ACE has been ported to a large number of platforms, using many different compilers over the years. The DOC group, Riverace, OCI, and members of the ACE user community have all contributed ports to make ACE the successful and far-reaching toolkit it is today. Any UNIX/POSIX/Windows variation is a potential target platform for ACE. If you have porting questions or have a problem compiling the ACE source distribution, please contact one of the commercial support companies, or send a copy of the PROBLEM-REPORT-FORM to either the ACE Newsgroup or the ACE mailing list and someone will try to help you fix the problems.
The responsibility for maintaining ACE across this wide range of platforms is divided among a few different groups: the DOC group, Riverace, OCI, and the ACE user community itself. The table below summarizes each group's role and where you can get more detailed information. For information on TAO's platform coverage and support, please also see TAO's install document.
| Group | Platforms | For more information |
|---|---|---|
| DOC Group | Tested and used daily by the DOC group: Solaris 2.6, 7 and 8 (many compilers excluding SunC++ 4.x) Windows NT 4.0, 2000, XP (MSVC++ 6.x, and 7.x, and Borland C++ Builder 5.0) Linux/Intel (many compilers), Linux/IA64 (GCC). | DOC sites at UCI and Washington University |
| Riverace | Offers support services for many platforms including those above, HP-UX, AIX, and Windows CE. | Riverace's web site |
| OCI | Maintains ACE on certain platforms required for their TAO software and service offerings. | OCI's web site and the TAO install document |
| Remedy IT | Maintains ACE on certain platforms required for their ACE and TAO service offerings. | Remedy IT web site |
| ACE user community | Responsible for continued maintenance and testing of platforms to which ACE has been ported, but aren't supported by the above groups. These include Windows 95/98 using Borland C++ Builder 4.0 and later, and GNU g++ on MinGW and Cygwin; Digital UNIX (Compaq Tru64) 4.0 and 5.0; IRIX 6.x; UnixWare 7.1.0; SunOS 4.x and Solaris with SunC++ 4.x; Linux on Alpha and PPC; OpenMVS; Tandem; SCO; FreeBSD; NetBSD; OpenBSD; Chorus; OS/9; PharLap TNT Embedded ToolSuite 9.1; QNX RTP and Neutrino 2.0; VxWorks; LynxOS; RTEMS |
Although the DOC group has provided outstanding, world-class support for ACE over the years, ACE's success has greatly increased the amount of effort required to keep up with its maintenance, answer users' questions, and give design guidance. Riverace offers world-class commercial services to support ACE users and OCI offers similar services for TAO, allowing the DOC group's primary focus to shift back to their main goal: research. The DOC group is fundamentally focused on (and funded by) advanced R&D projects. The group continues to be intimately involved in ACE+TAO development and maintenance, but with revised priorities for maintenance. The bug fixing policies followed by the DOC group are designed to strike a balance between their many research projects and their commitment to the ACE+TAO user community. Naturally, we will be happy to accept well-tested patches from the ACE+TAO user community for any platforms that aren't supported by the DOC group, Riverace, or OCI.
All of ACE has been ported to the Win32 API (which includes Windows NT, Windows 2000, and Windows '95/98/ME) and Win64. The entire release now compiles using the Microsoft Visual C++ 6.0, and 7.1 (aka Visual C++ .NET 2003) compilers. ACE can be built as both a static (LIB) and dynamic (DLL) library, using the Win32 installation process described below.
Please see the Non-static ACE_Object_Manager discussion below.
We've also added some support for GNU g++ with MinGW, GNU g++ with Cygwin Borland C++ 5.5, Borland C++ Builder 4.0/5.0/6.0 and Borland C++ BuilderX, and IBM's VisualAge C++ compiler. Since we don't have these compilers we rely on the ACE+TAO users community to maintain these ports. Therefore, please send email to the ACE mailing list if you run into problems.
Take a look at (CE-status.txt) for up-to-date information about ACE on CE.
All the source code and tests should build and run without any problems on Solaris 2.6, 7, 8, and 9 platforms using the Sun C++ compilers. There are likely to be build problems with older versions or different patchlevels of Sun C++. Likewise, on Solaris with g++ you may need to use GNU as instead of /usr/ccs/bin/as, if you want -gstabs+ and -pipe support. Thanks to Susan Liebeskind <shl@janis.gtri.gatech.edu> for providing the following useful information:
By default, ACE uses both the Solaris and POSIX thread
interface. To disable use of the Solaris thread interface, add
-D_POSIX_PTHREAD_SEMANTICS to the
CFLAGS in your
ACE_wrappers/include/makeinclude/platform_macros.GNU.
See the Solaris Intro (3) man page for more information.
To disable ACE thread support completely, build with the
threads=0 make flag. See the Makefile Flags section below for more
information on make flags.
If you use g++ or egcs on Solaris 7, you might need to rebuild it on a SunOS 5.7 (Solaris 7) host. Some versions of g++ and egcs provide replacements for system header files. The replacements on older SunOS systems are not compatible with the SunOS 5.7 system headers. See David Levine's Hints page for instructions on how to build egcs on a SunOS 5.7 host, using a g++ or egcs that was built on an older SunOS host.
The Sun/C++ 5.0 compilers has several problems with templates, we have worked around most of them but this is not a compiler that we test very often. Hopefully as new patches for the compiler show up we will be able to make that our compiler of choice on Solaris.
Note that shared libraries do not interact very well with Centerline C++ or Sun C++ on SunOS 4.1.x. This is due to odd behavior of the SunOS 4.1.x linker, which (1) does not properly call constructors of global objects within shared libraries and (2) does not call the init() and fini() functions in shared libraries, even though the manual claims that these functions are called! In particular, this means that the tests in the directory $ACE_ROOT/tests/Service_Configurator/IPC-tests/server/ will not work for statically linked services.
Some versions of SunOS 4.1.x do not contain the /usr/lib/libnsl.a library. This library seems to be optional since System V Transport Layer Interface (TLI) support is optional on SunOS 4.1.x (in contrast, it's the "preferred" transport interface on Solaris).
The best work-around for now is probably to either add a dummy libnsl.a in /lib (which may not be feasible) or simply comment out the line:
LIBS += -lnsl
in the
$ACE_ROOT/include/makeinclude/wrapper_macros.GNU
file. Naturally, any programs, e.g., the TLI_SAP tests, that
use the TLI wrappers aren't going to work!
Note that on SunOS 4.x you may get warnings from the linker that "archive has no table of contents; add one using ranlib(1)" for certain libraries, e.g., libASX.a, libThreads.a, and libSPIPE.a. This occurs since SunOS 4.x does not support these features.
ACE has been ported to AIX 4.3 and higher using the IBM C/C++ Compiler 3.6.6, Visual Age C++ 5 and 6, and g++ 3.2.
To build ACE on AIX with Visual Age C++ 5 in incremental mode (i.e. with the IDE), use the $ACE_ROOT/ace/ace.icc configuration along with the appropriate version-specific config file (e.g. config-aix-4.3.x.h). All of the version-specific config files set the version number macros and include the general config-aix-4.x.h file which has support for all of the OS versions and compilers supported on AIX. Using the general config file is the recommended practice for g++, IBM C/C++, and Visual Age C++ batch mode compilers.
Visual Age C++ 4 has also been supported on ACE 5.1, but is no longer supported. If you are still using this compiler, please use the $ACE_ROOT/ace/ace-dll.icc configuration file, along with the config-aix-4.3.x.h ACE config file. Beware, however, that it hasn't been tested. BTW, here's a technique from Rob Jordan <jordan@hursley.ibm.com> that can reduce the size of the ACE libraries by about one third, and can also be applied to applications. It works by optimising the sharing of template functions, which are created in an "unusual" way under AIX. It also speeds up compilation.
Here's how to optimise the ACE library generation:
Look at the Makefile
in $ACE_ROOT/ace. Create a file called
ACE_All_Src.cpp, and add a line to #include
each of the source files
listed under FILES= in the Makefile. Create a
file called ACE_All_Tmp.h
and add a line to #include each of the .h files listed under
TEMPLATE_FILES= in the Makefile. Now update the Makefile so that
FILES=ACE_All_Src and TEMPLATE_FILES=ACE_All_Tmp.
ACE has been ported to Linux on
Intel, Alpha, and PowerPC platforms. If you use a RedHat 5.x
distribution, it's best to use RedHat 5.1 or later. ACE works
without any modifications on RedHat 5.1 and later, and on
Debian 2.1 on both Intel and Alpha. Make symbolic links to the
include/makeinclude/platform_linux.GNU
and ace/config-linux.h as your
platform_macros.GNU and config.h files, respectively. The same
files can be used on PowerPC, with LinuxPPC
1999 (R5), with glibc 2.1.1.
If you run out of memory, it's easy to add virtual memory on
Linux. Please see the mkswap man page. You'll
need at least 256 to 300 Mb of virtual memory (RAM + swap) to
compile all of ACE+TAO. The System
Resource Requirements section has some suggestions on how
to reduce the memory requirement.
The glibc 2.0 dynamic loader isn't thread safe. If you want to
use the Invocation API you'll have to set
LD_BIND_NOW=true. If you want to use
dlopen, you should use RTLD_NOW. The
dynamic loader in glibc 2.1 is thread safe.
The ACE Tokens_Test hangs with egcs 1.1b on Linux.
It runs properly when built with egcs 1.0.2 and later. All other
ACE tests run properly with these egcs 1.0.2 and later.
NOTE: The TAO NameService uses IP multicasting by default, though it is not required. IP multicast on Linux requires the following:
ace/config-linux-common.h. If you don't use
IP multicast, add #define ACE_HAS_IP_MULTICAST 0
to your ace/config.h before building ACE.
eth0. If
you don't have or use linuxconf, try adding a multicast
routing table entry using something like this:
# route add -net 224.0.0.0 netmask 240.0.0.0 dev eth0
NOTE: Be careful when installing egcs on RedHat
systems. If you don't remove your old gcc and libg++ RPMs, it's
best to install egcs in a different directory than
/usr, such as /usr/local, and set your
PATH and LD_LIBRARY_PATH
accordingly.
Some of the ACE tests fail on older, pre-glibc2 Linux platforms, such as RedHat 4.2. The problems are with threads and thread-specific storage.
ACE has been ported to SCO UNIX using the GNU g++ 2.7.2 compiler. Arturo Montes <mitosys@colomsat.net.co> maintains this code. In addition, he also maintains a version of FSU pthreads.
ACE used to build fine using the SGI C++ and GNU GCC compilers for IRIX 5.x. It has been ported to IRIX 6.x using the SGI MipsPro 7.1 C++ compiler; be aware that in IRIX 6.2 there is a number of patches that have to be installed and exceptions appear to fail with the O32 ABI. Please check the config files for the details.
HP sells 2 C++ compilers for HP-UX 10.x and 11.00:
On HP-UX 10.20, a patch is required to compile ACE. The exact patch number depends on the platform - check with HP's patch database to locate the exact patch or its successor. For 9000 700 series machines it is PHKL_8693 (s700 10.20 sys/time.h fix for select(2)/C++ defects).
Also see further notes on this platform at Riverace's Frequently Asked Questions page.
The Digital UNIX C++ 5.4 through 5.7 compilers have problems with ACE's templates. They compile the lib and most of the test programs, although they warn about template usage. Most tests run, some dump core. If you use a 5.x version of cxx, be sure to set the CXX_VER variable to CXX_5, either on your make command line or in an environment variable. The ACE Makefiles assume by default that the cxx version is 6.x or later.
CXX 6.0 and 6.1 are much improved over 5.x: V6.0-020, V6.1-025, and later build all of ACE cleanly. All of the tests in ACE_wrappers/tests run successfully with CXX 6.0 and CXX 6.1. Please note that problems have been reported with some versions of CXX 6.1, notably versions -021 and earlier. It's best to use V6.1-022 or later.
NOTE: if you use Digital UNIX 4.0f or later, you must
use ace/config-tru64.h instead of
ace/config-osf1-4.0.h. ace/config-tru64.h
can be used for all supported compilers on any version of
Digital UNIX after and include 4.0. And, with 4.0f and later when
using Digital CXX, you must use
include/makeinclude/platform_tru64_cxx.GNU instead of
include/makeinclude/platform_osf1_4.0.GNU.
GNU gcc 2.7.2.1 compiles without problems. All tests run
(besides minor problems). Thanks to Thilo Kielmann <kielmann@informatik.uni-siegen.de>
and David Trumble <trumble@cvg.enet.dec.com>
for help with this port.
FreeBSD is a fast evolving platform. However, it has the advantage of having standard releases. At this moment, ACE is only perodically tested against -stable (3.1R) and we rely a lot on FreeBSD users' feedbacks.
Notice that on older FreeBSD, ld.so only looks for
so libraries with version number appended. ACE makefiles
create symlinks for most shared libraries if
versioned_so is defined to 1 in
$ACE_ROOT/ace with appropriate ACE version.
However, this does not work for libACE.so itself so you have to
create it manually (If you figure out how to do this, please let
us know) like this:
ln -sf $ACE_ROOT/ace/libACE.so $ACE_ROOT/ace/libACE.so.4.5
On newer FreeBSD (3.0 or later,) this is no longer necessary.
Like older FreeBSD, NetBSD's ld.so also requires
versioned .so files.
ACE has been ported to OpenBSD 3.1 and GNU g++ 2.95.3.
As with FreeBSD and NetBSD, OpenBSD requires versioned .so files. This is currently handled by the build files and no additional work is needed.
ACE has been ported to OpenBSD with and without pthreads enabled. When using pthreads, though, C++ exceptions must be disabled. This is a known problem with the current release of OpenBSD (see www.openbsd.org, bug #1750). ACE emulated exceptions work fine.
Compiling TAO may require the user data segment size restrictions and possibly other options to be increased. This is done by modifying the default user class in /etc/login.conf or by adding a new class and modifying the master passwer file accordingly.
Steve Huston <shuston@riverace.com> has ported ACE to work with UnixWare 2.01 and g++.
Ganesh Pai <gpai@voicetek.com> subsequently did the port for version 2.1.2, also with g++.
Phil Mesnier <
mesnier_p@ociweb.com> updated the port to support
UnixWare 7.1.0, with help from Michael Meissnitzer
<
michael.meissnitzer@siemens.at>, Christian Klepp <
christian.klepp@siemens.at
> and Engelbert Staller <
engelbert.staller@siemens.at>
Building ACE (and TAO) on Unixware 7.1.0 requires a very specific
g++ build environment. In particular, you must build and install
g++ 2.95.2, along with binutils 2.9.1. The order (and the declaration
of configuration) is extremely important. Using the gcc compiler
provided on the Skunkware CD on a pentium system, here is the recipe
I used to build a working environment (as root):
mkdir /usr/local/newgnu < ftp and untar binutils-2.9.1 > < ftp and untar gcc-2.95.2 > mkdir -p build/binutils build/gcc cd build/binutils ../../binutils-2.9.1/configure i386-sco-sysv4 gmake # takes a long time gmake install # this creates /usr/local/i386-sco-sysv4/... mkdir /usr/local/i486-pc-sysv5/bin cd /usr/local/i486-pc-sysv5/bin for a in /usr/local/i386-sco-sysv4/bin/*; do ln -s $a .; done #links all the newly installed utilities cd /usr/local/newgnu/build/gcc ../../gcc-2.95.2/configure --with-gnu-as --with-gnu-ld gmake bootstrap # takes a long time gmake install mkdir /usr/local/i586-UnixWare7.1.0-sysv5/bin for a in /usr/local/i386-sco-sysv4/bin/*; do ln -s $a .; doneOnce done, ACE and TAO will successfully build and link.
Wei Chiang <chiang@tele.nokia.fi> has ported ACE to Chorus 3.1 using GNU g++ 2.7.2.
ACE builds and runs properly on LynxOS 3.0.0 for Intel and
PowerPC targets.
ACE's Naming_Test fails; it is disabled in ACE_wrappers/tests/run_tests.sh.
If you run out of memory on LynxOS, these might help:
/etc/starttab,
then logout and login again. We use these limits:
# Data, stack, and core file limits (in Kbytes) 240000 80000 102400
# mkcontig /swap 320 # prio 17 vmstart /swapSee the
mkcontig and vmstart
man pages, and /bin/rc.
We actively maintain ACE on LynxOS 3.0.0. It should build and run on LynxOS 2.5, but we no longer test on that OS version.
NOTE: if you want to use IP multicast on LynxOS, be sure to add
this line to your /net/rc.network, and reboot:
/bin/route add "224.0.0.0" "$my_name"
David Levine <levine@cs.wustl.edu> has ported ACE to VxWorks 5.2/5.3/5.3.1/5.4 with the GreenHills 1.8.8/1.8.9 and g++ compilers that are distributed with VxWorks/Tornado. An anonymous contributor has also provided notes for using ACE with VxWorks 5.1.. It is not possible to use VxWorks 5.4 and earlier with ACE anymore because the compilers delivered with 5.4 and earlier don't support the C++ features ACE needs.
Tornado 2.2/VxWorks 5.5 support IP multicast. That is not enabled
by default in ACE for VxWorks, because it probably depends on
kernel configuration. To enable it, add
#define ACE_HAS_IP_MULTICAST to your
ace/config.h.
In addition to all of the other benefits of ACE, it helps work around some deficiencies with VxWorks 5.3/5.3.1. Some of these apply only with g++, at least thru version 2.7.2. That is the version that is shipped with Tornado 1.0.1/ VxWorks 5.3.1. The problems are:
Please note that ACE uses one of the spare fields in the Wind River task control block, spare4, for thread- specific storage. This field is specified in only one place, in ace/OS.i, so it can easily be changed to one of the other spare fields, if necessary.
Versions of ACE from 4.3.3 and beyond destroy dynamically
allocated singletons in the ACE library. But, they may not
properly destroy some static objects. If you have trouble
running a program multiple times, it may be necessary to unload
the module, using unld, and reload it between runs.
Alternatively, you could try calling cplusDtors and
then cplusCtors between runs.
All of ACE has been ported to OpenEdition by Chuck Gehr <gehr@sweng.stortek.com>. The ACE library, all the tests and most of the examples and apps build clean. There are still some problems that need to be ironed out:
MVS does not support the dynamic linking dl...() calls that the Service Configurator uses to dynamically link services at run time. As a result, all the examples and apps that use a svc.conf file (for dynamically configuring service objects) do not work, however, most of these apps can be built/run statically. Also, the Svc_Conf_l.cpp and Svc_Conf_y.cpp files are generated using flex and yacc on a ascii (not ebcdic) machine and as a result they don't work very well with ebcdic svc.conf files. We should be able to regenerate these files on MVS but MVS doesn't have flex. This is something that needs to be done.
Some of the tests do not execute properly. This is a minority and over time the goal is to get to 100%.
The make scheme for some of the apps still doesn't work perfectly on MVS. This is mainly due to the way shared libraries are handled on MVS. See additional build tips for MVS for more on this.
ACE has been ported to QNX Neutrino 2.0. We cross-compile for Neutrino on a QNX4 host using g++ 2.8.1, using the ace/config-qnx-neutrino.h and include/makeinclude/platform_qnx_neutrino.GNU configuration files. Many of the ACE tests succeed, though some fail. As the porting effort progresses, we hope to eliminate these failures. If you know of fixes, please send them to us.
ACE has been ported to QNX RTP . We compile for QNX RTP using the GCC compiler shipped with the distribution, using the ace/config-qnx-neutrino.h and include/makeinclude/platform_qnx_neutrino.GNU configuration files. Many of the ACE tests succeed, though some fail. As the porting effort progresses, we hope to eliminate these failures. If you know of fixes, please send them to us.
Under the current version of QNX RTP ACE fails if compiled with debug=1 (i.e. "-g" option in GCC).
ACE has been ported to PharLap's TNT Embedded ToolSuite (ETS) version 9.1. The port is being tested with Microsoft Visual C++ 6.
To build for PharLap, use the ace/config-pharlap.h configuration file, and the instructions for building on Windows. Building the ACE library is the same as for regular Windows platforms, except you choose one of the PharLap ETS configurations to build within Visual C++. Only static library configurations are available for PharLap at this time. For an example of how to build binaries, see the tests directory. The tests_pharlap_msvc.lnk file is a LinkLoc commands file that the ACE tests are built with. It is likely that local sites may need to adjust this file for their target environment.
If you have any fixes or suggestions for improving this port, please contact Steve Huston.
ACE builds and runs on Mac OS X 10.2.x, but the following are needed to build it:
1. The latest version of the Apple Developer Tools (December 2002)
2. The dlcompat library (obtained either through Fink or SourceForge)
When creating $ACE_ROOT/ace/config.h for Mac OS X, you need to add the following if you obtained dlcompat via Fink:
#define ACE_NEEDS_DL_UNDERSCORE
You'll also need to do:
setenv DYLD_LIBRARY_PATH $ACE_ROOT/ace:$ACE_ROOT/lib
setenv MACOSX_DEPLOYMENT_TARGET 10.2
Currently, all ACE tests pass except Process_Mutex_Test and MEM_Stream_Test. Also, Mac OS X doesn't yet support *nix aio_* calls, and ACE does not know anything about Mach.
The work to port ACE to Mac OS X was done by several people,
John Zorko
<
/usr/ccs/lib/libgen.a(reg_compile.o): In function `_get_vars_storage':
reg_compile.o(.text+0x30): relocation truncated to fit: R_SPARC_GOT13 free
the suggested workaround is to comment out the ACE_HAS_REGEX
#define in ace/config-sunos5.5.h.
Or better, create an ace/config.h that looks like:
#ifndef ACE_CONFIG_H
// ACE_CONFIG_H is defined by the following #included header.
#include "ace/config-sunos5.5.h"
#undef ACE_HAS_REGEX
#endif /* ACE_CONFIG_H */
We don't know what causes the link problem, though the
workaround solves it.
% make optimize=0OCFLAGS line.
config.status
file. This file is produced when installing gcc; it specifies
where to install the binary files that gcc uses. For example,
it specifies whether to use Solaris's /usr/ccs/bin
binary utils or GNU binary utils. The
config.status file is an output of the gcc
configure script; it is preferable to use the
--prefix option to configure instead
of hacking its output.
NOTE: if you do use the GNU linker, you might need to change
the -G flag to -shared in
the SOFLAGS definition in your
include/makeinclude/platform_macros.GNU.
collect2.
repo=1 to
your make invocation, or to your
include/makeinclude/platform_macros.GNU.The size of the ACE library is typically reduced by about 25 percent with repo=1, compared to the default with -fno-implicit-templates. This savings results from not instantiating unused classes, and from not instantiating unused member functions of those template classes which are instantiated.
However, repo=1 requires care if your application creates libraries, in order to avoid multiple instantiations. We avoid the problem in ACE (and TAO) by including all of the ACE object files into other ACE (and TAO) libraries. Please see the g++ FAQ and gcc manual for more information on the -frepo option.
Furthermore, it appears that g++ may have problems instantiating all templates properly with -frepo. We have worked around these problems (by using explicit instantiations even with ACE_HAS_GNU_REPO) with egcs 1.1.2. A quick try with g++ 2.95 showed more problems, so we don't support repo=1 with that g++ version, yet.
-fno-implicit-templates option from the
CCFLAGS macro in your include/makeinclude/platform_macros.GNU,
and thereby use the default g++ implicit template
instantiation.
exceptions=0 to your make command line
invocation, or to your
$ACE_ROOT/include/makeinclude/platform_macros.GNU file.
If you need or want to use egcs' shared libraries, build it
with the --enable-shared egcs config option. The
--enable-shared option is not an
egcs run-time option. Build egcs in a way similar to the
following example:
$ ./configure --enable-shared
$ make bootstrap
LD_LIBRARY_PATH environment
variable, if necessary, to pick up those shared libraries.
PAGE_SIZE to 8192. Then rebuild ACE. Thanks to
Ganesh Pai for this
information.
You could come across weird external symbol linker errors. Example:
-I/opt/ace/SunOS-1.0 -DACE_HAS_EXCEPTIONS -o Cached_Accept_Conn_Test
.obj/Cached_Accept_Conn_Test.o -L/opt/ace/SunOS-1.0/ace -L./ -lACE
-lsocket -ldl -lgen -lnsl -lposix4 -lthread
ld: warning: relocation error: R_SPARC_32: file
.obj/Cached_Accept_Conn_Test.o: symbol
__t21ACE_Cache_Map_Manager7Zt30ACE_Refcounted_Hash_Recyclable1Z13
ACE_INET_AddrZP18Client_Svc_HandlerZt23ACE_Hash_Map_Manager_Ex5Zt
30ACE_Refcounted_Hash_Recyclable1Z13ACE_INET_AddrZt8ACE_Pair2ZP18
Client_Svc_HandlerZUiZt8ACE_Hash1Zt30...
external symbolic relocation against non-allocatable section .stab;
cannot be processed at runtime: relocation ignoredSolution:
Install the "binutils" package from GNU (www.gnu.org); specifically, "as" and "ld".
Conclusion:
Perfect build stats:
OS: Kernel version: SunOS 5.6 Generic 105181-03 December 1999.
compiler: gcc version egcs-2.91.66 19990314 (egcs-1.1.2 release)
loader: GNU ld version 2.9.1 (with BFD 2.9.1) Supported emulations: elf32_sparc
assembler: GNU assembler version 2.9.1 (sparc-sun-solaris2.6), using BFD version 2.9.1
Thanks to John Gathright for providing this information.
-fsquangle option helps to shorten long
symbol names and is a boon to linkers and assemblers which cant
grok long names.
Thanks to Skye Sweeney for trying it
out and Ossama Othman for discovering the
option with egcs.Heres a note on how to go about this (contributed by Skye Sweeney):
1) -fsquangle the name is a combination of squash and mangle!
2) -fsquangle compresses the mangled names.
3) All libraries must be compiles with the option. You cannot simply compile modules that have large names with it. This includes system libraries and vendor libraries like RogueWave.
4) The "simple" solution is not to add the option to each makefile, but rather recompile the compiler to have the option on by default. This is done by editing the file `gcc/cp/decl2.c', setting `flag_do_squangling = 1', then rebuilding the compiler and libraries.
5) After many false starts and linking snafus, I can recompile my ACE/TAO/RogueWave/Lex/Yacc 100 Meg application.
Many features in ACE can be modified by defining some macros in
$ACE_ROOT/ace/config.h. These macros should
always appear before including
your platform specific config file.
However, if you want to undefine/redefine macros defined in the
platform specific config file, these #undef should
come after the config file.
GNU Autoconf support has been partially present in a number of ACE versions. However, ACE 5.4 was the first version that supported it in earnest. There are still a few problems with this method, so you should be careful to test the resulting ACE library before using it in your applications. The traditional configuration method is still more reliable. Any help you can lend to improve the ACE build process using GNU Autoconf would be very much appreciated. Please send any fixes to the ACE usersmailing list.
The ACE kit has been bootstrapped so you do not need to install the GNU Autotools (autoconf, automake, libtool) unless you want to participate in testing and developing this process further. To simply configure and build ACE, do:
cd to the top-level ACE_wrappers directory.
mkdir build
cd build
Note that you do not run the create_ace_build utility
mentioned in the Cloning the Source Tree
section. The configure script takes care of creating all files
and links that are needed.
../configure [options]
options can be a variable setting (such as setting
CXX to your C++ compiler command) any standard GNU
configure options, or any of the following ACE configure options
(default values are in parentheses):
--enable-alloca (no): Enable alloca()
support.--enable-debug (yes): Build ACE with debugging
support.--enable-exceptions (yes): Build ACE with C++
exception support compiled in.--enable-fast (no): Use the Sun C++ -fast
option to build. Only used on Solaris.--enable-inline (yes): Enable inline functions.--enable-optimize (yes): Enable building optimized.--enable-prof (no): Enable profiling support.--enable-purify (no): Build with support for
IBM Rational Purify.--enable-quantify (no): Build with support for
IBM Rational Quantify.--enable-repo (no): Enable the GNU g++
-frepo option. Only useful for pre-3.0 g++ and egcs.--enable-rtti (yes): Compile with C++ run-time type
information RTTI support.--enable-stdcpplib (yes): Build with support for the
standard C++ library, as opposed to the older iostreams library.--enable-log-msg-prop (yes): Enable
ACE_Log_Msg property propagation to ACE-created
threads.--enable-logging (yes): Enable the ACE logging
macros.--enable-malloc-stats (no): Compile in additional code
for collecting memory allocation statistics.--enable-pi-pointers (yes): Enable
position-independent pointers for shared memory classes.--enable-probe (no): Enable the
ACE_Timeprobe class.--enable-reentrant (yes): Enable use of platform's
reentrant functions.--enable-static-obj-mgr (yes): Enable use of a
static ACE_Object_Manager.--enable-threads (yes): Enable threading support.--enable-verb-not-sup (no): Enable verbose ENOTSUP
reports at run time.--enable-trace (no): Enable ACE execution tracing
support.--enable-xt-reactor (no): Enable support for the
ACE_XtReactor class.--enable-fl-reactor (no): Enable support for the
ACE_FlReactor class.--with-gperf (yes): Build the implementation of
gperf that comes with ACE.--with-rmcast (yes): Include the ACE_RMCast library
when building ACE.--with-qos (no): Include the ACE_QoS library when
building ACE.--with-ssl (yes): Include the ACE_SSL library when
building ACE. Requires the SSL components to be available using the
compiler's and linker's default search directories.--with-tli-device (/dev/tcp): Specifies the device
name for opening a TLI device at run time.make.
make install.
Here's what you need to do to build ACE using GNU Make and ACE's traditional per-platform configuration method:
% setenv ACE_ROOT /home/cs/faculty/schmidt/ACE_wrappers
BTW, if you're running BASH or Bourne Shell you'll need to do the following:
% ACE_ROOT=/home/cs/faculty/schmidt/ACE_wrappers; export ACE_ROOT
If you're building a number of versions of ACE, however, (e.g., for different OS platforms or for different releases of ACE) you might use the following approach (again assuming TCSH/CSH):
% setenv ACE_ROOT $cwd
$ACE_ROOT/ace/config.h,
that includes the appropriate platform/compiler-specific
header configurations from the ACE source directory. For example:
#include "ace/config-sunos5-sunc++-4.x.h"
$ACE_ROOT/ace/README file for a description of these
macro settings. If you desire to add some site-specific or build-specific
changes, you can add them to your config.h file; place them
before the inclusion of the platform-specific
header file.There are config files for most versions of UNIX. If there isn't a version of this file that matches your platform/compiler, you'll need to make one. Please send me email if you get it working so I can add it to the master ACE release.
$ACE_ROOT/include/makeinclude/platform_macros.GNU,
that contains the appropriate platform/compiler-specific
Makefile configurations, e.g.,
include $(ACE_ROOT)/include/makeinclude/platform_sunos5_sunc++.GNU
% setenv LD_LIBRARY_PATH $ACE_ROOT/ace:$ACE_ROOT/lib:$LD_LIBRARY_PATH
% make
at the root of the ACE source tree. This will build the ACE
library, tests, the examples, and the sample applications.
Building the entire ACE release can take a long time and consume
lots of disk space, however. Therefore, you might consider
cd'ing into the $ACE_ROOT/ace/ directory and
running make there to build just the ACE library.
As a sanity check, you might also want to build and run the
automated "one-button" tests in $ACE_ROOT/tests/. Finally, if you're also
planning on building TAO, you
should build the gperf
perfect hash function generator application in $ACE_ROOT/apps/gperf/.
First, if you are upgrading from an older release, clean up everything and rebuild from scratch to ensure that everything is rebuilt correctly. You might have to manually go through the ACE directories and delete all *.obj, *.dll, *.lib, *.ilk, *.pdb, *.idb, *.ncb, *.opt, and *.exp files in order to start over from scratch (the Clean command in MSVC may not do this).
ACE contains project files for Microsoft Visual C++ 5.0 or later (*.dsw) and IBM's VisualAge C++ compiler (*.icc). There are also Makefile.bor files to compile ACE, the ACE one-button tests, and TAO with Borland C++ Builder.
config.h in the ACE_ROOT\ace
directory that contains: #include "ace/config-win32.h"#define ACE_HAS_WINNT4 0set ACE_ROOT=C:\ACE_wrappersset BCBVER=5make -f Makefile.borset DEBUG=1set STATIC=1set UNICODE=1set CODEGUARD=1set PASCAL=1set CBX=1make -f Makefile.bormake -f Makefile.bor -DDEBUG -DPASCALmake -f Makefile.bor -DINSTALL_DIR=C:\ACETAO installIf you are using C++Builder 4, then the libraries built using the above instructions are intended for use with generic console or windows applications and they link against the corresponding C++ runtime library. VCL applications created using BCB4's RAD environment must link against the VCL-compatible (ie pascal-compatible) runtime library. To tell the difference between these libraries the VCL-compatible ones have a 'p' in the suffix (i.e., 'p' for pascal). To build VCL compatible libraries try
set PASCAL=1 make -f Makefile.bor
The Borland C++ Builder 4.0/5.0/6.0 port has been done by Jody Hagins, Christopher Kohlhoff and Johnny Willemsen.
ACE TESTS
The tests are located in ACE_ROOT\tests. You build the tests using the Makefile.bor file, that is:
make -f Makefile.bor
Once you build all the tests, you can run the perl script:
run_test.pl -ExeSubDir
Dynamic\Release in the
tests directory to try all the tests. You need to make
sure the ACE bin directory (in this case ACE_ROOT\bin\Dynamic\Release)
is on the path before you try to run the tests.
Right now there is a SP4 (and hopefully only one of them) which fixes a deadlock problem in the STL.
We no longer actively support MSVC++ 5.x or earlier. ACE might work with these compilers but probably not without a bit of effort.
config.h in the ACE_ROOT\ace
directory that contains: #include "ace/config-win32.h"ace/config.h to
tweak with the default settings on NT.#define ACE_HAS_WINNT4 0#define ACE_HAS_STANDARD_CPP_LIBRARY 1config.h file. Notice that if you want to
spawn a new thread with CWinThread, make sure you spawn the
thread with THR_USE_AFX flag set.#define ACE_HAS_MFC 1ACE_USES_STATIC_MFC in your
config.h file. However, if you would like to link
everything (including the MSVC run-time libraries) statically,
you'll need to modify the project files in ACE yourself.
ACE_AS_STATIC_LIBS#define ACE_NO_INLINEMore information for ACE/TAO on MSVC can be found here. The doxygen version of this document is available under Related Topics in the ACE Library.
ACE TESTSThe tests are located in ACE_ROOT\tests. There is also a workspace in that directory to build all the tests (tests.dsw)
Once you build all the tests (Batch Build works well for this), you
can run perl script run_test.pl in the
tests directory to try all the tests.
BUILDING ACE ON A WIN32 MACHINE THAT LACKS A NETWORK CARD
You may want to run ACE on a non-networked machine. To do so, you must
install TCP/IP and configure it to ignore the absence of a network
card. This is one method:
The project files for Visual C++ no longer contain any configurations
targetted to Windows NT on the DEC Alpha. Below are the steps needed to
recreate the Alpha configurations: Note: MSVC 6 has a bug where if a .dsp is converted from version 5 to 6 on
x86, the Alpha configuration can get corrupted. This seems to happen when additional
include or library directories are specified using backslashes instead of forward
slashes. If this occurs, the easiest way to fix it is to recreate it.
If you are building for a machine without a network card, you may want
to check here first.
Building and installing ACE on MinGW
uses a mix of a UNIX building process and
Win32 configuration files.
Also, as MinGW uses GNU g++, you may want to take
a look at the Compiling ACE with GNU g++ section.
You will need the MinGW build tools and libraries, downloable from
http://www.mingw.org.
If you lack Winsock 2, add the line
This should create libACE.dll (the Win32 shared library) and
libACE.dll.a (the Win32 import library for the DLL).
Note that the name for the ACE DLL follows the MinGW convention, which itself
resembles UNIX.
If you want static libs also, you may run:
The tests are located in $ACE_ROOT/tests.
After building the library, you can change to that directory and run
make:
Once you build all the tests, you can run
If you are using ACE as a DLL, you will need to modify your PATH
variable as explained above.
You may want to check $ACE_ROOT/tests/README for the status
of the various tests on MinGW and the different Windows flavors.
If you are building for a machine without a network card, you may want
to check here first.
Building and installing ACE on Cygwin
uses the UNIX building process.
Also, as Cygwin uses GNU g++, you may want to take
a look at the Compiling ACE with GNU g++ section.
You will need the Cygwin build tools and libraries, downloable from
http://www.cygwin.com.
For our build we require the following packages besides the packages the
setup selects by default:
Note Cygwin uses ``/'' as directory separator,
and ``//X'' as a notation for Win32 drive X.
Note also that you can't use ``c:/cygwin/bin''
because, for Cygwin,
``:'' is path separator character, as in UNIX.
Note here you can't use the ``//X'' Cygwin
notation as this is seen by Cygwin's compiler and it doesn't
support that (it does support ``/'' as directory
separator however).
From now on, we will refer to the root directory of the ACE
source tree as $ACE_ROOT.
This should create libACE.dll (the Win32 shared library) and
libACE.dll (the Win32 import library for the DLL).
Note the name for the ACE DLL on Cygwin follows the UNIX convention.
If you want static libs also, you may run:
The tests are located in $ACE_ROOT/tests.
After building the library, you can change to that directory and run
make:
Once you build all the tests, you can run
If you are using ACE as a DLL, you will need to modify your PATH
variable as explained above.
You may want to check $ACE_ROOT/tests/README for the status
of the various tests on Cygwin and the different Windows flavors.
A few notes on VxWorks builds (thanks to
Paul von Behren
for these notes):
The VxWorks platform_vxworks*.GNU files are set up so that shared
libraries are not built on VxWorks, by default. Only static
libraries, with .a extension, are built. Therefore, it's not
necessary to set the LD_LIBRARY_PATH environment variable on your host
system when building for VxWorks targets. Please note, however, if
you use TAO on VxWorks that you will need to set your LD_LIBRARY_PATH
to find the TAO IDL compiler libraries (installed in the ace
directory) on the host.
With g++, $ACE_ROOT/bin/ace_ld is used to munch object files and
libraries to set up calls to static constructors and destructors.
bin/ace_ld requires perl on the host platform.
These non-default VxWorks kernel configuration
If you use TAO, it's also a good idea to increase the
Please note that those VxWorks kernel configuration parameters
are set in the VxWorks configAll.h file. You must rebuild your
VxWorks kernel after modifying that file.
If you're first getting started with ACE and/or VxWorks, I recommend
just building the ACE library and tests first. (Some of the ACE
examples, in System_V_IPC, don't build on VxWorks yet.) Then try
running the tests. Please see $ACE_ROOT/tests/README for the latest
status of the ACE tests on VxWorks.
Please note that the
ACE threads (VxWorks tasks) can be named, for example, by supplying a
non-null argument to the Thread_Manager spawn routines. However,
names beginning with
You can spawn a new task to run
The ACE tests write their output files in a
directory named
WIN32 ALPHA CONFIGURATIONS
Alerter
Computer Browser
Net logon
Messanger
Installed Software:
Computer Browser
MS Loopback Adapter Driver
TCP/IP Protocol
Workstation
Installed Adapter Cards:
MS Loopback Adapter
Building and Installing ACE on Win32 with MinGW/ MSYS
For our build we require the packages
MinGW and MSYS.
ACE TESTS
% export PATH=/c/mingw/bin:$PATH
From now on, we will refer to the root directory of the ACE
source tree as $ACE_ROOT.
% export ACE_ROOT=/c/work/mingw/ACE_wrappers
If you are building for Windows 9X/Me (ie, not WinNT or
Win2K), you will need to add:
#include "ace/config-win32.h"
before the
#define ACE_HAS_WINNT4 0
#include line.
In the above text, don't replace $(ACE_ROOT) with the
actual directory, GNU make will take the value from the
environment variable you defined previously.
include $(ACE_ROOT)/include/makeinclude/platform_mingw32.GNU
before the previous one.
winsock2 = 0
% cd $ACE_ROOT/ace
% make
% make static_libs=1
% export PATH=/c/work/mingw/ACE_wrappers/ace:$PATH
% cd $ACE_ROOT/tests
% make
run_tests.pl in the
tests directory to try all the tests:
% perl run_test.pl
Building and Installing ACE on Win32 with Cygwin
gcc (version 3.2.3), cygipc, make, perl.
ACE TESTSDOS as default text file type.
% export PATH=//c/cygwin/bin:$PATH
% export ACE_ROOT=c:/work/cygwin/ACE_wrappers
#include "ace/config-cygwin32.h"
In the above text, don't replace $(ACE_ROOT) with the
actual directory, GNU make will take the value from the
environment variable you defined previously.
include $(ACE_ROOT)/include/makeinclude/platform_cygwin32.GNU
% cd $ACE_ROOT/ace
% make
% make static_libs=1
If you are using MPC generated Makefiles, then the DLLs have been
placed in the lib directory instead of ace and thus your PATH
addition would need to look like this:
# export PATH=//c/work/cygwin/ACE_wrappers/ace:$PATH
# export PATH=//c/work/mingw/ACE_wrappers/lib:$PATH
% cd $ACE_ROOT/tests
% make
run_tests.pl in the
tests directory to try all the tests:
% perl run_test.pl
Building and Installing ACE on VxWorks
For the most part, you should be able to follow the instructions above
to build ACE and applications that use it. Start with the
Unix instructions above to build ACE and the
applications that use it. Please see below for more information on
building ACE on NT hosts for VxWorks targets.
You'll have to let ACE know the target type at compile time. There
are several ways to do this; please see the
ld step. You must have perl installed
to use ace_ld. If perl is not on your path, you'll
have to set PERL_PATH to the full path (including
perl.exe), either in your
$(ACE_ROOT)/include/makeinclude/platform_macros.GNU
or in your environment.$ACE_ROOT/include/makeinclude/platform_vxworks5.x_g++.GNU
platform file for detailed information.#defines
are required with ACE:
#define INCLUDE_CPLUS /* include C++ support */
#define INCLUDE_CPLUS_IOSTREAMS /* include iostreams classes */
#define INCLUDE_POSIX_ALL /* include all available POSIX functions */
For completeness, here are the non-default #defines that
we used for VxWorks 5.3.1/g++ 2.7.2:
#define INCLUDE_CPLUS /* include C++ support */
#define INCLUDE_CPLUS_IOSTREAMS /* include iostreams classes */
#define INCLUDE_CONFIGURATION_5_2 /* pre-tornado tools */
#define INCLUDE_DEBUG /* pre-tornado debugging */
#define INCLUDE_LOADER /* object module loading */
#define INCLUDE_NET_SYM_TBL /* load symbol table from network */
#define INCLUDE_SYM_TBL_SYNC /* synchronize host and target symbol tables */
#define INCLUDE_NFS /* nfs package */
#define INCLUDE_PING /* ping() utility */
#define INCLUDE_POSIX_ALL /* include all available POSIX functions */
#define INCLUDE_RDB /* remote debugging package */
#define INCLUDE_RLOGIN /* remote login */
#define INCLUDE_RPC /* rpc package */
#define INCLUDE_SECURITY /* shell security for network access */
#define INCLUDE_SHELL /* interactive c-expression interpreter */
#define INCLUDE_SHOW_ROUTINES /* show routines for system facilities*/
#define INCLUDE_SPY /* spyLib for task monitoring */
#define INCLUDE_STARTUP_SCRIPT /* execute start-up script */
#define INCLUDE_STAT_SYM_TBL /* create user-readable error status */
#define INCLUDE_SYM_TBL /* symbol table package */
#define INCLUDE_UNLOADER /* object module unloading */
#define INCLUDE_WINDVIEW /* WindView command server */
Also, automatic construction/destruction of static objects
should be enabled.NUM_FILES parameter from its default of 50 to,
say, 1000.main entry point is renamed to
ace_main (configurable via ACE_MAIN) on VxWorks with g++,
to comply with its restriction against using main.
In addition, ACE_HAS_NONSTATIC_OBJECT_MANAGER is enabled by default
to cleanly support construction and destruction of static objects.
Please see the Non-static
ACE_Object_Manager discussion for the important implication
of this feature."==ace_t==" are forbidden because
that prefix is used internally by ACE.ace_main, using either
VxWorks sp, or ACE'S spa.
spa can be used from the VxWorks shell to pass arguments
to ace_main. Its usage is:
All arguments must be quoted, even numbers.
spa ace_main, "arg1" [, ...]
log/, below the current
(tests) directory. If you don't have NFS included in
your VxWorks kernel, you can use these steps, provided by
Clarence M. Weaver,
to run the tests and capture their output:
Kirk Davies provided this
approach for running the ACE tests on Tornado II:
putenv("ACE_TEST_DIR=/tgtsvr")
shared_libs=1 (not
shared_libs_only=1) to either your
ACE_wrappers/include/makeinclude/platform_macros.GNU or
your make invocation. Then, be sure to load the ACE (and
any other) shared library before loading your executable(s).A shared library for VxWorks uses the same code as for a static (non-shared) library. However, calls to static constructors/ destructors are added. The code in the shared library must be reentrant if you shared it between programs (tasks). The ACE library meets this requirement.
Shared libraries reduce build time, executable size, and load time of the executable. But, you must manually load the shared library before loading your executable(s) with a command such as:
-> ld < libACE.so
NOTE: Shared libraries on VxWorks aren't the same as shared libraries on other operating systems. In particular, there is no support for creating copies of writeable global (static) data in the shared library. This includes the singleton ACE_Object_Manager instance pointer. If you share global data between separate programs, they may not work properly. See the discussion of shared code and reentrancy in the VxWorks' Programmers Guide.
Instead of trying to run separate programs onto a VxWorks target, we recommend creating just one program, and spawning a thread for each task. The TAO IDL_Cubit test collocation test is a good example.
LD make variable to the name of your linker. For
example, to build a libACE.so for PowerPC that can be linked into
the kernel:
% cd $ACE_ROOT/ace % make LD=ldppc shared_libs=1After building the shared lib, link it into the kernel by setting the
MACH_EXTRA make variable in the kernel configuration
Makefile. Then, build the kernel using make exe.
NOTE:The make (version 3.74) that is provided with Tornado II cannot be used to build ACE. Use Cygnus' make (version 3.75) instead.)
NOTE:Optimization is enabled be default in
platform_vxworks5.x_g++.GNU. However, the compiler that is shipped with Tornado II has
trouble compiling some files with -O2. To disable optimization
for an individual file, just add optimize=0 to your
make invocation when compiling that file.
Using the Cygnus tools, this approach works:
ACE_wrappers/include/makeinclude/platform_macros.GNU
as usual for VxWorks. See
the
g++/VxWorks platform file for more information.
ACE_wrappers/ace/config.h file that looks
something like the following. tao_idl should be built to not support
native exception handling, because that's not available on VxWorks.
#if defined (_MSC_VER) || defined (__BORLANDC__) # include "ace/config-win32.h" # undef ACE_HAS_EXCEPTIONS #else # include "ace/config-vxworks.h" #endif
ACE_ROOT, CPP_LOCATION,
WIND_BASE, and WIND_HOST_TYPE environment
variables.
Tornado\host\x86-win32\bin\TorVars.bat. This is done
implicitly within the Tornado IDE.
ace_ld, you still need perl installed -
see http://www.activestate.com/software/default.htm
for Windows perl.
ACE_ROOT defined
before starting Tornado, you can specify an ACE Makefile as a Tornado
target and Tornado will then call make from the menu.
/tornado/host/x86-win32/bin:
/tornado/host/x86-win32/lib/gcc-lib/i386-wrs-vxworks/cygnus-2.7.2-960126:
/tornado/host/x86-win32/i386-wrs-vxworks/bin:
/ace/ace_wrappers/bin:
/gnuwin32/b18/H-i386-cygwin32/bin:
/gnuwin32/b18/tcl/bin:
/WINNT/system32:
/WINNT:
/WINNT/system32/nls/ENGLISH:
/bin
Other environment variables:
WIND_BASE=/tornado
SHELL=/bin/sh.exe
TERM=pcbios
TAO_ROOT=/ace/ACE_wrappers.vxworks/TAO
CPP_LOCATION=/Program Files/DevStudio/VC/bin/CL.EXE
GCC_EXEC_PREFIX=/tornado/host/x86-win32/lib/gcc-lib/
WIND_HOST_TYPE=x86-win32
ACE_ROOT=/ace/ACE_wrappers.vxworks
/tornado is the root of the Tornado install
($WIND_BASE).
/gnuwin32 is the root of a Cygnus GNU download and install.
/bin content is:
aced.dll
cygwin.dll
perl.exe
rm.exe
sh.exe
true
aced.dll is produced in an ACE NT source tree according to
documented procedure for NT VC++5.0 ACE build.
cygwin.dll is from the Cygnus GNU software download and install.
$ACE_ROOT/ace/config.h that looks
like:
#include "config-vxworks5.x.h"
And create a
$ACE_ROOT/include/makeinclude/platform_macros.GNU
that looks like:
WIND_BASE = /tornado
WIND_HOST_TYPE = x86-win32
CPU = I80486
include $(ACE_ROOT)/include/makeinclude/platform_vxworks5.x_g++.GNU
make --unix static_libs=1
aced.dll in /bin.
Be sure to build ACE's gperf on NT, in
ACE_wrappers/apps/gperf/src.
CPP_LOCATION=/Program Files/DevStudio/VC/bin/CL.exe
cd $TAO_ROOT/tao
/gnuwin32/b18/H-i386-cygwin32/bin/make
CPP_LOCATION=/Program Files/DevStudio/VC/bin/CL.exe
cd $TAO_ROOT/orbsvcs/orbsvcs
/gnuwin32/b18/H-i386-cygwin32/bin/make
Scenario: I was building the ACE and TAO for VxWorks on NT. The target system was a PPC860 based chassis and another a NT host based card.
Host System:
NT 4.0 workstation with 128 M RAM, 266MHz Pentium.
Software Needed For Building TAO
1) PERL: Active State's ActivePerl 5.6.0.618 for NT available as freeware from http://www.ActiveState.com/download/contrib/Microsoft/NT/InstMsi.exe
2) Tornado II .Release V 9904 from Windriver.
3) Cygwin GNU to build TAO. It is available for NT as a freeware from
http://www.cygwin.com/
The Cygwin Make (version 3.75) can only build the TAO not the Tornado II make (version 3.74)
Environment Variables:
On NT the environment Variables are set as follows, (from Control Panel-> System -> Environment)
I added following Environment variable entries to PATH
C:\Perl\bin\;
C:\tornado\host\x86-win32\bin;
C:\tornado\host\x86-win32\powerpc-wrs-vxworks\bin;
C:\tornado\host\x86-win32\lib\gcc-lib\powerpc-wrs-vxworks\cygnus-2.7.2-960126;
C:\Corba\Ace_wrappers\bin;
C:\Cygwin\bin;
C:\Cygwin\usr\bin;
C:\bin
Additional Environmental variables and the values,
CPU=PPC860
LD_LIBRARY_PATH=
SHELL=/bin/sh.exe
ACE_ROOT=/Corba/ACE_wrappers
WIND_BASE=/tornado
SHELL=/bin/sh.exe
TERM=pcbios
TAO_ROOT=/Corba/ACE_wrapper/Tao
CPP_LOCATION=/Program Files/Microsoft Visual Studio/VC98/Bin/CL.exe
GCC_EXEC_PREFIX=/tornado/host/x86-win32/lib/gcc-lib/
WIND_HOST_TYPE=x86-win32
PERL_PATH=/perl/bin/perl.exe
Directories of importance
C:\Corba <-- Ace_wrappers (uzipped)
C:\tornado <-- Tornado installed
C:\Perl <-- Perl installed
C:\Cygwin <-- Cygwin installed
C:\bin <-- Copy these files,
Ace.dll, <-- After you build Ace
gperf.exe <-- After you build gperf
Cygwin1.dll, <-- After you install Cygwin
perl.exe, <-- After you install Perl
rm.exe <-- After you install Cygwin
sh.exe <-- After you install Cygwin
true <-- After you install Cygwin
Create Files
1) C:\Corba\ACE_Wrappers\ace\config.h
with entry
#if defined (_MSC_VER) || (__BORLANDC__)
#include "ace/config-win32.h"
#undef ACE_HAS_EXCEPTIONS
#else
#include "ace/config-vxworks5.x.h"
#define ACE_HAS_IP_MULTICAST
#endif
2) C:\Corba\ACE_wrappers\include\makeinclude\platform_macros.GNU
WIND_BASE = /tornado
WIND_HOST_TYPE = x86-win32
include $(ACE_ROOT)/include/makeinclude/platform_vxworks5.x_g++.GNU
ACE_COMPONENTS=FOR_TAO (you may choose this option to build ACE library that supports TAO)
Steps to Build
1) Build Ace.dll under NT
In MS Visual C++ open C:\Corba\ACE_wrappers\ace.dsw And build Ace DLL
Copy Ace.dll in C:\bin
2) Build gperf utility under NT
In MS Visual C++ open C:\Corba\ACE_wrappers\apps\gperf\src\gperf.dsw. Build gperf.exe
Copy gperf.exe to C:\bin
3) Mount Directries in Cygwin
Click on Cygnus Solutions -> Cygwin Bash Shell
Mount following directories by using mount command.
create respective directories first then use mount command
e.g. Create /Corba directory then use $mount -s "C:\Corba" /Corba
C:\Corba mount to /Corba
C:\tornado mount to /tornado
C:\Perl mount to /perl
C:\Cygwin mount to /cygwin
C:\bin mount to /bin
C:\Program Files mount to /Program Files
4) Build ACE in Cygwin
$cd /Corba/ACE_wrappers/ace
$make static_libs=1
This will build your ace library libACE.a for VxWorks. If you use option shared_libs=1 then the build will be libACE.so. The other options are same as follows.
5) Build TAO in Cygwin
$cd $TAO_ROOT/tao
$make debug=0 optimize=1 static_libs_only=1 minimum_orb=1
for shared libs use shared_libs=1
The minimum Tao does not have following components,
Dynamic Skeleton Interface
Dynamic Invocation Interface
Dynamic Any
Interceptors
Interface Repository
Advanced POA features
CORBA/COM interworking
You may play around with above options to find suitable build for your needs. For example when you give option debug=1 all the debug symbols will be created and the build will huge in size. The debug symbols are necessary when you want to debug your code.
main) contained in $ACE_ROOT/netsvcs/servers/main.cpp
should also be compiled and ready to run.
% setenv LD_LIBRARY_PATH $ACE_ROOT/ace:$ACE_ROOT/lib:$LD_LIBRARY_PATH
main driver program dynamically.
To specify which services should be linked in and executed, edit the
$ACE_ROOT/netsvcs/servers/svc.conf
file. During your editing, you should update information (such as the
default service port numbers) that affects the initialization of
services in this file. Refer to the
Service Configurator
documentation to learn how the configuration file is parsed and
how the services are dynamically linked and executed. In
addition, refer to the Network
Services documentation to learn more about how to configure
each network service.
export RTEMS_MAKEFILE_PATH=/opt/rtems/CPU-rtems/BSP # setup the build structure cd ACE_wrappers # create the host (e.g. Linux in this case) build tree ./bin/create_ace_build Linux_g++ cd build/Linux_g++/ace ln -s ../../../ace/config-linux.h config.h cd ../include/makeinclude ln -s ../../../../include/makeinclude/platform_linux.GNU platform_macros.GNU cd ../../../.. # create the target build tree ./bin/create_ace_build rtems cd build/rtems/TAO /bin/rm -r TAO_IDL ln -s ../../Linux_g++/TAO/TAO_IDL . cd ../ace ln -s ../../../ace/config-rtems.h config.h cd ../include/makeinclude ln -s ../../../../include/makeinclude/platform_rtems.x_g++.GNU platform_macros.GNU cd ../../../.. # build the host side of things cd build/Linux_g++ export ACE_ROOT=`pwd`; export LD_LIBRARY_PATH=`pwd`/ace:`pwd`/lib:$LD_LIBRARY_PATH cd ace make # optionally build the ACE tests cd ../tests make cd ../TAO make # build the target side of things cd ../rtems export ACE_ROOT=`pwd` cd ace make cd ../tests # build rtems_init.o by hand make -f ../include/makeinclude/Makefile.rtems rtems_init.o make cd ../TAO make
The first step for all platforms is to build and install the OpenSSL distribution. Then the ACE_SSL library must be built according to the instructions below.
| PLATFORM_SSL_CPPFLAGS | Platform preprocessor options for OpenSSL (e.g. -I...) |
| PLATFORM_SSL_LDFLAGS | Platform linker options for OpenSSL (e.g. -L...) |
| PLATFORM_SSL_LIBS | Platform libraries required with OpenSSL (e.g. -lssl -lcrypto) |
openssl-0.9.6\inc32openssl-0.9.6\out32dllACE.dsw workspace, and refer to the ACE build
and installation instructions above for details on creating a
config.h configuration header for this platform. Once
the config.h file has been created, build the
ACE_SSL project.Support for building TAO's SSLIOP pluggable protocol with Borland C++ does exist. First get a patch for the Open SSL makefile from http://www.tenermerx.com/tao_bcb/index.html. Then build the OpenSSL library. When you use the DLL version of ACE+TAO you have to build a DLL version of OpenSSL. Then you must set the environment variable SSL_ROOT to the location of your OpenSSL and then build ACE and TAO as normally.
I usually make:
$ACE_ROOT/ace,
$ACE_ROOT/apps/gperf,
$TAO_ROOT/tao,
$TAO_ROOT/TAO_IDL, and
$TAO_ROOT/orbsvcs/orbsvcs
and the whole make takes less than an hour on my Solaris 7 for intel,
Pentium-III/550MHz, 256MB memory, 512MB swap machine. (Top secret: I
renice the 'make' process to the highest priority, -20... ;-)
To save time and space, I set
TAO_ORBSVCS = Naming Time Trader ImplRepo
in $ACE_ROOT/include/makeinclude/platform_macros.GNU also. See
TAO's orbsvcs
library customization instructions for more information.
Much less disk space is required for just the libraries. For example, see the ACE library subset sizes.
If you run out of memory when building, you might consider trying some or all of these suggestions:
-pipe from
CFLAGS in your
include/makeinclude/platform_macros.GNU file.
ACE_COMPONENTS in the
ACE subsets page. For TAO's
orbsvcs, see the discussion of TAO_ORBSVCS in
orbsvcs Library configuration information.If disk space is a problem, disabling debugging should greatly reduce object code, and therefore, library size. This is especially true with g++.
Toshio Hori <toshi@etl.go.jp> provided these tips for reducing disk space usage:
To save space on a Unix machine, I usually run 'find . -name \*.dsw -o -name \*.dsp -o -name \*.bor | xargs rm -f' in $ACE_ROOT at first after I untar the distribution. They are meaningless in my environment (Files named '*.dsw' and '*.dsp' are used for MSVC++ and files named '*.bor' are for Borland C++ Builder.)
Finally, to save space, may want to run 'make clean' after 'make'. It removes generated object files and leaves libraries/executables intact. If you want to remove any of the libraries/executables, as well, try 'make realclean'.
ACE::init () and ACE::fini
(). The comments in the header
file, ace/Object_Manager.h provide more detail.
Special requirements are imposed on applications if the
ACE_Object_Manager is instantiated, by ACE, on the stack of the main
thread. This behavior is selected by defining
ACE_HAS_NONSTATIC_OBJECT_MANAGER in
ace/config.h. Again, see the ACE Object_Manager header file,
ace/Object_Manager.h for more information. One of
these requirements is discussed here, because it is so important.
Please note that ACE_HAS_NONSTATIC_OBJECT_MANAGER is
defined in the distributed ACE config.h headers for
VxWorks and Win32.
The important requirement is that the program must
declare its main function with two arguments, even if
they're not used, and with int return type:
int
main (int, char *[])
main exactly that
way, then you'll see a link error about ace_main_i being
undefined.
Alternatively, this feature can be disabled by commenting out the
#define ACE_HAS_NONSTATIC_OBJECT_MANAGER in the
ace/config.h. But, that will make repeated testing more
difficult on VxWorks. And, you'd either have to call static
constructors and destructors manually or unload/load the program
between runs. On Win32, disabling the feature can possibly lead to
shutdown difficulties.
ACE_HAS_NONSTATIC_OBJECT_MANAGER assumes that your
main function is named main. Any violation
of this assumption is at your peril. If you really need to call your
entry point something other than main, you'll need to
construct and destroy the ACE_Object_Manager. The best way to do that
is to call ACE::init () and ACE::fini ().
Or, see the #define of main (int, char *[])
in ace/OS.h to see how ACE does
that for entry points named main.
% cd $ACE_ROOT/bin % make % mv clone ~/bin % rehash
Then create a ./build subdirectory someplace, e.g., under $ACE_ROOT. Once this is done, then invoke the top-level Makefile with the "clone" target, e.g.:
% cd $ACE_ROOT % mkdir build-SunOS5 % cd build-SunOS5 % make -f ../Makefile clone % setenv ACE_ROOT $cwd % make
This will establish a complete tree of links. In addition, make sure you set your LD_LIBRARY_PATH to $ACE_ROOT/ace:$ACE_ROOT/lib:$LD_LIBRARY_PATH on SVR4 UNIX platforms.
When you do a make in the $ACE_ROOT directory you will be producing object code that is not stored in the same place as the original source tree. This way, you can easily build another platform in a parallel tree structure.
VERY IMPORTANT!
If you use the "clone trick" discussed above, make sure that the symbolic links are correctly in place before starting the build. In particular, if you plan to clone the tree, it is preferable to do so before you start a build procedure on the original tree. This is because the build procedure create object directories (.obj and .shobj) and the cloning procedure will clone these directories also. You would end up with links pointing to object files of another platform. If you clone the tree after you've done a build on the original tree, make sure to remove all ".obj", ".shobj" and (any other files or directories) in all subdirectories before starting the build on your cloned tree.
Alternatively, the perl script
ACE_wrappers/bin/create_ace_build can be used to create
build trees. It creates them below ACE_wrappers/build.
It filters out all but the necessary files, so the warning above does
not apply. See the comments at the top of the script itself for usage
information.
You can get a copy of GNU make that has been ported to MVS OpenEdition from the IBM OpenEdition web site. ACE's make scheme generates compile commands that have options and operands interspersed. By default, the c89/cc/c++ compiler expects all options to precede all operands. To get around this, you must set a special compiler environment variable (_CXX_CCMODE) to 1 which tells the compiler to allow options and operands to be interspersed.
Note that the environment variable LD_LIBRARY_PATH is called LIBPATH on MVS.
Shared objects are built a little different on MVS than on other UNIX implementations. This has been accounted for in the makefiles that come with ACE When the linker (via the cxx command) builds the libACE.so file it will also create a file called libACE.x. This is a side-deck file and it must be included in subsequent link edits with application code. For more information on this see the C/C++ MVS Programming Guide. If you want to build your application statically, i.e., using libACE.a instead of libACE.so, you can set ACELIB to ACELIB_STATIC in platform_mvs.GNU.
When the libACE.so file is built (via the MVS pre-linker and binder), you will get a rc=4 from the pre-linker. This is ok. This is due to some warnings about unresolved references which should get resolved during the link step. Note, however, there shouldn't be any unresolved references from the binder (linkage editor). You can get pre-link and link maps by uncommenting the PMAP and LMAP lines in the platform_mvs.GNU file.
% make -j n
which allows parallel compilation. The number n should
typically be the number of CPUs. It is likely that builds will be
faster even on single-CPU UNIX machines with make -j
2.
ACE further supports the following flags. They can be enabled either on the command line, e.g., "make purify=1", or added to your platform_macros.GNU. To disable the option, set the flag to null, e.g., "make debug=". Some flags support setting to 0 disable, e.g., "make debug=0". debug=1 is enabled in the platform files that are released with ACE.
Please note that the effects of a flag may be platform specific. Also, combinations of certain flags may or may not be allowed on specific platforms, e.g., debug=1 opt=1 is supported by g++ but not all other C++ compilers.
If you use Purify or Quantify: purify or quantify must
be on your PATH. By default, ACE puts the Purify/Quantify
caches below /tmp. To override that, set the
PURE_CACHE_BASE_DIR variable, either in your environment
or on the make make command line, to the destination
directory for your instrumented libraries.
Flag Description
---- -----------
debug Enable debugging; see DCFLAGS and DCCFLAGS.
exceptions Enable exception handling (not supported by all platforms).
include_env Support old-style ACE_TRY_ENV declarations in methods.
This switch is necessary for compiling TAO applications
in the native exception configuration that were written
for TAO versions before 1.2.2.
In TAO 1.2.2, new macros were introduced that supercede
the direct ACE_TRY_ENV declarations. These are the
ACE_ENV_ARG macros that are defined in ace/CORBA_macros.h
and are documented in docs/exceptions.html.
This switch only affects the exceptions=1 configuration.
It is for backward compatibility only.
There will be warnings about unused _ACE_environment_variable
parameters when using include_env=1.
If possible, do not use it, but instead change your TAO
applications to use the ACE_ENV_ARG macros.
fast Enable -fast option, e.g., with Sun C++.
inline Enable ACE inlining. Some platforms enable inlining by
default, others do not.
optimize Enable optimization; see OCFLAGS and OCCFLAGS.
pace Enable PACE as the underpinnings of ACE_OS.
probe Enable ACE_Timeprobes.
profile Enable profiling; see PCFLAGS and PCCFLAGS.
purify Purify all executables.
quantify Quantify all executables.
repo Use GNU template repository (g++ with repo patches and
egcs only).
rtti Enable run-time type identification. On some platforms,
it is enabled by default, so this is ignored.
shared_libs Build shared libraries. Ignored if static_libs_only is set.
static_libs Build shared libraries. Ignored if shared_libs_only is set.
shared_libs_only Only build shared libraries. Ignored if no SHLIBs are
specified by the Makefile, as in performance-tests/Misc.
static_libs_only Only build static libraries.
threads Build with thread support.
xt_reactor Build the XtReactor.
fl_reactor Build the FlReactor.
tk_reactor Build the TkReactor.
qt_reactor Build the QtReactor.
gtk_reactor Build the GtkReactor.
ssl Build with OpenSSL support.
rapi Build with RAPI
split Build the library by first splitting up the ACE source
to several files, with one object code entity for each
source file. This allows an application that is linked
with ACE to extract _exactly_ what it needs from the
library, resulting in a smaller executable. Setting this
to 1 overrides debug to 0.
Usually, users do not need to be concerned with make targets.
Just enter "make" on the command line to build. A few notable
targets are listed below.
Target Description
------ -----------
show_statics Lists all static objects in object files built for
current directory. Only supported for g++.
show_uninit Lists all uninitialized in object files built for
current directory. Only supported for g++.
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