Experimental cmake-based build support for Apache httpd on Microsoft Windows Status ------ This build support is currently intended only for Microsoft Windows. This build support is experimental. Specifically, * It does not support all features of Apache httpd. * Some components may not be built correctly and/or in a manner compatible with the previous Windows build support. * Build interfaces, such as the mechanisms which are used to enable optional functionality or specify prerequisites, may change from release to release as feedback is received from users and bugs and limitations are resolved. This can be used with Apache httpd 2.4.x by copying the following files from httpd trunk (in Subversion) into the 2.4.x source tree: * CMakeLists.txt * build/cpR_noreplace.pl Important: Refer to the "Known Bugs and Limitations" section for further information. It is beyond the scope of this document to document or explain how to utilize the various cmake features, such as different build backends or provisions for finding support libraries. Please refer to the cmake documentation for additional information that applies to building any project with cmake. Prerequisites ------------- The following tools must be in PATH: * cmake, version 2.8 or later * Perl * If the WITH_MODULES feature is used: awk * If using a command-line compiler: compiler and linker and related tools (Refer to the cmake documentation for more information.) The following support libraries are mandatory: * APR, built with cmake + Either APR 2.0-dev (trunk) or APR 1.4.x and APR-Util 1.5.x. + When building APR (but not APR-Util), specify the build option APR_INSTALL_PRIVATE_H so that non-standard files required for building Apache httpd are installed. + Additional APR settings affect httpd but are not mandatory, such as APR_HAVE_IPV6. * PCRE Certain optional features of APR 2.0-dev (trunk) or APR-Util 1.5.x allow some optional features of httpd to be enabled. For example, APU_HAVE_CRYPTO is required for mod_session_crypto. Additional support libraries allow some optional features of httpd to be enabled: * libxml2 (e.g., mod_proxy_html) * lua 5.1 (mod_lua) * openssl (mod_ssl and https support for ab) * zlib (mod_deflate) How to build ------------ 1. cd to a clean directory for building (i.e., don't build in your source tree) 2. Make sure cmake and Perl are in PATH. Additionally, some backends require compile tools in PATH. (Hint: "Visual Studio Command Prompt") In the unlikely event that you use -DWITH_MODULES, described below, make sure awk is in PATH. 3. cmake -G "some backend, like 'NMake Makefiles'" -DCMAKE_INSTALL_PREFIX=d:/path/to/httpdinst -DENABLE_foo=A|I|O|a|i -DENABLE_MODULES=A|I|O|a|i d:/path/to/httpdsource Alternately, you can use the cmake-gui and update settings in the GUI. PCRE_INCLUDE_DIR, PCRE_LIBRARIES, APR_INCLUDE_DIR, APR_LIBRARIES: cmake doesn't bundle FindXXX for these packages, so the crucial information has to be specified in this manner if they aren't found in their default location. -DPCRE_INCLUDE_DIR=d:/path/to/pcreinst/include -DPCRE_LIBRARIES=d:/path/to/pcreinst/lib/pcre[d].lib These will have to be specified only if PCRE is installed to a different directory than httpd, or if debug *and* release builds of PCRE were installed there and you want to control which is used. (Currently the build will use pcred.lib (debug) if it is found in the default location and not overridden with -DPCRE_LIBRARIES.) -DAPR_INCLUDE_DIR=d:/path/to/aprinst/include -DAPR_LIBRARIES="d:/path/to/aprinst/lib/libapr-1.lib;d:/path/to/aprinst/lib/libaprutil-1.lib" These will have to be specified if APR[-Util] was installed to a different directory than httpd. When building with APR trunk (future APR 2.x, with integrated APR-Util), specify just the path to libapr-2.lib: -DAPR_LIBRARIES=d:/path/to/aprinst/lib/libapr-2.lib APR+APR-Util 1.x vs. APR trunk will be detected automatically if they are installed to the same location as httpd. APR-Util 1.x has an optional LDAP library. If APR-Util has LDAP enabled and httpd's mod_ldap and mod_authnz_ldap are being used, include the path to the LDAP library in the APR_LIBRARIES setting. (If APR and APR-Util are found in the default location, the LDAP library will be included if it is present. LIBXML2_ICONV_INCLUDE_DIR, LIBXML2_ICONV_LIBRARIES If using a module that requires libxml2 *and* the build of libxml2 requires iconv, set these variables to allow iconv includes and libraries to be used. For example: -DLIBXML2_ICONV_INCLUDE_DIR=c:\iconv-1.9.2.win32\include -DLIBXML2_ICONV_LIBRARIES=c:\iconv-1.9.2.win32\lib\iconv.lib CMAKE_C_FLAGS_RELEASE, _DEBUG, _RELWITHDEBINFO, _MINSIZEREL CMAKE_BUILD_TYPE For NMake Makefiles the choices are at least DEBUG, RELEASE, RELWITHDEBINFO, and MINSIZEREL Other backends make have other selections. ENABLE_foo: Each module has a default setting which can be overridden with one of the following values: A build and Activate module a build and Activate module IFF prereqs are available; if prereqs are unavailable, don't build it I build module but leave it Inactive (commented-out LoadModule directive) i build module but leave it Inactive IFF prereqs are available; if prereqs are unavailable, don't build it O Omit module completely Examples: -DENABLE_ACCESS_COMPAT=O -DENABLE_PROXY_HTML=i ENABLE_MODULES: This changes the *minimum* enablement of all modules to the specified value (one of A, a, I, i, O, as described under ENABLE_foo above). The ranking of enablement from lowest to highest is O, i, I, a, A. If a specific module has a higher rank enablement setting, either from a built-in default or from -DENABLE_foo, ENABLE_MODULES won't affect that module. However, if a specific module has a lower-rank enablement setting, presumably from a built-in default, the value of ENABLE_MODULES will be used for that module. Explanations for possible values: -DENABLE_MODULES=a build and activate all possible modules, ignoring any with missing prereqs (doesn't affect modules with A for ENABLE_foo) -DENABLE_MODULES=i build but leave inactive all possible modules, ignoring any with missing prereqs (doesn't affect modules with A, a, or I for ENABLE_foo) -DENABLE_MODULES=O no impact, since all modules are either already disabled or have a higher setting -DENABLE_MODULES=A build and activate all possible modules, failing the build if any module is missing a prereq -DENABLE_MODULES=I similar to -DENABLE_MODULES=A (doesn't affect modules with A or a for ENABLE_foo) WITH_MODULES: Comma-separated paths to single file modules to statically linked into the server, like the --with-module=modpath:/path/to/mod_foo.c with the autoconf-based build. Key differences: The modpath (e.g., "generators") isn't provided or used, and the copy of the module source being built is automatically updated when it changes. See also EXTRA_COMPILE_FLAGS, EXTRA_INCLUDES, and EXTRA_LIBS. EXTRA_COMPILE_FLAGS: Space-delimited compile flags to define with the build. EXTRA_INCLUDES: List of additional directories to search for .h files. This may be necessary when including third-party modules in the httpd build via WITH_MODULES. EXTRA_LIBS: List of additional libraries to link with. This may be necessary when including third-party modules in the httpd build via WITH_MODULES. Port and SSLPort: Port numbers for substitution into default .conf files. (The defaults are 80 and 443.) INSTALL_PDB: If .pdb files are generated for debugging, install them. Default: ON The .pdb files are generally needed for debugging low-level code problems. If they aren't installed, they are still available in the build directory for use by alternate packaging implementations or when debugging on the build machine. INSTALL_MANUAL: Install the Apache HTTP Server manual. Default: ON This could be turned off when developing changes in order to speed up installation time. 4. Build using the chosen generator (e.g., "nmake install" for cmake's "NMake Makefiles" generator). Running the server and support programs --------------------------------------- This build system does not copy binaries such as dlls from other projects into the httpd install location. Without taking some precautions, httpd and support programs can fail to start or modules can fail to load because a support library can't be found in PATH or in the directory of the httpd binary. This can be resolved in several different ways: * Install httpd and the various support libraries to a common install prefix so that support libraries and httpd programs are installed in the same bin directory and are found without setting PATH. * Update PATH to include the bin directories of all necessary support libraries. Depending on where PATH is set, it may not affect starting httpd as a service. * Maintain a script which combines required binaries into a common location, such as the httpd installion bin directory, and use that script after building or otherwise installing or updating support libraries. * AVOID THE USE of any unrepeatable process of copying dll files around from different install locations until something starts working. The result is that when you later update a support library to pick up a security fix, httpd will likely continue to use the old, vulnerable library file. Known Bugs and Limitations -------------------------- * no standard script or makefile is provided to tie together the builds of httpd and support libraries in a manner suitable for typical users * no logic to find support libraries or otherwise build these modules: + mod_socache_dc (requires distcache), mod_serf (requires serf) + additionally, mod_lbmethod_rr and mod_firehose don't compile on Windows anyway * buildmark.c isn't necessarily rebuilt when httpd.exe is regenerated * ApacheMonitor has a build error and is disabled * CGI examples aren't installed * dbmmanage.pl and wintty aren't built/installed * module enablement defaults are not in sync with the autoconf-based build * no support for static support library builds; unclear if that is a requirement; if so: taking PCRE as an example, we'd need to detect that it is static and then turn on PCRE_STATIC for the libhttpd build Generally: * Many httpd features have not been tested with this build. * Developers need to examine the existing Windows build in great detail and see what is missing from the cmake-based build, whether a feature or some build nuance. * Any feedback you can provide on your experiences with this build will be helpful.