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599 lines
22 KiB
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599 lines
22 KiB
Plaintext
README for newlib-2.5.0 release
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(mostly cribbed from the README in the gdb-4.13 release)
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This is `newlib', a simple ANSI C library, math library, and collection
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of board support packages.
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The newlib and libgloss subdirectories are a collection of software from
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several sources, each with their own copyright and license. See the file
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COPYING.NEWLIB for details. The rest of the release tree is under either
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the GNU GPL or LGPL licenses.
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THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
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IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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Unpacking and Installation -- quick overview
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==========================
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When you unpack the newlib-2.5.0.tar.gz file, you'll find a directory
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called `newlib-2.5.0', which contains:
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COPYING config/ install-sh* mpw-configure
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COPYING.LIB config-ml.in libgloss/ mpw-install
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COPYING.NEWLIB config.guess* mkinstalldirs* newlib/
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CYGNUS config.sub* move-if-change* symlink-tree*
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ChangeLog configure* mpw-README texinfo/
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Makefile.in configure.in mpw-build.in
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README etc/ mpw-config.in
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To build NEWLIB, you must follow the instructions in the section entitled
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"Compiling NEWLIB".
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This will configure and build all the libraries and crt0 (if one exists).
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If `configure' can't determine your host system type, specify one as its
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argument, e.g., sun4 or sun4sol2. NEWLIB is most often used in cross
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environments.
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NOTE THAT YOU MUST HAVE ALREADY BUILT AND INSTALLED GCC and BINUTILS.
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More Documentation
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==================
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Newlib documentation is available on the net via:
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http://sourceware.org/newlib/docs.html
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All the documentation for NEWLIB comes as part of the machine-readable
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distribution. The documentation is written in Texinfo format, which is
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a documentation system that uses a single source file to produce both
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on-line information and a printed manual. You can use one of the Info
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formatting commands to create the on-line version of the documentation
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and TeX (or `texi2roff') to typeset the printed version.
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If you want to format these Info files yourself, you need one of the
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Info formatting programs, such as `texinfo-format-buffer' or `makeinfo'.
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If you want to typeset and print copies of this manual, you need TeX,
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a program to print its DVI output files, and `texinfo.tex', the Texinfo
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definitions file.
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TeX is a typesetting program; it does not print files directly, but
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produces output files called DVI files. To print a typeset document,
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you need a program to print DVI files. If your system has TeX
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installed, chances are it has such a program. The precise command to
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use depends on your system; `lpr -d' is common; another (for PostScript
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devices) is `dvips'. The DVI print command may require a file name
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without any extension or a `.dvi' extension.
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TeX also requires a macro definitions file called `texinfo.tex'.
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This file tells TeX how to typeset a document written in Texinfo
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format. On its own, TeX cannot read, much less typeset a Texinfo file.
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`texinfo.tex' is distributed with NEWLIB and is located in the
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`newlib-VERSION-NUMBER/texinfo' directory.
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Compiling NEWLIB
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================
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To compile NEWLIB, you must build it in a directory separate from
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the source directory. If you want to run NEWLIB versions for several host
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or target machines, you need a different `newlib' compiled for each combination
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of host and target. `configure' is designed to make this easy by allowing
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you to generate each configuration in a separate subdirectory.
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If your `make' program handles the `VPATH' feature correctly (like GNU `make')
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running `make' in each of these directories builds the `newlib' libraries
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specified there.
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To build `newlib' in a specific directory, run `configure' with the
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`--srcdir' option to specify where to find the source. (You also need
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to specify a path to find `configure' itself from your working
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directory. If the path to `configure' would be the same as the
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argument to `--srcdir', you can leave out the `--srcdir' option; it
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will be assumed.)
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For example, with version 2.5.0, you can build NEWLIB in a separate
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directory for a Sun 4 cross m68k-aout environment like this:
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cd newlib-2.5.0
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mkdir ../newlib-m68k-aout
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cd ../newlib-m68k-aout
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../newlib-2.5.0/configure --host=sun4 --target=m68k-aout
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make
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When `configure' builds a configuration using a remote source
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directory, it creates a tree for the binaries with the same structure
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(and using the same names) as the tree under the source directory. In
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the example, you'd find the Sun 4 library `libiberty.a' in the
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directory `newlib-m68k-aout/libiberty', and NEWLIB itself in
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`newlib-m68k-aout/newlib'.
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When you run `make' to build a program or library, you must run it
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in a configured directory--whatever directory you were in when you
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called `configure' (or one of its subdirectories).
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The `Makefile' that `configure' generates in each source directory
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also runs recursively. If you type `make' in a source directory such
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as `newlib-2.5.0' (or in a separate configured directory configured with
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`--srcdir=PATH/newlib-2.5.0'), you will build all the required libraries.
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When you have multiple hosts or targets configured in separate
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directories, you can run `make' on them in parallel (for example, if
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they are NFS-mounted on each of the hosts); they will not interfere
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with each other.
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Specifying names for hosts and targets
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======================================
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The specifications used for hosts and targets in the `configure'
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script are based on a three-part naming scheme, but some short
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predefined aliases are also supported. The full naming scheme encodes
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three pieces of information in the following pattern:
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ARCHITECTURE-VENDOR-OS
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For example, you can use the alias `sun4' as a HOST argument or in a
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`--target=TARGET' option. The equivalent full name is
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`sparc-sun-sunos4'.
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The `configure' script accompanying NEWLIB does not provide any query
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facility to list all supported host and target names or aliases.
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`configure' calls the Bourne shell script `config.sub' to map
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abbreviations to full names; you can read the script, if you wish, or
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you can use it to test your guesses on abbreviations--for example:
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% sh config.sub sun4
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sparc-sun-sunos4.1.1
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% sh config.sub sun3
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m68k-sun-sunos4.1.1
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% sh config.sub decstation
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mips-dec-ultrix4.2
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% sh config.sub hp300bsd
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m68k-hp-bsd
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% sh config.sub i386v
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i386-pc-sysv
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% sh config.sub i786v
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Invalid configuration `i786v': machine `i786v' not recognized
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The Build, Host and Target Concepts in newlib
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=============================================
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The build, host and target concepts are defined for gcc as follows:
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build: the platform on which gcc is built.
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host: the platform on which gcc is run.
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target: the platform for which gcc generates code.
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Since newlib is a library, the target concept does not apply to it, and the
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build, host, and target options given to the top-level configure script must
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be changed for newlib's use.
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The build system shifts the options according to these correspondences:
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gcc's build platform has no equivalent in newlib.
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gcc's host platform is newlib's build platform.
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gcc's target platform is newlib's host platform.
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and as mentioned before, newlib has no concept of target.
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In summary: the --target=TARGET switch to the top-level configure
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script configures newlib's host platform.
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`configure' options
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===================
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Here is a summary of the `configure' options and arguments that are
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most often useful for building NEWLIB. `configure' also has several other
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options not listed here.
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configure [--help]
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[--prefix=DIR]
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[--srcdir=PATH]
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[--target=TARGET] HOST
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You may introduce options with a single `-' rather than `--' if you
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prefer; but you may abbreviate option names if you use `--'.
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`--help'
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Display a quick summary of how to invoke `configure'.
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`--prefix=DIR'
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Configure the source to install programs and files in directory
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`DIR'.
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`--exec-prefix=DIR'
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Configure the source to install host-dependent files in directory
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`DIR'.
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`--srcdir=PATH'
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*Warning: using this option requires GNU `make', or another `make'
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that compatibly implements the `VPATH' feature.
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Use this option to make configurations in directories separate
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from the NEWLIB source directories. Among other things, you can use
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this to build (or maintain) several configurations simultaneously,
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in separate directories. `configure' writes configuration
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specific files in the current directory, but arranges for them to
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use the source in the directory PATH. `configure' will create
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directories under the working directory in parallel to the source
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directories below PATH.
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`--norecursion'
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Configure only the directory level where `configure' is executed;
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do not propagate configuration to subdirectories.
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`--target=TARGET'
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Configure NEWLIB for running on the specified TARGET.
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There is no convenient way to generate a list of all available
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targets.
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`HOST ...'
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Configure NEWLIB to be built using a cross compiler running on
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the specified HOST.
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There is no convenient way to generate a list of all available
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hosts.
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To fit diverse usage models, NEWLIB supports a group of configuration
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options so that library features can be turned on/off according to
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target system's requirements.
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One feature can be enabled by specifying `--enable-FEATURE=yes' or
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`--enable-FEATURE'. Or it can be disable by `--enable-FEATURE=no' or
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`--disable-FEATURE'.
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`--enable-newlib-io-pos-args'
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Enable printf-family positional arg support.
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Disabled by default, but some hosts enable it in configure.host.
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`--enable-newlib-io-c99-formats'
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Enable C99 support in IO functions like printf/scanf.
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Disabled by default, but some hosts enable it in configure.host.
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`--enable-newlib-register-fini'
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Enable finalization function registration using atexit.
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Disabled by default.
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`--enable-newlib-io-long-long'
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Enable long long type support in IO functions like printf/scanf.
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Disabled by default, but many hosts enable it in configure.host.
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`--enable-newlib-io-long-double'
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Enable long double type support in IO functions printf/scanf.
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Disabled by default, but some hosts enable it in configure.host.
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`--enable-newlib-mb'
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Enable multibyte support.
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Disabled by default.
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`--enable-newlib-iconv-encodings'
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Enable specific comma-separated list of bidirectional iconv
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encodings to be built-in.
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Disabled by default.
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`--enable-newlib-iconv-from-encodings'
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Enable specific comma-separated list of \"from\" iconv encodings
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to be built-in.
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Disabled by default.
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`--enable-newlib-iconv-to-encodings'
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Enable specific comma-separated list of \"to\" iconv encodings
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to be built-in.
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Disabled by default.
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`--enable-newlib-iconv-external-ccs'
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Enable capabilities to load external CCS files for iconv.
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Disabled by default.
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`--disable-newlib-atexit-dynamic-alloc'
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Disable dynamic allocation of atexit entries.
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Most hosts and targets have it enabled in configure.host.
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`--enable-newlib-global-atexit'
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Enable atexit data structure as global variable. By doing so it is
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move out of _reent structure, and can be garbage collected if atexit
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is not referenced.
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Disabled by default.
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`--enable-newlib-reent-small'
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Enable small reentrant struct support.
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Disabled by default.
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`--disable-newlib-fvwrite-in-streamio'
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NEWLIB implements the vector buffer mechanism to support stream IO
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buffering required by C standard. This feature is possibly
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unnecessary for embedded systems which won't change file buffering
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with functions like `setbuf' or `setvbuf'. The buffering mechanism
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still acts as default for STDIN/STDOUT/STDERR even if this option
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is specified.
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Enabled by default.
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`--disable-newlib-fseek-optimization'
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Disable fseek optimization. It can decrease code size of application
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calling `fseek`.
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Enabled by default.
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`--disable-newlib-wide-orient'
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C99 states that each stream has an orientation, wide or byte. This
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feature is possibly unnecessary for embedded systems which only do
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byte input/output operations on stream. It can decrease code size
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by disable the feature.
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Enabled by default.
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`--enable-newlib-nano-malloc'
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NEWLIB has two implementations of malloc family's functions, one in
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`mallocr.c' and the other one in `nano-mallocr.c'. This options
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enables the nano-malloc implementation, which is for small systems
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with very limited memory. Note that this implementation does not
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support `--enable-malloc-debugging' any more.
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Disabled by default.
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`--disable-newlib-unbuf-stream-opt'
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NEWLIB does optimization when `fprintf to write only unbuffered unix
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file'. It creates a temorary buffer to do the optimization that
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increases stack consumption by about `BUFSIZ' bytes. This option
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disables the optimization and saves size of text and stack.
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Enabled by default.
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`--enable-multilib'
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Build many library versions.
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Enabled by default.
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`--enable-target-optspace'
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Optimize for space.
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Disabled by default.
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`--enable-malloc-debugging'
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Indicate malloc debugging requested.
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Disabled by default.
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`--enable-newlib-multithread'
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Enable support for multiple threads.
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Enabled by default.
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`--enable-newlib-iconv'
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Enable iconv library support.
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Disabled by default.
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`--enable-newlib-elix-level'
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Supply desired elix library level (1-4). Please refer to HOWTO for
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more information about this option.
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Set to level 0 by default.
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`--disable-newlib-io-float'
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Disable printf/scanf family float support.
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Enabled by default.
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`--disable-newlib-supplied-syscalls'
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Disable newlib from supplying syscalls.
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Enabled by default.
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`--enable-lite-exit'
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Enable lite exit, a size-reduced implementation of exit that doesn't
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invoke clean-up functions such as _fini or global destructors.
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Disabled by default.
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`--enable-newlib-nano-formatted-io'
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This builds NEWLIB with a special implementation of formatted I/O
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functions, designed to lower the size of application on small systems
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with size constraint issues. This option does not affect wide-char
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formatted I/O functions. Some notes about the feature:
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1) The non-wide-char formatted I/O functions only support the C89
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standard. The only exception is the configuration option provides
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limited support for long double. Internally, the nano formatted I/O
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functions use double so accuracy is only guaranteed to double
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precision.
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2) Floating-point support is split out of the formatted I/O code into
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weak functions which are not linked by default. Programs that need
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floating-point I/O support must explicitly request linking of one or
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both of the floating-point functions: _printf_float or _scanf_float.
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This can be done at link time using the -u option which can be passed
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to either gcc or ld. The -u option forces the link to resolve those
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function references. Floating-point format specifiers are recognized
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by default, but if the floating-point functions are not explicitly
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linked in, this may result in undefined behavior for programs that
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need floating-point I/O support.
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3) Integer-only versions of the formatted I/O functions (the iprintf/
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iscanf family) simply alias their regular counter-parts.
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The affected functions are:
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diprintf vdiprintf
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siprintf fiprintf iprintf sniprintf asiprintf asniprintf
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siscanf fiscanf iscanf
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viprintf vfiprintf vsiprintf vsniprintf vasiprintf vasniprintf
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viscanf vfiscanf vsiscanf
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_diprintf_r _vdiprintf_r
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_siprintf_r _fiprintf_r _iprintf_r _sniprintf_r _asiprintf_r
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_asniprintf_r
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_siscanf_r _fiscanf_r _iscanf_r
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_viprintf_r _vfiprintf_r _vsiprintf_r _asniprintf_r _vasiprintf_r
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_vasniprintf_r
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_viscanf_r _vfiscanf_r _vsiscanf_r
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4) As mentioned, the option does not affect wide-char formatted I/O.
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The following configuration options are ignored for non-wide-char
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formatted I/O functions, and can be thought of as disabled.
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enable-newlib-io-pos-args
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enable-newlib-io-c99-formats
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enable-newlib-io-long-long
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enable-newlib-io-long-double
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enable-newlib-mb
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Additionally, "enable/disable-newlib-io-float" is supported in
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this specific implementation, one can use "disable-newlib-io-float"
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to further reduce code size. In this case, the floating-point
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specifiers will not be recognized or handled, and the -u option
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will not work either.
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5) As a rule, no features from outside of C89 standard will be
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considered in this implementation.
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Disabled by default.
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Running the Testsuite
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=====================
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To run newlib's testsuite, you'll need a site.exp in your home
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directory which points dejagnu to the proper baseboards directory and
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the proper exp file for your target.
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Before running make check-target-newlib, set the DEJAGNU environment
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variable to point to ~/site.exp.
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Here is a sample site.exp:
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# Make sure we look in the right place for the board description files.
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if ![info exists boards_dir] {
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set boards_dir {}
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}
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lappend boards_dir "your dejagnu/baseboards here"
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verbose "Global Config File: target_triplet is $target_triplet" 2
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global target_list
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case "$target_triplet" in {
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{ "mips-*elf*" } {
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set target_list "mips-sim"
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}
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default {
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set target_list { "unix" }
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}
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}
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mips-sim refers to an exp file in the baseboards directory. You'll
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need to add the other targets you're testing to the case statement.
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Now type make check-target-newlib in the top-level build directory to
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run the testsuite.
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Shared newlib
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=============
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newlib uses libtool when it is being compiled natively (with
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--target=i[34567]86-pc-linux-gnu) on an i[34567]86-pc-linux-gnu
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host. This allows newlib to be compiled as a shared library.
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To configure newlib, do the following from your build directory:
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$(source_dir)/src/configure --with-newlib --prefix=$(install_dir)
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configure will recognize that host == target ==
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i[34567]86-pc-linux-gnu, so it will tell newlib to compile itself using
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libtool. By default, libtool will build shared and static versions of
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newlib.
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|
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To compile a program against shared newlib, do the following (where
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|
target_install_dir = $(install_dir)/i[34567]86-pc-linux-gnu):
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|
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gcc -nostdlib $(target_install_dir)/lib/crt0.o progname.c -I $(target_install_dir)/include -L $(target_install_dir)/lib -lc -lm -lgcc
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|
|
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To run the program, make sure that $(target_install_dir)/lib is listed
|
|
in the LD_LIBRARY_PATH environment variable.
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|
|
|
To create a static binary linked against newlib, do the following:
|
|
|
|
gcc -nostdlib -static $(target_install_dir)/lib/crt0.o progname.c -I $(target_install_dir)/include -L $(target_install_dir)/lib -lc -lm
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|
|
|
libtool can be instructed to produce only static libraries. To build
|
|
newlib as a static library only, do the following from your build
|
|
directory:
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|
|
|
$(source_dir)/src/configure --with-newlib --prefix=$(install_dir) --disable-shared
|
|
|
|
Regenerating Configuration Files
|
|
================================
|
|
|
|
At times you will need to make changes to configure.in and Makefile.am files.
|
|
This will mean that configure and Makefile.in files will need to be
|
|
regenerated.
|
|
|
|
At the top level of newlib is the file: acinclude.m4. This file contains
|
|
the definition of the NEWLIB_CONFIGURE macro which is used by all configure.in
|
|
files in newlib. You will notice that each directory in newlib containing
|
|
a configure.in file also contains an aclocal.m4 file. This file is
|
|
generated by issuing: aclocal -I${relative_path_to_toplevel_newlib_dir}
|
|
-I${relative_path_to_toplevel_src_dir}
|
|
The first relative directory is to access acinclude.m4. The second relative
|
|
directory is to access libtool information in the top-level src directory.
|
|
|
|
For example, to regenerate aclocal.m4 in newlib/libc/machine/arm:
|
|
|
|
aclocal -I ../../.. -I ../../../..
|
|
|
|
Note that if the top level acinclude.m4 is altered, every aclocal.m4 file
|
|
in newlib should be regenerated.
|
|
|
|
If the aclocal.m4 file is regenerated due to a change in acinclude.m4 or
|
|
if a configure.in file is modified, the corresponding configure file in the
|
|
directory must be regenerated using autoconf. No parameters are necessary.
|
|
In the previous example, we would issue:
|
|
|
|
autoconf
|
|
|
|
from the newlib/libc/machine/arm directory.
|
|
|
|
If you have regenerated a configure file or if you have modified a Makefile.am
|
|
file, you will need to regenerate the appropriate Makefile.in file(s).
|
|
For newlib, automake is a bit trickier. First of all, all Makefile.in
|
|
files in newlib (and libgloss) are generated using the --cygnus option
|
|
of automake.
|
|
|
|
Makefile.in files are generated from the nearest directory up the chain
|
|
which contains a configure.in file. In most cases, this is the same
|
|
directory containing configure.in, but there are exceptions.
|
|
For example, the newlib/libc directory has a number of
|
|
subdirectories that do not contain their own configure.in files (e.g. stdio).
|
|
For these directories, you must issue the automake command from newlib/libc
|
|
which is the nearest parent directory that contains a configure.in.
|
|
When you issue the automake command, you specify the subdirectory for
|
|
the Makefile.in you are regenerating. For example:
|
|
|
|
automake --cygnus stdio/Makefile stdlib/Makefile
|
|
|
|
Note how multiple Makefile.in files can be created in the same step. You
|
|
would not specify machine/Makefile or sys/Makefile in the previous example
|
|
because both of these subdirectories contain their own configure.in files.
|
|
One would change to each of these subdirectories and in turn issue:
|
|
|
|
automake --cygnus Makefile
|
|
|
|
Let's say you create a new machine directory XXXX off of newlib/libc/machine.
|
|
After creating a new configure.in and Makefile.am file, you would issue:
|
|
|
|
aclocal -I ../../..
|
|
autoconf
|
|
automake --cygnus Makefile
|
|
|
|
from newlib/libc/machine/XXXX
|
|
|
|
It is strongly advised that you use an adequate version of autotools.
|
|
For this latest release, the following were used: autoconf 2.69, aclocal 1.13.4, and
|
|
automake 1.13.4.
|
|
|
|
Reporting Bugs
|
|
==============
|
|
|
|
The correct address for reporting bugs found in NEWLIB is
|
|
"newlib@sourceware.org". Please email all bug reports to that
|
|
address. Please include the NEWLIB version number (e.g., newlib-2.5.0),
|
|
and how you configured it (e.g., "sun4 host and m68k-aout target").
|
|
Since NEWLIB supports many different configurations, it is important
|
|
that you be precise about this.
|
|
|
|
Archives of the newlib mailing list are on-line, see
|
|
http://sourceware.org/ml/newlib/
|