them; a @file{sysdep.h} file in another directory must
|
|
finish defining them for the particular machine and operating system
|
|
variant. See @file{sysdeps/unix/sysdep.h} and the machine-specific
|
|
@file{sysdep.h} implementations to see what these macros are and what
|
|
they should do.
|
|
|
|
The system-specific makefile for the @file{unix} directory
|
|
(@file{sysdeps/unix/Makefile}) gives rules to generate several files
|
|
from the Unix system you are building the library on (which is assumed
|
|
to be the target system you are building the library @emph{for}). All
|
|
the generated files are put in the directory where the object files are
|
|
kept; they should not affect the source tree itself. The files
|
|
generated are @file{ioctls.h}, @file{errnos.h}, @file{sys/param.h}, and
|
|
@file{errlist.c} (for the @file{stdio} section of the library).
|
|
|
|
@ignore
|
|
@c This section might be a good idea if it is finished,
|
|
@c but there's no point including it as it stands. --rms
|
|
@c @appendixsec Compatibility with Traditional C
|
|
|
|
@c ??? This section is really short now. Want to keep it? --roland
|
|
|
|
@c It's not anymore true. glibc 2.1 cannot be used with K&R compilers.
|
|
@c --drepper
|
|
|
|
Although @theglibc{} implements the @w{ISO C} library facilities, you
|
|
@emph{can} use @theglibc{} with traditional, ``pre-ISO'' C
|
|
compilers. However, you need to be careful because the content and
|
|
organization of the @glibcadj{} header files differs from that of
|
|
traditional C implementations. This means you may need to make changes
|
|
to your program in order to get it to compile.
|
|
@end ignore
|