13 KiB
** This file is adapted from libcurl and not yet fully rewritten for c-ares! **
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How To Compile
Installing Binary Packages
Lots of people download binary distributions of c-ares. This document does not describe how to install c-ares using such a binary package. This document describes how to compile, build and install c-ares from source code.
Building from Git
If you get your code off a Git repository rather than an official release tarball, see the GIT-INFO file in the root directory for specific instructions on how to proceed.
In particular, if not using CMake you will need to run ./buildconf
(Unix) or
buildconf.bat
(Windows) to generate build files, and for the former
you will need a local installation of Autotools. If using CMake the steps are
the same for both Git and official release tarballs.
AutoTools Build
General Information, works on most Unix Platforms (Linux, FreeBSD, etc)
A normal Unix installation is made in three or four steps (after you've unpacked the source archive):
./configure
make
make install
You probably need to be root when doing the last command.
If you have checked out the sources from the git repository, read the GIT-INFO on how to proceed.
Get a full listing of all available configure options by invoking it like:
./configure --help
If you want to install c-ares in a different file hierarchy than /usr/local, you need to specify that already when running configure:
./configure --prefix=/path/to/c-ares/tree
If you happen to have write permission in that directory, you can do make install
without being root. An example of this would be to make a local
install in your own home directory:
./configure --prefix=$HOME
make
make install
More Options
To force configure to use the standard cc compiler if both cc and gcc are present, run configure like
CC=cc ./configure
# or
env CC=cc ./configure
To force a static library compile, disable the shared library creation by running configure like:
./configure --disable-shared
If you're a c-ares developer and use gcc, you might want to enable more
debug options with the --enable-debug
option.
Special Cases
Some versions of uClibc require configuring with CPPFLAGS=-D_GNU_SOURCE=1
to get correct large file support.
The Open Watcom C compiler on Linux requires configuring with the variables:
./configure CC=owcc AR="$WATCOM/binl/wlib" AR_FLAGS=-q \
RANLIB=/bin/true STRIP="$WATCOM/binl/wstrip" CFLAGS=-Wextra
CROSS COMPILE
(This section was graciously brought to us by Jim Duey, with additions by Dan Fandrich)
Download and unpack the c-ares package.
cd
to the new directory. (e.g. cd c-ares-1.7.6
)
Set environment variables to point to the cross-compile toolchain and call
configure with any options you need. Be sure and specify the --host
and
--build
parameters at configuration time. The following script is an
example of cross-compiling for the IBM 405GP PowerPC processor using the
toolchain from MonteVista for Hardhat Linux.
#! /bin/sh
export PATH=$PATH:/opt/hardhat/devkit/ppc/405/bin
export CPPFLAGS="-I/opt/hardhat/devkit/ppc/405/target/usr/include"
export AR=ppc_405-ar
export AS=ppc_405-as
export LD=ppc_405-ld
export RANLIB=ppc_405-ranlib
export CC=ppc_405-gcc
export NM=ppc_405-nm
./configure --target=powerpc-hardhat-linux \
--host=powerpc-hardhat-linux \
--build=i586-pc-linux-gnu \
--prefix=/opt/hardhat/devkit/ppc/405/target/usr/local \
--exec-prefix=/usr/local
You may also need to provide a parameter like --with-random=/dev/urandom
to configure as it cannot detect the presence of a random number
generating device for a target system. The --prefix
parameter
specifies where c-ares will be installed. If configure
completes
successfully, do make
and make install
as usual.
In some cases, you may be able to simplify the above commands to as little as:
./configure --host=ARCH-OS
Cygwin (Windows)
Almost identical to the unix installation. Run the configure script in the
c-ares root with sh configure
. Make sure you have the sh executable in
/bin/
or you'll see the configure fail toward the end.
Run make
QNX
(This section was graciously brought to us by David Bentham)
As QNX is targeted for resource constrained environments, the QNX headers
set conservative limits. This includes the FD_SETSIZE
macro, set by default
to 32. Socket descriptors returned within the c-ares library may exceed this,
resulting in memory faults/SIGSEGV crashes when passed into select(..)
calls using fd_set
macros.
A good all-round solution to this is to override the default when building
c-ares, by overriding CFLAGS
during configure, example:
# configure CFLAGS='-DFD_SETSIZE=64 -g -O2'
RISC OS
The library can be cross-compiled using gccsdk as follows:
CC=riscos-gcc AR=riscos-ar RANLIB='riscos-ar -s' ./configure \
--host=arm-riscos-aof --without-random --disable-shared
make
where riscos-gcc
and riscos-ar
are links to the gccsdk tools.
You can then link your program with c-ares/lib/.libs/libcares.a
.
Android
Method using a configure cross-compile (tested with Android NDK r7b):
-
prepare the toolchain of the Android NDK for standalone use; this can be done by invoking the script:
./tools/make-standalone-toolchain.sh
which creates a usual cross-compile toolchain. Lets assume that you put this toolchain below
/opt
then invoke configure with something like:export PATH=/opt/arm-linux-androideabi-4.4.3/bin:$PATH ./configure --host=arm-linux-androideabi [more configure options] make
-
if you want to compile directly from our GIT repo you might run into this issue with older automake stuff:
checking host system type... Invalid configuration `arm-linux-androideabi': system `androideabi' not recognized configure: error: /bin/sh ./config.sub arm-linux-androideabi failed
this issue can be fixed with using more recent versions of
config.sub
andconfig.guess
which can be obtained here: http://git.savannah.gnu.org/gitweb/?p=config.git;a=tree you need to replace your system-own versions which usually can be found in your automake folder:find /usr -name config.sub
CMake builds
Current releases of c-ares introduce a CMake v3+ build system that has been tested on most platforms including Windows, Linux, FreeBSD, MacOS, AIX and Solaris.
In the most basic form, building with CMake might look like:
cd /path/to/cmake/source
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=/usr/local/cares ..
make
sudo make install
Options
Options to CMake are passed on the command line using "-D${OPTION}=${VALUE}". The values defined are all boolean and take values like On, Off, True, False.
- CARES_STATIC - Build the static library (off by default)
- CARES_SHARED - Build the shared library (on by default)
- CARES_INSTALL - Hook in installation, useful to disable if chain building
- CARES_STATIC_PIC - Build the static library as position-independent (off by default)
Ninja
Ninja is the next-generation build system meant for generators like CMake that heavily parallelize builds. Its use is very similar to the normal build:
cd /path/to/cmake/source
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=/usr/local/cares -G "Ninja" ..
ninja
sudo ninja install
Windows MSVC Command Line
cd \path\to\cmake\source
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=C:\cares -G "NMake Makefiles" ..
nmake
nmake install
Windows MinGW-w64 Command Line via MSYS
cd \path\to\cmake\source
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=C:\cares -G "MSYS Makefiles" ..
make
make install
Platform-specific build systems
Win32
Building Windows DLLs and C run-time (CRT) linkage issues
As a general rule, building a DLL with static CRT linkage is highly discouraged, and intermixing CRTs in the same app is something to avoid at any cost.
Reading and comprehension of the following Microsoft Learn article is a must for any Windows developer. Especially important is full understanding if you are not going to follow the advice given above.
If your app is misbehaving in some strange way, or it is suffering from memory corruption, before asking for further help, please try first to rebuild every single library your app uses as well as your app using the debug multithreaded dynamic C runtime.
MingW32
Make sure that MinGW32's bin dir is in the search path, for example:
set PATH=c:\mingw32\bin;%PATH%
then run 'make -f Makefile.m32' in the root dir.
MSVC 6 caveats
If you use MSVC 6 it is required that you use the February 2003 edition PSDK: http://www.microsoft.com/msdownload/platformsdk/sdkupdate/psdk-full.htm
MSVC from command line
Run the vcvars32.bat
file to get a proper environment. The
vcvars32.bat
file is part of the Microsoft development environment and
you may find it in C:\Program Files\Microsoft Visual Studio\vc98\bin
provided that you installed Visual C/C++ 6 in the default directory.
Further details in README.msvc
Important static c-ares usage note
When building an application that uses the static c-ares library, you must
add -DCARES_STATICLIB
to your CFLAGS
. Otherwise the linker will look for
dynamic import symbols.
IBM OS/2
Building under OS/2 is not much different from building under unix. You need:
- emx 0.9d
- GNU make
- GNU patch
- ksh
- GNU bison
- GNU file utilities
- GNU sed
- autoconf 2.13
If during the linking you get an error about _errno
being an undefined
symbol referenced from the text segment, you need to add -D__ST_MT_ERRNO__
in your definitions.
If you're getting huge binaries, probably your makefiles have the -g
in
CFLAGS
.
NetWare
To compile libcares.a
/ libcares.lib
you need:
- either any gcc / nlmconv, or CodeWarrior 7 PDK 4 or later.
- gnu make and awk running on the platform you compile on; native Win32 versions can be downloaded from: http://www.gknw.net/development/prgtools/
- recent Novell LibC SDK available from: http://developer.novell.com/ndk/libc.htm
- or recent Novell CLib SDK available from: http://developer.novell.com/ndk/clib.htm
Set a search path to your compiler, linker and tools; on Linux make
sure that the var OSTYPE
contains the string 'linux'; set the var
NDKBASE
to point to the base of your Novell NDK; and then type
make -f Makefile.netware
from the top source directory;
VCPKG
You can build and install c-ares using vcpkg dependency manager:
git clone https://github.com/Microsoft/vcpkg.git
cd vcpkg
./bootstrap-vcpkg.sh
./vcpkg integrate install
./vcpkg install c-ares
The c-ares port in vcpkg is kept up to date by Microsoft team members and community contributors. If the version is out of date, please create an issue or pull request on the vcpkg repository.
WATCOM
To build c-ares with OpenWatcom, you need to have at least version 1.9 of OpenWatcom. You can get the latest version from http://openwatcom.org/ftp/install/. Install the version that corresponds to your current host platform.
After installing OpenWatcom, open a new command prompt and execute the following commands:
cd \path\to\cmake\source
buildconf.bat
wmake -u -f Makefile.Watcom
After running wmake, you should get adig.exe, ahost.exe, and the static and dynamic versions of libcares.
PORTS
This is a probably incomplete list of known hardware and operating systems that c-ares has been compiled for. If you know a system c-ares compiles and runs on, that isn't listed, please let us know!
- Alpha Tru64 v5.0 5.1
- ARM Android 1.5, 2.1, 2.3
- MIPS IRIX 6.2, 6.5
- Power AIX 3.2.5, 4.2, 4.3.1, 4.3.2, 5.1, 5.2
- i386 Linux 1.3, 2.0, 2.2, 2.3, 2.4, 2.6
- i386 Novell NetWare
- i386 Windows 95, 98, ME, NT, 2000, XP, 2003
- x86_64 Linux
Useful URLs
- c-ares: https://c-ares.org/
- MingW: http://www.mingw.org/
- MinGW-w64: http://mingw-w64.sourceforge.net/
- OpenWatcom: http://www.openwatcom.org/