Building & Running Kerberos 5 on Windows ---------------------------------------- This file documents how to build MIT Kerberos for Windows. The MIT Kerberos for Windows distribution contains additional components not present in the Unix krb5 distribution, most notably the MIT Kerberos Ticket Manager application. To build Kerberos 5 on Windows, you will need the following: * A version of Visual Studio (at least 2013) which includes the Microsoft Foundation Classes libraries. These instructions will work for Visual Studio 2017 Community or Professional, both of which include the MFC libraries if the "Visual C++ MFC" checkbox is selected after enabling the "Desktop development with C++" workload. If you do not plan to build the graphical ticket manager application, the MFC libraries are not required. * A version of Perl. * Some common Unix utilities such as sed/awk/cp/cat installed in the command-line path. * To build an MSI installer, the Windows Installer XML (WiX) toolkit, and to ensure that the HTML Help Compiler (hhc.exe) and the WiX tools are in your command-line path. WiX version 3.11.1 is verified to work with this codebase. A simple way to get the necessary Unix utilities is to install Git BASH from https://gitforwindows.org and configure it to add the Unix utilities to the command-line path. In some versions of Windows (not the most current versions), the Unix utilities can alternatively be obtained via the Utilities and SDK for UNIX-based Applications, which may be enabled as a Windows feature and then the components installed. Note that the Windows nmake will not find the SUA awk utility in the path unless it is named awk.exe; the permissions on the utility may need correcting if awk.exe is created as a copy of the original awk. Git BASH contains a version of Perl, which will work to build krb5 if the newlines in the source tree are not translated to native newlines. Strawberry Perl will work regardless of whether newlines are translated. If both Git BASH and Strawberry Perl are installed, you may need to adjust the command line path to ensure that the preferred Perl appears first. The krb5 source tree may be obtained either directly on the Windows machine with a native git client cloning the krb5 public mirror at https://github.com/krb5/krb5.git or on a separate (Unix) machine and copied over, such as from a VM host onto a Windows VM. If you are checking out the sources with git and are using the Git BASH Perl, make sure to set git's core.autocrlf variable to "input" or "false" to avoid translating newlines. After Visual Studio is installed, you should be able to invoke 32-bit and 64-bit command prompts via the start menu (Visual Studio 2017 -> x86 Native Tools Command Prompt and x64 Native Tools Command Prompt). At the current time, Kerberos 5 can only be built for the x64 target if the host platform is also 64-bit, because it compiles and runs programs during the build. IMPORTANT NOTE: By default, the sources are built with debug information and linked against the debug version of the Microsoft C Runtime library, which is not found on most Windows systems unless they have development tools, and requires a separate license to distribute. To build a release version, you need to define NODEBUG either in the environment or the nmake command-line. Debug information in the compiled binaries and libraries may be retained by defining DEBUG_SYMBOL in the environment or on the nmake command line. Building the code and installer: ------------------------------- First, make sure you have sed, (g)awk, cat, and cp. You must also define KRB_INSTALL_DIR either in the environment or on the command line (for nmake install). If you are proceeding to build the MSI installer, this directory should be a temporary staging area in or near your build tree. The directory must exist before nmake install is run. The 64-bit installer provides 32-bit libraries, so a 32-bit build and install must be performed before the 64-bit build. To skip building the graphical ticket manager, run "set NO_LEASH=1" before building, and do not build the installers. In a 32-bit command shell: 1) set KRB_INSTALL_DIR=\path\to\dir # Where bin/include/lib lives 2) cd xxx\src # Go to where source lives 3) nmake -f Makefile.in prep-windows # Create Makefile for Windows 4) nmake [NODEBUG=1] # Build the sources 5) nmake install [NODEBUG=1] # Copy headers, libs, executables 6) cd windows\installer\wix # Go to where the installer source is 7) nmake [NODEBUG=1] # Build the installer 8) rename kfw.msi kfw32.msi # Save the 32-bit installer In a 64-bit command shell: 9) set PATH=%PATH%;"%WindowsSdkVerBinPath%"\x86 # To get uicc.exe 10) set KRB_INSTALL_DIR=\path\to\dir # Where bin/include/lib lives 11) cd xxx\src # Go to where source lives 12) nmake clean # Clean up the 32-bit objects 13) nmake [NODEBUG=1] # Build the sources for 64-bit 14) nmake install [NODEBUG=1] # Copy 64-bit lib/executables 15) cd windows\installer\wix # Back to the installer source 16) nmake clean # Remove 32-bit leavings 17) nmake [NODEBUG=1] # Build the 64-bit installer 18) rename kfw.msi kfw64.msi # And name it usefully Step 9 may be skipped if uicc is already in the command-line path (try running "uicc" to see if you get a usage message or a not-found error), or if you are not building the graphical ticket manager. Visual Studio 2013 and 2015 provide only a single command prompt. Within this prompt, use "vcvarsall.bat x86" and "vcvarsall.bat amd64" to switch to 32-bit and 64-bit mode. Running Kerberos 5 Apps: ----------------------- Make sure you have a valid krb5.ini file. By default, an empty krb5.ini is installed in CSIDL_COMMON_APPDATA (that is, %SystemDrive%\ProgramData\MIT\Kerberos5\ on newer-than-XP). (ProgramData is a hidden folder.) You may need to customize it with settings for your site, but since DNS lookups are enabled for locating KDCs, many sites will not need further customization. The file format is identical to that of a Unix krb5.conf file. krb5.ini File: ------------- WARNING: Despite its name, this is not a Windows .ini file. Therefore, do not try to use any .ini tools, including the Windows API or any installer tools to manipulate this file. Its format is subtly different from Windows .ini files! Controlling the Kerberos 5 Run-Time Environment: ----------------------------------------------- The Kerberos 5 configuration file and credentials cache can be controlled with environment variables and registry settings. The environment variable for a particular setting always takes precedence. Next in precedence comes the setting in the registry under HKEY_CURRENT_USER\Software\MIT\Kerberos5. Then comes the registry setting under HKEY_LOCAL_MACHINE\Software\MIT\Kerberos5. If none of those are found, a default value is used. Configuration File: - Environment: KRB5_CONFIG - Registry Value: config - Default: looks in the user's AppData directory, the machine's ProgramData directory, krb5_32.dll's dir and Windows directory Default Credentials Cache: - Environment: KRB5CCNAME - Registry Value: ccname - Default: API: Credentials Cache: ----------------- In addition to standard FILE: (disk file) and MEMORY: (in-process non-shared memory) Windows supports the API: cache type, which is a shared memory cache. Kerberos for Windows also has access to an MSLSA: cache type, which directly accesses the Microsoft Kerberos Logon Session credentials cache. The MSLSA: cache is available when the user logon is performed using Kerberos either to an Active Directory Domain or a non-Microsoft KDC; the ms2mit and mit2ms utilities can also be used to interact with it, though there are some limitations. A user is able to logon to Windows using the Kerberos LSA if the machine is part of a Windows Active Directory domain or if the machine has been configured to authenticate to a non-Microsoft KDC such as MIT. The instructions for configuring a Windows 2000 XP workstation to authenticate to a non-Microsoft KDC are documented in TechNet somewhere. In brief: 1. Install the Windows support tools in order to obtain KSETUP.EXE and KTPASS.EXE. 2. Install the Windows Resource Kit to obtain KERBTRAY.EXE and KLIST.EXE 3. Add Realms and associated KDCs with: *KSETUP /AddKdc []*. If you leave off the DNS SRV records will be used. 4. Specify the password change service host for the realm with: *KSETUP /AddKpasswd * 5. Assign the realm of the local machine with: *KSETUP /SetRealm * where realm must be all upper case. 6. Assign the local machine's password with: *KSETUP /SetComputerPassword * 7. Specify the capabilities of the Realm KDC with: *KSETUP /SetRealmFlags [ ...]* where flags may be *None, SendAddress, TcpSupported, Delegate, *and *NcSupported*, 8. Map principal names to local accounts with: *KSETUP /MapUser * On the MIT KDC, you must then create service principals using the "Password" assigned to the machine. So far the minimum list of principals required appear to be for a machine named "mymachine" in the realm "EXAMPLE.COM" with a domain name of "example.com": * host/mymachine@EXAMPLE.COM * host/mymachine.example.com@EXAMPLE.COM * cifs/mymachine@EXAMPLE.COM * cifs/mymachine.example.com@EXAMPLE.COM There may very well be other services for which principals must be created depending on what services are being executed on the machine. It is very important to note that while you can successfully log into a Windows workstation by authenticating to the KDC without creating a host key; the logon session you receive will not be a Kerberos Logon Session. There will be no Kerberos principal and no LSA cache to access. The result of a real KSETUP configuration looks like this: [C:\4\4NT]ksetup default realm = KRB5.COLUMBIA.EDU (external) ATHENA.MIT.EDU: kdc = kerberos.mit.edu kdc = kerberos-1.mit.edu kdc = kerberos-2.mit.edu kdc = kerberos-3.mit.edu Realm Flags = 0x0 none CC.COLUMBIA.EDU: kdc = kerberos.cc.columbia.edu Realm Flags = 0x0 none GRAND.CENTRAL.ORG: kdc = penn.central.org kdc = grand-opening.mit.edu Realm Flags = 0x0 none KRB5.COLUMBIA.EDU: kdc = yclept.kermit.columbia.edu Realm Flags = 0x0 none OPENAFS.ORG: kdc = virtue.openafs.org Realm Flags = 0x0 none Mapping jaltman@KRB5.COLUMBIA.EDU to jaltman. Mapping jaltman@CC.COLUMBIA.EDU to jaltman. Mapping jaltman@ATHENA.MIT.EDU to jaltman. Mapping all users (*) to a local account by the same name (*). The MSLSA: credential cache relies on the ability to extract the entire Kerberos ticket including the session key from the Kerberos LSA. In an attempt to increase security Microsoft has begun to implement a feature by which they no longer export the session keys for Ticket Getting Tickets. This has the side effect of making them useless to the MIT krb5 library when attempting to request additional service tickets. This new feature has been seen in Windows 2003 Server, Windows 2000 Server SP4, and Windows XP SP2. We assume that it will be implemented in all future Microsoft operating systems supporting the Kerberos SSPI. Microsoft does work closely with MIT and has provided a registry key to disable this new feature. On server platforms the key is specified as: HKLM\SYSTEM\CurrentControlSet\Control\Lsa\Kerberos\Parameters AllowTGTSessionKey = 0x01 (DWORD) On workstation platforms the key is specified as: HKLM\SYSTEM\CurrentControlSet\Control\Lsa\Kerberos AllowTGTSessionKey = 0x01 (DWORD) The Kerberos for Windows installer automatically sets this key on installation and unsets it on uninstall, allowing the MSLSA: cache type to be used. It has been noted that the Microsoft Kerberos LSA does not provide enough information within its KERB_EXTERNAL_TICKET structure to properly construct the Client Principal simply by examining a single ticket. From the MSDN Library: ClientName KERB_EXTERNAL_NAME structure that contains the client name in the ticket. This name is relative to the current domain. DomainName UNICODE_STRING that contains the name of the domain that corresponds to the ServiceName member. This is the domain that issued the ticket. TargetDomainName UNICODE_STRING that contains the name of the domain in which the ticket is valid. For an interdomain ticket, this is the destination domain. AltTargetDomainName UNICODE_STRING that contains a synonym for the destination domain. Every domain has two names: a DNS name and a NetBIOS name. If the name returned in the ticket is different from the name used to request the ticket (the Kerberos Key Distribution Center (KDC) may do name mapping), this string contains the original name. Unfortunately, there is no field here which contains the domain of the client. In order for the krb5_ccache to properly report the client principal name, the client principal name is constructed by utilizing the ClientName and DomainName fields of the Initial TGT associated with the Kerberos LSA credential cache. To disable the use of the TGT info and instead simply use the "DomainName" field of the current ticket define one of the following registry keys depending on whether the change should be system global or just for the current user. HKLM\Software\MIT\Kerberos5\ PreserveInitialTicketIdentity = 0x0 (DWORD) HKCU\Software\MIT\Kerberos5\ PreserveInitialTicketIdentity = 0x0 (DWORD) GSSAPI Sample Client: --------------------- The GSS API Sample Client provided in this distribution is compatible with the gss-server application built on Unix/Linux systems. This client is not compatible with the Platform SDK/Samples/Security/SSPI/GSS/ samples which Microsoft has been shipping as of January 2004. Revised versions of these samples are available upon request to krbdev@mit.edu. More Information: ---------------- For more information, please read the Kerberos 5 documentation in the doc directory of the distribution.