@value{PRODUCT} uses a configuration system built using the Free Software Foundation's @samp{autoconf} program. This system makes Kerberos V5 much simpler to build and reduces the amount of effort required in porting Kerberos V5 to a new platform. @menu * Organization of the Source Directory:: Description of the source tree. * Build Requirements:: How much disk space, etc. you need to build Kerberos. * Unpacking the Sources:: Preparing the source tree. * Doing the Build:: Compiling Kerberos. * Installing the Binaries:: Installing the compiled binaries. * Testing the Build:: Making sure Kerberos built correctly. * Options to Configure:: Command-line options to Configure * osconf.h:: Header file-specific configurations * Shared Library Support:: Building Shared Libraries for Kerberos V5 * OS Incompatibilities:: Special cases to watch for. * Using Autoconf:: Modifying Kerberos V5's configuration scripts. @end menu @node Organization of the Source Directory, Build Requirements, Building Kerberos V5, Building Kerberos V5 @section Organization of the Source Directory Below is a brief overview of the organization of the complete source directory. More detailed descriptions follow. @table @b @itemx appl applications with @value{PRODUCT} extensions @itemx clients @value{PRODUCT} user programs @itemx gen-manpages manpages for @value{PRODUCT} and the @value{PRODUCT} login program @itemx include include files @itemx kadmin administrative interface to the Kerberos master database @itemx kdc the @value{PRODUCT} Authentication Service and Key Distribution Center @itemx krb524 utilities for converting between Kerberos 4 and Kerberos 5 @itemx lib libraries for use with/by @value{PRODUCT} @itemx mac source code for building @value{PRODUCT} on MacOS @itemx prototype templates for source code files @itemx slave utilities for propagating the database to slave KDCs @itemx tests test suite @itemx util various utilities for building/configuring the code, sending bug reports, etc. @itemx windows source code for building @value{PRODUCT} on Windows (see windows/README) @end table @menu * The appl Directory:: * The clients Directory:: * The gen-manpages Directory:: * The include Directory:: * The kadmin Directory:: * The kdc Directory:: * The krb524 Directory:: * The lib Directory:: * The prototype Directory:: * The slave Directory:: * The util Directory:: @end menu @node The appl Directory, The clients Directory, Organization of the Source Directory, Organization of the Source Directory @subsection The appl Directory The Kerberos release provides certain UNIX utilities, modified to use Kerberos authentication. In the @i{appl/bsd} directory are the Berkeley utilities @i{login}, @i{rlogin}, @i{rsh}, and @i{rcp}, as well as the associated daemons @i{kshd} and @i{klogind}. The @i{login} program obtains ticket-granting tickets for users upon login; the other utilities provide authenticated Unix network services. The @i{appl} directory also contains Kerberized telnet and ftp programs, as well as sample Kerberos application client and server programs. @node The clients Directory, The gen-manpages Directory, The appl Directory, Organization of the Source Directory @subsection The clients Directory This directory contains the code for several user-oriented programs. @table @b @itemx kdestroy This program destroys the user's active Kerberos authorization tickets. @value{COMPANY} recommends that users @code{kdestroy} before logging out. @itemx kinit This program prompts users for their Kerberos principal name and password, and attempts to get an initial ticket-granting-ticket for that principal. @itemx klist This program lists the Kerberos principal and Kerberos tickets held in a credentials cache, or the keys held in a keytab file. @itemx kpasswd This program changes a user's Kerberos password. @itemx ksu This program is a Kerberized version of the @code{su} program that is meant to securely change the real and effective user ID to that of the target user and to create a new security context. @itemx kvno This program acquires a service ticket for the specified Kerberos principals and prints out the key version numbers of each. @end table @node The gen-manpages Directory, The include Directory, The clients Directory, Organization of the Source Directory @subsection The gen-manpages Directory There are two manual pages in this directory. One is an introduction to the Kerberos system. The other describes the @code{.k5login} file which allows users to give access with their UID to other users authenticated by the Kerberos system. @node The include Directory, The kadmin Directory, The gen-manpages Directory, Organization of the Source Directory @subsection The include Directory This directory contains the @i{include} files needed to build the Kerberos system. @node The kadmin Directory, The kdc Directory, The include Directory, Organization of the Source Directory @subsection The kadmin Directory In this directory is the code for the utilities @code{kadmin}, @code{kadmin.local}, @code{kdb5_util}, and @code{ktutil}. @code{ktutil} is the Kerberos keytab file maintenance utility from which a Kerberos administrator can read, write, or edit entries in a Kerberos V5 keytab or Kerberos V4 srvtab. @code{kadmin} and @code{kadmin.local} are command-line interfaces to the Kerberos V5 KADM5 administration system. @code{kadmin.local} runs on the master KDC and does not use Kerberos to authenticate to the database, while @code{kadmin} uses Kerberos authentication and an encrypted RPC. The two provide identical functionalities, which allow administrators to modify the database of Kerberos principals. @code{kdb5_util} allows administrators to perform low-level maintenance procedures on Kerberos and the KADM5 database. With this utility, databases can be created, destroyed, or dumped to and loaded from ASCII files. It can also be used to create master key stash files. @node The kdc Directory, The krb524 Directory, The kadmin Directory, Organization of the Source Directory @subsection The kdc Directory This directory contains the code for the @code{krb5kdc} daemon, the Kerberos Authentication Service and Key Distribution Center. @node The krb524 Directory, The lib Directory, The kdc Directory, Organization of the Source Directory @subsection The krb524 Directory This directory contains the code for @code{krb524}, a service that converts Kerberos V5 credentials into Kerberos V4 credentials suitable for use with applications that for whatever reason do not use V5 directly. @node The lib Directory, The prototype Directory, The krb524 Directory, Organization of the Source Directory @subsection The lib Directory The @i{lib} directory contain 10 subdirectories as well as some definition and glue files. The @i{crypto} subdirectory contains the Kerberos V5 encryption library. The @i{des425} subdirectory exports the Kerberos V4 encryption API, and translates these functions into calls to the Kerberos V5 encryption API. The @i{gssapi} library contains the Generic Security Services API, which is a library of commands to be used in secure client-server communication. The @i{kadm5} directory contains the libraries for the KADM5 administration utilities. The Kerberos 5 database libraries are contained in @i{kdb}. The directories @i{krb4} and @i{krb5} contain the Kerberos 4 and Kerberos 5 APIs, respectively. The @i{rpc} directory contains the API for the Kerberos Remote Procedure Call protocol. @node The prototype Directory, The slave Directory, The lib Directory, Organization of the Source Directory @subsection The prototype Directory This directory contains several template files. The @code{prototype.h} and @code{prototype.c} files contain the MIT copyright message and a placeholder for the title and description of the file. @code{prototype.h} also has a short template for writing @code{ifdef} and @code{ifndef} preprocessor statements. The @code{getopt.c} file provides a template for writing code that will parse the options with which a program was called. @node The slave Directory, The util Directory, The prototype Directory, Organization of the Source Directory @subsection The slave Directory This directory contains code which allows for the propagation of the Kerberos principal database from the master KDC to slave KDCs over an encrypted, secure channel. @code{kprop} is the program which actually propagates the database dump file. @code{kpropd} is the Kerberos V5 slave KDC update server which accepts connections from the @code{kprop} program. @code{kslave_update} is a script that takes the name of a slave server, and propagates the database to that server if the database has been modified since the last dump or if the database has been dumped since the last propagation. @node The util Directory, , The slave Directory, Organization of the Source Directory @subsection The util Directory This directory contains several utility programs and libraries. The programs used to configure and build the code, such as @code{autoconf}, @code{lndir}, @code{kbuild}, @code{reconf}, and @code{makedepend}, are in this directory. The @i{profile} directory contains most of the functions which parse the Kerberos configuration files (@code{krb5.conf} and @code{kdc.conf}). Also in this directory are the Kerberos error table library and utilities (@i{et}), the Sub-system library and utilities (@i{ss}), database utilities (@i{db2}), pseudo-terminal utilities (@i{pty}), bug-reporting program @code{send-pr}, and a generic support library @code{support} used by several of our other libraries. @node Build Requirements, Unpacking the Sources, Organization of the Source Directory, Building Kerberos V5 @section Build Requirements In order to build Kerberos V5, you will need approximately 60-70 megabytes of disk space. The exact amount will vary depending on the platform and whether the distribution is compiled with debugging symbol tables or not. Your C compiler must conform to ANSI C (ISO/IEC 9899:1990, ``c89''). Some operating systems do not have an ANSI C compiler, or their default compiler requires extra command-line options to enable ANSI C conformance. If you wish to keep a separate @dfn{build tree}, which contains the compiled @file{*.o} file and executables, separate from your source tree, you will need a @samp{make} program which supports @samp{VPATH}, or you will need to use a tool such as @samp{lndir} to produce a symbolic link tree for your build tree. @c Library support... @node Unpacking the Sources, Doing the Build, Build Requirements, Building Kerberos V5 @section Unpacking the Sources The first step in each of these build procedures is to unpack the source distribution. The Kerberos V5 distribution comes in a tar file, generally named @file{krb5-@value{RELEASE}.tar}, which contains a compressed tar file consisting of the sources for all of Kerberos (generally @file{krb5-@value{RELEASE}.tar.gz}) and a PGP signature for this source tree (generally @file{krb5-@value{RELEASE}.tar.gz.asc}). @value{COMPANY} highly recommends that you verify the integrity of the source code using this signature. Unpack the compressed tar file in some directory, such as @file{/u1/krb5-@value{RELEASE}}. (In the rest of this document, we will assume that you have chosen to unpack the Kerberos V5 source distribution in this directory. Note that the tarfiles will by default all unpack into the @file{./krb5-@value{RELEASE}} directory, so that if your current directory is @file{/u1} when you unpack the tarfiles, you will get @file{/u1/krb5-@value{RELEASE}/src}, etc.) @node Doing the Build, Installing the Binaries, Unpacking the Sources, Building Kerberos V5 @section Doing the Build You have a number of different options in how to build Kerberos. If you only need to build Kerberos for one platform, using a single directory tree which contains both the source files and the object files is the simplest. However, if you need to maintain Kerberos for a large number of platforms, you will probably want to use separate build trees for each platform. We recommend that you look at @ref{OS Incompatibilities}, for notes that we have on particular operating systems. @menu * Building Within a Single Tree:: * Building with Separate Build Directories:: * Building using lndir:: @end menu @node Building Within a Single Tree, Building with Separate Build Directories, Doing the Build, Doing the Build @subsection Building Within a Single Tree If you don't want separate build trees for each architecture, then use the following abbreviated procedure. @enumerate @item @code{cd /u1/krb5-@value{RELEASE}/src} @item @code{./configure} @item @code{make} @end enumerate That's it! @node Building with Separate Build Directories, Building using lndir, Building Within a Single Tree, Doing the Build @subsection Building with Separate Build Directories If you wish to keep separate build directories for each platform, you can do so using the following procedure. (Note, this requires that your @samp{make} program support @samp{VPATH}. GNU's make will provide this functionality, for example.) If your @samp{make} program does not support this, see the next section. For example, if you wish to create a build directory for @code{pmax} binaries you might use the following procedure: @enumerate @item @code{mkdir /u1/krb5-@value{RELEASE}/pmax} @item @code{cd /u1/krb5-@value{RELEASE}/pmax} @item @code{../src/configure} @item @code{make} @end enumerate @node Building using lndir, , Building with Separate Build Directories, Doing the Build @subsection Building Using @samp{lndir} If you wish to keep separate build directories for each platform, and you do not have access to a @samp{make} program which supports @samp{VPATH}, all is not lost. You can use the @samp{lndir} program to create symbolic link trees in your build directory. For example, if you wish to create a build directory for solaris binaries you might use the following procedure: @enumerate @item @code{mkdir /u1/krb5-@value{RELEASE}/solaris} @item @code{cd /u1/krb5-@value{RELEASE}/solaris} @item @code{/u1/krb5-@value{RELEASE}/src/util/lndir `pwd`/../src} @item @code{./configure} @item @code{make} @end enumerate You must give an absolute pathname to @samp{lndir} because it has a bug that makes it fail for relative pathnames. Note that this version differs from the latest version as distributed and installed by the XConsortium with X11R6. Either version should be acceptable. @node Installing the Binaries, Testing the Build, Doing the Build, Building Kerberos V5 @section Installing the Binaries Once you have built Kerberos, you should install the binaries. You can do this by running: @example % make install @end example If you want to install the binaries into a destination directory that is not their final destination, which may be convenient if you want to build a binary distribution to be deployed on multiple hosts, you may use: @example % make install DESTDIR=/path/to/destdir @end example This will install the binaries under @code{DESTDIR/PREFIX}, e.g., the user programs will install into @code{DESTDIR/PREFIX/bin}, the libraries into @code{DESTDIR/PREFIX/lib}, etc. Note that if you want to test the build (see @ref{Testing the Build}), you usually do not need to do a @code{make install} first. Some implementations of @samp{make} allow multiple commands to be run in parallel, for faster builds. We test our Makefiles in parallel builds with GNU @samp{make} only; they may not be compatible with other parallel build implementations. @node Testing the Build, Options to Configure, Installing the Binaries, Building Kerberos V5 @section Testing the Build The Kerberos V5 distribution comes with built-in regression tests. To run them, simply type the following command while in the top-level build directory (i.e., the directory where you sent typed @samp{make} to start building Kerberos; see @ref{Doing the Build}.): @example % make check @end example However, there are several prerequisites that must be satisfied first: @itemize @bullet @item Configure and build Kerberos with Tcl support. Tcl is used to drive the test suite. This often means passing @code{--with-tcl} to configure to tell it the location of the Tcl configuration script. (See @xref{Options to Configure}.) @item You have to run @samp{make install} before running @samp{make check}, or the test suite will often pick up the installed version of Kerberos rather than the newly built one. You can install into a prefix that isn't in the system library search path, though. This theoretically could be fixed with the appropriate environment variable magic in the test suite, but hasn't been yet. @item In order to test the RPC layer, the local system has to be running the @command{portmap} daemon and it has to be listening to the regular network interface (not just localhost). @end itemize @menu * The DejaGnu Tests:: * The KADM5 Tests:: @end menu @node The DejaGnu Tests, The KADM5 Tests, Testing the Build, Testing the Build @subsection The DejaGnu Tests Some of the built-in regression tests are setup to use the DejaGnu framework for running tests. These tests tend to be more comprehensive than the normal built-in tests as they setup test servers and test client/server activities. DejaGnu may be found wherever GNU software is archived. Most of the tests are setup to run as a non-privileged user. For some of the krb-root tests to work properly, either (a) the user running the tests must not have a .k5login file in the home directory or (b) the .k5login file must contain an entry for @code{@@KRBTEST.COM}. There are two series of tests (@samp{rlogind} and @samp{telnetd}) which require the ability to @samp{rlogin} as root to the local machine. Admittedly, this does require the use of a @file{.rhosts} file or some authenticated means. @footnote{If you are fortunate enough to have a previous version of Kerberos V5 or V4 installed, and the Kerberos rlogin is first in your path, you can setup @file{.k5login} or @file{.klogin} respectively to allow you access.} If you cannot obtain root access to your machine, all the other tests will still run. Note however, with DejaGnu 1.2, the "untested testcases" will cause the testsuite to exit with a non-zero exit status which @samp{make} will consider a failure of the testing process. Do not worry about this, as these tests are the last run when @samp{make check} is executed from the top level of the build tree. This problem does not exist with DejaGnu 1.3. @node The KADM5 Tests, , The DejaGnu Tests, Testing the Build @subsection The KADM5 Tests Regression tests for the KADM5 system, including the GSS-RPC, KADM5 client and server libraries, and kpasswd, are also included in this release. Each set of KADM5 tests is contained in a sub-directory called @code{unit-test} directly below the system being tested. For example, lib/rpc/unit-test contains the tests for GSS-RPC. The tests are all based on DejaGnu (but they are not actually called part of "The DejaGnu tests," whose naming predates the inclusion of the KADM5 system). In addition, they require the Tool Command Language (TCL) header files and libraries to be available during compilation and some of the tests also require Perl in order to operate. If all of these resources are not available during configuration, the KADM5 tests will not run. The TCL installation directory can be specified with the @code{--with-tcl} configure option. (See @xref{Options to Configure}.) The runtest and perl programs must be in the current execution path. If you install DejaGnu, TCL, or Perl after configuring and building Kerberos and then want to run the KADM5 tests, you will need to re-configure the tree and run @code{make} at the top level again to make sure all the proper programs are built. To save time, you actually only need to reconfigure and build in the directories src/kadmin/testing, src/lib/rpc, src/lib/kadm5. @node Options to Configure, osconf.h, Testing the Build, Building Kerberos V5 @section Options to Configure There are a number of options to @samp{configure} which you can use to control how the Kerberos distribution is built. The following table lists the most commonly used options to Kerberos V5's @samp{configure} program. @table @code @item --help Provides help to configure. This will list the set of commonly used options for building Kerberos. @item --prefix=PREFIX By default, Kerberos will install the package's files rooted at `/usr/local' as in `/usr/local/bin', `/usr/local/sbin', etc. If you desire a different location, use this option. @item --exec-prefix=EXECPREFIX This option allows one to separate the architecture independent programs from the configuration files and manual pages. @item --localstatedir=LOCALSTATEDIR This option sets the directory for locally modifiable single-machine data. In Kerberos, this mostly is useful for setting a location for the KDC data files, as they will be installed in @code{LOCALSTATEDIR/krb5kdc}, which is by default @code{PREFIX/var/krb5kdc}. @item CC=COMPILER Use @code{COMPILER} as the C compiler. @item CFLAGS=FLAGS Use @code{FLAGS} as the default set of C compiler flags. Note that if you use the native Ultrix compiler on a DECstation you are likely to lose if you pass no flags to cc; md4.c takes an estimated 3,469 billion years to compile if you provide neither the @samp{-g} flag nor the @samp{-O} flag to @samp{cc}. @item CPPFLAGS=CPPOPTS Use @code{CPPOPTS} as the default set of C preprocessor flags. The most common use of this option is to select certain @code{#define}'s for use with the operating system's include files. @item LD=LINKER Use @code{LINKER} as the default loader if it should be different from C compiler as specified above. @item LDFLAGS=LDOPTS This option allows one to specify optional arguments to be passed to the linker. This might be used to specify optional library paths. @item --with-krb4 This option enables Kerberos V4 backwards compatibility using the builtin Kerberos V4 library. @item --with-krb4=KRB4DIR This option enables Kerberos V4 backwards compatibility using a pre-existing Kerberos V4 installation. The directory specified by @code{KRB4DIR} specifies where the V4 header files should be found (@file{KRB4DIR/include}) as well as where the V4 Kerberos library should be found (@file{KRB4DIR/lib}). @item --without-krb4 Disables Kerberos V4 backwards compatibility. This prevents Kerberos V4 clients from using the V5 services including the KDC. This would be useful if you know you will never install or need to interact with V4 clients. @item --with-netlib[=libs] Allows for suppression of or replacement of network libraries. By default, Kerberos V5 configuration will look for @code{-lnsl} and @code{-lsocket}. If your operating system has a broken resolver library (see @ref{Solaris versions 2.0 through 2.3}) or fails to pass the tests in @file{src/tests/resolv} you will need to use this option. @item --with-tcl=TCLPATH Some of the unit-tests in the build tree rely upon using a program in Tcl. The directory specified by @code{TCLPATH} specifies where the Tcl header file (@file{TCLPATH/include/tcl.h} as well as where the Tcl library should be found (@file{TCLPATH/lib}). @item --enable-shared This option will turn on the building and use of shared library objects in the Kerberos build. This option is only supported on certain platforms. @item --enable-dns @item --enable-dns-for-kdc @item --enable-dns-for-realm Enable the use of DNS to look up a host's Kerberos realm, or a realm's KDCs, if the information is not provided in krb5.conf. See @ref{Hostnames for the Master and Slave KDCs} for information about using DNS to locate the KDCs, and @ref{Mapping Hostnames onto Kerberos Realms} for information about using DNS to determine the default realm. By default, DNS lookups are enabled for the former but not for the latter. @item --enable-kdc-replay-cache Enable a cache in the KDC to detect retransmitted messages, and resend the previous responses to them. This protects against certain types of attempts to extract information from the KDC through some of the hardware preauthentication systems. @item --with-system-et Use an installed version of the error-table support software, the @samp{compile_et} program, the @file{com_err.h} header file and the @file{com_err} library. If these are not in the default locations, you may wish to specify @code{CPPFLAGS=-I/some/dir} and @code{LDFLAGS=-L/some/other/dir} options at configuration time as well. If this option is not given, a version supplied with the Kerberos sources will be built and installed along with the rest of the Kerberos tree, for Kerberos applications to link against. @item --with-system-ss Use an installed version of the subsystem command-line interface software, the @samp{mk_cmds} program, the @file{ss/ss.h} header file and the @file{ss} library. If these are not in the default locations, you may wish to specify @code{CPPFLAGS=-I/some/dir} and @code{LDFLAGS=-L/some/other/dir} options at configuration time as well. See also the @samp{SS_LIB} option. If this option is not given, the @file{ss} library supplied with the Kerberos sources will be compiled and linked into those programs that need it; it will not be installed separately. @item SS_LIB=libs... If @samp{-lss} is not the correct way to link in your installed @file{ss} library, for example if additional support libraries are needed, specify the correct link options here. Some variants of this library are around which allow for Emacs-like line editing, but different versions require different support libraries to be explicitly specified. This option is ignored if @samp{--with-system-ss} is not specified. @item --with-system-db Use an installed version of the Berkeley DB package, which must provide an API compatible with version 1.85. This option is @emph{unsupported} and untested. In particular, we do not know if the database-rename code used in the dumpfile load operation will behave properly. If this option is not given, a version supplied with the Kerberos sources will be built and installed. (We are not updating this version at this time because of licensing issues with newer versions that we haven't investigated sufficiently yet.) @item DB_HEADER=headername.h If @samp{db.h} is not the correct header file to include to compile against the Berkeley DB 1.85 API, specify the correct header file name with this option. For example, @samp{DB_HEADER=db3/db_185.h}. @item DB_LIB=libs... If @samp{-ldb} is not the correct library specification for the Berkeley DB library version to be used, override it with this option. For example, @samp{DB_LIB=-ldb-3.3}. @end table For example, in order to configure Kerberos on a Solaris machine using the @samp{suncc} compiler with the optimizer turned on, run the configure script with the following options: @example % ./configure CC=suncc CFLAGS=-O @end example For a slightly more complicated example, consider a system where several packages to be used by Kerberos are installed in @samp{/usr/foobar}, including Berkeley DB 3.3, and an @samp{ss} library that needs to link against the @samp{curses} library. The configuration of Kerberos might be done thus: @example % ./configure CPPFLAGS=-I/usr/foobar/include LDFLAGS=-L/usr/foobar/lib \ --with-system-et --with-system-ss --with-system-db \ SS_LIB='-lss -lcurses' \ DB_HEADER=db3/db_185.h DB_LIB=-ldb-3.3 @end example In previous releases, @code{--with-} options were used to specify the compiler and linker and their options. @node osconf.h, Shared Library Support, Options to Configure, Building Kerberos V5 @section @file{osconf.h} There is one configuration file which you may wish to edit to control various compile-time parameters in the Kerberos distribution: @file{include/stock/osconf.h}. The list that follows is by no means complete, just some of the more interesting variables. Please note: The former configuration file @file{config.h} no longer exists as its functionality has been merged into the auto-configuration process. @xref{Options to Configure}. @table @code @item DEFAULT_PROFILE_PATH The pathname to the file which contains the profiles for the known realms, their KDCs, etc. The default value is @value{DefaultDefaultProfilePath}. The profile file format is no longer the same format as Kerberos V4's @file{krb.conf} file. @item DEFAULT_KEYTAB_NAME The type and pathname to the default server keytab file (the equivalent of Kerberos V4's @file{/etc/srvtab}). The default is @value{DefaultDefaultKeytabName}. @item DEFAULT_KDC_ENCTYPE The default encryption type for the KDC. The default value is @value{DefaultMasterKeyType}. @item KDCRCACHE The name of the replay cache used by the KDC. The default value is @value{DefaultKDCRCache}. @item RCTMPDIR The directory which stores replay caches. The default is to try @value{DefaultRCTmpDirs}. @item DEFAULT_KDB_FILE The location of the default database. The default value is @value{DefaultDatabaseName}. @end table @node Shared Library Support, OS Incompatibilities, osconf.h, Building Kerberos V5 @section Shared Library Support Shared library support is provided for a few operating systems. There are restrictions as to which compiler to use when using shared libraries. In all cases, executables linked with the shared libraries in this build process will have built in the location of the libraries, therefore obliterating the need for special LD_LIBRARY_PATH, et al environment variables when using the programs. Except where noted, multiple versions of the libraries may be installed on the same system and continue to work. Currently the supported platforms are Solaris 2.6-2.9 (aka SunOS 5.6-5.9), Irix 6.5, Redhat Linux, MacOS 8-10, and Microsoft Windows (using DLLs). Shared library support has been tested on the following platforms but not exhaustively (they have been built but not necessarily tested in an installed state): Tru64 (aka Alpha OSF/1 or Digital Unix) 4.0, and HP/UX 10.20. Platforms for which there is shared library support but not significant testing include FreeBSD, OpenBSD, AIX (4.3.3), Linux, NetBSD 1.4.x (i386), and SunOS 4.x. To enable shared libraries on the above platforms, run the configure script with the option @samp{--enable-shared}. @ifset notdef XXX What does this mean? One special note is that if the Kerberos V4 compatibility is compiled in, you @b{must not} specify an alternate Kerberos V4 library from the one in the tree or you will be missing references. @end ifset @node OS Incompatibilities, Using Autoconf, Shared Library Support, Building Kerberos V5 @section Operating System Incompatibilities This section details operating system incompatibilities with Kerberos V5 which have been reported to the developers at MIT. If you find additional incompatibilities, and/or discover workarounds to such problems, please send a report via the @code{krb5-send-pr} program. Thanks! @menu * AIX:: * Alpha OSF/1 V1.3:: * Alpha OSF/1 V2.0:: * Alpha OSF/1 V4.0:: * BSDI:: * HPUX:: * Solaris versions 2.0 through 2.3:: * Solaris 2.X:: * Solaris 9:: * SGI Irix 5.X:: * Ultrix 4.2/3:: @end menu @node AIX, Alpha OSF/1 V1.3, OS Incompatibilities, OS Incompatibilities @subsection AIX The AIX 3.2.5 linker dumps core trying to build a shared @samp{libkrb5.a} produced with the GNU C compiler. The native AIX compiler works fine. This problem is fixed using the AIX 4.1 linker. @node Alpha OSF/1 V1.3, Alpha OSF/1 V2.0, AIX, OS Incompatibilities @subsection Alpha OSF/1 V1.3 Using the native compiler, compiling with the @samp{-O} compiler flag causes the @code{asn.1} library to be compiled incorrectly. Using GCC version 2.6.3 or later instead of the native compiler will also work fine, both with or without optimization. @node Alpha OSF/1 V2.0, Alpha OSF/1 V4.0, Alpha OSF/1 V1.3, OS Incompatibilities @subsection Alpha OSF/1 V2.0 There used to be a bug when using the native compiler in compiling @file{md4.c} when compiled without either the @samp{-O} or @samp{-g} compiler options. We have changed the code and there is no problem under V2.1, but we do not have access to V2.0 to test and see if the problem would exist there. (We welcome feedback on this issue). There was never a problem in using GCC version 2.6.3. In version 3.2 and beyond of the operating system, we have not seen this sort of problem with the native compiler. @node Alpha OSF/1 V4.0, BSDI, Alpha OSF/1 V2.0, OS Incompatibilities @subsection Alpha OSF/1 (Digital UNIX) V4.0 The C compiler provided with Alpha OSF/1 V4.0 (a.k.a. Digital UNIX) defaults to an extended K&R C mode, not ANSI C. You need to provide the @samp{-std} argument to the compiler (i.e., @samp{./configure CC='cc -std'}) to enable extended ANSI C mode. More recent versions of the operating system, such as 5.0, seem to have C compilers which default to @samp{-std}. @c @node Alpha Tru64 UNIX 5.0 @c @subsection Alpha Tru64 UNIX 5.0 @c ... login.krb5 problems @node BSDI, HPUX, Alpha OSF/1 V4.0, OS Incompatibilities @subsection BSDI BSDI versions 1.0 and 1.1 reportedly has a bad @samp{sed} which causes it to go into an infinite loop during the build. The work around is to use a @samp{sed} from somewhere else, such as GNU. (This may be true for some versions of other systems derived from BSD 4.4, such as NetBSD and FreeBSD.) @node HPUX, Solaris versions 2.0 through 2.3, BSDI, OS Incompatibilities @subsection HPUX The native (bundled) compiler for HPUX currently will not work, because it is not a full ANSI C compiler. The optional ANSI C compiler should work as long as you give it the @samp{-Ae} flag (i.e. @samp{./configure CC='cc -Ae'}). This is equivalent to @samp{./configure CC='c89 -D_HPUX_SOURCE'}, which was the previous recommendation. This has only been tested recently for HPUX 10.20. You will need to configure with @samp{--disable-shared --enable-static}, because as of 1.4 we don't have support for HPUX shared library finalization routines, nor the option (yet) to ignore that lack of support (which means repeated @code{dlopen}/@code{dlclose} cycles on the Kerberos libraries may not be safe) and build the shared libraries anyways. You will also need to configure the build tree with @samp{--disable-thread-support} if you are on HPUX 10 and do not have the DCE development package installed, because that's where the @code{pthread.h} header file is found. (We don't know if our code will work with such a package installed, because according to some HP documentation, their @code{pthread.h} has to be included before any other header files, and our code doesn't do that.) If you use GCC, it may work, but some versions of GCC have omitted certain important preprocessor defines, like @code{__STDC_EXT__} and @code{__hpux}. @node Solaris versions 2.0 through 2.3, Solaris 2.X, HPUX, OS Incompatibilities @subsection Solaris versions 2.0 through 2.3 The @code{gethostbyname()} routine is broken; it does not return a fully qualified domain name, even if you are using the Domain Name Service routines. Since Kerberos V5 uses the fully qualified domain name as the second component of a service principal (i.e, @samp{host/tsx-11.mit.edu@@ATHENA.MIT.EDU}), this causes problems for servers who try to figure out their own fully qualified domain name. Workarounds: @enumerate @item Supply your own resolver library. (such as bind-4.9.3pl1 available from ftp.vix.com) @item Upgrade to Solaris 2.4 @item Make sure your /etc/nsswitch.conf has `files' before `dns' like: @example hosts: files dns @end example and then in /etc/hosts, make sure there is a line with your workstation's IP address and hostname, with the fully qualified domain name first. Example: @example 18.172.1.4 dcl.mit.edu dcl @end example Note that making this change may cause other programs in your environment to break or behave differently. @end enumerate @node Solaris 2.X, Solaris 9, Solaris versions 2.0 through 2.3, OS Incompatibilities @subsection Solaris 2.X You @b{must} compile Kerberos V5 without the UCB compatibility libraries. This means that @file{/usr/ucblib} must not be in the LD_LIBRARY_PATH environment variable when you compile it. Alternatively you can use the @code{-i} option to @samp{cc}, by using the specifying @code{CFLAGS=-i} option to @samp{configure}. If you are compiling for a 64-bit execution environment, you may need to configure with the option @code{CFLAGS="-D_XOPEN_SOURCE=500 -D__EXTENSIONS__"}. This is not well tested; at MIT we work primarily with the 32-bit execution environment. @node Solaris 9, SGI Irix 5.X, Solaris 2.X, OS Incompatibilities @subsection Solaris 9 Solaris 9 has a kernel race condition which causes the final output written to the slave side of a pty to be lost upon the final close() of the slave device. This causes the dejagnu-based tests to fail intermittently. A workaround exists, but requires some help from the scheduler, and the ``make check'' must be executed from a shell with elevated priority limits. Run something like @code{priocntl -s -c FX -m 30 -p 30 -i pid nnnn} as root, where @code{nnnn} is the pid of the shell whose priority limit you wish to raise. Sun has released kernel patches for this race condition. Apply patch 117171-11 for sparc, or patch 117172-11 for x86. Later revisions of the patches should also work. It is not necessary to run ``make check'' from a shell with elevated priority limits once the patch has been applied. @node SGI Irix 5.X, Ultrix 4.2/3, Solaris 9, OS Incompatibilities @subsection SGI Irix 5.X If you are building in a tree separate from the source tree, the vendors version of make does not work properly with regards to @samp{VPATH}. It also has problems with standard inference rules in 5.2 (not tested yet in 5.3) so one needs to use GNU's make. Under 5.2, there is a bug in the optional System V @code{-lsocket} library in which the routine @code{gethostbyname()} is broken. The system supplied version in @code{-lc} appears to work though so one may simply specify @code{--with-netlib} option to @samp{configure}. In 5.3, @code{gethostbyname()} is no longer present in @code{-lsocket} and is no longer an issue. @node Ultrix 4.2/3, , SGI Irix 5.X, OS Incompatibilities @subsection Ultrix 4.2/3 The DEC MIPS platform currently will not support the native compiler, since the Ultrix compiler is not a full ANSI C compiler. You should use GCC instead. @ifset notdef On the DEC MIPS platform, using the native compiler, @file{md4.c} and @file{md5.c} can not be compiled with the optimizer set at level 1. That is, you must specify either @samp{CFLAGS=-O} and @samp{CFLAGS=-g} to configure. If you don't specify either, the compile will never complete. The optimizer isn't hung; it just takes an exponentially long time. Compiling 6 out of the 48 algorithmic steps takes 3 seconds; compiling 7 steps takes 9 seconds; compiling 8 steps takes 27 seconds, and so on. Calculations estimate it will finish in approximately 3,469 billion years.... Using GCC instead of the native compiler will also work fine, both with or without optimization. @end ifset @node Using Autoconf, , OS Incompatibilities, Building Kerberos V5 @section Using @samp{Autoconf} (If you are not a developer, you can skip this section.) In most of the Kerberos V5 source directories, there is a @file{configure} script which automatically determines the compilation environment and creates the proper Makefiles for a particular platform. These @file{configure} files are generated using @samp{autoconf}, which can be found in the @file{src/util/autoconf} directory in the distribution. Normal users will not need to worry about running @samp{autoconf}; the distribution comes with the @file{configure} files already prebuilt. Developers who wish to modify the @file{configure.in} files should see @ref{Top, , Overview, autoconf, The Autoconf Manual}. Note that in order to run @samp{autoconf}, you must have GNU @samp{m4} in your path. Before you use the @samp{autoconf} in the Kerberos V5 source tree, you may also need to run @samp{configure}, and then run @samp{make} in the @file{src/util/autoconf} directory in order to properly set up @samp{autoconf}. One tool which is provided for the convenience of developers can be found in @file{src/util/reconf}. This program should be run while the current directory is the top source directory. It will automatically rebuild any @file{configure} files which need rebuilding. If you know that you have made a change that will require that all the @file{configure} files need to be rebuilt from scratch, specify the @code{--force} option: @example % cd /u1/krb5-@value{RELEASE}/src % ./util/reconf --force @end example The developmental sources are a raw source tree (before it's been packaged for public release), without the pre-built @file{configure} files. In order to build from such a source tree, you must do: @example % cd krb5/util/autoconf % ./configure % make % cd ../.. % util/reconf @end example Then follow the instructions for building packaged source trees (above). To install the binaries into a binary tree, do: @example % cd /u1/krb5-@value{RELEASE}/src % make all % make install DESTDIR=somewhere-else @end example