501 lines
22 KiB
Plaintext
501 lines
22 KiB
Plaintext
----------------------
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HAProxy how-to
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----------------------
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version 1.7
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willy tarreau
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2016/08/14
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1) How to build it
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------------------
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This is a development version, so it is expected to break from time to time,
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to add and remove features without prior notification and it should not be used
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in production. If you are not used to build from sources or if you are not used
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to follow updates then it is recommended that instead you use the packages provided
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by your software vendor or Linux distribution. Most of them are taking this task
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seriously and are doing a good job at backporting important fixes. If for any
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reason you'd prefer a different version than the one packaged for your system,
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you want to be certain to have all the fixes or to get some commercial support,
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other choices are available at :
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http://www.haproxy.com/
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To build haproxy, you will need :
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- GNU make. Neither Solaris nor OpenBSD's make work with the GNU Makefile.
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If you get many syntax errors when running "make", you may want to retry
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with "gmake" which is the name commonly used for GNU make on BSD systems.
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- GCC between 2.95 and 4.8. Others may work, but not tested.
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- GNU ld
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Also, you might want to build with libpcre support, which will provide a very
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efficient regex implementation and will also fix some badness on Solaris' one.
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To build haproxy, you have to choose your target OS amongst the following ones
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and assign it to the TARGET variable :
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- linux22 for Linux 2.2
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- linux24 for Linux 2.4 and above (default)
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- linux24e for Linux 2.4 with support for a working epoll (> 0.21)
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- linux26 for Linux 2.6 and above
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- linux2628 for Linux 2.6.28, 3.x, and above (enables splice and tproxy)
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- solaris for Solaris 8 or 10 (others untested)
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- freebsd for FreeBSD 5 to 10 (others untested)
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- netbsd for NetBSD
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- osx for Mac OS/X
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- openbsd for OpenBSD 3.1 and above
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- aix51 for AIX 5.1
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- aix52 for AIX 5.2
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- cygwin for Cygwin
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- haiku for Haiku
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- generic for any other OS or version.
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- custom to manually adjust every setting
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You may also choose your CPU to benefit from some optimizations. This is
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particularly important on UltraSparc machines. For this, you can assign
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one of the following choices to the CPU variable :
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- i686 for intel PentiumPro, Pentium 2 and above, AMD Athlon
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- i586 for intel Pentium, AMD K6, VIA C3.
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- ultrasparc : Sun UltraSparc I/II/III/IV processor
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- native : use the build machine's specific processor optimizations. Use with
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extreme care, and never in virtualized environments (known to break).
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- generic : any other processor or no CPU-specific optimization. (default)
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Alternatively, you may just set the CPU_CFLAGS value to the optimal GCC options
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for your platform.
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You may want to build specific target binaries which do not match your native
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compiler's target. This is particularly true on 64-bit systems when you want
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to build a 32-bit binary. Use the ARCH variable for this purpose. Right now
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it only knows about a few x86 variants (i386,i486,i586,i686,x86_64), two
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generic ones (32,64) and sets -m32/-m64 as well as -march=<arch> accordingly.
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If your system supports PCRE (Perl Compatible Regular Expressions), then you
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really should build with libpcre which is between 2 and 10 times faster than
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other libc implementations. Regex are used for header processing (deletion,
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rewriting, allow, deny). The only inconvenient of libpcre is that it is not
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yet widely spread, so if you build for other systems, you might get into
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trouble if they don't have the dynamic library. In this situation, you should
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statically link libpcre into haproxy so that it will not be necessary to
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install it on target systems. Available build options for PCRE are :
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- USE_PCRE=1 to use libpcre, in whatever form is available on your system
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(shared or static)
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- USE_STATIC_PCRE=1 to use a static version of libpcre even if the dynamic
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one is available. This will enhance portability.
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- with no option, use your OS libc's standard regex implementation (default).
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Warning! group references on Solaris seem broken. Use static-pcre whenever
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possible.
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If your system doesn't provide PCRE, you are encouraged to download it from
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http://www.pcre.org/ and build it yourself, it's fast and easy.
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Recent systems can resolve IPv6 host names using getaddrinfo(). This primitive
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is not present in all libcs and does not work in all of them either. Support in
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glibc was broken before 2.3. Some embedded libs may not properly work either,
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thus, support is disabled by default, meaning that some host names which only
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resolve as IPv6 addresses will not resolve and configs might emit an error
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during parsing. If you know that your OS libc has reliable support for
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getaddrinfo(), you can add USE_GETADDRINFO=1 on the make command line to enable
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it. This is the recommended option for most Linux distro packagers since it's
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working fine on all recent mainstream distros. It is automatically enabled on
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Solaris 8 and above, as it's known to work.
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It is possible to add native support for SSL using the GNU makefile, by passing
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"USE_OPENSSL=1" on the make command line. The libssl and libcrypto will
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automatically be linked with haproxy. Some systems also require libz, so if the
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build fails due to missing symbols such as deflateInit(), then try again with
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"ADDLIB=-lz".
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Your are strongly encouraged to always use an up-to-date version of OpenSSL, as
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found on https://www.openssl.org/ as vulnerabilities are occasionally found and
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you don't want them on your systems. HAProxy is known to build correctly on all
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currently supported branches (0.9.8, 1.0.0, 1.0.1 and 1.0.2 at the time of
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writing). Branch 1.0.2 is recommended for the richest features.
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To link OpenSSL statically against haproxy, build OpenSSL with the no-shared
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keyword and install it to a local directory, so your system is not affected :
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$ export STATICLIBSSL=/tmp/staticlibssl
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$ ./config --prefix=$STATICLIBSSL no-shared
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$ make && make install_sw
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When building haproxy, pass that path via SSL_INC and SSL_LIB to make and
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include additional libs with ADDLIB if needed (in this case for example libdl):
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$ make TARGET=linux26 USE_OPENSSL=1 SSL_INC=$STATICLIBSSL/include SSL_LIB=$STATICLIBSSL/lib ADDLIB=-ldl
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It is also possible to include native support for zlib to benefit from HTTP
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compression. For this, pass "USE_ZLIB=1" on the "make" command line and ensure
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that zlib is present on the system. Alternatively it is possible to use libslz
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for a faster, memory less, but slightly less efficient compression, by passing
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"USE_SLZ=1".
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Zlib is commonly found on most systems, otherwise updates can be retrieved from
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http://www.zlib.net/. It is easy and fast to build. Libslz can be downloaded
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from http://1wt.eu/projects/libslz/ and is even easier to build.
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By default, the DEBUG variable is set to '-g' to enable debug symbols. It is
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not wise to disable it on uncommon systems, because it's often the only way to
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get a complete core when you need one. Otherwise, you can set DEBUG to '-s' to
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strip the binary.
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For example, I use this to build for Solaris 8 :
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$ make TARGET=solaris CPU=ultrasparc USE_STATIC_PCRE=1
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And I build it this way on OpenBSD or FreeBSD :
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$ gmake TARGET=freebsd USE_PCRE=1 USE_OPENSSL=1 USE_ZLIB=1
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And on a classic Linux with SSL and ZLIB support (eg: Red Hat 5.x) :
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$ make TARGET=linux26 USE_PCRE=1 USE_OPENSSL=1 USE_ZLIB=1
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And on a recent Linux >= 2.6.28 with SSL and ZLIB support :
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$ make TARGET=linux2628 USE_PCRE=1 USE_OPENSSL=1 USE_ZLIB=1
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In order to build a 32-bit binary on an x86_64 Linux system with SSL support
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without support for compression but when OpenSSL requires ZLIB anyway :
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$ make TARGET=linux26 ARCH=i386 USE_OPENSSL=1 ADDLIB=-lz
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The SSL stack supports session cache synchronization between all running
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processes. This involves some atomic operations and synchronization operations
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which come in multiple flavors depending on the system and architecture :
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Atomic operations :
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- internal assembler versions for x86/x86_64 architectures
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- gcc builtins for other architectures. Some architectures might not
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be fully supported or might require a more recent version of gcc.
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If your architecture is not supported, you willy have to either use
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pthread if supported, or to disable the shared cache.
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- pthread (posix threads). Pthreads are very common but inter-process
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support is not that common, and some older operating systems did not
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report an error when enabling multi-process mode, so they used to
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silently fail, possibly causing crashes. Linux's implementation is
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fine. OpenBSD doesn't support them and doesn't build. FreeBSD 9 builds
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and reports an error at runtime, while certain older versions might
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silently fail. Pthreads are enabled using USE_PTHREAD_PSHARED=1.
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Synchronization operations :
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- internal spinlock : this mode is OS-independant, light but will not
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scale well to many processes. However, accesses to the session cache
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are rare enough that this mode could certainly always be used. This
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is the default mode.
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- Futexes, which are Linux-specific highly scalable light weight mutexes
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implemented in user-space with some limited assistance from the kernel.
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This is the default on Linux 2.6 and above and is enabled by passing
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USE_FUTEX=1
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- pthread (posix threads). See above.
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If none of these mechanisms is supported by your platform, you may need to
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build with USE_PRIVATE_CACHE=1 to totally disable SSL cache sharing. Then
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it is better not to run SSL on multiple processes.
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If you need to pass other defines, includes, libraries, etc... then please
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check the Makefile to see which ones will be available in your case, and
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use the USE_* variables in the Makefile.
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AIX 5.3 is known to work with the generic target. However, for the binary to
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also run on 5.2 or earlier, you need to build with DEFINE="-D_MSGQSUPPORT",
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otherwise __fd_select() will be used while not being present in the libc, but
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this is easily addressed using the "aix52" target. If you get build errors
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because of strange symbols or section mismatches, simply remove -g from
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DEBUG_CFLAGS.
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You can easily define your own target with the GNU Makefile. Unknown targets
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are processed with no default option except USE_POLL=default. So you can very
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well use that property to define your own set of options. USE_POLL can even be
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disabled by setting USE_POLL="". For example :
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$ gmake TARGET=tiny USE_POLL="" TARGET_CFLAGS=-fomit-frame-pointer
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1.1) DeviceAtlas Device Detection
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---------------------------------
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In order to add DeviceAtlas Device Detection support, you would need to download
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the API source code from https://deviceatlas.com/deviceatlas-haproxy-module and
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once extracted :
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$ make TARGET=<target> USE_PCRE=1 USE_DEVICEATLAS=1 DEVICEATLAS_SRC=<path to the API root folder>
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Optionally DEVICEATLAS_INC and DEVICEATLAS_LIB may be set to override the path
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to the include files and libraries respectively if they're not in the source
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directory.
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These are supported DeviceAtlas directives (see doc/configuration.txt) :
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- deviceatlas-json-file <path to the DeviceAtlas JSON data file>.
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- deviceatlas-log-level <number> (0 to 3, level of information returned by
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the API, 0 by default).
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- deviceatlas-property-separator <character> (character used to separate the
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properties produced by the API, | by default).
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Sample configuration :
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global
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deviceatlas-json-file <path to json file>
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...
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frontend
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bind *:8881
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default_backend servers
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There are two distinct methods available, one which leverages all HTTP headers
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and one which uses only a single HTTP header for the detection. The former
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method is highly recommended and more accurate. There are several possible use
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cases.
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# To transmit the DeviceAtlas data downstream to the target application
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All HTTP headers via the sample / fetch
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http-request set-header X-DeviceAtlas-Data %[da-csv-fetch(primaryHardwareType,osName,osVersion,browserName,browserVersion,browserRenderingEngine)]
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Single HTTP header (e.g. User-Agent) via the convertor
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http-request set-header X-DeviceAtlas-Data %[req.fhdr(User-Agent),da-csv-conv(primaryHardwareType,osName,osVersion,browserName,browserVersion,browserRenderingEngine)]
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# Mobile content switching with ACL
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All HTTP headers
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acl is_mobile da-csv-fetch(mobileDevice) 1
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Single HTTP header
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acl device_type_tablet req.fhdr(User-Agent),da-csv-conv(primaryHardwareType) "Tablet"
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Please find more information about DeviceAtlas and the detection methods at https://deviceatlas.com/resources .
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1.2) 51Degrees Device Detection
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-------------------------------
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You can also include 51Degrees for inbuilt device detection enabling attributes
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such as screen size (physical & pixels), supported input methods, release date,
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hardware vendor and model, browser information, and device price among many
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others. Such information can be used to improve the user experience of a web
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site by tailoring the page content, layout and business processes to the
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precise characteristics of the device. Such customisations improve profit by
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making it easier for customers to get to the information or services they
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need. Attributes of the device making a web request can be added to HTTP
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headers as configurable parameters.
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In order to enable 51Degrees download the 51Degrees source code from the
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official github repository :
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git clone https://github.com/51Degrees/Device-Detection
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then run 'make' with USE_51DEGREES and 51DEGREES_SRC set. Both 51DEGREES_INC
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and 51DEGREES_LIB may additionally be used to force specific different paths
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for .o and .h, but will default to 51DEGREES_SRC. Make sure to replace
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'51D_REPO_PATH' with the path to the 51Degrees repository.
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51Degrees provide 2 different detection algorithms:
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1. Pattern - balances main memory usage and CPU.
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2. Trie - a very high performance detection solution which uses more main
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memory than Pattern.
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To make with 51Degrees Pattern algorithm use the following command line.
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$ make TARGET=<target> USE_51DEGREES=1 51DEGREES_SRC='51D_REPO_PATH'/src/pattern
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To use the 51Degrees Trie algorithm use the following command line.
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$ make TARGET=<target> USE_51DEGREES=1 51DEGREES_SRC='51D_REPO_PATH'/src/trie
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A data file containing information about devices, browsers, operating systems
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and their associated signatures is then needed. 51Degrees provide a free
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database with Github repo for this purpose. These free data files are located
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in '51D_REPO_PATH'/data with the extensions .dat for Pattern data and .trie for
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Trie data.
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The configuration file needs to set the following parameters:
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global
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51degrees-data-file path to the Pattern or Trie data file
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51degrees-property-name-list list of 51Degrees properties to detect
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51degrees-property-separator separator to use between values
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51degrees-cache-size LRU-based cache size (disabled by default)
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The following is an example of the settings for Pattern.
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global
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51degrees-data-file '51D_REPO_PATH'/data/51Degrees-LiteV3.2.dat
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51degrees-property-name-list IsTablet DeviceType IsMobile
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51degrees-property-separator ,
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51degrees-cache-size 10000
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HAProxy needs a way to pass device information to the backend servers. This is
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done by using the 51d converter or fetch method, which intercepts the HTTP
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headers and creates some new headers. This is controlled in the frontend
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http-in section.
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The following is an example which adds two new HTTP headers prefixed X-51D-
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frontend http-in
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bind *:8081
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default_backend servers
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http-request set-header X-51D-DeviceTypeMobileTablet %[51d.all(DeviceType,IsMobile,IsTablet)]
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http-request set-header X-51D-Tablet %[51d.all(IsTablet)]
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Here, two headers are created with 51Degrees data, X-51D-DeviceTypeMobileTablet
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and X-51D-Tablet. Any number of headers can be created this way and can be
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named anything. 51d.all( ) invokes the 51degrees fetch. It can be passed up to
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five property names of values to return. Values will be returned in the same
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order, seperated by the 51-degrees-property-separator configured earlier. If a
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property name can't be found the value 'NoData' is returned instead.
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In addition to the device properties three additional properties related to the
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validity of the result can be returned when used with the Pattern method. The
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following example shows how Method, Difference and Rank could be included as one
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new HTTP header X-51D-Stats.
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frontend http-in
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...
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http-request set-header X-51D-Stats %[51d.all(Method,Difference,Rank)]
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These values indicate how confident 51Degrees is in the result that that was
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returned. More information is available on the 51Degrees web site at:
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https://51degrees.com/support/documentation/pattern
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The above 51d.all fetch method uses all available HTTP headers for detection. A
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modest performance improvement can be obtained by only passing one HTTP header
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to the detection method with the 51d.single converter. The following example
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uses the User-Agent HTTP header only for detection.
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frontend http-in
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...
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http-request set-header X-51D-DeviceTypeMobileTablet %[req.fhdr(User-Agent),51d.single(DeviceType,IsMobile,IsTablet)]
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Any HTTP header could be used inplace of User-Agent by changing the parameter
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provided to req.fhdr.
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When compiled to use the Trie detection method the trie format data file needs
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to be provided. Changing the extension of the data file from dat to trie will
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use the correct data.
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global
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51degrees-data-file '51D_REPO_PATH'/data/51Degrees-LiteV3.2.trie
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When used with Trie the Method, Difference and Rank properties are not
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available.
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The free Lite data file contains information about screen size in pixels and
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whether the device is a mobile. A full list of available properties is located
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on the 51Degrees web site at:
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https://51degrees.com/resources/property-dictionary
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Some properties are only available in the paid for Premium and Enterprise
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versions of 51Degrees. These data sets not only contain more properties but
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are updated weekly and daily and contain signatures for 100,000s of different
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device combinations. For more information see the data options comparison web
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page:
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https://51degrees.com/compare-data-options
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2) How to install it
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--------------------
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To install haproxy, you can either copy the single resulting binary to the
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place you want, or run :
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$ sudo make install
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If you're packaging it for another system, you can specify its root directory
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in the usual DESTDIR variable.
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3) How to set it up
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-------------------
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There is some documentation in the doc/ directory :
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- intro.txt : this is an introduction to haproxy, it explains what it is
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what it is not. Useful for beginners or to re-discover it when planning
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for an upgrade.
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- architecture.txt : this is the architecture manual. It is quite old and
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does not tell about the nice new features, but it's still a good starting
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point when you know what you want but don't know how to do it.
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- configuration.txt : this is the configuration manual. It recalls a few
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essential HTTP basic concepts, and details all the configuration file
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syntax (keywords, units). It also describes the log and stats format. It
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is normally always up to date. If you see that something is missing from
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it, please report it as this is a bug. Please note that this file is
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huge and that it's generally more convenient to review Cyril Bont<6E>'s
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HTML translation online here :
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http://cbonte.github.io/haproxy-dconv/configuration-1.6.html
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- management.txt : it explains how to start haproxy, how to manage it at
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runtime, how to manage it on multiple nodes, how to proceed with seamless
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upgrades.
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- gpl.txt / lgpl.txt : the copy of the licenses covering the software. See
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the 'LICENSE' file at the top for more information.
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- the rest is mainly for developers.
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There are also a number of nice configuration examples in the "examples"
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directory as well as on several sites and articles on the net which are linked
|
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to from the haproxy web site.
|
||
|
||
|
||
4) How to report a bug
|
||
----------------------
|
||
|
||
It is possible that from time to time you'll find a bug. A bug is a case where
|
||
what you see is not what is documented. Otherwise it can be a misdesign. If you
|
||
find that something is stupidly design, please discuss it on the list (see the
|
||
"how to contribute" section below). If you feel like you're proceeding right
|
||
and haproxy doesn't obey, then first ask yourself if it is possible that nobody
|
||
before you has even encountered this issue. If it's unlikely, the you probably
|
||
have an issue in your setup. Just in case of doubt, please consult the mailing
|
||
list archives :
|
||
|
||
http://marc.info/?l=haproxy
|
||
|
||
Otherwise, please try to gather the maximum amount of information to help
|
||
reproduce the issue and send that to the mailing list :
|
||
|
||
haproxy@formilux.org
|
||
|
||
Please include your configuration and logs. You can mask your IP addresses and
|
||
passwords, we don't need them. But it's essential that you post your config if
|
||
you want people to guess what is happening.
|
||
|
||
Also, keep in mind that haproxy is designed to NEVER CRASH. If you see it die
|
||
without any reason, then it definitely is a critical bug that must be reported
|
||
and urgently fixed. It has happened a couple of times in the past, essentially
|
||
on development versions running on new architectures. If you think your setup
|
||
is fairly common, then it is possible that the issue is totally unrelated.
|
||
Anyway, if that happens, feel free to contact me directly, as I will give you
|
||
instructions on how to collect a usable core file, and will probably ask for
|
||
other captures that you'll not want to share with the list.
|
||
|
||
|
||
5) How to contribute
|
||
--------------------
|
||
|
||
Please carefully read the CONTRIBUTING file that comes with the sources. It is
|
||
mandatory.
|
||
|
||
-- end
|